WO2014153271A2

WO2014153271A2 - Sectional sign assembly and installation kit and method of using same

Info

Publication number: WO2014153271A2
Application number: PCT/US2014/029999
Authority: WO
Inventors: David Franklin COX; Arne E. CARLSON; James Warren FREDERICK; Richard J. ROMANO
Original assignee: ADTI Media, LLC
Priority date: 2013-03-16
Filing date: 2014-03-15
Publication date: 2014-09-25
Also published as: WO2014153271A3; WO2014153271A4; JP2016512901A; EP2973520A2

Abstract

A modification kit for converting an existing signage mounting structure to an electronic sign generally includes a plurality of weatherized display modules; a plurality of sign sections each having a front-facing portion and a rear-facing portion, the front facing portion defining a two dimensional array of bays arranged in a plurality of rows along a vertical direction and a plurality of columns along a horizontal direction, each bay configured to receive one of the display modules, the rear-facing portion for mounting to a surface of the existing signage mounting structure; and a plurality of wiring assemblies each having a first end for coupling to a power junction located adjacent to a rear surface of one of the rear-facing portions and a plurality of power extensions for coupling the power source to the plurality of weatherized display modules.

Description

SECTIONAL SIGN ASSEMBLY AND INSTALLATION KIT

AMD METHOD OF USING SAME

RELATED APPLICATIONS

[0001] This application claims priority to U.S. patent application Serial

No.: 14/214,778 entitled, "Sectional Sign Assembly and Installation Kit and Method of Using Same", by David Franklin Cox, et ai. filed on March 15, 2014, as a continuation-in-part of U.S. of U.S. patent application Serial No. 61/950,174, entitled "Sectional Sign Assembly and Installation Kit and Method of Using Same", by David Franklin Cox, et al. filed on March 09, 2014, as a continuation-in-part of U.S. patent application Serial No.: 14/075,308, entitled Modular Installation and Conversion Kit for Electronic Sign Structure and Method of Using Same", by David Franklin Cox, et al. filed on November 08, 2013, as a continuation-in-part patent application of U.S. patent application Serial No.: 14/056017 entitled, "Modular Wire Harness Arrangements and Methods of Using Same for Backside to Frontside Power and Data Distribution Safety Schemes", by Arne E. Carlson, et al. filed on October 17, 2013, as a continuation-in-part patent application of U.S. patent application Serial No.: 14/044,620 entitled, "Compound Structural Frame and Method of Using Same for Efficient Retrofitting", by David Franklin Cox, et al. filed on October 02, 2013, as a continuation-in-part patent application of U.S. patent application Serial No.: 13/844,832, entitled, " In Field Kit for Converting a Non Electronic Billboard into an Electronic Billboard, and Methods of Retrofitting and Using Same", by David Franklin Cox, et al. filed on March 16, 2013, which applications are each incorporated herein as though fully set forth.

FIELD OF THE INVENTION

[0002] This inventio relates generally to roadside and building signage, and more particularly to a retrofit kit for in field use to convert a static billboard into a dynamic electronic sign for roadside or building signage use. BACKGROUND OF THE INVENTION

[00033 etrofitting non-digital billboards have proven to be expensive, time consuming and labor intensive. Moreover, simply removing an older non-digital billboard and replacing it with a new digital billboard has not proven entirely satisfactory since older installed, non-digital, billboard panels represent substantial capital outlays making it financially difficult, if not impossible, to discard such panels arbitrarily for replacement with digital panels. Therefore, it would be highly desirable to have a new and improved billboard retrofit kit that can be easily and quickly installed on any structural surface, such as an existing billboard, without the need to replace or discard existing media mounting panels. The new and improved billboard retrofit kit should greatly improve displayed information, displaying such advertising information, with improved resolution, contrast and brightness characteristics. Moreover, the retrofit kit should enable the displayed content to be easily and quickly changed or updated, either on-site or remotely, at a lesser cost than updating the content of an older billboard. Finally, installation of the kit in the field on an existing billboard structure should not require any special installation equipment and should be able to be accomplished by one or two individuals in a fast and convenient manner.

SUMMARY OF THE INVENTION

[0004]Throu ghout this specification the word "comprising", or variations such as "comprise", or "comprises", will be understood to impl the inclusion of a stated element, integer or step, or group of elements, integers or steps, but not the exclusion of any other element, integer or step, or group of elements, integers, or steps. [OOOSJIn a first aspect, the present invention is a universal display module for a build-in-place billboard sign whereby the display module is mountabie into any one of an array of structural bay members, each bay member including a plurality of latches and a single structural bay connector, the display module comprising: a generally rectangularly shaped display frame having a frontside and a backside and defining lateral and mutually perpendicular X and Y axes when viewed from the frontside or backside of the display frame and a Z-axis that is perpendicular to the lateral axes, the backside of the frame including a plurality of latch receivers each configured to receive an individual one of the plurality of latches in a direction perpendicular to the Z-axis, the backside of the display frame including a module connector configured to couple to the structural bay connector; and at least one LED board coupled to the frontside of the frame to emit light along the Z-axis when the display module is properly installed in the bay.

[0006] In one embodiment, the at least one LED board includes two LED boards disposed in a side-by-side arrangement along the X-axis.

[0007] In another embodiment, the display module further comprising: a driver board mounted to the backside of the display frame and electrically coupled to the module connector and to the at least one LED board.

[0008] In a still further embodiment the display module further comprising: a heat sink coupled to the driver board and including cooling fins extending parallel to the Z-axis.

[0009] In yet another embodiment, the backside of the displa frame includes a plurality of perforated channels and wherein a potting compound fills a portion of a space between the LED board and the frame and interlocks with at least a portion of the perforated channels.

[GO!OJSn still yet another embodiment, one of the latch receivers is configured to receive a latch in a direction parallel to the X-axis and another of the latch receivers is configured to receive a latch in a direction parallel to the Y-axis.

[0011 Jin a still further yet another embodiment, the X-axis is the major axis, the Y-axis is the intermediate axis, and the Z-axis is the minor axis.

[0012]!n sti!l yet another embodiment an access hole formed into the module along the Z-axis is adjacent to each of the latch receivers providing access for a tool that is utilized to actuate each bay latch.

[0013]According to a second aspect, the present invention is an electronic display or billboard comprising: a plurality of hand mountable structural frames arranged on a set of poster panels or boards of an existing in field non electronic static billboard; the structural frames being laid out on the poster boards as an array of frames, individual ones of the structural frames being configured in a further array of structural bays that help facilitate power and data wire routing; individual ones of the structural bays configured in pairs for accepting corresponding pairs of display panels that facilitate the display of dynamic visible radiant energy; a power and data harness is electrically and mechanically coupled between individual ones of the structural bays and a utility power data controller box receives data display information and universal electrical power and then rectifies the electrical power and controls the data display information for distribution to the individual ones of the display panels, and each individual display panel having a plurality of light emitting diodes to facilitate the conversion of the distributed data display information into visible radiant energy for display by the electronic billboard. [O014]Accordsrtg to a third aspect, the present invention is a method of

manufacturing a digital sign or display in place from an existing billboard pane!, the existing billboard panel having a panel frontside for viewing and a panel backside, the manufacturing method generally comprising the steps of: aligning and affixing an array of hand mountabSe structural frames across the panel frontside, each hand mountable structural frame having a frame frontside and a frame backside, each frame backside facing the panel frontside, the frontside of the frames collectively defining an array of structural bays; routing a power and data system from the panel backside to the panel frontside and to each bay of the array of bays whereby the power and data system disposes at least one connector providing data and power connections into each bay; and coupling a display module to each of the bays including, for each module and bay (1 ) electrically coupling the at least one connector to the module, (2) positioning each module upon the bay, and (3) securing the display module to the bay.

[0015Jln one embodiment of the third aspect, is that the existing billboard panel is a structural back panel selected from a group of back panel materials consisting of steel, wood, structural foam, alloy metals, and plastic compositions.

[0016}ln another embodiment of the third aspect, the step of aligning and affixing the hand mountabSe structural frames includes: abutting the frames wherein the abutment of frames provides a reiative a!ignment between the frames.

[0017]ln yet another embodiment of the third aspect, each of the hand mountable structural frames have mounting bosses as drill guides and wherein the method further includes the steps of drilling through the existing panel using the mounting bosses; and bolting the structural frames to the existing panel . [OOiSJln still yet another embodiment of the third aspect, the method of

manufacturing a digital sign further comprising: mounting at least one utility box to the backside of the existing billboard panels wherein the at least one utility box provides at least power to the routed power and data system.

[00193ΪΠ yet another embodiment of the third aspect, the step of routing the power and data system includes routing and coupling a plurality of power and data harnesses from the utility box to at least some of the structural bays.

[002031η yet another embodiment of the third aspect, the frontside of each structural frame defines a pluralit of bays each structural bay being configured to receive one of the display modules.

[002131 n another embodiment of the third aspect, the frame backside geometrically cooperates with the panel frontside to define a vertical cooling conduit

therebetween, each structural frame includes an opening that couples the bay to the cooling conduit, each module includes a set of cooling fins whereby positioning the module upon the bay positions the set of coo!ing fins in the coo!ing conduit.

[002231η yet another embodiment of the third aspect, each bay includes a plurality of bay latching features, each display module includes a corresponding plurality of module latching features and alignment features which facilitate the alignment and securing of the display module within an associated structural bay; the bay latching features engaging with the module latching features.

[0023 J According to an fourth aspect, the present invention is a sign that has been manufactured in place upon an existing panel, the existing panel having a panel frontside for viewing and a panel backside, the sign comprising: at least one utility box mounted to the pane! backside; an array of structural frames, each structural frame having a frame backside mounted against the panel frontside and a frame frontside defining at least one bay whereby the array of structural frames defines an array of bays, each bay including a bay alignment feature; a power and data system routing power and data from the at least one utility box, through an opening in the panel that passes from the panel backside to the pane! frontside, and distributing the power and data to at least one bay connector in each of the array of bays: and a display module disposed upon each of the bays, each display module including: a module connector that is coupled to the at least one bay connector; and a module alignment feature engaged with the bay alignment feature to properly position the display module.

[0024] In one embodiment of the fourth aspect, the sign utility box is configured to rectify a universal Sine voltage to a DC voltage such that the power and data system routes DC voltage to each of the bays.

[0025] In another embodiment of the fourth aspect, each frame frontside defines a plurality of bays upon which is disposed .one of the modules.

[0026] In yet another embodiment of the fourth aspect, the at least one channel is defined in each frame backside whereby the frame backside cooperates with the panel frontside to define a cooling channel, each bay includes an opening that connects the bay to the cooling channel, each module includes a backside with cooling fins that extend through the opening and into the cooling channel.

[0027] In still yet another embodiment of the fourth aspect, the display module is completely weatherized. [002831η yet another embodiment of the fourth aspect, the structurai frame array is bolt mounted to the plurality of poster panels to resist substantial wind load forces defined within commercial building code signage standards.

[0029] !n another embodiment of the fourth aspect, each individual structural frame is composed of a structurai foam material.

[0030] According to an fifth aspect, the present invention is a support for plural display modules, comprising: a compound structural frame having a front surface for defining a plurality of structural bay members for receiving and supporting therein the piurai display moduies and a back surface for interfacing with a pianar billboard front surface and for defining a plurality of open channel features extending longitudinally from a top surface of the frame to a bottom surface of the frame, the plurality of open channel features cooperating with the planar billboard front surface to faci!itate the formation of a plurality of air flow paths for cooling the plural display modules when the back surface is mounted in a face to face relationship with the planar billboard front surface and the plural display modules are received and supported within corresponding ones of the plurality of structural bay members; and wherein the front surface is provided with plural passageway openings in fluid communication with the plurality of open channels to facilitate coo!ing the plural display modules when they are supported within corresponding ones of the plurality of structural bay members.

[0031 ]!n one embodiment of the fifth aspect of the present invention, each individual one of the plurality of structural bay members and each individual one of the plural display modules are provided with compiementary alignment features for faci!itating the frontside s!idable mounting of individual ones of the plural display modules into individual ones of the plurality of structural bay members; and wherein each individual one of the plurality of structural bay members includes a set of structural bay upstanding alignment posts dimensioned to slidingly receive thereon a rear side set of display module aiignment receptacles to help facilitate the frontside slsdable mounting of individual ones of the plural display modules into individual ones of the plurality of structural bay members so that the plural display modules are arranged in an array having a substantially planar front face

configuration for helping to distribute and resist wind load forces directed against the support.

[0032] In another embodiment of the fifth aspect of the present invention each individuai one of the plurality of structural bay members and each individual one of the plural display modules are further provided with complementary latching features for removably latching individual ones of the plural display modules into individual ones of the plurality of structural bay members; and wherein each individuai one of the plurality of structural bay members inciudes a plurality of frame latch assembly units oriented either in a lateral direction or a vertical direction relative to the compound structural frame to Satching!y engage individual ones of the plural display modules in multi-latching directions so that individual one of the plural display modules are secured and protected against wind load forces in excess of 100 pounds per square foot and degradation from the effects of ultraviolet sunlight.

[0033] In yet another embodiment of the fifth aspect of the present invention the compound structural frame is further provided with a plurality of interconnecting reference features, the plurality of interconnecting reference features including: a first set of tabs disposed on the compound structurai frame; a first set of slots disposed on the compound structural frame; the first set of tabs and the first set of slots in combination defining a plurality of top to bottom dovetail joints to facilitate interconnecting pairs of compound structural frames in flush top surface to flush bottom surface alignment along a longitudinal axis of the planar billboard front surface; a second set of tabs disposed on the compound structural frame; a second set of slots disposed on the compound structural frame; the second set of tabs and the second set of slots defining a plurality of side to side dovetail joints to facilitate interconnecting pairs of compound structural frames in flush right side surface to flush !eft side surface alignment along a lateral axis of the planar billboard front surface; and wherein pairs of compound structural frames are interconnectable in an array of the plural display modules for providing a billboard display.

[0034} In still yet another embodiment of the fifth aspect of the present invention the compound structural frame is provided with plural vertical axis mounting holes and plural lateral axis mounting holes, the plural vertical axis mounting holes and the plural axis mounting holes being distributed in plural mounting hole locations throughout the compound structural frame and each being dimensioned for receiving therein a mounting screw to facilitate securing the structural frame to the planar billboard front surface so that a sufficient mounting force may be applied to the compound structural frame to substantially eliminate face to face separation of the compound structural frame and the planar billboard front surface in wind load forces in excess of 100 pounds per square foot.

[0035] According to an sixth aspect, the present invention is a support for plural display modules, comprising: a compound structural frame member having a sufficient number of frame cutout areas to minimize frame weight to no greater than fifty pounds for hand Sifting and mounting to a planar billboard surface, but not such a sufficient number of frame cutout areas to compromise the structural integrity of the frame member for resisting wind load forces in excess of 100 pounds per

1 square foot when mounted to the planar billboard surface while supporting the pfura! displa modules; and wherein the compound structurai frame member is composed of structural foam to help minimize frame weight for hand lifting and mounting of the eompound structural frame member to the pianar billboard surface by one person without the use of a mechanical frame Sifting device.

[003631η one embodiment of the sixth aspect of the present invention the

compound structural frame member includes a front portion having a locating feature, the locating feature providing a visual indication of top and bottom mounting orientation of the compound structurai frame and further providing a visual indication for drilling a power pilot hole and a data pilot hole in the planar billboard front surface to facilitate the routing of preformed power and data wiring harnesses within the compound structural fame member.

[0037] In another embodiment of the sixth aspect of the present invention the front portion defines a plurality of structural bay members for receiving and supporting therein the plural display modules; and wherein each individual one of the plurality of structural bay members is provided with a plurality of wire routing features to further facilitate the routing of the preformed power wiring harnesses within the compound structural frame member for providing the plural display moduies with electrically power.

[0038] !n yet another embodiment of the sixth aspect of the present invention the compound structural frame member further includes a back portion configured to interface in a face to face relationship with the planar billboard surface and to be mounted thereto with a sufficient mounting force to substantially eliminate face to face separation in wind load forces in excess of 100 pounds per square foot; and wherein the plurality of structural bay members are arranged in rows and columns, the rows being defined by a piura!ity of front face surface lateral ribs bounding the frame cutout areas and a centrally disposed longitudinal rib bounding columns of structural bay members, the lateral and longitudinal ribs functioning as visual cutting line guides enabling the compound structural frame to be cut to a

customized size ranging from a maximum full frame size for supporting and receiving the plural display modules to a minimum structural bay member size for supporting and receiving an individual one of the plural display modules.

[0039] According to a seventh aspect, the present invention is a support for plural display modules, comprising: a compound structural frame having a back surface, a front surface, and plural peripheral edges coupling the back surface and the front surface for defining a plurality of structural bay members for receiving and supporting therein the plural display modules; wherein the back surface is provided with a plurality of mounting features to facilitate coupling the back surface in a face to face relationship with a planar billboard surface; wherein the front surface is provided with another plurality of mounting features to facilitate mechanically and electrically coupling the plural display modules in the plurality of structural bay members to provide a billboard display coupled to the planar billboard surface; and wherein the plural peripheral edges are provided with complementary

interconnecting features to facilitate interconnecting the compound structural frame with another compound structural frame to form an array.

[0040] According to one embodiment of the seventh aspect of the present invention the plurality of mounting features includes a plurality of open channel features extending along the entire longitudinal length of the frame member, wherein the plurality of open channel features cooperate with the planar billboard front-face surface to facilitate the formation of a plurality of air flow paths for cooling of the

1 plural displa modules when the back surface of the compound structural frame is mounted in a face to face relationship with the planar billboard front-face surface.

[0O413According to another embodiment of the seventh aspect of the present invention each individual one of the plurality of structural bay members has a sufficient number of cutout areas to provide a frame weight for hand lifting and mounting to the planar billboard front-face surface by a single person without the use of lifting equipment, but not such a sufficient number of cutout areas to compromise the structura! integrity of the compound structura! frame for resisting wind load forces in excess of 100 pounds per square foot when mounted to the planar billboard front-face surface while supporting the plura! display.

[0042] According to yet another embodiment of the seventh aspect of the present invention the compound structural frame is composed of structural foam to help minimize frame weight for hand lifting and mounting of the compound structural frame to the planar billboard front-face surface by one person without the use of a mechanical frame Sifting device and to facilitate the formation of the plurality of mounting features and the another plurality of mounting features.

[0043] According to still yet another embodiment of the seventh aspect of the present invention the plurality of mounting features includes a plurality of open channel features extending along the entire longitudinal length of the frame member, wherein the plurality of open channel features cooperate with the planar billboard front-face surface to facilitate the formation of a plurality of air flow paths for cooling of the plural display modules.

[0044] According to yet another embodiment of the seventh aspect of the present invention each individual structural bay member includes an opening dimensioned to receive therein a set of cooling fins extending from an individual one of the plural display modules; and wherein the opening Is in physical communication with an individual one of the plurality of air flow paths to facilitate air flow bathing of the set of cooling fins for display module cooling purposes,

[0045] According to another embodiment of the seventh aspect of the present invention, the plurality of structural bay members are arranged in an array,

[0O46]According to one embodiment of the seventh aspect of the present invention, the array of structural bay members is arranged in a five bay high by two bay wide configuration.

[00473 According *° another embodiment of the seventh aspect of the present invention, the array of structural bay members are further defined by visual separation features to facilitate scaling the array of structural bay members into smaller array configurations, wherein the smallest array is a one bay high by one bay wide configuration.

[0048] According to yet another embodiment of the seventh aspect of the present invention, each individual one of the plurality of structural bay members includes a snap-in node receptacle feature and at least one wire routing protuberance-like feature for receiving and routing preformed power wiring harnesses to help facilitate providing electrical power to the piurai dispiay modules.

[^According to still yet another embodiment of the seventh aspect of the present invention' each individual one of the plurality of structural bay members and each individual one of the plural display modules are provided with complementary alignment and latching features; and wherein each individual one of the plurality of

1 structural bay members includes a set of structural bay upstanding alignment posts dimensioned to slidingSy receive thereon a rear side set of display module alignment receptacles to help facilitate the frontside slid able mounting of individual ones of the plural display modules into individual ones of the plurality of structural bay members so that the plural display modules are arranged in an array having a substantially planar front face configuration for helping to distribute and resist wind load forces directed against the support.

[0050] According to an eighth aspect, the present invention is a billboard sign having plural display modules mechanically coupled to a planar mounting structure, comprising: a plurality of compound structural frame members mounted to a front face area of the planar mounting structure and arranged in an frame array; at least one low voltage junction box mounted to a back face area of the planar mounting structure for facilitating the distribution of a source of low voltage constant current power to the plural display modules; at least one preformed harness electrically and mechanically coupled between the at least one junction box and the plural display modules; the at least one preformed wiring harness extending from the source of low voltage constant current power through the planar mounting structure and an individual one of the plurality of compound structural frame members and being mechanicall coupled to a bay array of structural bay members defined by an individual one of the plurality of compound structural frame members and further being mechanically and electrically coupled to the plural display modules so that individual ones of the plural display modules can be mechanically and electrically disconnected from the billboard sign without shutting down power for the billboard sign.

[0051 Jin one embodiment of the eight aspect of the present invention each individual one of the plurality of compound structural frame members is provided

1 with a pilot hole feature, the pilot hole feature being disposed in a bottom row of the individuai one of the plurality of compound stroctura! frame members for providing a visual indication of the front and bottom orientation of the individual structural frame members for frame mounting purposes; and wherein the pilot hole feature further providing another visual indication of a frame array access hole location to facilitate determining a back face mounting location of the at least one junction box to effect efficient harness routing of the at least one power harnesses from the back face area to the front face area for providing power to the plural display modules.

[0052] In another embodiment of the eighth aspect of the present invention each individuai one of the piurality of compound structural frame members is provided with a plurality of receptacles; and wherein individua! ones of the receptacles are disposed in individual ones of the structural bay members to facilitate coupling low voltage power to individual ones of the plural display modules.

[Q053Jln yet another embodiment of the eighth aspect of the present invention the at least one preformed power harness includes a junction box mounting end for mechanically and electrically coupling to the low voltage junction box and a piurality of power node mounting ends, each individual power node mounting end being dimensioned to mechanically engage an individual one of the receptacles; and wherein each individual power node mounting end including a connector power cord extension for electrically and mechanically coupling the low voltage constant current power source to individuai ones of the plural display modules.

[00^'54|in still yet another embodiment of the eighth aspect of the present invention each individual one of the piurality of structural frame members is provided with pairs of harness pass-through openings to facilitate routing of the preformed harness between two adjacent structural frame members.

1 [0055] in yet another embodiment of the eighth aspect of the present invention each individual one of the structural bay members in the bay arra is provided with a plurality of receptacles to facilitate mechanically and electrically coupling the at least one preformed wiring harness to the plural display modules.

[0056]ln another embodiment of the eighth aspect of the present invention at least one preformed harness is provided with a plurality of preformed nodes, each individual one of the plurality of preformed nodes is dimensioned to be pressed or snapped into position in a corresponding wire harness node receptacle forming part of the plurality of receptacles for mechanically securing the at leas one preformed wiring harness within the structural frame and for electrically coupling the plural display modules to the source of low voltage constant current power.

[005731η one embodiment of the eighth aspect of the present invention the billboard sign further comprising: a utility power data controller box mounted to another back face area of the planar mounting structure to facilitate receiving eiectronic data and a universal source of electrical energy and for rectifying the universal source of universal power into a source of Sow voltage constant current power and for controlling data distribution to the plural display modules.

[0058}ln another embodiment of the eighth aspect of the present invention the billboard sign further comprising: at least one preformed data harness for coupling data from the utility power data controller box to the plural display modules.

[0059]ln yet another embodiment of the eighth aspect of the present invention, each individual one of the plurality of structural frame members is provided with a plurality of data routing features to facilitate routing the at least one preformed data harness within an individual one of the plurality of structural frame members.

I [006031η still yet another embodiment of the eighth aspect of the present invention, each individual one of the plurality of structural frame members is provided with a plurality of cut out areas to facilitate in-fie|d hand wire routing of the at least one preformed data harness with an individual one of the plurality of structural frame members.

[0061 } In yet another embodiment of the eighth aspect of the present invention , each individual one of the plural display modules is weatherized and is

dimensioned to be received in an individual structural bay member to form with each adjacent display module a protective cover for the at least one preformed harness and the at least one preformed data harness.

[0062] According to a ninth aspect, the present invention is a billboard sign having plural display modules mechanically coupled to a planar mounting structure, comprising: a low voltage junction box mounted to a backside of the planar mounting structure for facilitating the distribution of a low voltage constant current power source to the plural display modules; at least one structural frame member for mechanically coupling the plural display modules to a frontside of the planar mounting structure, the frame member defining an array of display module receiving bays arranged in rows and columns; each individual display module receiving bay including a receptacle feature to facilitate mechanically and electrically coupling the Sow voltage constant current power source to an individual one of the plural display modules; and at least one preformed power harness having a junction box mounting end for mechanically and electrically coupling to the low voltage junction box and plural power node mounting ends, each individual power node mounting end being configured to be received and secured into an individual node receptacle feature and including an electrical cord extension and connector for electrically coupling the low voltage constant current power source to an individual one of the plural display modules.

[0063] !n one embodiment of the ninth aspect of the present invention, each dispiay module receiving bay includes a complementary alignment feature for front loading an individual one of the plural display modules in sufficiently dose proximity to the electrical cord extension and connector to electrically and mechanically coupled the individual one of the plural display modules to the at least one preformed power harness.

[0064] According to a tenth aspect, the present invention is a large format billboard type electronic sign having an anchored planar mounting structure, the sign comprising: at least one structural frame member mounted to a front side of the planar mounting structure, the structural frame defining a plurality of structural bay members configured for receiving and removably supporting therein a

corresponding plurality of weatherized display modules to conceal and protect at least one preformed wiring harness from wind load forces in excess of 100 pounds per square foot; wherein each individual one of the plurality of structural bay members is provided with a plurality of receptacles to facilitate mechanically and electrically coupling the at least one preformed wiring harness to the plurality of weatherized display module; and wherein the at least one preformed wiring harness is provided with a plurality of preformed nodes, each individual one of the plurality of preformed nodes is dimensioned to be snapped or pressed into position in a wire harness node receptacle forming part of the plurality of receptacles for mechanically securing the at least one preformed wiring harness within the structural frame and for electrically coupling the plurality of weatherized display modules to a source of low voltage power.

1 OOSSJin one embodiment of the tenth aspect of the present invention , each individuai one of the plurality of preformed nodes includes a power connector to mechanically and electrically couple the source of low voltage power to an individual weatherized display module. 00663 Π another embodiment of the tenth aspect of the present invention, the at least one preformed wiring harness is further provided with a _. lurality of data connectors, each individual ones of the data connectors for interconnecting with a preformed data wiring harness to facilitate distributing data throughout the structural frame for utilization by each weatherized display module.

E∞$7Jln yet another embodiment of the tenth aspect of the present invention, the plurality of receptacles includes a plurality of data connection wire routing receptacles, including a left side data connection wire routing receptacle to facilitate anchoring another preformed data wiring harness for interconnection between at least another structural frame having a right side portion thereof abutting a left side portion of the structural frame and a right side data connection wire routing receptacle to facilitate anchoring the preformed data wiring harness for

interconnection between at least yet another structural frame having a left side portion thereof abutting a right side portion of the structural frame.

[0068] In still yet another embodiment of the tenth aspect of the present invention, the plurality of receptacles further includes a central data connection wire routing receptacle to facilitate anchoring the preformed data wiring harness and the another preformed data wiring harness with an individual one of the structural bay members to further facilitate the distribution of data within the structural frame. [006931η yet another embodiment of the tenth aspect of the present invention, the at least one structural frame is provided with a pilot hole feature, the pilot hole feature being disposed i a bottom row of the plurality of structural bay members for providing a visual indication of the front and bottom orientation of the structural frame for frame mounting purposes to the anchored planar mounting structure; and wherein the pilot hole feature further providing another visual indication of an 3 CCS S3 hole location to facilitate determining a back face mounting location of at least one eiect icaS junction box to effect efficient routing of the at least one preformed wiring harness from a back face area of the mounting structure to the front face area of the least one structural frame.

[007QJAccording to an eleventh aspect, the present invention is a modification kit for converting an anchored planar mounting structure having a frontside and an opposing backside into a dynamic electronic sign, the modification kit comprising: a plurality of weatherized display modules: a plurality of structural frames for supporting the plurality of weatherized display modules, each structural frame having a back portion for mounting to the frontside of the anchored planar mounting structure and a front portion defining a plurality of bay members for receiving corresponding ones of the plurality of weatherized display modules; and at least one wiring harness including a first end for coupling to a power source mounted on the backside of the anchored planar mounting structure and a plurality of power extensions for coupling the power source to the plurality of weatherized display modules.

[0071 Jin one embodiment of the eleventh aspect of the present invention, each individual one of the plurality of bays defines a receiving feature for receiving and aligning a portion of the at least one wiring harness within the bay to facilitate assembly of the at least one wiring harness to the bay . [007231η another embodiment of the eleventh aspect of the present invention, the receiving feature is a receptacle, and the at least one wiring harness including a portion to be received into each receptacle.

[0073] In yet another embodiment of the eleventh aspect of the present invention, the portion to be received into the receptacle is an overmo!ded node which is configured to be received into the receptacle and retained therein to help facilitate the routing of at least one of the plurality of power extensions to an individual one of the plurality of weatherized display modules.

[0074] In still yet another embodiment of the eleventh aspect of the present invention, each individual one of the plurality of structural frames includes pilot features for facilitating the forming of at least one bore through the anchored planar mounting structure to enable routing of the at least one wiring harness through the anchored planar mounting structure for facilitating the coupling of the power source to the plurality of weatherized display modules.

[0075] In yet another embodiment of the eleventh aspect of the present invention, each individual one of the plurality of structural frames is interchangeable with any other individual one of the plurality of structural frames; and each individual one of the plurality of structural frames is provided with a plurality of wind load resisting features to facilitate accommodating installation of the plurality of interchangeable structural frames in any wind zone specified for the anchored planar mounting structure.

[0076] In another embodiment of the eleventh aspect of the present invention, the plurality of bays are arranged in an array defined by a plurality of visual separation features to facilitate separating the array of bay members into smaller array configurations for customizing a display sign area to comply with the size of the anchored planar mounting structure.

[0077] in one embodiment of the eleventh aspect of the present invention, the modification kit further comprises a utility box mountable to the opposing backside of the planar mounting structure for facilitating the coupling of the power source to the at least one wiring harness and for receiving electricai energy to be rectified into a low voltage power source for use by the plurality of weatherized display modules to convert display data into visible radiant energy for instantaneous dynamic display purposes.

[0078} In another embodiment of the eleventh aspect of the present invention, each individual one of the plurality of interchangeable structural frames, when mounted to the frontside of the anchored planar mounting structure, defines a set of cooling conduits; where the set of cooling conduits are in fluid communication with individual ones of the plurality of display modules when mounted in individual ones of the plurality of interchangeable structural frames.

[0079] In yet another embodiment of the eleventh aspect of the present invention, each individual one of the plurality of interchangeable structural frames is provided with rows and columns of aligned wire routing features and node receptacles to help facilitate the routing and securing of the at least one wiring harnesses within the frame to enable power to be distributed throughout the structural frame in a daisy-chain manner.

[0080] In still yet another embodiment of the eleventh aspect of the present invention, the node receptacles are arranged in alignment to eliminate the need for special node to receptacle alignment markings to facilitate installation of the plurality of interchangeable preformed wiring harnesses without installation placement errors.

[008131 yet another embodiment of the eleventh aspect of the present invention, each individual bay member has integrally formed therein a plurality of different types and kinds of wire harness receptacles distributed among a pluralit of latching features, where the plurality of latching features are multi-directional and complementary to corresponding display module multi-directional latching features to help facilitate the mounting of individual ones of the plurality of display modules within individual ones of the plurality of bay members with a sufficient latching force to resist wind load forces in excess of 100 pounds per square foot.

[0082] In another embodiment of the eleventh aspect of the present invention, each individual one of the plurality of structural frames has a plurality of cutout areas in a sufficient number to minimize the frame weight of an individual one of the plurality of structural frames to no greater than 50 pounds, but not such a sufficient number of cutout areas to compromise the structural integrit of the individual structura! frame for resisting wind load forces in excess of 100 pounds per square foot when the individual structural frame is mounted to a frontside surface of the anchored planar mounting structure.

[0083] According to a twelfth aspect, the present invention is a modification kit for sign conversion, comprising: a plurality of display modules for converting electrical data into visible radiant energy for display by an electronic sign: at least one compound structural frame fo defining a plurality of structural bay members, each individual one of the plurality of structural bay members being configured for removably receiving, supporting and latching therein corresponding ones of the plurality of display modules each being mounted with a sufficient latching force to withstand a wind load force in excess of 100 pounds per square foot; wherei each individual one of the plurality of bay members has a sufficient number of cutout areas to provide a frame weight of no greater than 50 pounds for hand lifting and mounting the frame to a planar structure by a single person, but not such a sufficient number of cutout areas to compromise the structural integrity of the compound structural frame for resisting wind load forces of up to 100 pounds per square foot when mounted to the pianar structure while supporting the plurality of display modules; and at least one preformed interchangeable wiring harness having a plurality of mechanical-electrical nodes for coupling a source of Sow voitage power from a backside to a frontside of the planar structure and then to the plurality of display modules.

[0084] In one embodiment of the twelfth aspect of the present invention, each individual one of said plurality of bay members is provided with a plurality of node receptacles for securing therein said plurality of mechanical-electrical nodes to facilitate coupling the source of Sowe voltage power at said frontside of the sign mounting structure to said plurality of display modules.

[0085] Sn another embodiment of the twelfth aspect of the present invention, the plurality of structural bay members are arranged in an array defined by a plurality of visual separation features to facilitate separating the array of structural bay members into smaller array configurations for customizing a display sign area to comply with the size of the planar structural surface.

[Q086]ln yet another embodiment of the twelfth aspect of the present invention, the at least one compound structural frame is provided with rows and columns of wire routing features and node receptacles to accommodate the at least one interchangeable wiring harness and to facilitate distribution of power and data throughout said at least one compound structurai frame in a daisy-chain manner.

[0087] in still yet another embodiment of the twelfth aspect of the present invention, the at least one compound structural frame is provided with a plurality of

interconnecting reference features, the plurality of interconnecting reference features including: a first set of tabs disposed on the compound structural frame; a first set of slots disposed on the compound structural frame; the first set of tabs and the first set of slots in combination defining a plurality of top to bottom dovetail joints to facilitate interconnecting pairs of compound structural frames in flush top surface to flush bottom surface alignment along a longitudinal axis of the planar structural surface; a second set of tabs disposed on the compound structural frame; a second set of slots disposed on the compound structural frame; the second set of tabs and the second set of slots defining a plurality of side to side dovetail joints to facilitate interconnecting pairs of compound structural frames in flush right side surface to flush left side surface alignment along a lateral axis of the planar structural surface; and wherein pairs of compound structural frames are

interconnectable in an array to support therein the plurality of display modules for providing a billboard display sign.

[0088} In yet another embodiment of the twelfth aspect of the present invention, the at least one compound structural frame is provided with plural vertical axis mounting holes and plural lateral axis mounting holes, the plural vertical axis mounting holes and the plural lateral axis mounting holes being distributed in plural mounting hole locations throughout the at least one compound structural frame and each being dimensioned for receiving therein a mounting bolt or screw to facilitate securing the at least one structural frame to the planar structural surface so that a sufficient mounting force may be applied to the compound structural frame to substantially eliminate face to face separation of the compound structural frame and the planar structural surface in wind load forces in excess of 00 pounds per square foot.

[0089] According to a thirteenth aspect, the present invention If contained in-field retrofit kit for a static billboard coupled to a universal source of electrical power, the self contained kit comprising: at least one modular hand mountable compound structural frame for mounting to at least one poster panel of a static billboard, the at Ieast one modular compound structural frame and the at Ieast one poster panel cooperating to provide a plurality of self cooling vents and a plurality of wire routing paths between the at least one modular compound structural frame and the universal source of electrical power; wherein the at least one modular compound structural frame is provided with a plurality of receptacle nodes and wire routing guides to receive substantially identical power and data wire harnesses for coupling electrical energy along a pluralit of wire routing paths within the

compound structural frame; at least one modular electrical conversion device for mounting partially within an individual one of the plurality of self cooling vents and partially within the at least one modular compound structural frame, the at Ieast one modular electrical conversion device for coupling to the universal source of electrical power via at least an individual one of the plurality of wire routing paths to transform the universal source of power to a constant power source; wherein the at Ieast one modular electrical conversion device includes a plurality of electrical elements coupled to the constant power source and to the data source for converting electrical energy into visible radiant energy indicative of an electronic message intended for pubic viewing; and wherein the at Ieast one modular electrical conversion device is further for coupling to a data source via the at Ieast an individual one of the plurality of wire routing paths. [O09O]According to a thirteenth aspect, the present invention is a modification kit for converting an existing signage mounting structure to an electronic sign comprising a plurality of weatherized display modules: a plurality of sign sections each having a front-facing portion and a rear-facing portion, the front facing portion defining a two dimensional array of bays arranged in a plurality of rows along a vertical direction and a plurality of columns along a horizontal direction, each bay

configured to receive one of the display modules, the rear-facing portion for mounting to a surface of the existing signage mounting structure; and a plurality of wiring assemblies each having a first end for coupling to a power junction located adjacent to a rear surface of one of the rear-facing portions and a plurality of power extensions for coupling the power source to the plurality of weatherized display modules.

[0091 JAccording to one embodiment of the thirteenth aspect of the present invention the array of bays includes at least 10 rows of bays.

[0092 J According to another embodiment of the thirteenth aspect of the present invention, each rear-facing portion is a mounting structure and each front facing portion includes a compound structural frame mounted to the mounting structure.

[0093} According to yet another embodiment of the thirteenth aspect of the present invention the front facing portion includes two adjacent compound structural frames mounted along the vertical direction.

[00943According to still yet another embodiment of the thirteenth aspect of the present invention each sign section defines a plurality of openings that each couple one bay to a rear surface of the sign section to enable a weatherized display module to be removed and replaced from a bay through the opening. [0095] Accordi g to yet another^■embodiment of the thirteenth aspect of the present invention each wiring assembly includes a hub mounted to the rear-facing portion whereby each extension has one end coupled to the hub and another end disposed within a bay.

[0096} According to another embodiment of the thirteenth aspect of the present invention each hub is configured to receive AC power from a main power source, rectifies the AC power, and delivers DC power to the bay.

[0097} According to a fourteenth aspect, the present invention is a modification kit for converting an existing signage mounting structure to an electronic sign comprising: a plurality of weatherized display modules; a plurality of sign sections each having a front-facing portion and a rear-facing portion, the front facing portion defining a two dimensional array of bays arranged in a plurality of rows along a vertical direction and a plurality of columns along a horizontal direction, each bay configured to receive one of the display modules, the rear-facing portion for mounting to a surface of the existing signage mounting structure; and a plurality of power routing systems, each power routing system having a power input for coupling to a power source and a plurality of power extensions, each power extension for coupling the power source to one of the plurality of weatherized display modules.

[0098] According to one embodiment of the fourteenth aspect of the present invention, the array of bays is two bays wide and includes at least five rows of bays. [0099] According to one embodiment of the fourteenth aspect of the present invention, the front portion defines two columns of bays.

[0100|According to another embodiment of the fourteenth aspect of the present invention, each rear-facing portion is a mounting structure and each front facing portion includes a compound structural frame mounted to the mounting structure.

[0101 J According to yet another embodiment of the fourteenth aspect of the present invention, each front facing portion includes a plurality of compound structural frames arranged along the vertical direction and each defining a portion of the array of bays.

[0102 J According to a fifteenth aspect, the present invention is a sectionai assembiy for converting an existing signage mounting structure to an electronic sign comprising: a front portion defining a two dimensional array of bays that span the height of the eiectronic sign and a portion of the width of the electronic sign whereb a plurality of sectional assemblies are required to fully form the electronic sign; a display module installed into each of the array of bays; a wiring system that delivers power to each display module of the array of bays, the wiring system including a hub and a plurality of individual power extensions that are each electrically coupled to the hub have a power delivery end that is coupled to one of the LED modules; and a rear portion for mounting the sectionai assembiy to a beam surface of the existing mounting structure.

[Q1Q3JAccording to one embodiment of the fifteenth aspect of the present invention, the array of bays is two bays in width. [0104] According to another embodiment of the fifteenth aspect of the present invention, the front portion and the rear portion are integral .

[0l05]According to yet another embodiment of the fifteenth aspect of the present invention, the front portion includes a plurality of compound structural frames that are each two bays wide and are mounted adjacently and vertically to the rear portion.

[0106] According to still yet another embodiment of the fifteenth aspect of the present invention, the front portion and the rear portion collectively define a plurality of openings that each couple a rear surface of the rear portion to each one of the bays whereby the LED modules installed in the bay can be removed and replaced through the opening thereby enabling rear side servicing of sectional assembly.

[0107]According to a sixteenth aspect, the present invention is a sectional assembly fo converting an existing signage mounting structure to an electronic sign comprising: a front portion defining a two dimensional array of bays that span the height of the electronic sign and a portion of the width of the electronic sign whereby a plurality of sectional assemblies are required to fully form the electronic sign; a display module installed into each of the array of bays; a wiring system that delivers power to each display module of the array of bays, the wiring system including a hub and a plurality of individual power extensions that are each electrically coupled to the hub have a power delivery end that is coupled to one of the LED modules; and a rear portion for mounting the sectional assembly to a beam surface of the existing mounting structure; and a door that covers each opening.

3 [0108] According to one embodiment of the sixteenth aspect of the present invention, the sectional assembly further comprising a plurality of latches in each bay configured to affix each LED module to the bay, the latches configured to be actuated by a particular tool inserted through either a front portion of the LED module or the rear portion, the doors are configured to be opened using the same tool.

[0109] From the foregoing, it should be understood by those skilled in the art, that an existing static billboard may be retrofitted or converted into a dynamic electronic billboard, in a fast and convenient manner by an installer or a team of installers following a few simple and easy retrofitting steps. For example, an installer arrives at an in-the field billboard, performs a quick electrical inspection to (1 ) determine that the existing billboard or signage site is provided with adequate high voltage alternating current power: (2) next the installer cleans the signage surface or poster panels of the static billboard of their current and old paper advertising posters; {3} next the installer inspects the poster panels for any uneven or sharp metal protrusions and then using conventional tools, such as a hammer, the installer removes any uncovered or discovered uneven or sharp metal protrusions from the poster panels since the poster panels should all be substantially flat and uniform for the retrofitting process; (4) the installer then verifies that all the poster panels are provided with substantially flat mounting surfaces and that all of the poster panels have been cleaned including removing any vinyl or paper left over from old static images; (5) the installer then verifies the overall length and width of the billboard poster panels in order to confirm the mounting surface area is within the standard size dimensions for the static billboard to be converted into a dynamic billboard of a given size; (6) then the installer determines whether the input power needs to be converted for use with the retrofit kit so that an optional power converter may be installed if necessary; (7) the installer then turns off the main power breaker disconnecting the main power source supplying power to the static billboard so theelectricity supplied to the billboard site is temporarily shot off; (8) the installer then disconnects all static billboard lighting and associated wiring; and (9) then unpacks the various modular components of a retrofit kit which is constructed in accordance with the present invention to determine that ali the modular components of the retrofit kit are present and accounted for to complete the conversion.

[0110}After completing the above-mentioned verification and preparation

processes, the instailers then simply (10) hand mount a plurality of hand mountabie structural frame units in a frame array on the existing poster panels of the non electronic billboard; (11 ) next the team mounts bee stops to the structural frame array to protect the structures from insect, bee and pest invasions; (12) next the installer using the resulting node receptacles, cable hooks, conduits paths and wiring paths created as the array of structural frames was installed begins installing the various power data wiring harnesses of the kit within the structural frames; (13) next, the installer makes provision within the structural frame array for coupling mechanically and electrically the installed harnesses from the frontside of the frames to the backside of the billboard, making connection to power data controller boxes and power junction boxes installed by the installer on the backside of the billboard; (14) next the display modules of the kit are received in alignment features of the structural bays and latched into their respective structural bay members; (15) the installer then establishes an electrical path from a high voltage circuit breaker to the now completely new dynamic billboard; and finally (16) the installer downloads a test message for display on the new dynamic billboard to verify that all its modular components are operating correctly.

[0111JBecause of the many different types and kinds of roadside and outdoor and indoor building signs which may be converted, the principals that will be taught hereinafter will be generally directed to only two billboard sizes; namely, an 11 by

3 22 square foot billboard and a 14 by 48 square foot billboard comprised of 20 gauge metal poster panels. Nevertheless, there Is no intention by this description to limit the scope of the present invention to only these specific sizes and applications, in this regard, the principles that will be taught hereinafter may be applied to other types and kinds of advertising displays so long as the mounting surface area is at least of a 20 gauge metal construction or other suitable construction materials such as concrete, wood and other material of sufficient thickness and strength to support the frames and within the dimensional limits of the underlying modular structural frames forming part of the retrofit kit that will be described. Even so, since the modular structural frames of the retrofit kit may be reduced in size, the only limitation therefore is that the surface area of the existing signage must be sufficient in dimension to receive the structural frames and be constructed of at least 20 gauge metal panel sheets. The kit as described herein is generally for utilized by a large format advertising display intended for viewing from an extended distance of generally more than 50 feet. However, because of the modular nature of the kit, signage of much smaller sizes may also be accommodated by the kit.

BRIEF DESCRIPTION OF DRAWINGS

[0112]The above mentioned features and steps of the invention and the manner of attaining them will become apparent, and the invention itself will be best

understood by reference to the following description of the embodiments of the invention in conjunction with the accompanying drawings wherein:

[0113JFIG. 1 is a perspective view of a digital billboard constructed in accordance with the present invention through the use of the in field modification kit of FIG. 2; [0114JFIG. 2 is a diagrammatic lock diagram of a field modification kit for converting a non electronic billboard sign into an electronic billboard sign, wherein the field modification kit is constructed in accordance with the present invention;

[0115JFSG. 3 is a front plane view of a non electronic billboard sign being provided with chalk marks for a grid layout indicative of the size and pattern of the structural frames being installed on the existing poster paneis; modification kit is constructed in accordance with the present invention;

[0116JFSG. 4 is a greatly enlarged frontside perspective view of a structural frame forming part of the field modification kit of FIG. 2;

[0117JFIG. 5 is a greatly enlarged frontside perspective view of the of the structural frame forming part of the field modification kit of FIG. 2, illustrating some of the modular components forming part of the field modification kit of FIG. 2;

E0118JFIG. 6 is a greatly enlarged backside perspective view of the structural frame of FIG. 4;

[011SJFIG. 7 is a greatly enlarged backside perspective view of the structural frame of FIG. 5 illustrating some of the modular components forming part of the field retrofit kit of FIG.2 0120] FIG. 8 a frontside perspective view of a display module forming part of the field modification kit of FIG. 2:

[0121]FiG. 9 is a backside plane view of the display module of FIG. 8; [0122]FiG. 10 is an exploded view of the display module of FIG. 8;

3 [0123JFIG. 1 1 is an exploded view of a daughter board forming part of the display module of FIG. 10;

[0124]FiG. 12 is a perspective view of a bee stop utilized to occlude a wiring access opening forming part of the structural frame of FIG 5;

[0125JFIG. 13 is a greatly simplified electrical circuit block diagram of the display module of FIG. 10;

[0126JFIG. 14 is a diagrammatic view illustrating a column number arrangement forming part of the power and data distribution system of the in field modification kit of FIG.2;

[0127JFIG. 15 is a flowchart illustrating the steps followed in installing the display modules forming part of the field retrofit kit of FIG. 2;

[0128JFSG. 16 is a greatly enlarged front perspect ve view of a portion of a louver forming part of a display module constructed in accordance with the present invention, illustrating a pixel arrangement of light emitting diodes;

[0129JFIG 17 is a schematic illustration of how a!i the power/data harnesses, ail the data jumper cables and all the data connection cables are laid out in the frame array and routed to respective power access holes and data access holes within the frame array leading to backside billboard junction boxes;

[0130JFIG. 18 is a flowchart illustrating the steps followed in assembling a light emitting diode display module forming part of the in field modification kit of FIG. 2;

3 [0131JFIG. 19 is a flowchart illustrating the steps followed in using the in field retrofit kit of FIG. 2 to convert a non electronic billboard into an electronic billboard;

[0132JFSG. 20 is a flowchart of the steps followed by an installation team in preparing an existing billboard for the retrofitting process;

[0133JFIG. 21 is a flowchart of the steps followed by an installation team in preparing an existing billboard site for installation of the structural frames;

[0134JFIG. 22 is a flowchart illustrating the steps followed by an installation team for installation of the power and data wire harnesses of FIG 24C using the in field modification kit of FIG. 2, to convert a static sign into a dynamic advertising display;

[0135JFSG. 23 is a front plane view of a structural frame forming part of the retrofit kit of FIG. 2;

[0136JFIGS. 24A, 24B and 24C are diagrammatic illustrations of various wire harness assemblies forming part of the power data routing system;

[0137JFIG. 25 is a front eievational view of the billboard of FIG. 1 , with its display module louvers removed to illustrate the side by side relationship of the individual display panels forming part of the display module of FIG. 8;

[0138JFIG. 28 is a rear eievational view of a bil!board of FIG. 1 , illustrating component parts of the power data routing system; [01333 FIG. 27 is a front plane view of an array of structural frames illustrating their preparation for installation of the power wire harnesses and data wire harnesses of FIG. 24G;

[0140] FIG. 27A is a top plane view of the structural frame of F!G. 23 illustrating typical locations for bee stops and air flow channels;

[0141 J FIG. 28 is a diagrammatic illustration of how the data/power harness with over moid nodes are laid out and secured to a structural frame of the present invention;

[0142JFIG. 29 is a greatly enlarged perspective view of a chimne vent cover forming part of the field modification kit of FIG. 2;

[0143JFSG. 30 is a greatly enlarged perspective view of a frame latch assembly forming part of the field modification kit of FIG. 2;

[0144]FiG. 31 is a top plane view of the frontside of a printed circuit board forming part of the display module of F!G.8;

[0145JFIG. 32 is a top plane view of the backside of a LED frame forming part of the display module of FIG. 8;

[0146}FiG. 33 is a top plane view of the frontside of the LED frame of FIG. 32;

[Q147JFIG. 34 is a perspective view of the LED frame of FIG. 32, illustrating a seating wall adapted to be seated i a structural frame bay member;

3 [014B} FIG. 35 ss a front perspective view of a sectional digital billboard configured with a plurality of sign section assembly units constructed in accordance with the present invention;

[0149] FIG. 36 is a schematic view of the rearside power and data power distribution arrangement for the digital billboard of F!G. 35;

[0150] FIG. 37 is a diagrammatic illustration of a power/data harness arrangement for a sign section assembly unit forming part of the sectional digital billboard of FIG. 35;

[0151] FiG. 38 is a rear elevational view of another sectional digital billboard constructed in accordance with the present invention without the rearside power and data distribution arrangement installed and illustrated with sign section assembly units with rolled sheathing;

[0152] FIG. 38A is an enlarged sectional view taken from FIG, 38 along line 38A - 38A;

[0153] FSG. 38B is an enlarged sectional view from FIG. 38 taken along line 38B - 38BA;

[0154] FIG. 39 is a diagrammatic view of a factory workbench assembly jig with a exploded view of component parts of a sign section assembly unit with f at sheathing;

[0155] FIG. 40A is a rear elevational view of a sign section assembly forming part of the sectional digital billboard of FiG. 35;

3 [0156] FIG. 406 is a rear elevational view of a sign section assembly forming part of the sectional digital billboard of FiG. 41 ;

[0157] FIG. 41 is a rear elevational view of a rear accessible digital billboard which is constructed in accordance with the present invention;

[0158] FIG. 41 A is an enlarged cross sectional view of the rear accessible digital billboard of FIG. 41 taken substantially along section line 41 A - 41A;

[0159] FIG. 41 C is a schematic view of a portion of the rear-facing sign section assembly of FIG. 40B, illustrating the displacement path of one of its rear access doors and a sheathing rear access hole;

[0160] FIGS. 42, 42A, and 42B are block diagrams of a sectional sign assembly and installation kit, illustrating its component kit portions including a factory assembly kit portion and a field modification kit portion, each portion constructed in accordance with the present invention;

[0161] FIG. 43, 43A-D is a method of retrofitting or assembling an electronic sign or billboard using a factory assembly and field modification kit constructed in accordance with the present invention;

[0162] FIG. 44 is a diagrammatic illustration of a data/power harness arrangement forming part of a sign section assembly unit of FIG. 41 ;

[0163JFIG. 45 is an enlarged front plane view illustrating a portion of a rear accessible structural frame forming part of the sign section assembly of FIG. 44;

4 [0164| FIG. 48A-D are diagrammatic illustrations of the sequence followed in removing a display module through a sign section assembly unit of FIG. 41 ;

[0165] FiG. 47A-D are schematic illustrations of different types of sign section assembly units, each being constructed in accordance with the present invention:

[0166] F!G. 48 is schematic illustration of support structures and pre-wired sign section assemblies utilized in forming a digital biiiboard with three sign section assembly units;

[0167] FiG. 49 is a schematic plan view of a direct current/data satellite hub forming part of the digital billboard of FIG. 35, illustrating in part its wiring routing to wire routing features of a compound structural frame forming part of a sign section assembly disposed therein; and

[0168] FIG. 50 is rear elevational view of another sectional digital billboard with rear accessible display modules, which rear accessible digital biiiboard Is also

constructed in accordance with the present invention;

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0169JFor reference purposes, whenever the term Irontskte"- is used it will always refer to the front viewing side of any element or component part that will be described hereinafter. Backside always opposes the frontside for any part or portion being discussed and is the reverse of the viewing side. Each surface is defined hereinafter in the following manner as a part frontside/backside.

4 [017O]Referring now to the drawings and more particularly to HGS. 1 and 2, there is illustrated a self contained retrofit kit 10 and a resulting dynamic electronic sign or billboard 110 respectively, which ki 10 and which billboard 1 10 are each constructed in accordance with the present invention. The electronic billboard 110, when constructed in accordance with a novel method of retrofitting or assembling 1010 (FIG.19) as hereinafter disclosed, is assembled in a fast and convenient manner without the need of special tools or equipment. In short, by use of the in field retrofit kit 10, a static non-electronic billboard 8, as best seen in FIG. 3, is transformed or converted into a dynamic electronic billboard 1 10 that greatly improves displayed information, such as advertising information, with improved resolution, contrast, and brightness characteristics. The simplicity of the various hand mountable component parts of the electronic billboard 1 10 are such, that a team of two people or even a single installer, with a Sadder, a drill, a skill saw, a hammer and a screwdriver are able to quickly and easily convert an existing static (non electronic) roadside or building billboard 8 into a high-tech digital billboard 1 10 regardless of location. For example, the kit 10 may be applied to rooftop signs, inside building signs, hung signs (i.e. hung from the underside of a catwalk), building wall mounted signs or pole mounted signs. The simplicity of the design enables a digital billboard 1 10 constructed in accordance with the present invention, to be utilized in a football stadium during the football season, and then if desired, disassembled and moved to a baseball stadium and re-assembled for billboard display presentations during the baseball season. Portability and easy of assembly and disassembly are unique and important novel features of the present invention.

[0171 J For the purpose of this disclosure the term static non-electronic billboard or sign with respect to being retrofit by the retrofit kit 10, means any sign that has an advertising display mounting surface composed of steel, wood, concrete, masonry or other suitable mounting materials Of a sufficient strength to support the array of structural frames provided in the retrofit kit 10. The advertising media of such a static non-electronic billboard or sign includes paper, paper panels and any other advertising media having permanent and non-changing indicia in the form of images, text, and symbols disposed thereon. Notwithstanding the foregoing, it is contemplated that the billboard 1 10 of the present invention may also be utilized to replace existing electronic signage, whether such electronic signage is of a roadside structure or an indoor or outdoor building structure configuration.

[0172]As will be explained hereinafter in greater detail, the electronic billboard 1 10 is constructed by the use of standardized ultra lightweight hand mountable structural frames composed of structural foam and fully integrated electronics for simple and quick, "plug and play" installation. The panelized or sectional construction of the billboard 110 as described herein allows for installation with no major structure modifications being required at the sign installation site. Existing alternating current power, for operation in the United States, such as a 2-phase, 40amp, 240 VAC source or a 2-phase, 80amp, 120 VAC source, supplied for illuminating the non electronic billboard 8 is all that is required for the fully integrated electronics forming part of the billboard 1 10. Power converters, as optional equipment, ma be provided so the conversion process may utilize

"universal power" as provided anywhere in the world for driving the fully integrated electronics forming part of the billboard 110 as will be explained hereinafter in greater detail.

[Q173]The modular nature of the billboard 1 10 and the hand mountable component parts of the i field modification kit 10 allow for installation in a fast and convenient manner. The frame construction utilizing by the kit TO, coupled with "plug and play" electronic technology allows for a customer to retrofit virtually any existing non

4 electronic billboard 8 into a. sophisticated electronic billboard 110 capable of displaying instantaneously changing images and textual information for achieving significantly improved advertising results than previously provided for by the static billboard 8.

[§1743ln summary then, the in field modification kit 10 when used in accordance with the method of retrofitting 1010 facilitates the conversion of a static non electronic billboard 8 into a dynamic electronic billboard display 110, which obtains for a customer several unique and novel advantages:

1. The in field modification kit 10 enables a static billboard display 8 to be easily and quickly converted into a dynamic billboard 110, where displayed information can be changed instantaneously and remotel as needed via a power data routing system that will be described hereinafter in greater detail;

2. The simplicity of the kit design allows for the installation by an installation team or even a single installer without sophisticated installation training;

3. The converted electronic billboard 1 10 is relatively inexpensive to operate using low power consumption electronic devices;

4. The integration of the existing on-site powe utilized to illuminate a static billboard coupled with the use of standardized modular components with integrated preformed power and data cables allows for quick and easy installation;

5. The utilization of a structural frame construction that duplicates itself coupled with the utilization of a display module construction which also duplicates itself completely eliminates the common need of section identification markers normally required of sectional signs, such as the sectional sign of the present invention;

6. The utilization of a ultra-light frame construction permits the retrofit kit of the present invention to be easily and conveniently transported to any remote sign

4 location for instaliatio by hand without the need of any special moving equipment; and

7. The simplicity of the dynamic billboard design allows for the use of existing poster panels in an existing static billboard making the retrofit process highly efficient.

THE RETROFIT KIT

[0175JBefore describing in detail the on-site or in-field retrofitting process 1010, it will be beneficial to first describe the retrofit kit 10 that is utilized by an installation team or installer in transforming the static billboard 8 Into the dynamic billboard 1 10. In this regard, the retrofit kit 10 as best seen in FIG. 2, generally includes (1) a plurality 10A of thin, ultra-light weight compound functional structural frames, such as a compound structural frame 12 as best seen in FIG.23: (2) a plurality 10B of fully weatherized latch in place display modules, such as a display module 14, as best seen in FIGS. 8-9; (3) a plurality 10D of preformed wire harness assemblies as best seen in FIGS. 24A-C; and (4) a power modification kit 10C that enables the plurality 0D of harness assemblies to be coupled to a source of electrical information or data as well as a source of universal power that will be described hereinafter in greater detail. The kit 10 also includes an instruction manual and mounting hardware 10F, as well as an insect and rodent infestation resistance kit 10E that will also be described hereinafter in greater detail.

The Structural Frames and Display Modules of the Kit, In General

[0176]As best seen in FIG 23, each structural frame 12 forming part of the retrofit kit 10 includes a piurality of structural bay members, such as a structural bay member 16 as best seen in FIGS. 4-7. FiG. 23 is a front plane view of a single

4 structural frame 12 having an array of structural bay members 16 arranged in a five (5) bay high by a two (2) bay wide configuration. FIGS. 4-5 are greatly enlarged frontside views of an individual structural bay member 16 without and with certain installed features respectively. FIGS. 6-7 are greatly enlarged backside views of a individual structural bay member 16, also illustrated with and without certain installed features respectively. Each structural bay member 16 is adapted to receive and support therein a fu!ly weatherized and sealed LED display module 14. The display module 14 of the present invention may be installed in any structural bay member 16 forming part of the electronic billboard 1 10. In this regard, the display module 14 of the present invention is universal, and requires no special sectional markings or indicia for installation purposes.

[0177 J As will be explained hereinafter in greater detail, the structural frames 12 and its associated structural bay members 16 have built in alignment features, self cooling features, wire routing features, and node receptacle feature, which

(1 ) facilitate a quick and easy installation process for the fully weatherized LED display modules 14; (2) facilitate and provide front billboard access for simple servicing processes which easy removal and replacement of display modules 14 as needed; (3) facilitate simple and effective cooling methods for each display module 14 due to a unique and novel structural cooperation between the structural frames 12 and the existing static billboard poster panels, such as a poster panel 9; and (4) facilitates a unique and novel overall billboard structure that substantially prevents invasion by bees and other insects or pests into the ho!low interior areas of the billboard 10.

[0178 J Each individual display panel module 4 which forms part of the. kit 10 and the billboard 1 10 includes dual LED display panels indicated generally at 14L and 14R as best seen in FIGS. 8-9. This dual LED display panel construction of the.

4 display module 14 provides for the display of a total of 512 mufti-color pixels (red, green and blue) consisting of 1536 LEDs (512R/512G/512B) which LEDs are configured in identical pixel arrangements, such as a pixel arrangement 18 as best seen in FIG. 18. Each LED display module 14 as best seen in FIG. 8, is 317 mm in height or about one foot in height and 634 mm in width or about two feet in width, so arrangement that two display boards with 512 pixels are distributed over 0.2 square meters or about 2.16 square foot. Each pixel in this regard, includes a red LED, a green LED, and a blue LED to provide thousand of pixel color combinations. Each pixel arrangement 18 is therefore configured with a pixel pitch given by the following formula:

Pixel pitch = 317 mm ÷ 16 = 19.8 mm [Equation 1]

Accordingly, each pixel arrangement 18 is configured as a 19.8 millimeter display arrangement with a narrow viewing angle, which is best suited to roadside billboard products, optimized sign brightness and hence configured for the utilization of less power. It should be noted that wider angle light emitting diodes are fully

contemplated for use without changing the other physical components of the present invention to accommodate various types of advertising displays such as high definition video displays for indoor use as an example without limitation.

[0179JThe total number of compound structural frames 12 and the total number of display modules 14 provided in any given retrofit kit 10 is determined in advance by the size of the static billboard 8 that is being converted. Table I that follows provides a cross reference between standard sized billboards and the number of compound frames 12 and display modules 14 provided in any given kit:

TABLE !

4 Standard Billboard Size Number of Frames Number of Modules

1 1 Ft (Height) by 22 Ft. (Width) 10 Full Size Frames 100 Modules

14 Ft. (Height) by 48 Ft. (Width) 22 Full Size Frames 230 Modules (Lower 2 Rows}

and 11 Partial Frames 69 Modules

(Upper Rows)

with top pair of bays

removed, and 3 Partial

Frame with one column

of bays removed

[OlSOJEach structuraS frame 12 in the retrofit kit 10 is composed of a low cost, light weight structural foam material which easily and conveniently mates in a tight surface to surface configuration with the poster panel surfaces of the existing static billboard 8. Such mating provides a low cost means to support routed wires and to cool the display modules, such as the display module 14 by and through unique and novel design flexibility, light weight properties, strength and weathering capabilities. As needed for certain custom sized static billboards, a structural frame 12 may be easily and quickly configured into smaller units by the simple use of a skill saw. Stated otherwise, the light weight structural foam material may be field cut in LED modular increments by using the skill saw to cut along lateral frame ribs areas 66 disposed between individual ones of the structural bay members to reduce frame height or in the alternatively the foam material may be cut along the longitudinal frame rib area 68 between the columns of the structural bay members to reduce frame width. The ability to cut a structurai frame 12 to suit the structure in the field both vertically and horizontally in LED modular increments adds flexibility for field installers. Such flexibility allows customized arrays to be constructed in the field in a fast, convenient, and inexpensive manner without any expensive manufacturing changes. Moreover, such flexibility allows customized display sizes to be easily and conveniently to be form in the field. In short, the lateral ribs 66 and

4 longitudinal ribs 88 serve as cutting Sine guides or visualization features enabling the compound structural frame 12 to be cut in customized sizes ranging from a maximum full frame size for supporting and receiving plural display modules to a minimum structural bay member size for supporting and receiving an individuai display module.

[0181JThe surface mating properties between the closed poster panel surfaces of the static billboard 8 and the individual structural frames 12 which are sealed by the individual weatherized display modules 14, further eliminates the need for ai conditioning and or fans to cool the large number of display modules 14 distributed across a frame array 30 of the billboard 1 10. In this regard, a passive cooling structure or venting system is formed in this surface to surface mating relationship which allows substantially portions of the display module 14 to be latched and fixedly removably positioned or located within individual venting channels (FIG. 27) designed into the physical configuration of individual ones of the compound structural frames 12.

[0182] It should be appreciated by those skilled in the art, that the surface mating properties enable the individual structural frames 12 to further function as effective cable trays, cable management system, and conduits for the power and data cables coupled to the various ones of the display modules. Moreover, the sealed display modules 14, as will be described hereinafter in greater detail, eliminate the need for any type of sealing between the modules 14 and their receiving bay members, such as the bay member 6. This in turn, provides an added benefit namely that little or no static billboard steelwork modifications are required. Also with the aid of an interconnecting daughter board 20, as best seen in FIGS. 7 and 10, a significant reduction is achieved as only a single DC/DC converter is utilized to power the two optimum sized LED panels 14L and 14R respectively of the

4 display module 14. In short, the simplicity of the in field retrofit kit 10 enables a "Digital Sign in a Box" kit type of methodology, which moves assembly of the dynamic billboard 110, from the factory to a field end user. This is especially attractive for hard to reach or landlocked sites where cranes cannot gain access.

[0183]it should be further appreciated by those skilled in the art, that the structural foam material that each structural frame 12 is constructed of is not subject to post shrinkage and therefore the structural integrity of a resulting billboard 110, is protected and weatherized against post extreme cold and extreme heat

experiences in normal weather conditions. Moreover, mounting or latching tolerances required of the Iaiched in display modules will not be affected so there is no danger of a display module 14 or an other component of the sign 1 10 from distorting due to shrinkage. In this regard, safe and effective operation of the dynamic billboard sign 1 10 can be expected over a substantial life period of about 10-15 years or longer.

[0184JBased on the foregoing, it should be understood by those skilled in the art, that the retrofit kit 10 is a self contained, in-field or on-site, retrofit kit 10 for converting a static billboard 8 having a least one poster pane! 9 into a dynamic electronic billboard 110 which is adapted to be coupled to a universal source of electrical power. To effect the conversion from a static billboard 8 to a dynamic billboard 110, the kit 10 may be customized for the size of the static billboard 8 being converted, in this regard, there is no intention of limiting the size of the kit 10 to the precise size described herein as it is fully contemplated that larger and smaller kit size may be constructed, for example a kit with at least one modular compound structural frame 14 that is adapted to be mounted to at least one poster panel 9 of the static billboard 8. [0185]The number of modular compound structural frames 12 provided in any given kit 10, as noted earlier, is therefore determined by the actual size of the static billboard 8. in this regard, a static billboard can be as small as about a 2 square foot billboard or as large as needed, !n this regard, the kit is fully scalable by adding additional power enclosures and power junction boxes as needed.

[0186}Another unique and novel feature of the structural frame 12 as already briefly mentioned is that when a structural frame 12 is mounted to the poster pane! structures of the static billboard 8, the backside of the structural frame 12

cooperates with the frontside of the poster panels, such as the poster panel 9, to form a pair of air columns or self cooling air vents 91 as best seen in FIGS. 23 and 27A. The air vent columns 91 extend from the bottom of the structural frame 12 to the top of the structural frame 12. Still yet another unique and novel feature of the structural frame 12 is that the structural frame 12 further functions to define a plurality of wire routing paths, node receptacles, and frame/poster panel access paths which are disposed throughout the billboard 110. These access paths, as will be described hereinafter, ensure that all the HVAC power is confined to the backside of the billboard 110, while all the LVDC power is coupled to the frontside of the billboard 110; thus, making the billboard 1 10 very safe from potential electrical shock scenarios.

[0187JThe air vents or air conduits 91 formed between each structural frame 12 and its associated poster panels 9 are formed due to the physical structure of the structural frame 12 as it is secured to the flat surface area of the poster panel 9 on billboard 8. In this regard, a cooling vent 91 is disposed in a left side column of the structurai bay members or in a right side column of structurai ba members relative to a structural frame 12. In this regard, since the structural bay members are arranged in 5 separate rows and two separate columns, the structural frame 12 may be customized in size to provide a single cooling vent column 91 or a pair of spaced apart cooling vent columns 91 as needed.

[Q188]This passive cooling arrangement is an important and novel feature of the present invention, in this regard, when there is a large array of LED modules provided in a large outdoor biliboard display, there may be temperature variations across the display array, in particular, modules that are disposed toward the center of the display array or toward the higher points in the array, may reach higher temperature during normal operating conditions. It is for this reason that

conventional billboard display systems are provided with active fan driven cooling arrangement to compensate for these variations. The present invention however solves the variation in heat spots in a unique and novel way with a passive cooling system that uses the cooperation of air channels 91 (FIGS. 23 and 27 A) built into the backside of each structural frame 12 to provide a plurality of cooling conduits spread out across the whole of the structural frame array 30. Moreover, windows or cutout areas, such as a daughter board window 330 (FIGS.5-6) forming part of each structural bay member 16 enable a set heat sink cooling fins, indicated generally at 24F (FIG. 1 1 ) associated with each display module 14, to be located within an associated cooling vent 91 where air flow travels from a bottom area of the billboard 110 to a top area of the billboard 1 10 by natural air flow convection. With this natural air column structure, should a billboard 110 be constructed from a retrofit kit 10 and installed in an extremely hot and humid environmental area of the country, cooling fans could be quickly and easily installed for each cooling vent 91 to provide forced convection cooling along these cooling vent paths, if needed.

[0189 J Yet another unique and novel feature of the compound structural frame 12 is its compound structure. That is, a single structural frame 12 contains plural structural bay members, such as the structural bay member 16. Each bay member 18 is adapted to latchingly receive and secure one completely wea^'therized display module 14, which in turn* as already mentioned is configured with side by side LED boards or panels, such as the ieft side display panel 14L and the right side display panel 14R. The bay member 18 and the display module 14 of the retrofit kit 10 are provided with complementary alignment and latching features that will be described hereinafter in greater detail, it will suffice for the moment to mention that each display module 14 includes a set of rear side alignment receptacles, such as a rear side alignment receptacSe 14AR, as well as a pair of spaced apart center alignment receptacles 14CAR as best seen in FIG. 9, which receptacles MAR and 14CAR are adapted to s!idably receive therein a corresponding set of structural bay alignment posts or columns, such as upstanding aiignment posts 60AR and 60ARC respectively (FSGS.4-5). In this regard, each display module 14 is slidably mounted into a structural bay 16 from the frontside of the billboard 1 10 for easy and quick installation.

[Q190JAs mentioned earlier, the display module 14 of the present invention is latched into placement within an associated structural bay member 18. In this regard, each display module 14 also includes a set of latch receiving members, such as a latch receiving member 14LSV1 (FIG. 9), which latch receiving member 14LIVI is adapted to receive a latch member 418 (FIG. 5} from an associated latch assembly 412, which assembly 412 is mounted within the structural bay

member 16. This latching arrangement is an important and novel feature of the present invention, as it not only allows for the individual ones of the display modules to be easily and quickly installed or removed from an associate structural bay member 16, but it also protect each display module 14 from being dislodged from its associate bay member 16 due to unwanted and unexpected wind load forces. [0191]lt should be noted that each display module 14 is latched into place by a simple quarter turn with a latch access tool (not shown) such as a conventional Allen wrench tool. It should further be noted that when a display module 14 is mounted within an associated structural bay members 18, it is mounted in abutment with another display module 14. In this regard, a continuous line of display modules is configured on the frontside of the billboard 1 10 as best seen in FIG. 25 to provide an uninterrupted side by side relationship and an uninterrupted top to bottom relationship. The abutment of the weatherized display modules, in a tight fit with one another, is therefore by design and effectively seals the frontside of the structural bay members of each structural frame within the array 30, while at the same time forming a substantially f!at frontside face construction for the billboard 1 10, which substantially flat front face construction is extremely resistant to wind load forces.

[0192]As above-described, each display module 14 is latched in place by a latch assembly 412 which is disposed to the backside of the display module 14 creating a latch assembly access issue. This access problem for removing a display module 14 from its associated bay member 16 from the frontside of the billboard 1 10 was solved by providing each display module 14 with a set of latch access holes, such as a latch access aperture 17H as best seen in FIG. 9. In this regard, the access aperture 17H enable an installer to use his or her tool and reach a sufficient distance through the display module 14 to activate each associated latch with a simple quarter turn, thus securing the display module 14 within its structural bay member 16.

[0193JThe display module 14 is further adapted to be coupled to a universal source of electrical power via an individual one of the plurality of wire routing paths that will be described hereinafter in greater detail. For the moment it will suffice to state that the display module 14 operates on a direct current low voltage source which is coupled from the backside of the billboard 110 to the frontssde of the billboard 110. The modular electrical conversion device or display module 14 is further adapted to be coupled to a data source via an individual one of the plurality of wire routing paths. Each one of the LED boards, forming part of the display module or the moduiar electrical conversion device includes a plurality of electrical elements coupled to the constant power source and to the data source for converting electrical energy into visible radiant energy indicative of an electronic message intended for pubic viewing.

[0194]Fina!ly it should be noted that the structural frame 12 (FIG. 23} has a sufficient depth dimension and a sufficient strength construction so that no unexpected wind loads within norma! building code weather conditions can be expected to overstress a structural frame 12. To further obviate such bending stresses, each structural frame 12 of the billboard sign 110, has been provided with a sufficiently large number of restraint/bolt locations, such as a center frame bolt location feature 62 and an outside frame edge bolt location 63. These center restraint location features 62 are disposed along the center of the structural frame 12 in a spaced apart manner from the top of the structural frame 12 to the bottom of the structural frame 12. In a similar manner the outside frame edge restraint location features 63 are disposed along the right side edge and the left side edge of the structural frame 12 from top to bottom of the structural frame 12. To over restrain the billboard 1 10 relative to the undersurface poster panels, if necessary, each structural frame 12 is further provided with intermediate bolt location features 61 which also extend from the top to the bottom of the structural frame 12. Such over or excess restraint ability built into each structural frame 12 substantially eliminates the danger of such bending stresses. During installation of the retrofit kit 10, a minimum bolt pattern is established based on worst wind loads and the allowable stress on the frame 12. in short, the new and unique billboard 110 is designed to reduce tensile stress and to optimize the ad bearing capabilities of the designed billboard structure 1 10.

[0195]The above-mentioned multiple bolt locations 61 , 62, 63 also enables flexibility during the installation of the retrofit kit 10. For example, in order to miss a panel seam in an existing gauge metal structure associated with a static billboard 8, an installer can easily avoid such a seam by simply utilizing an adjacent bolting feature. This, in turn, means that during the installation of the retrofit kit 10 less billboard structural steelwork modifications, if any, are required greatly reducing installation time. Moreover, it should be further understood that because the sealed display modu!es14 are removably latched into place within respective ones of the bay members 16, such display modules 14 can be easily and quickly removed from the frame 12 thereby allowing additional bolts to be secured to a frame 12 accommodating possible future changes in a building code wind load design should that ever occur. Again this is an important, unique and novel feature of the present invention since there is the ability to replace sections of the billboard 1 10 without the use of heavy machinery. Moreover, if desired as earlier-mentioned, the billboard 1 10 may be easily and quickly disassembled and transported for installation at another static billboard location. For example, first using the dynamic billboard at a football field and then later using the dynamic billboard at a baseball field. This is an important and uniquely novel feature of the present invention although it is not expected that this feature will be utilized to any great extent because of the substantiall Sow cost of the billboard components and labor.

The Poster Panels of an Existing Static Billboard

[0196JSince the retrofit kit 0 is mounted to existing poster panels 9 of a static billboard 8, it should be understood by those skilled in the art, that preparing a site for installation of the retrofit kit 10 is an important step in the retrofit process. This preparation process will be described hereinafter in greater detail. For the moment; however, it should be noted that eac poster panel 9 that will receive a structural frame 12 of the retrofit kit 10, must be substantially flat and uniform and cleaned of any residua! poster paper. This is necessary since the structural frames that will be installed, need to be aligned with one another, and the structura! frames need to lay flat against and in intimate contact with the surface of each poster pane! 9. It should also be noted that poster panels are an industry standard. They are typically constructed of 20 gauge sheet metal, which is formed into interlocking panels. The total depth of a poster panel is about 2 inches so the bolts and self-drilling or tek- screws utilized to secure the structural frames to the underlying poster panels 9 can pass through the panels without the use of anything but standard stee! drills and the like.

The Compound Structura! Frame

[0197}Considering now the compound structural frame 12 In greater detail, each compound structural frame 12 as earlier-mentioned is composed of a structura! foam material, which is a type of cellular plastic with a dense outer skin surrounding a foam core. Structural foam was selected because of its light weigh, strength and its ability to be easily molded to provide the many unique and novel features designed into each structura! frame 12. In this case, it should be understood that structural foam molding is a process for making extremely strong, rigid and lightweight p!astic parts and products that have a hard outer "skin or shell" and a hard honeycomb type foamed inner core. The structura! foam molding process is an extension of a standard injection mo!ding process but is a great!y improved process for the present invention providing several unique and important advantages. [01983 For example, using injection molding would be very impractical and cost prohibitive for the large 4 foot by 5 foot structural frames of the present invention. Moreover, the steel molds required in injection molding as opposed to the aluminum molds used in structural foam molding, would present another serious problem relative to costs. This deficiency of injection molding relative to the structural frame 12 of the present invention is due to the many built in design features in the structural frame 12 which help to modularize this component. For example, the built in cooling conduits that facilitate a passive cooling structure without the need for using cooling fans; or the built in node receptacles and wire routing paths that facilitate the use of preformed wiring harnesses and the use of jumpers that facilitate redundant data path resulting in a significant reduction in power and data routing complexities but making injection molding quite impractical.

[0199] Another unique and important feature of the present invention is that all power delivered to the structural frame array 30 for use by the installed display modules is rectified to less than 30VDC at the backside of the billboard 110. This low direct current voltage is then coupled through a pair of power access holes or opening from the backside of the billboard 8 to the frontside of the structural frame array 30 where the rectified low voltage power is safely routed within a structural frame array 30 using preformed wire harnesses that will be described hereinafter in greater detail. For now it will suffice to mention that a preformed power/data wiring harness 2400H (FIG. 24C) provides a plurality of preformed nodes or over-mold node features 2401-2411 , where the preformed nodes are configured to be snapped or pressed into position in wire harness node receptacle features, such as an upper wire harness node receptacle feature 350 and a Sower wire harness node feature 351 (FIG. 23), which receptacle features are built into the structural frame 12. In short, a significant reduction in retrofit time is achieved by the unique and novel complementary features of structural frame receptacle coupled/with power/data wiring harness over-mold node features.

[02003 Although the time to mount a structural frame 12 of the present invention is much greater than the time to mount an LED display module 14 of the present invention (due to screw and bolt fastening requirement as opposed to simply positioning and sliding an LED module 14 in place in an associated structural bay member 16 and then latching the module into place), it should be appreciated that the large, hand mountabie, 5 foot by 4 foot modular structure of each structural frame 12 coupled with a plurality of row aligned and column aligned structural bay members 16 configured to receive a universal display module 14, that do not need or require sectional markings or indicia, facilitates quick and easy installation of the retrofit kit 10 at a Sow cost. For example, it would be extremely impractical to need to mount one hundred structural frames in order to accommodate 100 LED modules where weatherization of the frames is in-field Sabor intensive, whereas weatherization of the LED modules is in-factory Sabor intensive. From the foregoing, it should be understood that due to yield, weight and manufacturing limitations, the structural frames 12 and the LED display modu!es 14 of the present invention, are each optimized in size and in ease of in-fieid installation to be fully protected against building code weather conditions.

[0201 J From the foregoing, those skilSed in the art should clearly understand that the structural frame 12 is designed with the following unique and novel features as part of the retrofit kit 0: (1 ) each frame 12 is composed of Sight weigh durable structura! foam which is sufficiently Sight in weight (no greater than 50 pounds) that the frame can be easily Sifted and installed by a single worker without the need of a crane or any other heavy Sifting equipment; {2} each frame is modularized with build in design features that not onSy help substantially minimize retrofit kit installation time, but which also reduce operating costs; {3} each structural frame 12 is identical, and may be easily and simply reduced in size to it lowest modular structure for duplicative installation weatherizing processes; (4) each structural frame 12 is identical and easy to install which minimizes the skill level required for installing the retrofit kit 10; (5) each structural frame 12 has built in cooling vents capabilities thus, avoiding compSicated cooling schemes with electrical cooling fans and the like for the on-board electronics; (6) each structural frame 12 is protected from insect infestation and is further protected from unwanted and undesired small animal and bird invasion; and (7) each structural frame 12 is provided with a safety fall prevention feature in the form of a Ianyard receiving hole 89 (FIG. 23) which allows the frame 12 to be temporarily attached to an anchored lanyard so the frame 12 can not fall while be installed to a structural back panel.

Over-Mold Node Locators and Node Receptacles

[0202]Considering now the structural frame 12 in still greater detail, each structural frame 12 is provided with the capability of accepting in predetermined cable routes preformed power and data cable harnesses, such as the power and data harness 2400H as best seen in FIG. 24C. In this regard, each column of structural bay members 16 is provided with a total of 6 over mold node receptacle features which extend from the top of the structural frame 12 to the bottom of the structural frame 12. in this regard, each structural bay member 16 is provided with a single upper over mold node receptacle feature 350 {FIG. 23), but only the bottom row of structural bay members 16 is provided with a pair of over mold node receptacle features, namely the upper wire harness node receptacle feature 350 and a lower wire harness node receptacle feature 352. This is an important and novel configuration as the extra or lower wire harness node receptacle 352 will cooperate with a power introduction over mold node 2406PS (FIG. 14) forming part of the power data harness 2400H to facilitate a 10AWG wire spliced to a 14AWG wire

6 midway in the associated power data harness 24Q0H as best seen io FiG. 24C and 28. When two structural frames, such as the siructurai frame12₍ are aligned one on the bottom and one on ^"the top as best seen in FIG . 23, the above-mentioned splice takes place between in the bottom row of the top frame 12 or between the 5^th and 6^m over moid node locators of the harness 2400H as will be explained hereinafter in greater detail. For now it will suffice to state that this quick and easy "snap or press in place" process, using the over mold nodes of the preformed harness 2400H and the wire harness node receptacles 350 and 352 of the structural frame 12 facilitates quick and easy of installation of the power and data wiring harnesses required by the billboard 110. As ail of the power data harnesses 2400H are identical in structure, an installer simply starts by snapping or pressing respective ones of the over moid nodes into their respective ones of over mold node receptacle from top to bottom in the columns of structural bay members (FIG. 28). This wiring installation process therefore is accomplished in a very fast and convenient manner without the need of using complex and unnecessary node/receptacle identification indicia markings. In short, the structural frame 12 and the wire harnesses, such as the preformed wire harness 2400H cooperate with each other to provide a very efficient and novel data and power routing system because of the bui!d in design of wire routing features found within each structural frame 12.

[0203}As noted-above, the over mold node receptacles 350 and 352 in each column of structural bay members 16, define a built-in power and data routing features within each structural frame 12 which coupled with the simple, easy to snap or press in place power data harnesses, such as a power/data harness 2400H, facilitates quick and easy installation of the retrofit kit 10. The over-mold node features 2401-2405, 2406PS and 2406-2410 and the wiring harness node receptacles 350-351 are an important and unique feature of the present invention since these features in combination not oniy help expedite locating the routing and

6 instailation paths for the data power wiring, expedite inter-connections wsthin the structural frames 12, but they also help prevent harness damage during installation b helping to prevent the power and data harnesses from becoming tangled in bundle of wires which could be easily pinched and damaged during late installation of the display modules 14. It should also be understood by those skilled in the art that by limiting ail the High Voltage AC wiring to the backside of the poster panels and only passing low voltage DC power through to the frontside of the poster panels and structurai frames 12 an outstanding safety feature is achieved. That is, when an installer or maintenance person is working on the billboard 110 from the frontside of the billboard, that person will never be exposed to HVAC power. In short, the installer or maintenance person is protected from unwanted and dangerous electrical shocks when removing and replacing display modules from the frontside of the billboard 1 0 or when making any repairs on the frontside the billboard 1 10.

The Display Module

[0204]Considersng now the sealed display module 4 in greater detail with reference to FIGS. 8-11 , each hand mountable display module 14, is completel weatherized, self contained and ready for quick and easy installation in a bay member 18 forming part of a structural frame 12. The display module 14 generally has a longer horizontal dimension than vertical dimension and is arranged generally in about a one foot by two foot rectangular configuration. In this regard each LED displa module 14 is optimized in size for the structural bays of the present invention. As mentioned herein, each structural frame 12 may be reduced in size from it standard height width configuration to a smaller configuration if needed. In this smallest configuration, which is achieved by using a skill saw to separate the smallest configuration from the balance of the frame, the resulting structural frame 12 still has the ability to receive within its associated structural bay member 16 a single display module 14. in short then, the display module 14 is optimized in size and weight thereby substantiaiiy reducing the cost of replacement should a module 14 fail. That is, if this optimization was not achieved, and the display module was substantiaiiy larger in size, not only would the increased size, increase weight, but it wou!d further increase the impact of a manufacturing defect failure with a resulting increase in cost. Yield and weight are therefore important trade offs against the need to install a greate number of modules.

[0205]As best seen in FIG. 10, which is an exploded view of the display module 14, the display module 14 generally includes an LED frame 201 which is configured to receive two side-by side LED display panel assemblies, namely a left side displa panel or PCA assembly 14L and a right side display panel or PCA assembly 14R, where each display pane assembly 14L, 14R has a vertical dimension, and a horizontal dimension which dimensions are substantially equal in length. A frontside 201 F of each LED frame 201 is adapted for receiving and supporting therein the let side printed circuit assembly (PCA) 14L, and a right side printed circuit assembly (PCA) 14R. The let PCA 14L is received on a front left side 201 FL of the LED frame 201 , while the right PCA 14R is received on a front right side 201 FR of the LED frame 201 . For clarity purposes the printed circuit assemblies 14L and 14R are illustrated at the backside of the LED frame 201 although as above-noted, each assembly is installed in the frontside 201 F of the LED frame 201 .

[0206]The display panel assemblies 14L and 14R are each configured in about a one foot by one foot arrangement abutting one another as best seen in FIG. 25. Each display panel assembly 14L and 14R, provides a display array of two hundred and fifty six pixels, where each pixel is defined by a set of three different color light emitting diodes, namely a red color generating LED 225R, a green color generating LED 225G, and a blue color generating LED 225B as best seen in FIG. 16. The individual LEDs 225R, 225G, and 225 B combine to provide a three color pixel which converts electrical energy into visible radiant energy, which visible radiant energy is cast outwardly from the surface of the display module 14 to display information in recognized light patterns of images and text when viewed as a total assembly of light emitting diodes. In order to help substantially reduce ambient light effects, each display panel assembly 14L and 14R is provided with a louver in the form of a left frontside louver 17L and a right frontside louver 17R respectively. The frontside louvers 17L and 17R are adapted to be mounted to the face of respective ones of the printed circuit assemblies 14L and 14R on LED frame standoff features and a set of 13 screws (black paint, M2.6 x 8mm) per side. Please note, that for further clarity purposes, with reference to FIG. 10, each of the PCA assemblies 14L and 14R respectively are shown with only a single light emitting diode 225R.

[0207]As already earlier-noted each display module 14 also includes a centrally disposed daughter board 20 which handles the transfer of data between each of the display panel assemblies 14L and 14R respectively and also distributes power for use by the individual light emitting diodes. The electronic structure of the daughter board 20 will be described hereinafter in greater detail. For the moment, it will suffice to mention, that the daughter board 20 is adapted to be mounted to the backside of the LED frame 201 centrally disposed between the two PCA

assemblies 14L and 14R. This center mounting arrangement is an important and unique feature of the present invention. In this regard, this arrangement, (1 ) enables a single power and data control board 20 to drive two separate display panel assemblies 14L and 14R respectively; and it also (2) enables the heat generated from driving the large bank of light emitting diodes associated with the display module 14 to be dissipated rearward iy into a large daughter board heat sink 24. As already mentioned, and as best seen in FIG. 7, the heat sink 24 is disposed

6 within a cooling vent 91., when the display module 14 is latched/within an

associated structural bay member 16. The manner in which the component parts of the display module 14 are factory assembled will be described hereinafter in greater detail.

Detailed Construction of the Structural Frame

[Q2Q8JConsidenng now the structural frame 12 in still greater detail with reference to FIGS. 4-7 and 23, the structurai frame 12 is configured in about a 4 foot wide by 5 foot high modular unit composed of structural foam. The structural frame 12 is a compound structure since it contains: ten .substantially identical structures in the form of structural bay members, such as the structural bay member 18. Each bay member 6 as earlier-mentioned is adapted to receive and support therein a display module 14. As the structural bay members are substantially identical in structure, only one of the structural bay members will be described; however, as needed, any structural bay having a unique feature from any other structural bay members 16 will also be described. For example, as already discussed, the bottom row of structurai bays in a structural frame 12 includes an extra or iower over moid node receptacle 352{See FIGS. 4 and 23). The bottom row of structural bay members 16 also include an extra set of wire routing features, such as a left side wire routing feature 308 and a right side wire routing feature 310 that will be described hereinafter in greater detail. The wire routing features 308 and 310 as well as the Sower over mold node receptacle 352 are not found in the other four rows of structural bay members 16. These features are only found in the bottom row of structural frame bay members 16. This again, is an important and unique feature of the present invention, as it as will be described hereinafter in greater detail. For the moment, it will suffice to mention that these features enabie routing of the data connection cables 2400DC {FIG. 24B) along this bottom row of the frame array 30 as best seen in FIG. 17. In a like manner, these features will help

6 facsliiate coupling power wiring from the frorttside of the billboard to the backside of the billboard 110 as will be explained hereinafter in greater detail. Based on the foregoing, it should be understood, those structural frames with these unique features will always be installed in the 1^st and 6th rows of the frame array 30. §209]Considehng now the structural bay member 16 in greater detail with reference to FIGS 4-7, the structural bay member 18 generally includes a plurality of irregularly shaped weight reduction cutout areas, such as a top left weight reduction cutout area 312, a bottom left weight reduction cutout area 313, a top right weight reduction cutout area 315, a bottom right weight reduction cutout area 316 and a pair of center right weight reduction cutout areas 317 and 318 which are adjacent to weight reduction cut out areas 315 and 318 respectively. The plurality of weight reduction cutout areas 312-318 are strategically positioned so the weight of the frame does not exceed 50 pounds and so as not to compromise the structural integrity of the structural frame 12 so it can withstand wind load forces in excess of 100 pounds per square foot. Such cutout areas also provide access areas for installer to easil reach power and data harnesses, wire routing hooks, and over mold or snap-in node receptacles, in this regard, harnesses, jumper and connection cables can be easily routed and secured within the bay members and secured to wiring harness node receptacles, such as the upper wire harness node receptacles 350, the lower wire harness node receptacles 351 , which receptacles form part of each structural bay member 16.

[0210] As mentioned earlier, the bottom row of the structural bay members as best seen in FIGS. 4 and 23, include unique features not found in the other rows of structural bay members. As a result of these extra features, the other rows without these features are provided with different shaped cutout areas indicated generally

6 as an expanded bottom left side cutout weight reduction area 304 and an expanded bottom right side cutout weight reduction area 306 as best seen in FIG. 23.

[02113^~THe wire harness node receptacles 350-351 , are an important and unique feature of the present invention as they allow power and data wiring harnesses, such as the power data wiring harness 2400H, to be quickl and easily snapped or pressed into place within the frame array 30, which in turn, makes assembly of the plurality of harnesses 2400 H into the array 30 very efficient while at the same time helping the installer to easily organize the power and data wiring of each of the structural bay members 16.

[0212] Each structural bay 18 further includes a plurality of latch receiving boss areas, which are oriented either in a lateral direction relative to the structural frame 12 or in a vertical direction relative to the structural frame 16. The Satch receiving boss areas are further oriented to receive a frame latch assembiy, such as a frame latch assembly 412 as best seen in FIG. 5 within associated latch latching member 416 extending upwardly, downwardly, to the right, or to the left so that the LED ti!e or display module 14 secured by the respective different ones of the latch assemblies 412 is protected against unwanted and unexpected wind load forces within the scope of building code requirements. In this regard, there are two +Y latch receiving boss areas; including an upper left side +Y latch receiving boss area 322 and an upper center +Y Satch receiving boss area 323; a single left Sower side - X latch receiving boss area 324; an upper right side +X latch receiving boss area 327, and two -Y latch receiving boss areas, including a lower center -Y Satch receiving boss area 325 and a lower right side -Y Satch receiving boss area 326. Each of the latch receiving boss areas 322-327 have pairs of Satch mounting holes, such as a pair of latch mounting holes 320 and 321 respectively, which holes 320-

6 321 are dimensioned for receiving a latch mounting rivet 419 to facilitate mounting the frame !atch assembly 41 within its corresponding iatch receiving boss area.

[02133^~rhe orientation of the iatch receiving boss areas 322-327 and their associated frame iatch assemblies 412 is another important and novel feature of the present invention. In this regard the latching action of the individual frame Iatch assemblies 412 disposed in boss areas 322 and 327 are diagonally opposed in the ±Y directions, while the latching action of the frame iatch assemblies 412 disposed in boss areas 324 and 325 are diagonally opposed in the ±X directions, and finally, the latching action of the frame iatch assemblies 412 disposed in boss areas 323 and 328 are oriented in opposition to one another along a central axis of the structural bay member 16 in the +Y and -Y directions respectively. From the foregoing, it should be understood the mu!ti-latching-directions as described herein assures that a LED display module 14 is completely protected from unwanted and unexpected wind loads. As will be explained hereinafter in greater detail, each display module 14 includes a corresponding or complementary set of Iatch receiving receptacles, such as a display module iatch receiving receptacle 14LM as best seen in FIG 9. In this regard, the module receiving receptacles 14LM are oriented similarly to the frame Iatch assemblies 412, in order to facilitate latching engagement with respective ones of the latch assemblies 412 mounted within respective ones of the structural bay members 18. For now, it will suffice to mention, that because of the unique modular construction of both the structural frames 12 and the display modules 14, the display moduies of the present invention may be installed in any structural bay member 16 within the frame arra 30. In short, there is no need for identifying installation location indicia within the frame array 30 for individual one of the display modules 14, as their placement is universal within the frame array 30.

6 [0214]Each structural bay 16 further includes a centrally disposed daughter board receiving cut out area 330 {FIGS 4-5} which is disposed between the left side weigh reduction cutout areas 312-313 and the right side weight reduction cutout areas 317-318. The daughter board cut out area 330 is strategically positioned within the center of the structural bay member 16 directly over a structural frame lateral rear inside wall area 319 (FIGS. 8-7} that helps to define a vent column or cooling conduit, indicated generally at 91 in the structural frame 12. In this regard, a cooling conduit is formed when the structural frame 16 is secured with it rear face against the forward or front face of the poster panel 9 disposed directly rearward of the structural frame member 12. This daughter board cut out area 330 is sufficiently large to allow the heat sink fins 24F of the display module 14 mounted within such a cutout area to be disposed directly within the air path of the cooling conduit 91 as best seen in FIG. 7. In this manner, natural air flow along this cooling conduit 91 is sufficient to substantially cool a plurality of display modules which are similarly disposed in the same cooling conduit. For example, billboard 1 10 which is illustrated as being constructed with ten (10) structural frames 12 arranged in two rows and five columns would be provided with ten (10) structural bay members 18 in each row of the structural frames 12, and twenty (20) structural bay members 16 in each of ten column of structural frames 12 as best seen in FIG. 27. This array 30 of structural frames therefore, would include two cooling vents 91 in each structural frame 12 column, so a total of twenty cooling vents would be distributed across the entire frame array 30 given by equation 2:

Total Number of Cooling Vent = (10 Columns x 2 Vents/Column) = 20 Cooling Vents [Equation 2]

This in turn means that a total of 20 chimney vent locations would be disposed across the top and bottom of the structural frame array 30.

6 E0215JA9 already explained, labor costs are greatly reduced relative to using the retrofit kit 10 to convert a static billboard 8 into a dynamic billboard 1 0 because for a 11 foot by 22 foot billboard sign only requires ten. (10) structural frames and one hundred (100) completely vveatherized LED modules 14. To help minimize the time to install a structural frame so that the frame 12 is also completely vveatherized against bui!ding code weather conditions, each structural frame 14 is provided with a pilot hole feature, such as a pilot hole feature 64 as best seen in FIG. 4. The pilot hole feature 64 is disposed in the bottom row of structural bay members 16 and therefore this feature helps an installers immediately identify the top and bottom of each structural frame 16 for frame array 30 mounting purposes. As will be explained hereinafter in greater detail the pilot hole feature 64 also helps an installer to determine where access holes 114H - 16H (FIG. 17) will be drilled in the frame array 30 for routing power and data wiring within the structural frame array and out to the backside of the billboard 110 for connection to power junction boxes and a power data controller enclosure box as will be explained.

[0216]Considering now the frame latch assembly 412 in greater detail with reference to FIG. 30, the frame latch assembly 412 generally includes a frame latch housing 414 and a frame latch latching member 416. The housing 414 and the frame latch latching member 416 are adapted to be securely mounted within a latch receiving boss area of the structural bay member 16 as previously discussed. In this regard, the proper mounting orientation of a frame latch assembly 412 relative to an associated receiving boss area is done quickly and easily by the orientation of the boss receiving areas. In other words, a frame latch assembly 412 can only be received within a boss area in the correct mating orientation. Once the frame latch assembly 412 has been received or mounted within a boss area it is secure within the boss area by a frame latch assembly mounting rivet 419 which fastens the

7 assembly 412 to the structural bay member 18 of the structural frame 12. It is contemplated that in order to expedite field installation time of the retrofit kit 10, that frame latch assemblies, such as the frame !atdh assembly 412 will be secured by a rivet to the structural frame 12 at the factory during structural frame construction time at the location of a structural frame vendor, rather than installing the latch assemblies 412 in the field.

Detailed Construction of the Display Module

[0217]Considering now the display module 14 in still greater detail with reference to FIGS. 10-11 , 13 and 32-33, in order to facilitate the distribution of data and Sow voltage power, each displa module 14 is provided with an integrated circuit assembly as the heretofore mentioned daughter board 20. The daughter board 20 is mounted to an LED frame 201. FIG. 32 is a backside view of the LED frame 201 , and FIG. 33 is a frontside view of the LED frame 201 , without the daughter board 20 being mounted thereto. Referring again to FIGS. 10-11 , the daughter board 20 generally includes a printed circuit board 21 having mounted thereon a microcontroller which is disposed in an integrated circuit can 26 and a direct current to direct current converter 25. The micro controller 26 functions as an input/output data transferring device which is mechanically and electrically coupled to a twelve- pin power and data connector, indicated generally at 27. The connector 27 is mounted to the printed circuit board 21 and is adapted to be connected to a mating power and data connector 2400HM forming part of a set of preformed power data harnesses, such as the harness 2400H. The power data harnesses 2400 H distribute power and data throughout the array 30 of structural frames as best seen in FIG. 1 . The direct current to direct current converter 25 includes a left side Sow voltage channel 70 and a right side low voStage channel 72 for distributing a stepped down low voStage from 24-30VDC to 4VDC for use by the individual Sight emitting diodes, for examp!e diodes 225R, 225G and 225B (and their drivers),

7 forming the pixel structures on the display panels 14L and 14R respectively. The daughter board .20 also includes a daughter board dam, indicated generally at 22, which is adapted to be secured to the printed circuit board 21 by screws (not shown) through the plastic frame. The daughter board dam 22 overlays a thermal pad forming part of the DC-to-DC converter 25. The dam 22 allows for an isolated increased potting depth at the connector, which is aligned to the board before the dam 22 is placed in position. The dam 22 also facilitates the mounting of the daughter board heat sink 24 in proper orientation to the other components of the daughter board 20.

[0218]To facilitate distribution of data and power to respective ones of the display panels 14L and 14R, the daughter board 20 is further provided with a pair of spaced apart pin headers, including a left side pin header 28LSPH and a right side pin header 28RSPH which in combination with the power data connector 27 enables the display module 14 to be electrically and mechanically coupled to the power data distribution system 120 as will be explained hereinafter in greater detail.

[0219]As already mentioned, the display module 14 generally includes a left side PCA display panel assembly 14L and a right side PCA display panel assembSy 14R. As will be described shortly, and as best seen in FIG. 10, the left side PCA assembly 14L includes a printed circuit board 610, while the right side PCA assembSy 14R includes a printed circuit board 612. Sometimes during the following detailed description of the assembSy of the display module, the term PCA assembly 14L may simply mean the printed circuit board 610 with loaded light emitting diodes. In a similar manner the term PCA assembly 14R may simply mean the printed circuit board 612 with loaded light emitting diodes. This occurs

once the assembSy of the display module 14 has been completed the left side PCA assembSy 14L and the right side PCA assembly 14R are adhesive secured to the LED frame on their respective front iefi side 201 FL and front right side 201 FR and can not foe removed individually from the LED frame 201. The above described terminology therefor occurs during those instances where the PCA assemblies 14L and 14R have not been adhesive secured to the LED frame 201 and it is utilized simply for that purpose.

[0220}Considering now the PCA assembly 14L in greater detail, the PCA assembly 14L generally comprises a printed circuit board 610 which is provided with a plurality of pairs of LED mounting holes, such as LED mounting holes 620-621 as best seen in FIG. 31. The LED mounting holes 620-621 are dimensioned for receiving and surface mounting individual ones of the LEDs 225R, 225G and 225B. In this regard, the positive and negative leads of the LEDs are received in their respective mounting holes, trimmed and soldered to the printed circuit board 610, until ali the LED mounting holes disposed on the printed circuit board 610 have been loaded. The printed circuit board 610 is also provided with a set of latch access holes, such as a latch access hole 634 that enables frontside access to the structural frame latch assemblies and their actuators, such as an actuator 418 as best seen in FIG. 30. The printed circuit board 610 also includes a set of header pin mounting holes, indicated generally at 635. These header pin holes indicated at 635 are dimensioned for receiving a set of header pins, which extend outwardly from the connector 28LSPH mounted to the daughter board printed circuit board 21. The PCB assembly 14R, since it is mounted to the right side of the LED frame 201 , has its header pin mounting holes 635 disposed on the center left side of its associate printed circuit board 612. Indicia markings, such as the indicia marking indicated generally at 637 provide an assembler a visual indication of whether a given board is to be mounted on the top left side of the LED frame 201 or on the top right side of the LED frame 201. This orientation is important as it provides an indication of a further position reference so the latch access holes 634 in the

7 printed circuit board 610 are placed in their proper orientation to the other component parts of the display module 14.

[O2213AS best seen in FIGS. 10 and 32-33, the left side PGA 14L is adapted to be securely mounted to a front left side 202 FL of the LED frame 201. In a similar manner, the right side PCA 14R is adapted to be securely mounted to a front right side 201 FR of the LED frame 201. For the moment, it will suffice to mention that the left side PCA 14L is provided with a left side pin header slot or opening, indicated generally at 21 1 , while the right side PCA 14R is provided with a right side pin header slot 212 which is larger than slot 211 as it further accommodates the power data connector 27 as best seen in FiG.33. These slots 21 1 and 212 are utilized for aligning and helping to mount the power data connector 27 and the left side pin header 28LSPH and the right side pin header 28RSPH of daughter board 20 to the LED frame 201 . In this regard, the daughter board 20 is mounted by a pair of screws {not shown) to a centrally disposed dam receiving space or area indicated generally at 214 on backside 201 B of the LED frame 201 .

[0222]To facilitate these various mounting tasks, the frontside 201 F of the LED frame 201 is provided with a set of alignment mounting features, such as an alignment mounting 204 (FiG. 33), while the individual ones of the printed circuit board assemblies 14L and 14R are each provided with a plurality of alignment holes, such as a left side alignment hole 830 as best seen in FIG. 31. in this regard, during assembly of an individual one of the display modules 14, which assembly occurs in a factory setting and not on-site or in-the-field, an assembler will line up the plastic stand-off features 204 disposed on the front left side 201 FL of the LED frame 201 with the left side alignment hoies 630 disposed in the left side PCB 610. Each individual one of the printed circuit board assemblies 14L, 14R is marked with orientation indicia in the form of a left or right arrow indicating which side of the

7 PCA is up. Assembly continues by the assembler making certain that the PCS 610 is push down flush within the front left side 201 FL the LED frame 201. This alignment and mounting procedure is repeated for the front right side 201 FR of the LED frame 201 and the right side PCS 812. Once the printed circuit board assemblies 810 and 612 are mounted flush to the LED frame 201 , they are then secured to their respective frame sections utilizing a set of seventeen (17) Zinc plated, M2.6 x 8mm screws with a torque driver set to 5 inch pounds.

[0223]Considering now the weather sealed display module 14 in still greater detail with reference to FIGS 10-1 and 32-33, the LED frame 201 , is provided with a set of daughter board alignment features, such as an alignment feature 206 as best seen in FIG. 33. The daughter board alignment features 206 facilitate assembly of the daughter board 20 to a backside of the LED frame 201. In this regard, with the LED frame 201 flipped over onto a soft ESD sage surface, the daughter board alignment features 206 are dearly seen and are utilized to mount the daughter board 20 to the LED frame 201. As best seen in FIG. 1 1 , the circuit board 21 , forming part of the daughter board 20, has a corresponding set of alignment features in the form of a set of alignment holes 207 and 208 respectively. The alignment holes 207 and 208 are dimensioned to receive therein the alignment posts 206 of the LED frame 20 .

[0224J During assembly, after the board 21 has been mounted to the LED frame 201 , the alignment holes 207, 208 led with a standard industrial silicone sealing agent. Once the alignment holes 207 and 208 are sealed, the power data connector 27, which is a standard Moiex connector, and the left side pin header 28LSPH and the right side pin header 28RSPH are aligned with their respective header openings 211 and 212 in the left side PCA 14L and the right side PCA 14R, while the pins of the data power connector 27 are aligned within the alignment opening 212. The connector body of the power connector 27 is further aligned with a piastic dam alignment feature 230 which is disposed on the backside the LED frame 201. When so aligned, the daughter board 20 is then pushed downward into place until it is flush with the LED frame 201.

[§225]To facilitate correetiy mounting the brick 25, the brick 25 is provided with a set of off set holes (not shown) which should be aligned toward the center of the daughter board 20 over the large integrated circuits disposed on the daughter board 20. Once the brick 25 is mounted, then a thermal gap pad 25A is mounted to brick 25.

[0228JNext in the assembly process of the display module 14, a bead of industrial silicon is deposited around the edges 22E of the daughter board dam 22. This bead of silico material forms a dam around the connector pins of the power data connector 27. The daughter board dam 22 is then installed over the daughter board 20 with the silicone side of the dam 22 and against a corresponding centrally disposed dam feature indicated generally at 233 (FIG. 32} forming part of the LED frame 201. The daughter board dam 22 is then secured in place over the daughter board 20 with a single screw (Zinc plated, M3x15) with a torque driver set to 5 inch pounds. This structure forms a sea! preventing potting material that will be introduced from leaking away from the daughter board 20.

[0227]With the daughter board dam 22 and thermal gap pad 25A installed, the daughter board heat sink 24 is then mounted to the dam 22 with a set of six (6) Zinc plated screws (M3x15). The heat sink screws further secure the dam 22 to the LED frame 201. It is important to note that the screws for securing the heat sink 24 to the dam 22 must be followed in a direct sequence as follows: first in the middle left, second in a top right, third in a top left, fourth in a middle right, fifth in a bottom

7 left, and sixth in a bottom right. This order reflects that the header connector on the right hand side of the assembly .

[0228] e t, the left side pirs header 2SLSPH is soldered to the face of the left side printed circuit board 610 or PCA 14L, while the right side pin header 28RSPH is soidered to the right side printed circuit board 612 or PCA 14R. The frontside of the display module 14 is then potted using a standard potting compound, such as a potting compound manufactured and soid by Shin-Etsu Chemical Co. Ltd. of Tokyo, Japan, identified as their 3 component mat surface potting material KE-1283. In this regard, the potting is poured to substantially a 3 millimeter depth and then cured in an oven at ninety (90) degrees Centigrade for about 30 minutes. The potting in this case must cover every exposed surface area of the printed circuit boards 610 and 612 but without allowing any of the potting material to touch the tips of the Sight emitting diodes mounted in their respective printed circuit board assemblies 14L and 14R.

[0229 J After the display module 14 has been removed from the oven and allowed to cool, the left side louver 17L is install to the face of the left side printed circuit board assembly 14L using a set of thirteen screws (black paint, M2.6x 8mm) per side. A louver visor 17V (FIG. 10) is disposed at an edge portion oft one side of the frame 201 but not on the other side. That side with the visor 17V is a top side and is installed accordingly so that when the display module 14 is in the upright position, the top row of light emitting diodes mounted therein will all be red light emitting diodes.

[0230JNext, the daughter board dam 22 is potted with a standard potting

compound, such as a potting compound manufactured and sold by Shin-Etsu Chemical Company, Ltd as identified earlier. In this regard, the potting of the

7 daughter board dam 22 must be foi lowed in a direct sequence as follows: first that side opposite the power data connector 27 starting with the dc-dc brick side first. This area is filled with a sufficient amount of potting material until the potting materia! is level with the bottom of the aluminum extrusion of daughter board heat sink 24. Next, the power data pins are encapsulated with the potting compound, which is a sufficient amount of potting material, is poured over the pins until they are completely covered. Finally, the balance or rest of the daughter board dam 22 is filled ensuring that ali areas and a!i components of the daughter board 20 are completely covered.

[0231JAs a final step, a set of perforated potting troughs, such as an elongate perforated potting channel 232 having a plurality of perforations, such as a perforation 234 disposed along it bottom trough area are disposed on the rear or backside of each of the printed circuit board assemblies 14L and 14R respectively are filled to a depth of about 2 millimeters with a standard potting compound, such as a potting compound manufactured and sold by Shin-Etsu Chemical Company, Ltd. identified earlier. Once all the troughs are filled, the display module 14 is placed in an oven at ninety (90) degrees Centigrade for a period of about 30 minutes to allow the poured potting compound to sufficiently cure. The display module is then removed from the oven and allowed to cool.

[0232JAs noted earlier, the assembly process followed for assembling each dispiay module 14 is done at a factory and not on-site or in-the-field where the conversion process is being performed. In this regard, the retrofit kit 10 is provided with a set of completely assembled display modules, such as the sealed display module 14. Each sealed displa module 14 then is completely weatherized and made immune to invasion by insects and other small animals. This is an important feature of the

7 present invention, FIG. 18 ^"provides a flowchart depiction of the display module board 14 assembiy processes.

[02331Considering now the display modules in still greater detail, each display module 14 is provided as a completely sealed printed circuit board assembly which is substantially rectangular in shape with a Song X axis, an intermediate Y axis, and a short Z axis. Each module 14 is completely sealed from the outside and each display module 14 as best seen in FIGS. 8-9 has a frontside 215 and a backside indicated generally at 216. The backside 216 has a plurality of module alignment features, such as a module alignment feature 4AR and 14CAR. The individual alignment features MAR and 14CAR extend along the short Z axis of the module 14. The backside 216 also has a plurality of latch receivers, such as a Iatch receiver 14L . The individual ones of the latch receivers 14LM each have a Iatch access opening or cutaway area indicated generally at 220 which openings 220 are dimensioned to receive therein a module latch 416 forming part of Iatch assembly 412 mounted on the frontside of the structural frame array 30. In operation, when a Iatch 416 is received within an individual one of the Iatch receivers 14L ₅ the Iatch 416 and !atch receiver 14L cooperate to pull the display module 14 into its associated structural bay member 18whiSe simultaneously applying a retaining tension so the displa module 14 is held in a tight fit within its associated structural bay member 16 of the structural frame array 30.

[0234JA total of six (6) module latches receivers 14LM are provided on each display module 14 and these receivers 14LM are aligned to receive the structural frame latches, such as a latch 416. !n this regard, the receiver latch openings 220 are configured to receive an associated module Iatch 418 in generally a lateral direction which is parallel to the XY plane of the display module 14. In this regard, two of the Iatch openings 220 receive a module Iatch 416 in the +Y direction, two of the latch openings 220 receive a module latch 416 in the -Y direction, one of the latch openings 220 receive a module latch 416 in the + X direction, and one of the latch openings 220 receive a module latch 416 in the - X direction. Stated otherwise, the module latches receivers 14L V! and the structural frame latch assemblies, such as the latch assembiy 412 are arranged in a generally zigzag layout pattern which allows for flexibilit during installation but more importantly and which is considered a unique and novel feature of the present invention. In this regard, the zigzag layout optimizes and protects each module display 14 from being dislodged from its structural bay member 16 due to unexpected high force gusts of wind. It is in this manner, each individual display module 14 is firmly and securely latched within an associated structural bay member 16. Each individual latch receiver 218 further has disposed adjacent to it a tool access opening indicated generally at 224, which is best seen in FIG. 32 which is a back plane view of the LED frame 201. Each tool access opening 224 is dimensioned and

configured to receive therein an actuation tool 912 for engaging and actuating the module latch actuator 418 associated with its latch 416 (FIG. 30).

[0235] In summary then, as best seen in FIG. 18, a display module manufacturing process 6010 begins with a start step 6012, and immediately advances to a fabricate a printed circuit board assembly step 6021. At the fabrication step 6021 , a printed circuit board assembly, such as the PCA 14L is assembled as described earlier herein. The manufacturing process continues to an assembly step 6032, where the individual PCA units 14L and 14R are attached to the frontside 201 F of the LED frame 201 by a set of fasteners {not shown).

[0236JNext, at an assembly step 6036, an assembled daughter board 20, is secured to the backside 201 B of the LED frame 201. During this assembly process, the header pins extending from the daughter board 20, from its left side and from its

8 right side are received within the header pin mounting hoies 835 of respective ones of the printed circuit boards 810 and 812 forming part of PGA assemblies 14L and 14R respectively. Next, the daughter board heat sink 24 is attached to the backside of the daughter board 20 at a form thermal interface step 6040 and its associated attach heat sink step 6048.

[0237}Next, the now partially assembled display module is tested at a testing ste 8050 to verify that the daughter board 20 and the associated PCA units 14L and 14R are fully operational. If not operational, the unit is diagnosed to determine what repairs are necessary to place the assembly into an operational condition and repair is made. If the partially assembled dispiay module is fully operational, the heade pins of the daughte board are soldered at a solder step 6060 to their respective printed circuit boards.

[0238]Once the dispiay module is so assembled, a weather sealing step 6070 is performed where the perforated adhesive channels 232 of the frame 201 are filled with a potting compound adhesive 236 (FIG. 9). This adhesive flows through the perforations 234 and forms a sealing layer of compound across the entire rear surface of the printed circuit board assemblies 14L and 14R respectively. The potting compound is allowed to cure in an oven at about 80 degrees Centigrade for about 30 minutes. Once cured, the display module 14 is removed from the oven and turned over to its frontside where the assembly process is completed at an attach louvers step 6080. At the attach louver step 6080, the right side louver 17R is attached to the right side display panel assembSy 4R and the ieft side louver 17L is secured to the frontside 201 F of the left side display panel assembly 14L. The manufacturing process then ends at an end or stop manufacturing display module step 6082. An important feature and novel feature of the present invention is that display modules or tile 14 may be installed within any structural bay member 16

8 forming part of the frame array 30. No special marking or indicia is need on an display module 14 to indicat where it should be installed within the frame array 30 and thus, significantly and substantially reducing installation and retrofit time.

[0239]The above-mentioned electrical structure of the display moduSe14 is best seen in FIG.13, which is a block diagram illustrating part of the power data routing system 120 (FIGS. 17 and 26). That is, the power data routing system 120 is routed and installed both on the frontside of billboard 110 via the structural frame arra 30 and on the backside of the billboard 1 10 via the various components of the power modification kit 10C. Each individual display module 14 mechanically and electrically couples into this power data routing system 1 10 to provide radiant light energy. FIG. 13 therefor is a very simplified electrical block diagram of the display module 14 illustrating its interconnecting electrical component and interconnections that will be described hereinafter in greater detail. For the moment, it will suffice to mention that the power requirements for the billboard 110 are determined by the voltage drop constraints and that routing paths for power data wiring harnesses are fixed by various structural frame features that have been described herein with greater detail.

[0240] Referring now to FIG. 13, the electrical structure of the display module 14 is illustrated in very simplified block diagram form, showing that the display module 14 generally includes the daughter board 20 and its associated LED display pane! boards 14L and 14R respectively. The daughter board 20 includes an integrated circuit board 21 having mounted thereon a DC-to-DC converter 25 and a micro controller 26. Both the DC-to-DC converter 25 and the micro controller 26 are electrically coupled between a power data interface indicated generally at 28 and respective ones of the LED display panel boards 14L and 14R. In this regard, the DC-to-DC converter 25 is electrically coupled to display panel 14L by a left board

8 DC power path 70 and to display panel 14R by a right board DC power path 72. The micro controller 26 is coupled to display panel 14L by a left board data path 80 and to display panel 14R by a right board data path 82.

[0241 ]The power data interface 28 includes direct electrical connections from the twelve-pin data/power connector 27 via a power port pin 27P and power conductor 73 that provides 24VDC power to the DC-to-DC converter 25. The power data interface 28 also includes a direct electrical connection from the connector 27 via a pair of data port pins 27D1 and 27D2 and a pair of data connectors 81 and 83 respectively that provide input and output data paths to the micro controller 26 and its input port 26! and its output port 260. In this arrangement, a closed loop data path is formed between the display panels 14L and 14R respectively.

[0242JFSG.13 also provides a greatly simplified block diagram of the electronics 29E for each display panel, such as the display panel 14L. In this regard, it can be seen that power conductor 70 supplied the panel 14L with a rectified direct current low voltage of about 4VDC stepped down from about 24-30VDC, which 4VDC is coupled to each of the Sight emitting diodes or modular electrical conversion devices disposed on pane! 14L. The data conductor 80 is coupled to 16 channels of light emitting diode drivers indicated generally at 29L for driving individual ones of the red, green, and blue light emitting diodes forming part of the electronics 29E. As this same arrangement is implemented for the display panel 14R, it will not be described in further detail for the display panel 14R.

The Retrofit Kit Installation Procedure

[0243]Considering now with reference to FIG 19, a retrofit procedure 10 0 is illustrated, which procedure 1010 is followed in accordance with the retrofit steps of the present invention. The retrofit procedure 1010 is carried out on-site for an

^:8 existing non-electronic billboard 8, in order to retrofit or convert the billboard 8 into a dynamic electronic billboard 110. The retrofit procedure 1010 involves the following major steps:

1. Site preparation to verify that an existing poster board is acceptable to overla with a digital Sight emitting diode billboard;

2. Structural frame installation to prepare the existing poster panels of the billboard 8 for the mounting of a plurality of display or light emitting diode modules, such the fully weatherized LED display module 14 as best seen in FIGS. 8-9;

3. Wire harness and backside power installation for providing the bay array embodied within each structural frame with a source of data and direct current electrical power;

4. LED display module installation b providing each individual bay within the bay array with a display module 14 having dual LED display panels, such as LED display panels 14L and 14R respectively as best seen in FiG. 25; and

5. A start up and verify operatio for signage content and updating.

[0244] Each of these major steps will be described hereinafter in greater detail, but for now it will suffice to mention, that after verification of operation, two important follow on steps are considered part of the retrofit procedure 1010; namely:

6. A preventive maintenance and cleaning process; and

7. An actual maintenance and repair process should repair be required.

8 These last two steps will be briefly described at the conclusion of the detailed description of the retrofit process 1010.

The Preparation of the Site for Kit Installation

[0245] Referring now to FIG. 19, the retrofit procedure 1010 begins with a start step 1012 and commences to a call site preparation step 1014. At the site preparation step 1014, the installation team seeks to verify that that the existing poster panels of the static billboard 8 are acceptable to be overlaid with an array of LED display modules, such as the LED displa module 14. In this regard, the team proceeds from step 014 (FIG. 19) to a site preparation process 2010, as best seen in FIG. 20.

[0246JConsidering the site preparation process 2010 in greater detail with reference to FIG 20, the process begins at a start step 2014, and proceeds to an inspection step 2026. At the inspection step 2026, the installation team conducts a visual inspection of the existing poster panels, such as a poster panel 9. A poster panel 9 may from time to time hereinafter be referred to as poster board(s), which phrase stems back to the time when static billboards were constructed of wood instead of sheets of metal as used in construction today. There is no intention of limiting the installation of the retrofit kit 10 to billboards or poster boards as the retrofit kit 10 is constructed to be installed on any type of structural planar back panel constructed of any suitable structural material in accordance with local building codes. In this regard, when the word "billboard" or "poster board" is used herein it is intended to be inclusive of any type of structural planar back panel.

[0247J During the inspection step 2026 the installation team address 3S 3ΓΘ33 of the sheet metal poster panels which may be broken, bent or damaged in any way. The surface of each poster panel 9 is also inspected to make certain the surface is substantially flat and uniform as possible to facilitate the proper mounting and installation of each hand mounlab!e structural frame 12 forming part of the retrofit kit 10. In addressing these areas the instaiiation team will remove any yinyi or paper left over from old static paper panei images. The team will further clean the surface of the billboard panels of any unwanted materials.

[0248JOnce, the visual inspection step 2026 has been completed at a

determination step 2038, the installation team proceeds to a power inspect and verification step 2040. if it is determined, that inspection is not completed at step 2038, the team returns to step 2026 and continues as described earlier. Continuing then, at verification step 2040, the team begins by simply determining that the billboard site is provided with acceptable 2-phase, 240VAC 40 amp power or

2-phase, 120 VAC, 80 amp power. It should be understood that when other input power is provided, for example, when the billboard 1 10 is being installed outside of the United States where the countries power is something different from the standard U.S. power sources, a power converter 49 (FIG. 26) may be installed at an install power converter step 2044 to provide a rectified power source for the billboard 110. In this regard, the billboard system of the present invention is a universal power system fully capable of using any available power source in the world.

[0249] After inspection of available power, the team proceeds to a verification step 2042 so the team can mark on its installation checkout list (not shown) that proper power has been verified. If proper power has not been verified the team will either install a power converter 49 at the install step 2044 or take whatever other corrective action is necessary to assure that proper power is available. Once there is a determination of the availability of acceptable power at a determination step

8 2042, the installation team follows a safety procedure while working with electrically components by turning the power off at a main circuit breaker and then provides the circuit breaker with a lock out tag out in accordance with local safety

regulations. Next the team disconnects any lights remaining from the static display site and the associate wiring that provided power for illuminating the static display billboard with light. As a final action, a confirmation step 2050 the team takes a physical inventory to verify that all parts needed as best seen in FIG. 2 are available by cross referencing parts to a provided parts iist for the site billboard 8 which is being retrofit or converted.

[0250]After the confirmation step 2050 has been completed, the installation team proceeds by going to a go to step 2084 and follows a checklist at a determination step 1016 (FIG. 19). At step 1016, the team verifies that the site preparation process performed at step 1014 has been completed. If anything has been overlooked, the team returns to the site preparation process 1014 and proceeds as described before until the site is properly prepared, if the site is properly prepared, the installation team then advances to a call install step 1018 which causes the team to initiate a structural frame installation process 3010 as best seen in F!G. 21.

The Structural Frame Installation

[0251 JThe structural frame installation process 3010 (FIG. 21 ) begins at a start step 3014 which prompts the team to begin preparing the poster panels of the existing billboard 8. This preparation process is best understood with reference to FIG. 3. At the start step 3014, the team gathers the necessary tools and chalk to do the preparation task. After gathering their materials the team advances to a layout step 3018. At layout step 3018, the installation team prepares the poster panels 9 of the existing static billboard 8 for installation of the structural frames, such as a structural frame 12. This preparation begins by the installation team using a Sadder,

8 a plum line, measuring tape and chalk, to lay out a grid pattern 508 (FIG. 3) on the frontside or face of the poster panel billboard 8. This grid pattern 508 will be a visual indication of the size and pattern of the structural frames that will be installed on the billboard 8 for its conversion. This begins with the installation team finding a horizontal center point of the static billboard 8 and then measuring 10 feet to the left of a horizontal center point Sine 514 at the top and bottom of the billboard 8 and then running chalk lines 512T and 512B respectively. The installation team then runs a chalk line 513 from the distal ends of Sines 512T and 512B to mark a left lower corner starting point 520 for the instaliation of a starting structural frame 12. FIG. 3 provides a visua! indication of how the biiiboard wouSd appear after the first or initial structural frame 12 is installed, while FIG. 27 provides a visual indication of how the billboard would appear after all of the structural frames in the kit 10, have been installed.

[0252]Next, during the layout step 3018, the instaliation team measures the billboard 8 to find the vertical center point Sine 516 and then measuring one frame height down on the left and right side of the billboard 8, they run a chalk Sine 514 between these two points.

[0253]Next, at the Sayout step 3018, using the above-mentioned reference lines, the instaliation team Says out the grid pattern 508 using a chalk line to represent the size and pattern of the structural frame. The team then verifies the grid

measurement by measuring the layout diagonally at a verification step 3024 via a pair of corner to corner diagonal chalk lines 522 and 524 respectively. It should be understood that the above-mentioned measurements are not absolute. They can be shifted horizontally and or vertically to avoid issues with the billboard structure when needed. Should this occur at verification step 3024, the team returns to step 3018 and proceeds as described earlier; otherwise, the team is ready to advance to the next task.

[0254]Once the billboard 8 poster panels have been prepared with the grid layout 508, the team proceeds to an orientation step 3034 that facilitates the unpacking and orienting of the structural frames 12 from their packing pallet for installation on the poster panels of billboard 8. In this regard, each structural frame 12 is thin and ultra Sight so the frame 12 can be easily handled and oriented for installation. To facilitate proper orientation, it should be noted that the pilot hole feature 64 which is located in the first or bottom row of the structural bay member array. In this regard, the pilot hole feature 64 further function as a visual indicator for where the bottom of each structural frame 12 is disposed. As will be explained hereinafter in greater detail, when the frames are laid out on the panels 9, the pilot hole feature 64 will also be disposed in either a bottom row of the structural bay members indicated generally at 16B (FIG. 27) or in a middle row of structural bay members indicated generally at 16M when considered as part of the total frame array 30.

[0255]The pilot feature 64 also then provides an indication to the installation team of which side of a frame 12 goes up and which side of the frame is facing the frontside, since the pilot feature 64 will also be disposed on the left side of the structural frame when it is disposed facing toward the frontside of the billboard 8. During this unpack and orient step 3034, the installation team also designates ahead of time which structural frames will be on a lower row of the grid layout and which structural frames will be on an upper row of the grid layout. This advance determination is made because it will determine where the unique chimney vent structures, such as a chimney vent cover 90, as best seen in FIG. 29, will be installed within a structural frame 12 prior to the individual structural frames 12 being mounted to the poster panels 9 of the billboard 8. When the installation team has. completed the unpacking step a determination is made at a verification step 3040 that all the necessary parts are avaiiabie to complete installation. The process then proceeds to a chimney vent installation step 3054.

[0256]At the chimney vent installation step 3054, the insta!iation team installs each individual chimne vent cover 90 either in a top structural frame area or in a bottom structural frame area of the so the installed vent cover 90 functions to cap each chimney vent ingress or egress channels 91 relative to all Sower frame horizontal surfaces and all upper frame surfaces as best seen in FIGS 6-7 for example. Each chimney vent cover 90 is provided with a plurality of perforations, such as a perforation 90P as best seen in F!G. 29, which is sufficiently small to prevent environmental debris such as leaves from clogging the free air venting system created between the existing billboard 8 poster panels and the structural frames 12 mounted thereon. The chimney vent covers 90 also prevent birds and other small animals as well as insect pests from entering and nesting in the cooling channels of the venting system, such as the cooling channel 91 (FIG. 7).

[0257]Once the chimney vent covers 90 have been inserted into respective ones of the structural frames 12 at step 3054, the installation team begins the actual installation of the structural frames relative to the poster panels 9 at a align first frame step 3066. During this step 3066, the installation team takes the first frame 12 and starting on the bottom left hand comer of the grid layout 508, the bottom left corner of the frame 12 is positioned at the bottom left corner 520 of the grid chalk lines so the bottom of the frame 12 and the left side of the frame fails in alignment with the left side grid chalk line 513 and the bottom grid chalk line 512B. When the frame 12 is aligned, a member of the installation team screws a self-drilling screw, such as Tek screw 92 as best seen in FIG. 23 into a top mounting hole, a middle mounting hole and a bottom mounting hole on the frame 12, each hole being

9 identified in general as a mounting hole 93 for a self drill screw 92. If necessary, these top, middle and bottom mounting screws 92 can be repositioned to other mounting boles 93 on the frame 12 in order to avoid seams in the billboard 8 structure. Four Tek of self drilling screws 92 are utilized to secure the first frame 12 to the poster board 8. For clarity purpose, not all of the mounting holes 93 have been identified with reference characters, but their locations within the frame 12 can be clearly seen in FIG. 23. Similarly only two of the self-drilling screws 92 are shown in FIG. 23 for clarity purposes. It should also be noted that in lieu of self drilling screws other forms of securing devices are contemplated such as rivet 92 and rivet nuts 92A for securing the structural frame to a planar structure.

[0258} After the first frame 12 is secured to the poster panel 9, the installation team will install the next structural frame 12 to the immediate right of the first frame 12. In this regard, a set of dovetail joints (FIG. 27), such as a set of side frame dovetail joints 84 and a set of bottom frame dovetail joints 86, facilitate a quick and easy, frame 12 to frame 12 alignment processes. Each individual one of the dovetail joints includes a dovetail alignment tab 94 (FIGS. 4-5} and a dovetail alignment tab slot 98 (FIGS. 6-7) which is adapted to receive the tab 94 extending from an adjacent frame or in this case, the second frame 12. This dovetail arrangement of tab to tab slot alignment assures that the second frame is properly aligned with the first frame and is ready to be secured in place. It should be noted that the two frames must be flush to one another for proper installation. The second frame 12 is then secured to the poster board 9 using the Tek screws 92 provided in the retrofit kit 10. In short then, the second frame 12 is dovetailed in perfect alignment with the first frame 12. This dovetail process is then repeated until all of the structural frames as outlined in the grid have been installed in the bottom row. It should be noted that when the individual frames 12 are secured to the poster panels 9 of the billboard 8, a substantially airtight fit is created between their contacting surfaces, which in turn creates a pair of self cooling air channel columns or conduits, such as the air channel column indicated generally at 91 as best seen in FIG. 23. As already noted, and as best seen in FIG. 7. Prior to installing a frame 12 against the billboard 8 poster panels, each of the air channel columns 91 are capped with chimney vent covers 90 as hereinbefore described. In this manner, the covers 90 can not be removed, once the structural frame 12 is secured to the billboard 8 poster panels.

[0259]When the bottom row of structural frame members 12 has been installed, the installation team verifies that all the frames are in alignment and lined up with the chalk lines and are substantially level. Once the alignment of the bottom row of frames has been determined, the installation team installs the top row of frames using a substantially similar procedure starting at the top left and proceeding to the top right. After the top row of frames has been installed the installation team verifies that the bottoms of the top row of frames 12 is flush with the tops of the bottom row of frames 12 and that the top of the top row of frames is in alignment with the top chalk Sine of the laid out grid. If any adjustments are needed, the installation team makes the necessary adjustments to achieve an array of structural frames which are in perfect alignment with one another.

[0260}Next to make certain the frames are securely fastened to the billboard 8 so that they may not be dislodged or come loose during windy conditions, the installation team using a standard drill drills secondary holes through the billboard steel frame poster panels for each of the structural frames 12. Nine holes are drilled for each frame 12 and nine bolts, with associated washers and nuts, are utilized to further secure each frame to the poster panels 9 of billboard 8. The individual bolts 1 12B are torque to 8-inch pounds and are installed at the bottom left frame corner, the middle left of the frame, the top left corner, the top right corner, the middle right

9 of the frame, and the bottom right corner of the frame. To facilitate the installation of the mounting bolts each structural frame 12 is provided with a set of mounting bolt holes, such as a mounting bolt hole 1 12H as best seen in FIG. 4. in order to avoid issues with poster panel 9 structure flaws or conflicts with structural seams, the structural frame 12 is provided with an excess number of bolt mounting holes 1 12H along its peripheral boundaries. In this regard, the placement of the bolts can be distributed to other mounting bolt holes 1 12H if needed.

[0261 ]After all the frames have been secured with mounting bolts 1 12B, and verified that they are properly secured at a determination step 3068. If not properly insta!led the team returns to step 3066 and continues as described earlier.

Otherwise, the installation team proceeds to an install bee stops or plug step at 3089, where a set of bee stops, such as a bee stop plug 98, are installed into each perimeter opening in the structural frame array 30. The bee stop plugs 98 are an important and unique feature associated with the structural frames 12. In this regard, the slot 97 disposed in the top, bottom, right side and left side of the structural frame function as wire routing access hole to enable power and data wires mounted on the various ones of the structural frames 12 to pass from one frame to another frame and ultimately to the power access holes 1 14H and 1 15H and the data access hole 1 16H to traverse to the backside of the billboard 10 for connection to the power and data control system. The hole or slots 97 on the outside walls of those structural frames not butted up against the walls of an adjacent frame 12 would otherwise be open allow access to bug, insect, wasps, and bees. By closing these access holes with the plugs 98, bees, wasps, hornets and the like are stopped from entering the frame array 30 and creating nesting hives behind the display modules mounted to the frontside of the billboard. This would otherwise create a safet hazard, as a repair or maintenance team would never know when a display module 14 was unlatched and removed, whether a hive

9 of bees or hornets would be disposed behind the module 14. The installation of the bee stops or plugs 98 completely eliminates this unwanted^' safety hazard.

[0262] With the bee plugs 98 in place, the installation team is now ready to mechanically and electrically couple the frame 12 to a source of electrical power. In this regard, the installation process returns to determination step 1020 via a go to step 3070 (FIG. 21 ), where the team verifies that all the structural frames 12, all the chimney vent covers 90 and all the required bee stops or plugs 98 have been properly installed and that wiring of the structural frames is now ready to be commenced. If verification is not made at determination step 1020, the process returns to the install step 10 8 (FIG.19) and proceeds as described before.

[0263]Based on the foregoing, it should be understood by those skilled in the art, that each structural frame is provided with a sufficient number of both vertical axis mounting holes and lateral axis mounting holes which are distributed throughout the structural frame, each mounting hole being dimensioned for receiving therein a mounting bolt to facilitate securing the structural frame to the poster panels 9 of billboard 8 so that a sufficient mounting force may be applied to the structural frame to substantially eliminate face to face separation of the structural frame and the poster panel in wind load forces in excess of 100 pounds per square foot. In this regard, the wind force rating applied to the anchored billboard 8 can be matched relative to the frame to poster panel anchoring arrangement as described herein.

The Wire Harness Installation

[0264} From the determination step 1020, the team advances to a call install wire harnesses step 1022 which initiates an install wire harness process 4010, as best seen in FIGS. 22. The process 4010 begins at a start step 4014 which directs the team to a drill access hole step 4018. At step 4018, the installation team drills a pair of power access holes 114H and 1 15H in file frame array 30 as indicated in FIG, 17. These access holes 114H and 115H are drilled at the pilot features 64 disposed in the 6^th row of frames in the frame array 30.

[0265]Next at a driil data access hole step 4020, the installation team drills a two inch data access hole 116H in the frame array 30 as indicated in FIG. 17, again using the pilot feature 84 in the bottom row 16B of structural bay members 16. In this regards, the two upper holes, at 114H and 1 15H are power access holes because of their close proximity to the power harnesses 24G0HE, while the lower hole 1 16H is a data access ho!e because of its close proximity to the data connection harnesses 2400DCC as best seen in FIG. 17. In short, a total of three holes are drilled into the frame array 30. It should be noted that the pilot hole feature 64, as best seen in FIGS. 4-8 is formed with a small starter hole. This small starter hole is utilized by the installation team as they drill these larger two inch holes in the frame array 30. This is an important feature of the present invention as it prevents the larger two inch drill from slipping on the structural frame 12, which could not onl be a safety hazard, but it could also increase the likelihood that the frame 12 could be damaged.

[0266]Next, the installation team at a drill centered holes step 4022, drills one inch holes through the poster panel steel structure centered with the two inch holes drilled in steps 4018 and 4020 respectively. This will enable the wire harness installed to the face of the structural frame array 30 to be coupled to the backside of the billboard 8 to make mechanical and electrical connections with the power and data boxes installed on the backside of the billboard 1 10 as best seen in FIG. 26.

[0267JAfter the holes are drilled as described-above, the installation team at a grommet installation step 4032, install two inch rubber grommets, such as a rubber

9 grommei 118 as best seen in FIG. 5 and 7, in each of the three two inch frame holes 114H, 115H and 1 1 H respectively.

[0268] e t, at an install power/data wiring harness step 4044, the installation team connects in a specific sequence a set of power/data wiring harnesses, such as the wire harness 2400H. This sequence begins at the left side of the frame array 30 in the first column indicated generally at 31 in FIG. 14. Referring now to FIGS. 14, 17 and 19, the installation team starting with a first connection sequence indicator 2401 S for a first node or ove moid locator 2401 in the power/data wiring harness 2400H to a first power/data node receptacle 350 in the first row of structural bay members 16 as best seen in FIG. 28. The team then continues to connect each consecutive node locator in the wire harness 2400H into the remaining locations sequentially as follows: a second connection sequence indicator 2402S for a second node locator 2402 to a second power/data node receptacle 350 in the second row of structural bay members 16; a third connection sequence indicator 2403S for a third node locator 2403 to a third power/data node 350 in the third row of structural bay members 16; a fourth connection sequence indicator 2404S for a fourth node locator 2404 to a fourth power/data node 350 in the fourth row of structural bay members 16; a fifth connection sequence indicator 2405S for a fifth node locator 2405 to a fifth power/data node 350 in a fifth row of structural bay members16.

[0269]As best seen in FIG. 28, two node receptacles 350 and 352 are disposed in the sixth row of structural bay members. Accordingly, the sequence continues as follows: a power slice connection sequence indicator 2400PS for a power splice node locator 2406PS to a power slice node 352 in the sixth row of structural bay members 16; a sixth connection sequence indicator 2406S for a sixth node locator 2406 to a sixth power/data node 350 in the sixth row of structural bay members 16; a seventh connection sequence indicator 2407S for a seventh node locator 2407 to a seventh power/data node 350 in the seventh row of structural bay members 18; an eighth connection sequence indicator 2408S for a eighth node iocator 2408 to an eighth power/data node 350 in an eight row of structural bay members 16; a ninth connection sequence indicator 2409S for an ninth node Iocator 2409 to an ninth power/data node 350 in the ninth row of structural bay members 16; a tenth connection sequence indicator 241 OS for a tenth node locator 2410 to a tenth power/data node 350 in a tenth row of structural bay members 16. This process is then repeated on a column by column basis from the first column 31 , to a second coiumn 32, to a third column 33, to a fourth column 34, to a fifth column 35, to a sixth column 36, to a seventh column 37, to an eighth column 38, to a ninth coiumn 39, to a tenth and final column 40, until all of the structural frames 12 in the billboard arra 30 have been mechanically connected to their power/data wire harnesses as best seen in FIG. 14. Although this installation sequence has been described as proceeding from the bottom of a column to the top of a column, it should be understood by those skilled in the art, that a reverse sequence could be equally utilized going from the top of a column to the bottom of a column.

[0270] St should be noted, that with reference to the installation step 4044, the structural frame 12 is provided with a plurality of wire routing features including a data connection wire routing feature 307, a left side data connection wiring feature 308, a power/data harness wire routing feature 309, a right side connection wire routing feature 310 and a central data connection wiring routing feature 31 1 as best seen in FIG. 4. Each of these wire routing features 307-31 1 will be described hereinafter in greater detail. For the moment however, it will suffice to mention that the position or location of the wire routing features 307-31 1 within the structural frame 12 is an important feature of the present invention. For example the wiring features 309 are arranged in a column in a spaced apart manner relative to the power data receptacles 350 and 352 respectively. In this regard, the power/data harness 2400H as it nodes 2400-2410 are snapped or pressed into their respective receptacles, the harness wires extended between pairs of nodes use the hook engaging under-over-under or the over-under-over technique with each routing feature 309 to firm!y secure the power/data harness 2400H to the structural frame 12.

[0271 J Accordingly, it should be understood by those skilled in the art, that these features are important as they enable an installation team member to quickly route all the preformed wire assemblies, such as the data jumper wire assembly 2400 J, the data connection wire assembly 2400DC and the power/data wire harness 2400H through the various ones of the structural frames in the frame array 30 by an under/over/under or over/under/over hook engagement process so that these wire assemblies 2400DC, 2400H, and 2400J respectively, do not separate from their assembly structures. Most importantly however, they wire assemblies

2400DC, 2400H and 2400J become seated in fixed protected locations within the frame array 30 and properly secured so that they are non-interfering with the mounting of the display modules 14 and are sufficiently protected from being accidentally damaged during the display module installation process. Such efficiency and safety features are unique and novel in the use of the retrofit kit 10. As these unique structures of a nodes, wire guide securing structures and paired sets and plural sets of mounting or securing hooks 42-43 respectively are repeated in the construction of each structural frame 12, they will be described in greater detail hereinafter but only with a limited discussion.

[0272JConsidering now in greater detail with reference to FiGS. 4 and 23, the paired sets of mounting hooks 42, the paired set includes an upper hook 42A and a lower hook 42B. The plural set of hooks 43 includes three L-shaped hooks 43A, 43B, and 43C respectively. Each hook member, such as the hook member 42A and 43A for example, is configured in generally an L- shape configuration to block slippage of a group of wires therefrom and thus, helping to facilitate the repeated fastening steps of under/over/under or over/under/over for securing the preformed wire assemblies 2400 DC, 2400H, and 2400 J respectively to the structural frame 12.

[0273JContinuing now with the installation process 1010, as best seen in FIG. 22, the installation team proceeds to a verify decision step 4045, where the installation team verifies that all node locators have been installed and are properly seated in their respective power/data nodes or receptacles 350 and 352 respectively and that the harness 2400H is properly secured to the structural frame 12 via the wiring routing features 309. This step 4045 includes routing the individual Molex

connector plugs 2400HM associated with each power/data harness 2400H to their respective cable plug stations or daughter board cut out areas indicated generally at 330 in the structural frame 12 as best seen in FIGS. 5 and 28. When the connector 2400HM is so positioned it is allow to freely hanging in this area, where it will be available for connection to a display module, during the display module installation procedure (FIG.19) that will be described hereinafter in greater detail, ore particularly, by allowing the harness connector 2400HM to freely hang, the process facilitates their quick and easy connection to a display module 14 when a display module 14 is ready to be seated within an associated structural bay member 16. The installation team also route the free power wire ends of the harnesses, indicated generally at 2400HE, using the wire routing features 303, 310, and 311 located in the 6^th row of the structural frame array 30, to their closest power access holes 114H or 115H respectively. When the power wires 2400 HE are routed to their respective access holes 114H and 1 15H, the team continues

9 routing them to the backside of the billboard 8 for connection to their respective junction boxes as will be described hereinafter in greater detail.

£0274]After making this verification at step 4045, the wire harness installation process 4010, then proceeds to an install inter-connecting data jumper cable step 4047. In this regard, the installation team interconnects the data harness wiring using a data jumper cable, such as a data jumper cable 2400J as best seen in FIG. 24A. More specifically, the installation team connects the data jumper cables 2400J in a specific data coupling sequence that establish inter-connected data transfer paths as best seen in FIGS. 14 and 17.

[0275}The data coupling sequence begins by a team member connecting a first data jumper cable 2400J between the structural frame bay members of a first column 31 (FIG. 14) in the structural frame array 30 with the structural frame bay members of a second column 32 in the structural frame array 30 as best seen in FIG. 30. More specifically, a first data jumper cable connector 2400J1 of jumper cable 2400J is connected to a first data jumper cable connector 2400DJC of the power data wiring harness 2400 H in the first column 31 . Then, a second data jumper connector 2400J2 of jumper cable 2400 J is connected to a first data jumper connector 2400DJC of the power data wiring harness 2400 H in the second column 32. it should be understood by those skilled in the art, that the interconnecting cable 2400 J C has a sufficient length to extend from one column to another column of power data wiring harnesses 2400H, such as between the first column 31 and the second column 32.

[0276JNext, the installation team connects a second jumper cable 240DJ between the structura! frame ba members in a third column 33 in the structural frame array

1(3 30 with the structural frame bay members of a fourth column 34 in the structural frame array.

[0277] e t, the installation team connects a third jumper cable 240GJ between the structural frame bay members in a fifth column 35 in the structural frame array 30 with the structural frame bay members of a sixth column 38 in the structural frame array.

[0278]Next, the installation team connects a fourth jumper cable 2 00 J between the structural frame bay members in a seventh column 37 in the structural frame array with the structural frame bay members of a eighth column 38 in the structural frame array 30.

[0279]Next, the installation team connects a fifth jumper cable 2400J between the structural frame bay members in a ninth column 39 in the structural frame array 30 with the structural frame bay members of a tenth column 40 in the structural frame array 30.

[0280] After all five (5) of the data jumper cables have been installed, the installation team then proceeds to an interconnection step 4048 (FIG. 22), where the team using data connection cables, such as the data connection cable 2400DC as best seen in FIG. 24B, initiates the process of installing the data connection cables, such as a data connection cable 2400DC as best seen in FIG. 24, to the structural frame 12. More particularly, these cables are routed in the bottom row 16B of the structural bay members. In this regard, the team interconnects the first column 31 of wire harness locations 1-11 to a first data connection connector 2400DCJ1. Then the team interconnects the second column 32 of wire harness locations 21 to 31 to a second data connection connector 2400DCJ1. The free end plug 2400DCT and

10 the cable wiring 2400DCC is then routed along the bottom row of structural bay members using the wiring rooting features 308, 310 and 311 to route the free end plug to the data access hole 116H. This process is repeated for the remaining third through tenth columns 33-40 respectively. Ali the power and data wiring harness free ends are routed through there respective power access holes 114H and 1 15H as well as the data access hole 1 16H allowing the free end to extend to the backside of the billboard 8.

[0281 ]Next, after the power data wire securing and routing has been completed, as best seen in FIG. 22, the installation team proceeds to an install junction box step 4050, where the team installs a pair of Sockable junction boxes 46 and 47

respectively on the backside of the billboard 8 as best seen in FIG. 26.

[0282] After completing installation of the junction boxes 46-47, the installation team, at an attach step 4056 attaches one hanger bracket to each junction box with bolts and nuts, and then runs each wire harness through an associated cord grip on the backside of each junction box. The team then levels the hanger bracket and secures it to the billboard steel over the feed hole used for the wire harness. This step is repeated for both junction boxes.

[0283}Next, the installation team proceeds to an install power data controller enclosure step 4060, where the team installs a lockab!e power data controller enclosure or box 48 between the junction boxes 46-47, so that conduit paths 46C and 47C respectively may be run from the junction boxes 46 and 47 to the power enclosure box 48 as best seen in FIG. 26. The power data controller box 48 may be hoisted into place for mounting to the backside of the billboard 8, using a hand hoist or the like or in the alternative it may simply be Sifted into place by the installation team and mounted.

10 E02S4|Continuing, the team next at an attach step 4062, attaches one hanger bracket to on power/controSSer enclosure using a four bolt/nut arrangement. The team then levels the hanger bracket and secures it to the billboard as best seen in FfG.26 with six Tek screws into the ribs of the billboard steel. Next the team secures the two bottom attachment points first than the two outer top points before removing the center attachment from the winch or hoist.

[0285] Proceeding, the insta Nation team at an install Sight sensor arrangement step 4064, installs a light sensor box with an associated Sight sensor device arrangement 50 disposed at the top portion of the billboard 8 as best seen in FIG. 26.

[0286JNext at a measurement conduit runs step 4066, the installation team measures the distance between the junction boxes 46 and 47, the power/control ier enclosure 48, the main circuit breaker box (not shown), the mounting position of the light sensor junction box and to the billboard panel where the data cable harness will be routed, while accounting for any bends necessary. The team then cuts conduit tubing fo each run making certain to dean the edges of the cut conduit to remove any burrs or sharp edges or points. Holes are then knocked out in each of the enclosures in appropriate locations for a set of conduit runs 46C, 47C, 48C, 50C, 52C and 54C respectively as best seen in FIG. 26. St is anticipated that in certain installations flexible non metaiSic liquid tight conduit may be utilized.

[0287]Each piece of conduit is then installed between each section in an install conduit step 4068. In this regard, conduit must be secured with conduit clamps at regular intervals for the suggested layout. St should be noted that all conduit connections are water proof.

10 [02S8]Once the conduit strings 46^'C, 47C, 50C, 52C and 54C respectively are attached and connected, the team at a pu-H and connect step 4070, pull all the wire harnesses through the conduit strings or runs between the billboard and the

power/controller enclosure. Once the wires are pulled the installation team begins to connect the wire harness into the data board (not shown) in the power/data controller enclosure or box, indicated generally at 48 as best seen in FIG. 26.

[0289JThe team then pulls all necessary power cables (not shown) through the conduit run between the power/data endosure 48 and a universal power source 49. A one inch hole is then punched in order to mount the wireless antenna (not shown) to the power/controller box 48. The team then connects the wireless antenna (not shown) to the cellular router.

[0290]A single gang weatherproof conduit box forming part of the Sight sensor box arrangement 50 is then assembled to the top of the light sensor conduit 50C running to the light sensor location. The team then pulls all necessary wires from the power/controller enclosure 48 to the junction box 47 for the light sensor arrangement 50. The wires are cut to length and terminate to the appropriately labeled terminal block in the power/controller enclosure 48. Wire terminations to the light sensor arrangement 50 is shown in Table II:

Table II

Red wire Terminal A

Blue wire Terminal B

White wire Terminal C

Green wire Ground

10 A single gang weatherproof raised cover {not shown) is then attached to the single gang weatherproof conduit box forming part of the light sensor arrangement 50 using provided screws from the kit 10.

[0291 ]The team then pulls two 18 AWG, one 2 AWG and two 1 AWG cabies through the conduit between the power/controller enclosure 48 and each of the junction boxes 46 and 47. Cable is cut to Iength after the puil and terminated to the appropriately labeled terminal blocks. Wire harnesses are also cut to length and terminate in each junction box to its appropriately labeled terminal block.

[0292]The team following written safet procedures makes certain that the main power is off at the main source. They then terminate power cables at this power source and at power supply. At a start up step 4072, main power is turned on and voltages are tested at all output points as matched in Table III:

Table Hi

Output at wire harness 27V DC

Output at wire run to light sensor 5V DC

[0293]Fma!jy., main power is turned off and lock out tag out is effected, which completes the wire harness installation process at an end step 4080 (FIG. 22), which returns the installation process 1010 back to a determination step 1024 (FIG. 19} where the installation team verifies that ail the power/data harnesses 2400H, all the data jumper cables 2400J and a!i the data connector cables 2400DC are installed and properly connected, if any correction is needed the team returns to the install step 1022 and proceeds as described previously; otherwise the team goes to a install display modules step 1026. [02S43After verification that all tiie wire harnesses and power data wiring of the system have been installed, the installation process 1010 advances to the install display modules step 1026 (FIG.19). Step 1028 starts the LED tile or display module installation process indicated generally at 5010 as best seen in F!G. 15.

[§2953The install display module process 5010 (FIG. 15} begins at a start step 5014. From the start step 5014, the installation team proceeds to an unlatch step 5020 wher the team unlatches all of the structural bay latch assemblies, such as a latch assembly 412 (FIG. 30). it is contemplated that all latches may be unlatched at the factory where the structural frames are assembled, so this step may be omitted.

[02963When all the latches have been unlatched, a verification process is initiated at a verif ste 5030. Once all latches have been verified to be unlatched, the process 5010 proceeds to an install display module sequence step 5040. In this regard, a member of installation team proceeds to install a first display module in the first structural bay. This process is repeated. That is, the team starts with location 1 and continues through location 100. Modules are not numbered and can be installed in any location and in any order. Therefore there is no intention of limiting the installation process to the sequence as described herein. Installation of a display module 14 is simplified by using a suitable lanyard (not shown) attached to the LED tile 14. The lanyard is optionally used to secure the tile 14 while making connections with the data power connector 2400 HM available at that bay location 330. Using the lanyard to hold an LED tile 14 in place, the installer plugs the wire harness power data connector 2400HM into the daughter board module data power connector 27. Then lanyard is then disconnected as the display module 14 is now supported by the power/data harness 2400H. Then, the installer aligns the receptacle-like alignment features 14AR and 14CAR respectively on the backside of the dispiay module 14 so they can receive the post-like alignment features 80AR and 60ARC extending out in the z-axis within the siructurai ba member 18. When aligned, the installer simply slides the posts 60AR and 60ARC (FiGS 4-5) into the receptacles 14AR and 14CAR (FIG. 34), as the tile 14 is pushed into place in a tight-fit within the structural frame array 30.

[0297}As best seen in FIGS. 4-5, 23 and 34, each display module 14 is provided with an LED seating wail 350 which extends about the outer peripheral boundary on the backside of the LED frame 201. The wall 350 includes Sow wall portions, such as a low wall portion 251 as weli as high wail portions, such as a high wall portion 252. The low wall portions 251 and the high wall portions 252 are

dimensioned to be received in a tight fit in a set of Z-axis slots 712 (as best seen in FIG. 23), which slots 712 are disposed in each structural bay member 16. The height of the seating wall 250 function to define a stop, which prevents the display module 14 from being further seated rearward!y within a structural bay member 16. In short when the distal end of the seating wall 250 makes contact with the base of the receiving slots 712 (FIGS4-5, and 23} it provides a physical indication to the installer that the display module 14 in process of being installed has been properly seated. The installer then only needs to proceed by latching removably the display module within its associated structural bay member 16. In this regard, using a one T-handSed 5/32" Hex wretch, each latch within the associated structural bay member 16 is then turned one quarter anti-clockwise turn to secure the display module 14 within the structural frame array 30. This process is repeated until all the display modules 14 have been installed in the array 30. The module installation process 5010 ends at an end step 5050. From the end step 5050, the installation process 1010 returns to the verification step 1028 as best seen in FIG. 19 to verify that all display modules have latched into place. Once verification has been accomplished the team is ready to start up the billboard 110.

10 The Start up Procedure

[0298]The team is now ready to engage the start up process at a start up step 1030, where the team performs the following tasks: {1 } they remove and clear all debris from power cabinet and Junction boxes; (2) the check for exposed wires; (3) they make certain that all connections are secure; (4) they turn on switches to AC supply, power enclosure and junction boxes in that order; (5) they refer to product user manual for full commissioning procedure; (6) they check for initial color balance; (7) they contact the media center to upload content to be tested; and fina!ly (8) they verify for proper alignment of images. This process is completed at a verification step 1032.

Repair and Preventive Maintenance Considerations

[0299} In completing the conversion and installation process, the team performs a quick preventive maintenance process if needed. In this regard, the process advances to a preventive maintenance check step 1034. If no preventive

maintenance is needed the teams verifies that preventive maintenance has been completed at a verify step 1038. If at check step 1034 a determination is made that preventive maintenance needs to be performed the process advances to a dean display module panel step 1036 so the face of each display modules 16 is cleaned and so !ogged. The face of the sign needs to be cleaned every six months. A log is established to make certain the team returns perform this cleaning process.

Over time the LEDs will degrade and change color. When this occurs it will cause a visible checker board effect when replacing modules. In this regard, when replacing modules the installation/repair team needs to replace modules in the middle of the sign trying to swap modules from the bottom of the display first. In this regard,

10 replacing modules at the bottom of the module array with newer modules is done so the brighter modules will be less noticeable. The installation team, using a web interface can color balance the display modules 8 in order to match colors with the older modules. When the preventive maintenance has been completed, the team proceeds to verify that ali needed preventative maintenance step have been performed at the verification step 1038.

[0300JNext at a determination step 1040, the team determines whether the billboard 1 10 needs any repairs, If repairs are needed the teams makes the repairs at a repair step 1042, and verifies at a repair completed step 1044 that all repairs have been made. If repairs are still needed the team returns to step 1042 and continues as previously described, !f all repairs have been completed and verified, the team has completed the installation of billboard 1 10 using the retrofit kit 10 and the process ends at an end step 1046 as best seen in FIG. 26.

Sectional Digital Sign, Sign Section Assembly and Kits for Retrofitting

[OSOIjReferring now to the drawings and more particularly to FIGS. 35-37, there is illustrated an electronic sign or billboard 8010 which is constructed in accordance with the present invention. The electronic billboard or sign 8010, is assembled and constructed utilizing a unique sectional sign assembly and installation kit 1210 (FIG. 42) in accordance with a novel method of retrofitting or assembling 1 10 (FIGS 43-44) as hereinafter disclosed. In short, by use of the assembly and installation kit 1210, a static non-electronic billboard 8, as best seen in FIG. 3, is transformed or converted into a dynamic electronic billboard 8010 (FIG. 35) that greatly improves displayed information, such as advertising information, with improved resolution, contrast scalable advertising and brightness characteristics.

10 [03023 As wiil be discussed hereinafter in greater detail the electronic sign 8010 is constructed . utilizing pre-wired sign section assemblies that are pre-assembled in an assembly line manner at a designated factory location using a factory assembly method 11 ΌΑ (FIG 43A-B) and then shipped to an installation site. Upon arriving at the installation site along with other component parts for the construction of the electronic sign 8010, a team of two people or even a single installer, with a simple hoist, a ladder, a drill a skill saw, a hammer and a screwdriver is able to quickly and easily convert an existing static (non electronic) roadside or building billboard 8 into a high-tech digital billboard 8010 regardless of location. In this regard, the installation team utilizes a unique and novel field installation assembly method 1 1 10B (FIG 43) to accomplish such an installation. In this regard, the kit 1210 may be applied to construct rooftop signs, inside building signs, hung signs (i.e. hung from the underside of a catwalk), building wall mounted signs or pole mounted signs. The simplicity of the design enables the digital billboard 8010 constructed in accordance with the present invention, to be utilized in a football stadium during the football season, and then if desired, disassembled and moved to a baseball stadium and re-assembled for billboard display presentations during the baseball season. Portability and easy of assembly and disassembly are unique and important novel features of the present invention.

[0303] Considering now the electronic sign or billboard 8010 in greater detail with reference to FIGS. 35-37, the electronic sign 8010 has a construction which is similar to the electronic sign 10 as described herein earlier except, that in order to effect greater efficiency in field installation and retrofitting of existing static signs (or even older electronic signs with display module plug-in to foundational support capabilities\s), much of the electronic sign 80 0 is factory pre-assembled in one or more sections. In this regard, the retrofit kit 1210 (FIG. 42), as will be explained hereinafter in greater detail, generally includes a factory assembly kit portion 121 OA

11 (FIG. 42A) and a field assembly kit portion 12108 (FIG. 42B), wiiere the factory assembly portion 121 OA facilitates factory construction and assembly of those various component parts which become part. of the field assembly kit portion 121 OB. For now, it will suffice to mention that the field assembly kit portion 1210B for construction of the billboard sign 8010 (FIG. 38) generally includes a plurality of substantiaiSy identicai pre-wired sign section assemblies, such as an individual sign section assembly 9010 (FIG. 35) that is field ready to be loaded with display modules, such as the display module 14, and then mechanically coupled to a foundational support, such as to the poster board(s) or planar paneS(s) or an existing sign support structure 1410 (FIG. 38B).

[0304] Although the individual sign section assembly 9010 may be shipped from the factory without being Ioaded with display modules 14, it is fully contemplated that such an assembly 9010 may also be shipped fully Ioaded with display modules to help further reduce field installation time. In this regard, when the sign section 9010 is mentioned herein it is to be understood that for clarity of showing certain features of the assembly 9010, such as wiring harnesses for example, it may be shown with or without display modules, and with or without other field installed components.

[0305] It should also be mentioned that although it was stated that the field assembly kit 1210B generally includes a plurality of substantially identicai pre-wired sign section assemblies, such as the sign section assembly 9010, variations in manufacturing processes contemplate different types of construction without departing from the true scope and spirit of the present invention. For example a sheathing material utilized in the construction of the assembly 9010 may be flat (9017) or rolled (9023). When, as well be explained hereinafter in greater detail, a rear access sign section assembly 91 10 is provided, the sheathing material utilized

11 is a sheathing 9117 that is provided with access hole. Moreover, different types of fasteners 1508 as well as different types of mounting hardware may be employed and shown in the drawings like hanger brackets 1505 and hanger clips 1514 which perform the same function. Such variations as these may or may not be mentioned hereinafter in greater detail as it is appreciated that those skilled in the art of electronic signs will have a good understanding of which types of fasteners or which type of hangers for example, will best suit an installation situation.

[0306] The pre-wired sign section assembly 9010 is also fie!d ready to be electrically coupled to a source of universal power much in the same manner as was described herein earlier with regard to the retrofit kit 10. However, unlike the retrofit kit 10 that required wire harnesses to be field installed to associated structural frames, such harness to structural frame installation is accomplished in the factory by utilization of the sectional sign assembly and installation kit 1210 using its different portions; namely, the factory assembly portion 121 OA (FIG. 42A) and the fie!d installation assembly portion 1210B (FIG. 42B). Accordingly, since harness to frame installation is accomplished in the factory, field installation and retrofit time is greatly reduce. For the purpose of simplicity hereinafter whenever a component part described hereinafter is substantially similar to a component part that was described earlier, like reference characters will be utilized to identify such a component part.

[0307] Also for purpose of simplicity, only a single pre-wired sign section assembly will be described hereinafter, namely the pre-wired sign section assembSy 9010. However, it should be understood that factory assembSy of different sized pre-wired sign section assemblies is fully contemplated by the present invention in order to accommodate different types of sign constructions. For example, reference may be made to FIGS. 47A-D which illustrate the following different constructions:

11 [0308] 1. A smai! half poster height board sign 801 OA that utilizes a single coiumn structural frame construction (5' H by 2^* ) with an array of bays for supporting five display modules therein, where the bays are configured in a IV! by N arrangement where IVI equals one and N equals five;

[0309] 2. A medium half poster height board sign 801 OB that utilizes a full size or double coiumn structural frame construction (5' H by 4' W) with an array of bays for supporting ten display modules therein, where the bays are configured in a M by N arrangement where equals two and N equals five;

[0310] 3. A poster height board sign 8010C that utilizes a stacked double column structural frame construction (10' 5" H by 20' 10" W) with an array of bays for supporting twenty display modules therein, where the bays are configured in a IVI by N arrangement where M equals two and N equals ten; deliverable on a low boy trailer as the assembled sign 8010C does not exceed the maximum height for road transportation absence a special transportation permit;

[0311] 4. A junior bulletin board sign 8010D that utilizes a stacked structural frame construction (1 V H by 30' W) with an array of bays for supporting display modules therein, where the bays are configured in a by N arrangement deliverable on a double wide low boy trailer as the assembled sign 8010D does not exceed the maximum height for road transportation absence a special transportation permit; and

[0312] 5. A super bulletin board sign (not shown) that utilizes a stacked structural frame construction of approximately 14' H by 48^: W, with an arra of bays for supporting hundreds of display modules therein, where the bays are configured in a

11 M by N arrangement where M equals 48 and N equals 13: deliverable in sections and hoisted into place.

[03133 From the foregoing, it should be understood that the height and width of the sectional system is flexible ranging from individual sections that are only one structural bay wide (2 feet) to sections that are only one bay tall (1 foot) to larger sections as needed for the different types of sign configurations. Moreover, it should be understood that structural frames are composed of structural foam and may be cut to allow a specific construction to be achieved. Because of this unique and novel modularity associated with structural frames and resulting signs, only a single example of assembly or retrofitting will be described hereinafter it being understood that the kits and methods may be modified by those skilled in the art to construct or retrofit signs of different heights and widths without departing from the true scope and spirit of the present invention.

[0314| Before discussing this specific example, it may be beneficial to briefly consider some of the many advantages that can be achieved with the present invention as will be explained hereinafter in greater detail,

[03153 Firstly, the electronic sign or billboard 8010 utilizes a power/data distribution satellite hub scheme where direct current power is set to a single compound structural frame as best seen schematically in FIGS. 38_: 37 and 51. Using this approach, the heat producing components of the power system are separated and spaced from the control system, so the accumulation of heat at about the control location is greatly reduced. This in turn means less component degradation, greater component life, and the ability to select components with reduced operating temperature specification requirement.

11 [0316} Secondly, the satellite hub scheme enables backside to frontside low

voltage coupling to the individual display modules 14 to reside at each hub location allowing wiring to gain access through existing compound structural frame cutout features without the need of making special punch throughs. This unique hub arrangement further provides the advantage of the utilization of standardize power/data wiring harnesses where each harness is provided with the same length, and wire gauge feature to facilitate ease in mechanical and electrical coupling such harnesses to an associated compound structural frame wire routing features and display module coupling features. This unique data/power distribution scheme promotes user safety as all high voltage AC is to the rear of the sign and with only a low voltage DC being provided on the front side of the sign at the display module level. In short, there is no need to disconnect the sign from its AC power source when removing or replacing the display modules.

[0317] Thirdly, the unique method of using a combination factory assembly and field installation kit to provide the sectional sign assembly 9010 that facilitates factory assembly with a flat table top or work bench jig 1310 (FIG. 39) so that each pre-wired sign section assembly 9010 is easily and quickly assembled Said flat on the work bench. By utilization of vertical structural member formed of rolled or sheet metal or aluminum, such vertical structural members (1 ) can be easily cut to size for a given sectional sign assembly being formed; (2) be utilized to provide structural support to the resulting pre-wired sign section assembly; and (3) can be used in combination with the structural frame or beam support (horizontal and vertical beams) configuration of an existing sign installation site allowing this combination to support the resulting pre-wired sign section assembly, which in turn makes the resulting sign structure more easily compliant with local sign structure regulations.

11 [0318| Fourthly, by providing the vertical structural members with rivet nuts and by using bolts pre-coated with loktite glue to pass though selected ones of the existing mounting holes in the preformed compound structural frame . a compound structural frame can be easily and quickly installed from its frontsrde only to the vertical structural members, resulting in an improved bui!d process with reduced human error.

[0319] Fifthly, by forming a pre-wired sign section assembly with an overall depth dimension of about five inches (3 inches for the compound structural frame and 2 inches for the vertical support member) the overall size of the sign section is optimized for not only shipping and storage, but also for installation. Such a small depth dimension also greatly reduced or completely eliminated potential

encroachment issues at installation sites. The following advantages are should also be derived from this small depth dimension: (1) the protrusion/z axis measurement is less than that of a poster panel vinyl product and approximately equal to that of a super bulletin board vinyl sign (14' x 48'} means no encroachment issues when retrofitting from these other types of signs to a digital sign constructed in

accordance with the present invention. Such encroachment issues are common when outdoor companies purchase cabinet type products with twice or more depth dimension than that of the present invention. The small depth dimension also means there is a smaller possibility of an air space encroachment issue as well.

[0320] Sixthly, the pre-wired sign section assembly of the present invention has, even when stacked, such a small height, width, depth profile, that shipping to an installation site by regular truck/trailer without the need of special road permits and the like. Moreover, the shipped sectional product can be transported by Sand, sea or air without encountering any transportation size or permit issues Traditional cabinet type outdoor signs require a 54' flatbed trailer to be hired in order to deliver two six

11 feet to eight feet tall sections to an installation site. This is expensive, time consuming and typically needs to be outsourced. The present pre-wired sign has height flexibility allowing sections to be formed that can be transported using conventional transportation processes.

[0321] Finally, because of the light weight sign sections, access and staging for onslte installation is greatly reduced or minimized, in short, shipping, handling, and storage using basic winches, forkiifts, pallet jacks and like equipment is all possible.

[0322] As will be explained hereinafter in greater detail, the display modules associated with the digital signs described herein, namely digital sign 8010 (FIGS. 35-37), and digital sign 81 10 {FIG. 41), digital sign 8210 (FIG.50) may be front loaded and rear loaded respectively. The respective sign section assembly units 9010 and 9110 associated with the digital signs 8010 and 8.110, 8210 respectively may be utilized to replace both static billboard signs as well as electronic billboard signs where display modules are configured to plug directly into the existing sign structure. The sign section assembly units 9010 and 9110 which are constructed in accordance with the present invention, enable retrofitting of such existing sign structures in a fast and convenient manner.

[0323] Considering now the pre-wired sign section assembly 9010 in greater detail with reference to FIG. 37, the pre-wired sign section 9010 generally includes at least one compound structural frame 9012 having a front-facing portion 9013 (FIG. 38) and a rear-facing portion 9015 {FIG. 38) facing opposed to the front- facing portion 9013. The front-facing portion 9013 of the compound structurai frame 9012 defines a plurality of individual openings, such as openings or cutouts 9095, 9097 {FIG. 37) and a two-dimensional array 9030 of bay members 9016 arranged in a plurality of rows along a vertical direction indicated generally by a vertical

11 direction Sine 9021 and a plurality of columns along a horizontal direction indicated generally by a horizontal direction line 9020. Each individual front loading bay member 9016 within the array 9030 is configured to receive and support removabl therein an individual one of the weatherized display modules 14 as previously described. For the particular sign configuration 8010 being considered, the individual sign sections 9010 are constructed in an array which is 2 bays wide and 10 bays high, or two columns wide and 10 rows high. This configuration includes two compound structural frames each 2 bays wide and 5 bays high or a two column by five row configuration. As mentioned earlier, since each compound structural frame 9012 may be cut to a single column of bays 9016 or a single row of bays 9018, the structural frame 9012 may be customized for any sign size configuration. Moreover since the compound structural frames can be dovetailed joined from left to right or from bottom to top a wide variety of different sign configurations are possible. So the sign examples described herein (8010A-D, F!G. 47) are merely a few examples of different configurations and not intended to be any form of limitation.

[0324] As already mentioned, an existing sign structure 1410 is modified in the field using the field modification kit 1210B (FSG.42B). The field modification kit 1210B derives its component parts from those produced or manufactured at a local factory. Certain ones of these component parts are purchased from third party suppliers including such items as bolts, rivet nuts, conduit, channels and sheathing for example. Other ones of the component parts are manufactured or assembled using special manufacturing jigs (FIG. 39), and factory assembly processes (FIG. 43A-B). For example, in order to enable the manufacturing of the section sign assembly, such as the section sign assembly 9010, a factory assembly kit 121 OA is utilized.

11 [0325} Considering now the factory assembly kit 1210A in greater detail with reference to FIG. 42A, the factory assembly kit generally includes (1 ) a plurality 9022 of vertical structural support members 8012: (2) a plurality 9024 of vertical structural support member bolts 8014 with dry loktite coated thereon and

associated rivet nuts 8016; (3) a plurality 9026 of compound structural frames, such as a front access structural frame 12 (9012) or a rear access structural frame 9112 (as will be described hereinafter in greater detail); (4) a plurality 9028 of sheathing member 9017 for back covering each individual one of the front access structural frame units 9012; (5) component parts 9032 for the assembly of a plurality of display modules, such as a display module 14, (6) component parts 9034 for the assembly of a power and data distribution kit including a central AC power and data distribution hub 1810; a piuraiity of direct current (DC) power and data satellite hubs 1710: and a pluralit of wire harnesses for pre-wiring a plurality of pre-wired sign section assemblies, such as the sign section assembly 9010; and (6) various other component parts for providing signage mounting and installation processes including various miscellaneous tools. As will be explained hereinafter in greater detail, rear accessible components can be easily and quickly substituted for front accessible components so the factory assembly kit 121 OA can be transformed between front access capabilities to back access capabilities. For example by substituting rear accessible compound structural frames and sheathing for front accessible compound structural frames and sheathing the kit is transformed for rear accessibility signage.

[0326] The planar or vertical support members in the factory assembly kit 121 OA come in standard lengths which are cut to size at the factory, to form individual planar vertical support members, such as the individual support member 8012. As will be explained hereinafter in greater detail these support members 8012 are provided on the rear-facing portion of the sign section assembly 9010, for example

11 as best seers in FIGS. 38 and 40, in order to provide the assembly 9010 with a plana r structu ral support and in order to help secure the planar sheathing member disposed in a face to face relationship with the rear-facing portion of the compound structural frame 9012. Different types and kinds of support members are

contemplated by the present invention, including but not limited to channel support members, U-shaped support members, V-shaped support members, and flat support members to mention but a few examples. There is no intention therefore of limiting the scope of the present invention to any particular type or kind of support member so Song as the support member has sufficient rigidity to support a sign section assembly unit to an existing sign structure 1410 (F!G. 38).

[0327] The sheathing members 9017 and 9023 (no rear access features as seen in FIGS. 39 and 40A) and 91 17 {rear access feature as seen in FIGS. 40B and 41 ) are lightweight and are provided to keep the rear-facing portion of an associated structural frame free of small insects and the like and to also facilitate establishing a chimney draft effect along the channels disposed in the backside of the structural frame. As a plurality of the individual ones of the sign section assemblies 9010 will be utilized in providing a particular type of sign structure and these sign section assemblies can be disposed in different orientations relative to one another, it should be understood that individual ones of the vertical supports members are arranged to accommodate abutting a left most sign section assembly 9010L with either a right most sign section assembly 901 OR or a center or interna! sign section assembly 9010C. Moreover different types and kinds of support members may be utilized. For example a channel type support member 8012 (FIG. 38) or a U-beam type support member 8013 (FIGS. 41 and 49). In short, the type and kind of support member utilized in the construction of a pre-wired sign section assembly (9010 or 91 10) is merely a matter of design choice. Likewise, the type of sheathing members (9017, 9023 or 91 17) is also a matter of design choice based upon

12 whether the pre- ired sign section assembly is a front loading type (9010) or a rear loading type (91 10).

[0328} More particularly, as best seen in FIG. 48, the left most assembly 9010L is provided with three structuraS support members 8013 arranged from left to right on the frame 12 at the extreme left boundary edge of the frame 12, the center of the frame 12 and slightly overlapping the right boundary edge of the frame 12. The overlapping configuration is provided so that the right most support member 8013 can be affixed to both the left most section 9010L and to the left boundary edge of the internal section 9010C or the left boundary edge of the right most section 901 OR, whichever the case may be relative to what type of signage is being modified or constructed.

[0329] The center or internal sections 9010C are provided with only two support members 8013, one at the rearside center of the associated frame 12 and one slightly overlapping the right boundary edge of the frame 12. This overlapping configuration is provided so right most support 8013 of the interna! section 90 0C can be affixed to a right most section 901 OR.

[0330] The right most sections 901 OR are also provided with only two structuraS support members 8013, one at the rearside center of the associated frame 12 and one at the extreme right boundary edge of the frame 12.

[0331] From the foregoing, it should be understood that sign section assembSies 9010L, 9010C and 901 OR are hoisted and hung onto an existing sign support structure utilizing a left to right mounting configuration. It should also be

understood, that this left to right procedure would be repeated if needed to form an array of sign sections on an existing sign support structure.

12 [0332J The pre-wired sign section assembiy 9010 further includes a plurality of wiring assemblies, such as the wire harness assembly 1500 (FIG. 36). The wire harness assembly 1500 includes a first portion 1500A (FIG. 37} which when instai!ed in a compound structural frame forms a component part of a pre-wired sign section assembiy 9010. A second part 1500B (FIG. 36} of the wiring assembly 1500 ships separate from the pre-wired sign section assembly 9010 as this second portion 1500B must be mounted to a centered one of the planar structural support members 8012 at the installation site. In order to simp!ify the detailed description relative to the wire harness assembly 1500, the two parts of the assembiy 1500 from time to time will be described as forming part of a power/data distribution kit 1216 (FSG. 42B), which kit 1216 in turn, forms part of the sectional sign assembly and installation kit 1210 (FIG.42). In this regard, the power/data distribution kit 1216 is partially utilized in the factory to help form individual sign section assemblies, such as the assembiy 9010 and partially utilized in the field at the installation site to install central AC and data control hubs 1810 and satellite power and data hubs 1710 on the backside of the sign under construction. The following is intended to help clarify how the two parts 1500A and 1500B are utilized in helping to modify an existing sign structure, such as existing sign structure 1410.

[0333] Each first portion 1500A, which is a prewired portion, is associated with and made part of the pre-wired sign section assembly 9010 as best seen in FSG. 37. In this regard, each first portion 1500A includes a plurality of power extensions ends for coupling a DC power source derived from the second portion 1500B to the plurality of display modules 14 populating the bay members of a compound structural frame. Each first portion 1500A further includes a power junction end for coupling the power extension end to the DC power source as will be explained hereinafter in greater detail. For the moment, it will suffice to state that each

12 individual one of the plurality of power junction ends (nodes) is coupled to a direct current data structural frame or satellite hub, such as the satellite hub 1710 as best seen in FIG . 36.

[0334]Each second portion 1500B also forms part of a signage data/power distribution scheme which is configured to be coupled to the main AC power 9050 and data 9052 distribution panel (not shown) associated with the sign 8010. This data/power distribution scheme is inclusive of a pair of DC/data SF hubs 1710 associated with each pre-wired sign section assembly 9010. The pair of DC/data SF hubs 1710 are mounted on a centrally disposed planar structural support member 8012 to enable power to be distributed outwardly therefrom to each of the bays within the associated compound structural frame, in this regard, since two compound structural frame units are associated with the pre-wired sign section 9010, two DC/data SF hubs 1710 are provided. The second portion 1500B also includes a centra! AC and data hub 1810 which is mounted between a pair of the planar structural support members 8012 and centrally to all of the satellite hubs 1710 associated with the signage 8010. The central AC and data hub 1810 is coupled between the main AC power and data distribution panel and ach pair of the satellite DC/data SF hubs 1710 associated with the signage or billboard 8010.

Power and data is coupled between the central AC and data hub 1810 and the plurality of DC/data SF hubs 1710 via weatherproof conduit 1812 shown

schematically in FIG.36 which is also supported by the planar structural support members 8012 forming part of the signage 8010.

[0335 Each first part 150GA of the wire harness assembly 1500 is identical, utilizing cable or wire with a sufficiently small wire gauge that allows at least ten harnesses or cables to pass through a structural frame cutout within an associated compound structural frame 12 (9012). For example, the cutout 9095 has a sufficient

12 space opening for allowing such a bundle of cables to pass therethrough from the front-facing portion 9013 to the rear-facing portion 9015 of the frame 12 (9012) and then, through a sheathing cutout as best seen in FiG. 49 to engage connectors within the associated satellite hub 1710. if needed, a cable or harness restraint 1712 may be mounted in an appropriate resistant position, such as on an adjacent wire routing feature, such as the wire routing feature 309 associated with cutout 306 to provide an power/data introduction point on the front-facing portion of the structural frame 12. It should be noted that the power junction end 1602 of the first part of the wire harness assembly 1500A is located adjacent to a rear surface of one of the rear-facing portions. The power junction end 1602 as noted is configured for attachment to a satellite hub 1710 mounted on the support member 8012 which is adjacent to both columns of bay members associated with the structural frame 12.

[0336] Considering now the sectional sign assembly and installation kit 1210 and method of using 1 110 the kit 1210 to assembly and install the electronic sign or billboard 80 0 in greater detail with reference to FIG. 43, the factory assembly method 1 1 10A (FIG. 43), is initiated at a start step 4310 where the process proceeds to a cutting operation step 4312. At the cutting step 4312 individual ones of the planar vertical support members are cut to required sizes for the sign to be converted or constructed. Horizontal support members 8017, if utilized are also cut to size at this cutting step 4312.

[0337] Once the channel members 8012 have been cut for the sign 8010, the process proceeds to an install step 4314 where rivet nuts 8016 are installed at desired location corresponding to a particular structural bolt pattern. The process then goes to another install step 4316 where a minimum of one rivet nut 8016 per vertical support member 8012 is installed to facilitate permanently attaching the

12 sheathing backing (9017 or 9117) as the case may be) between the particular compound structural frame being utilized (a front access structural frame 12, 9012 or a rear access structural frame 9112} and its associated planar vertical support channels 8012.

[S3383 ext in the assembly process 1110A, another operation step 4318 is performed where horizontal reference lines (not shown) are marked out across the vertical support members 8012. The horizontal reference lines are provided as reference line to affix hanger brackets to the backside of the assembly 9010.

[0333] After the reference Ijnes are marked out on the support members 8012 at step 43 8, the process goes to a cutting step 4320, where sheathing material is cut to size to provide the required sheathing for a front access structural frame 12 or a rear access structural frame 9112. The sheathing 90 7 or 91 17 is the further processed at an action step 4322 where holes are punched out in the sheathing at required rivet nut locations. These hole are oversized holes to fit over a rivet nut flange associated with a rivet nut 8016.

[0340] From the action step 4322, the process goes to another action step 4324 to further process the sheathing. In this regard, the action step 4324 results in providing a set of access or punch out holes which are necessary for providing access to the rear of the compound structural frame to display module latching system. If should be understood that if rear doors are provided, such as on the sheathing 91 7 (FIG. 41 C), sheathing access holes, such as the sheathing access hole 9120 are required. In this regard, access to the compound structural frame to display module latching system is provided via the sheathing access hole 9120 and rear access door 91 18.

12 [03413 Next, the process goes to yet another action step 4330 where mounting holes are provided in the sheathing. These mounting holes help facilitate the mounting or attaching of the sheathing to the rivet nuts 8016 disposed i the verticai support member 8012

[03423 The process then proceeds to still yet another action step 4332 as best seen in FIG. 43B, where openings are punched out in the sheathing for providing rear access doors 91 18 and Socking mechanisms (not shown). From action step 4332, the process advances to an install step 4334 where a rear access door 9118 is installed onto the backside of the sheathing 91 7 along with the locking system, !t should be understood that this step may be omitted when no rear access door is being provided with sheathing 9019, 9023 for a front access compound structural frame 9012.

[0343J From the install access door step 4334, the process goes to an action/install step 4336 where a harness access hole is punched out in the sheathing at the location where the wiring harness or cable 1500A passes to the backside of sheathing. In order to protect the cable from the formed hole edges, a grommet is installed in the resulting hole.

[0344] The process then advances to an assemble step 4337, where all other components needed for the sign section assembly 9010 are assembled. From the foregoing, it should be understood that those components required for the sign section assembly 9010 are not available for a continued manufacturing process. In this regard, the process proceeds to a prepare step 4338.

[0345] At the prepare step 4338, a bench top jig which is capable of assembling left side assemblies, right side assemblies and center assemblies is prepared for the

12 continued manufacturing process. Once the jig 1310 is prepare at the jig

preparation step 4338, the process goes to an affix step 4340 where the vertical members required for the particular type of sign section assembly (ieft, right or interior^' assembly) are affixed to the jig 1310 with the rivet nuts 8018 facing upward from the bench top.

[0346] From the affix step 4340, the process continues to another affix step 4342 where centra! horizontal power distribution support members are affixed between vertical support members. These centra! horizontal power distribution support members are utilize to support the centra! AC and data enclosure 1810 from the backside of the sign 8010 or 8110 or 8210, whichever type of sign.

[0347J Next, at a marking step 4348, section lift points are marked o the vertical support members 8012 as well as the horizontal support members 8017. After the marking has been applied, the process advances. It should be understood, that once the horizontal and vertical support members have been fixed within the jig 1310, marking of the support members may be immediatel commenced.

[0348] The process then advances to an install step 4350 where the sized sheathing is lay onto the vertical support members. If the sheathing is provided with a rear access door 91 18, the sheathing 9117 is placed door side down. It should be understood by those skilled in the art that other types of sheathing may also be utilized such as rolled sheathing 9023 (FIG. 38) or flat sheathing 9017 (FIG. 40) as examples.

[0349] Once the sheathing has been placed on the verticaS support members, the process goes to an affix step 4352 where the sheathing is affixed to the vertical

12 members with rivet nuts 8018. From the affix step 4352, the process advances to a chimney install step 4354.

[03503 At the chimney install step 4354, chimney grills are inserted into there grill locations in the compound structural frame. Continuing to an install bee stop step 4356, bee stops are adhesively affixed in their respective locations within the compound structural frame in accordance with the type of sign section assembly being formed.

[0351] From the affix bee stops step 4356, the process continues to an

arrangement step 4358, where the compound structural frame is placed on top of the sheathing. At step 4360 the mounting bolt features within the compound structural frame are aligned with the rivet nuts disposed in the vertical structura! frames so the bolts may be installed at an install step 4362.

[0352] Next, the process continues to a wire harness install step 4364. At the wire harness install step 4364, while maintaining the unit in a substantially flat orientation relative to the bench to each wire harness cable is install in the compound structural ft'ame and routed to the central opening. Wire harness zipper ties 9018 are utilized to secure the free ends of the extension chords and module connectors in close proximity for coupling to a display module connector.

(0353] At a prepare for shipping step 4370, wood blocking 8015 (F1G.49) is added for helping to protect the assembSy during shipping. Next at a final preparation step 4373, the assemblies are boxed up, palletized and shipped out to an installation site. The factory assembl process then ends at a go to step 4374 with the process advancing to a go to field installation site step 4410 (FIG. 43C) where a field

12 installation method or process 1110B is initiated that will be described hereinafter in greater detail.

[0354] Considering now the electronic sign or billboard 8010 in greater detail with reference to F!G 42B, the field modification or assembly kit portion 121 OB of the sectional electronic sign assembly and installation kit 1210 generally includes a plurality 1212 of pre-wired sign section assembly units 9010, where each section is two feet wide and ten feet tail. With this type of sign structure, the sign 9010 will include a plurality of sign section assemblies including a single right side unit 901 OR, a single left side unit 9010L and a set of three internal units 9010C. The field modification kit 1210B also includes a plurality 1214 of display modules 14 to populate the prewired wired sign section assembly units; a power/data distribution kit 1216 for mounting to one or more of the vertical planar structural support members 8012. The power/data distribution kit 1216 includes a plurality 1218 of DC/data satellite hubs 1710 and a centra! AC and data distribution kit portion 1220 to facilitate the installation of the centra! hub 1810; and hub mounting kit 1222 that includes hub mounting hardware, conduits, conduit mounting hardware, hinges, and Socking latches. The kit 1210 also includes a signage installation kit 1224 utilized in hanging the individual sign section assemblies. This kit 1224 includes; sign trim 1501 , 1502; lifting hooks or brackets 1503; hanger brackets 1505, hanger bracket hardware 1512, lifting bracket hardware 1516; hanger clips 1514, as we!! as additiona! compound frame to vertical members bolts 1520 (with dry Ioktite) and washers for fastening the "free ' interior frame sections to their neighbors as best seen in FIG. 48.

[0355] Referring now to the manner in which the billboard sign 8010 is field installed in greater detail by use of the field modification kit 121GB (FIG, 42 B), the field instal!ation assembly method 11Ί0Β (FIG. 43), is initiated from step 4374

12 to step 4410 (FIG. 43C) at the installation site when the component assembly step 4374 ends, in this regard, the process advances to the installation site at step 4410 when the installation team arrives on site ready to begin the installation process. From step 4410, the process advances to a delivery step 4412 when all the component parts necessary for the modification or assembly of the electronic sign 8010 or 8110 or 82 0 arrive on site. The installation process then advances to a preparation step 4414. When the field assembly kit 1210B arrives at the installation site usually by conventional transportation, the on site installation team unloads the transportation vehicle utilizing convention construction equipment.

[0356]At preparation step 4414, the installation team prepares the existing sign for the retrofit process. In this regard, the installation team removes the planar back panels of the existing sign structure 1410 thereby exposing its underlying support structure. This includes vertical support beams, horizontal support beams, diagonal support beams, cat walks and the like. For the purpose of simplicity hereinafter these support beams wili be referred to individually and collectively simply as "the existing support structure" 1410.

[0357] Upon removal of the planar back panels or poster boards, the process advances to a replacement step 4416 where the installation teams adds or replaces existing support structure 1410 as necessary per local authority signage requirements. When the existing support structure 1410 has been properly updated and is ready for use, the process proceeds to a mounting step 4418.

[0358] At the mounting ste 4418, the installation team starts with the first or left most sign section assembly 9010L and readies the assembly 90101 by installing an adjustable hanging bracket 1505 to the vertical structural support member 8012 at the center of the assembly 9010L Alternatively, hanger brackets may be used

13 equidistant about the assembly centeriine. it should be noted that if the hanging brackets are alread welded to a vertical support 8012, this step of attaching the hanging bracket to the vertical support may be omitted.

[0359] Next at a populate step 4419, the installation team populates all of the bay members 9016 in the sign section assembly 90101 with individual ones of the weatherized display modules, such as the display module 14. Populating the assembly 9010L before it is hoisted into position on the existing structurai support beams of the existing sign, results in reduced installation time, as the individual display modules do not need to be placed in a limited sized Sift bucket and raised to the height of the sign for installation. In short, populating before lifting eliminates the need to utilize the limited sized lift bucket for this process.

[0360] After the sign section assembly 9010L has been populated with display moduies 14, the process continues to a Sifting step 4420. At the Sifting step 4420, the installation team attaches Sifting hardware onto the assembly 9010L and using a crane hoist, raises the assembly 9010L onto the existing sign support structure 1410 of the existing sign. The process then advances to a hanging step 4422.

[0361] After the sign section assembly has been raised and positioned on the existing sign structure 1410, the installation team utilizing the kit provided hanger brackets, such as the hanger brackets1505, and while keeping the hoisting crane (not shown) engaged, hang the Sifted section 9010L from the upper support 1410. It should be understood that hanger brackets are attached at marked positions selected at a chosen pre-marked height from the top of the panel per factory step 4318. At another hanging step 4428, the team affixes {if necessary) a Sower hanger bracket 1505 to the assembly 1910L and hangs the assembly 9010L to a Sower support 1410. Once the sign assembly 9010L has been hung to the upper and

13 lower supports, the hung sign section is disconnected from the hoisting crane at a disconnect step 4430

[0362] Next, at another attachment step 4432, the team attaches upper and Sower alignment guides, such as the alignment guides 1524 (See F!G. 50) to the sign section assembiy horizontal support 8017. The alignment guides 1524 bolt onto the support 8017 spanning the sign section seams. Horizontal supports 8017 are a!so bolted to the vertical support 8012. The process is ready now for adding another sign section.

[0363] The installation team the next sign section assembl 90 0C at a readying or access step 4434, where the team removes the shipping blocks associated with the next section, and then populates the assembly 9010C with its associated display modules 14.

[0364| ^^e * ^a^^er *^ne assembly 9010^'C has been populated with display modules, at another attachment step 4438, as was done with the first left most assembly 9010L, the installation team attached to the internal assembly 9010C the lifting hardware and then using the hoisting crane, hoists the assembly 901 DC onto the existing support structure 14 0 using the alignment guides 1524 and the dovetail features of the compound structyral frame 12 to abut sections relative to their x-y-z axes.

[0365] After the two sections have been aligned, at another attachment step 4438, the team attaches upper and Sower hanger brackets, such as the hanger bracket 1505 to the sign section assembly 9010C. The hanger bracket 1505 bolts to the assembly 9010C. The process then advances to an install step 4444. At the install step 4444, the team using vertical member bolts 1520 coated with dry Soktite, attach

13 the structural frame of the assembly 90 0C to the vertical channel support member 8012 associated with the neighbor assembly 9010L It should be understood that any installed display modules 14 installed at bolt locations would need to be removed from these bolt locations and then reinstalled after section bolting is completed.

[0366] Next, at another attachment step 4448, the vertical support members 8012 and or horizontal support member 8017 and alignment guides which bridge the sign section seams are bolted together. At this -point, the team makes a determination at a decision step 4448 whether all the sign section assemblies associated with the sign 8010 have been hung and mounted to the existing sign structure 1410. If all sections have not been hung, the team goes back to the access step 4434 and repeats each step described thereafter until all of the sign sections, including the right most section assembly 901 OR have been hung and mounted to the existing sign structure 1410. When this has been accomplished the process advances from the decision step 4448 to a trim affix step 4450 where the team affixes the sign trim 1501 to the hung sign section assemblies using the trim mounting hardware provided in the field modification kit 1210B.

[0367] After the sign trim 1501 has been mounted, the process advances to a replacement step 4460 as best seen in FIG. 43. The installation team at the replacement step 4480 replace grommets at all the cable pass through locations with a conduit connector and a section of the conduit 1716 and then pulls cables (wire harnesses) from the front-facing portion of the compound structural frame 12 through the rear sheathing and then to the rear of the sign section assemblies.

[0368] After the cables have been pulled to the rear of the sign 8010, the process advances to an install step 4462 where the installation team installs on the

13 appropriate ones of the channel members 8012 hub hinges, such as the hub hinge 1714 {FIG. 52) and then mount the associated ones of the satellite hubs 1710 to their respective hinge members, such as a hinge member 1714. This arrangement allows the satellite hub 1710 to be rotated backward and . tilted away from the backside of the sign 8010. This aiso allows access to the sheathing holes and the rear-facing cut outs in the structural frames to feed harness cables 1500A through chord grips, such as a chord grip 1712 which in turn aliows the hub 1710 to lie in a horizontal position so the individual harness cables, such as the harness cable 1500A can be cut to length while the satellite hub is disposed in its down position, it should be noted that the cable length is effectively governed by the location of that display module furthest from its associated satellite hub 1710 plus an additional twelve to eighteen inch minimum for running through the supporting chord grip 1712.

[0369] After the cables 1500A have been cut to length, the process advances to a terminate step 4464 where the cables 1500A are coupled or connected to their respective satellite hubs 1710 to complete the electrical interconnection between the display modules at their associated hubs 1710. When so terminated, each hub 1710 is then reset to its upright position at a reset step 4464 using hub/Socking mechanisms (not shown).

[0370] The process then advances to a decision step 4486 where the installation team makes a determination to verify that all satellite hubs 1710 associated with the sign 8010 have been installed. If all satellite hubs 1710 have not been installed the process returns to the replacement step 4460 and continues as previously described. On the other hand, if all the satellite hubs 1710 have been installed, the process advances to another install step 4468.

13 [03713 At the install step 4488, the installation team using the mounting hardware for the central AC and data control enclosure 1810, installs its supporting hardware between a pair of the vertical support members 8012. The AC and data control enclosure 1810 is then mounted between the pair of vertical support members 8012. As best seen in FIG. 36 this installation location of the central hub 1810 is central to all of the satellite hubs 1710 in order to help minimize conduit strings. In this regard, the installation team runs weatherproof flexible conduit 1812 between the various ones of the satellite hubs 1710 and the centra! AC and data contro! hub 1810.

[0372] Vertical support members 8012 are utilized for anchoring the conduit runs 1812 to the rear side of the sign 8010. Once the conduit runs 1812 have been anchored to their verticaS support members 8012, the installation team at a pull step 4170, pulls the AC wiring from each satellite hub 1710 to the central hub 1810, terminating the wires at both ends to establish a solid electrical path therebetween. The process then advances to another installation step 4476.

[0373] At the installation step 4476 the installation team establishes data communication paths between the central hub 1810 and the satellite hubs 1710. In this regard, the installation team installs either wired or wireless capability allowing the sign 8010 to effect data communication using appropriate communication hardware (not shown).

[0374] Once the AC and data communication channels have been completed between the central hub 1810 and each of the display modules 14, the process advances to a verification step 4478. At the verification step 4478, the installation team verifies that the AC source service for the sign 8010 is locked out and tagged

13 out. Once this is verified, the installation team runs the AC source service for the sign 8010 to the AC and data enclosure 1810 using watertight conduit.

[0375] After the AC power runs have been completed at step 4478, the installation team at a power on step 4480, applies power to the sign system 8010 and verifies the proper operation of the system as described earlier. Upon verification of proper sign operation, the process advances to an end step 4482.

[0376] Referring now to the drawings, and more particularly to F!G. 41 , there is illustrated another electronic sign or billboard 8110 which is constructed in accordance with the present invention. The electronic sign 81 10 is assembled and constructed in substantially the same manner as described herein earlier relative to the electronic sign 8010 using a set of pre-wired sign section assembly units 901 OA. The pre-wired sign section assemblies 901 OA are substantially similar to the pre-wired sign section assembly 9010, except that a rear accessibie compound structural frame 9012 is utilized in its construction as opposed to the front accessible compound structural frame 12. In short, by simply substituting one prewired sign section assembly 901 OA for the other pre-wired sign section assembly 9010, an existing static sign can be converted to a dynamic electronic sign with both display module front loading and rear loading capabilities. As installation or modification kits and methods of assembly between the two pre-wired sign section assemblies 9010 and 901 OA are also substantially the same as described herein earlier, only the differences will be described hereinafter in greater detail.

[0377J Considering now the electronic sign 9110 in greater detail with reference to FIGS. 41 , 45 and 46, the electronic sign 9110 generally includes a plurality of rear accessible compound structural frames, such as a compound structural frame 9112 (FIGS. 45-46). The electronic sign 9110, like electronic sign 9010 has a front-facing

13 portion 91 13 and a rear-facing portion 9115, as best seen in FIG. 46. Compound structurai frame 9112 (FIGS. 44-45) is substantially similar to compound structurai frame 9012 (FIG. 37} except for the size and layout of its cutou area as will b explained. More particularly, compound structurai frame 9112 is constructed so that each of its associated structural bay members, such as bay member 9116, are configured as front or rear loading structural bay members 9118. This is

accomplished by providing each bay member 9116 with a large centrally disposed display module removal keyhole cutout area, such as the cutout area 9363 as best seen in FIGS. 44-45. This keyhole cutout area 9363, although substantially larger than cutout area 330 as previously described relative to structural frame 12, nevertheless is configured to allow substantially the same wire routing features, substantially the same node receptacle features, and substantially the same module latching features as found and described earlier herein relative to structural frame 12. Moreover, the larger cutout area 9363 is also configured so that the cooling fin heat sink of an associated display module 14 is also positioned without disruption within an identically structured self-cooling air vent configured on the backside of the structurai frame 9112. Finally, also certain ones of the cut out areas found in the structural compound frame 12 are configured smaller within the structural compound frame 91 12, nevertheless the volume of these smaller cutout areas when taken in combination with the cutout area 9363 are sufficient so the structural frame 9112 weighs no greater than 50 pounds.

[0378] Before continuing with the detailed description of the electronic sign 81 10, it might be beneficial to briefly review the advantages realized by providing the sign 81 10 with rear serviceability. [03793 Firstly, the electronic sign or billboard 8110 is substantially similar to the electronic sign 8010 and accordingly, all of the advantages mentioned herein earlier with respect to the electronic sign or billboard 8010.

[0380] Secondly, the electronic sign or billboard 8110 is provided with the same type of sheathing backing that was described relative to the sectional sign assembly 8010. Accordingly, the same chimney vent self cooling scheme is available. However, by providing the sheathing backing with latching access doors as will be described hereinafter in greater detail, a service person Is able to access the rear-facing portion of the compound structural frame 9012 and not onl unlatch a display module 14 from Its associate bay, but also utilizing a unique and novel method of rear access display module removal, is able to grasp the unlatched display module 14 and remove it from the backside of the sign 8110 via the sheathing access door. Those skilled in the art should understand that by utilizing existing catwalks associated with an existing static sign or by constructing catwalks on the existing structure 1410, display modules 14 may be services without the utilization of large ladders and bucket cranes, which could require special or expensive local authority permits.

[0381] Thirdly, by use of a lanyard on the display module 14 as described herein earlier, a display module 14 may be secured and protected from sign dis!odgement prior to being unlatched from its associated bay member.

[0382] Finally, regardless of a signs height, complete rear serviceability is provided without the need of disconnecting AC power from the sign.

[0383] Considering now the compound structural frame 12 (sometimes hereinafter referred to as compound structurai frame 9012} in greater detail with reference to

13 FIG.37, the compound structural frame 9012 includes a front facing portion indicated generally at 90 3 and a rear facing portion indicated generally at 90 5. The front facing portion 9013 defines a two dimensional array 9130 of bays, such as the bay member 9018. Each individual bay 9018 is dimensioned for supporting therein a sealed display module 14. Each bay member 9018 includes a set of wire routing features 9307-9310 and a set of latches which are disposed in the same configuration as the latches associated with structural bay member 16. In this regard, latch bosses 9322-9327 are disposed in the same configuration as latch bosses 322-327 and the associated latches which are mounted to such bosses have both front side and back side unlatching capability as best seen in FIG. 30.

[0384] The two dimensional array 9130 of bays 9116 includes a plurality of bay columns defined along a horizontal X -direction axis line H, indicated generally at 9020 (FIG. 37) and a plurality of bay rows defined along a vertical Y-direction axis line V, indicated generally at 9021 (FIG.37). A node bearing wiring harness (not shown) which is substantially identical to wire harness 1500A has a set of spaced apart wiring nodes which are adapted to be secured within a corresponding set of node receptacles, such as node receptacles 9350 and 9352 (FIG.45) defined within the structural frame 91 12 in substantially the same manner as the earlier described with respect to the wiring harness 2400H. In this regard, the wiring harness has a sufficient length to branch throughout the structural frame 9012, 91 12 and then exit therefrom so that the power source connector ends of the harness may be coupled to the available source of Sow voltage. To facilitate the routing of the harness 1500A throughout the structural frame member 9012, 91 12, the structural frame 9012, 91 12 defines a plurality of wire routing features 9307-9310 for example. In short, the harness 1500A passes through a cut out area and a punch out in the sheathing into order to be secured to an associated satellite hub 1710 in the same manner as described herein earlier relative to the sign section assembly 8010.

13 EOSSSJConsideorig now the method of removing a display module 14 from the rear side of the sign 9110 with reference to FIGS.47A-D, removal of the display module is commenced b opening the sheathing access door associated with the display module to be removed. A lanyard is then attached to the display module as a safety feature to make certain that the display moduSe is unable to fall from the front side of the sign 91 10.

[0386]Once the lanyard is attached to the display module, the serviceperson using a display moduSe removal too! (a hex wrench), accesses each frame latch engaging its complimentary display modules latch receptacle and unlatches each latch from its associated receptacle.

[0387]When the dispSay moduSe is unlatched from the structuraS frame 9012, the service person, as best seen in 47B, while holding the heat sink fins of the module, pushes the display module 14 outwardly and away from the front face of the sign 91 10. This distance the display module 14 is moved away from the front face of the sign 91 10 is a sufficient distance to allow the display moduSe to be inverted so that it height to width dimension is such that the display module 14 may be puS! back into the structuraS frame 9012 into the cutout area 9363 as best seen in FIG. C. In this position, the serviceperson is able to disengage the dispSay module 14 from its associate power/data harness 1500A allowing the harness to rest freely within the cutout area 9383.

[0388] Once the display module 14 is free of its wire harness 1500A, the service person continues to pull the module 14 rearwardly and through the sheathing access door until the moduie 14 may be released from the lanyard and placed in a storage box (not shown) for return to the factory. The service person, then reverses

14 this process, attaching the lanyard to a new display module, which is inserted heat sink down through the sheathing access door and through the compound structural frame. This action continues until the display module 14 has been moved a sufficient distance from the front side of the sign 91 10 to allow it to be rotated into an non inverted stated and then pull back into its associated bay member. While sti!i holding the heat sink, the service person engages each of the frame latches with the complimentary latch receptacles on the display module, until all have been latched thereby securing the display module 14 within its associated bay member 9016. When service has been completed, power is reconnected to the module as necessary and access doors are then locked. This process is then repeated for each display module that needs to be serviced.

[0389] Referring now to the drawings and more particularly to FIG.50, there is illustrated a rear accessible electronic digital billboard 8210 which is constructed in accordance with the present invention. The digital billboard 8210 generally includes a plurality of substantially identical pre-wired front and rear accessible sign section assemblies 91 10 which are configured to be electrically and mechanically coupled to a central alternating current and data distribution hub 1810 and a plurality 1218 of direct current/data satellite hubs 1710. The satellite hubs 1710 and central hub 1810 are combined in a power/data distribution kit 1216 with hardware for mounting pairs of satellite hubs 1710 to individual ones of the sign section assemblies 9110. In this regard, the satellite hubs 1710 which are distributed about the central hub 1810 are all mounted to various vertical planar support members 8012 forming part of individual ones of the sign section assemblies 91 10. The sign section assemblies 91 10, the power/data distribution kit 1216, the display modules 14 along with a signage installation kit 1224 are all delivered to a field installation site with a set of tools. The combination of these component parts, tools and kits enable a field

14 installation team to retrofit an existing sign structure 1410 in a fast and convenient manner to construct the electronic digital billboard 8210.

[0330] Considering now the digital billboard 8210 in greater detail, the digital billboard 8210 is mounted to existing foundational support 1410 and is provided with bolt mounted sign trim 1501 to provide the sign with a finished look. When mounted to the existing foundationa! support 1410, the existing foundational support 1410 must, before the retrofitting process may commence, must have sufficient structural support to meet local sign installation authority requirements. Should the existing foundationa! support 1410 be deficient in this respect, the fie!d insta!iation team wil! take the necessary steps to replace or reinforce the existing structure so it meets not only local authority requirements but also has sufficient structural integrity to support the resulting signage 8210 without compromise in wind Ioading forces of up to 100 pounds per square foot. As already mentioned, the billboard 8210 is provided with rear accessibility capability. In this regard, the display modules 14 which are populated by front loading into their respective sign section assemblies are completely serviceable from the rear-facing side of the signage 8210. Front Ioading of the display modules 14 into their respective sign section assemblies before each assembly is hoisted and hung in place onto the existing support structure 1410 is an important feature of the present invention. This a!lows the assemblies to be populated with modules while still at a ground level location thereby eliminating the need of transporting and installing modules at sign level off above the ground. This in turn, results in a significant reduction in retrofit installation time with resulting favorable costs savings. Moreover, once the assemblies are mounted in place on the existing foundationa! structure 1410, rear accessibility features in the assemblies enable the display modules 14 to be removed from the backside of the signage 8210 via catwalks or simple hoists or

14 ladders, which in turn offer significant cost savings when compare to frontside removal in view of height considerations.

[03313 It is important to note that each sign section assembly 9110 is provided with a set of horizontal support 8017 which are configured with pairs of removable lifting hooks, such as a lifting hook 1503. The lifting hooks 1503 are utilized b the insta!Sation team to facilitate lifting each sign section assembly 9110 to the existing sign structure 1410 and bringing the sign section assembly into alignment for mating engagement with the existing structure 1410 and another sign section assembly 9110 via alignment guides, such as the alignment guide 524 which spans between the vertical support members. Vertical support members 1812 and horizontal support members 8017 are secured together by assembly support brackets, such as a support bracket 1509 and securing bolts 8018 and nuts 8019 respectively to facilitate hoisting of the sign section assembly 91 10 into an existing support hanging position via hanging bracket as previously described herein with reference to another billboard embodiment, but which is equally applicable to the present billboard.

[0392] As best seen in FIGS. 49-50, satellite hubs, such as the satellite hub 1710, are hinged mounted to assembly structural support members, such as a support member 8012. This configuration enables the satellite hub 1710 to be moved away from the rear-facing portion of an assembly thereby providing access to the backside of assembly 91 10 that would have otherwise been covered by the hub 1710. In this manner, access doors 91 18 in the assembly sheathing 9117 may be opened to gain access to the rearside structural frame keyhole cutouts 9363. This is an important feature of the present invention as such cutouts are arranged to be in fluid communication with the airflow paths established between the sheathing 91 17 and the rearside of the structural frames forming part of the assemblies 9110.

14 This access to the cooling vents coincides not only with cooling fin access to ind vidual ones of the display modules to facilitate rearside removal, but it also coincides with providing rearside access to associated module latching

mechanisms so the latching mechanism may be disengaged allowing module release. This access also has the advantage of visually presenting for

disengagement the power/data connectors coupled to such display modules. Thus, once a connector has been disconnected from its display module receptacle, the display module may be pushed outwardly and rotated into a position for allowing its removal rearwardly through the keyhole cutout 9363 for replacement purposes.

[0393] While the present disclosure has described a process for mounting one or more sign section assembly units to the horizontal and vertical supports of an existing sign structure, the mounting of such a sign section assembly is not limited to one particular mounting structure. According to the present invention, "an existing sign structure" or "an existing signage mounting structure" can include portions of or one or more of vertical beams, horizontal beams, diagonal beams, sheet metal panels, a sheet metal panelized system, a structural steel grid, a lattice structure of any appropriate ridged material, such as steel, structural foam, and plastic for example, a spaceframe, a billboard structure, architectural cladding, sign cabinet framing, a framed wailing, a concrete walling, a planar surface. These are but a few of the surfaces that may be included as part of an existing signage mounting structure. Therefore, the present invention encompasses a wide range of structures and surfaces that form part of a pre-existing sign that can be retrofit with the retrofit kits of the present invention that include sign section assembly units, full or partial sign section assemblies, and compound structural frames whether prewired or wired on site. Thus, there is no intention of limiting the scope of the type of surfaces and structures that can be modified to become a dynamic electronic sign or billboard.

14 Conclusion

[0394|The preceding merely illustrates the principles of the invention. It will thus be appreciated that those skilled in the art will be able to devise various arrangements which, although not explicitly described or shown herein, embody the principles of the invention and are included within its spirit and scope. Furthermore, all exampies and conditionai language recited herein are principally intended expressly to be only for pedagogical purposes and to aid the reader in understanding the principles of the invention and the concepts contributed by the inventors to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions. Moreover, ail statements herein reciting principles, aspects, and embodiments of the invention, as well as specific examples thereof, are intended to encompass both structural and functional equivalents thereof.

Additionally, it is intended that such equivalents include both currently known equivalents and equivalents developed in the future, i.e., any elements developed that perform the same function, regardless of structure.

[0395]This description of the exemplary embodiments is intended to be read in connection with the figures of the accompanying drawing, which are to be considered part of the entire written description. In the description, relative terms such as "Sower," "upper," "horizontal," "vertical," "above," "below," "up," "down," "top" and "bottom" as well as derivatives thereof (e.g., "horizontally," "downwardly," "upwardly," etc.) should be construed to refer to the orientation as then described or as shown in the drawing under discussion. These relative terms are for convenience of description and do not require that the apparatus be constructed or operated in a particular orientation. Terms concerning attachments, coupling and the like, such as "connected" and "interconnected," refer to a relationship wherein structures are secured or attached to one another either directly or indirectly

14 through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

[0396JAH patents, publications, scientific articles, web sites, and other documents and materials referenced or mentioned herein are indicative of the levels of skill of those skilled in the art to which the invention pertains, and each such referenced document and material is hereby incorporated by reference to the same extent as if it had been incorporated by reference in its entirety individually or set forth herein in its entirety. Appiicants reserve the right to physically incorporate into this

specification any and ail materials and information from any such patents, publications, scientific articles, web sites, electronically available information, and other referenced materials or documents to the extent such incorporated materials and information are not inconsistent with the description herein.

[0397]The written description portion of this patent includes all claims. Furthermore, all claims, including ail original claims as well as all claims from any and all priority documents, are hereby incorporated by reference in their entirety into the written description portion of the specification, and App!icant(s) reserve the right to physically incorporate into the written description or any other portion of the application, any and all such claims. Thus, for example, under no circumstances may the patent be interpreted as allegedly not providing a written description for a claim on the assertion that the precise wording of the claim is not set forth in haec verba in written description portion of the patent.

[OSSSJThe claims will be interpreted according to law. However, and

■notwithstanding the alleged or perceived ease or difficulty of interpreting an claim or portion thereof, under no circumstances may any adjustment or amendment of a claim or any portion thereof during prosecutio of the application or applications

14 leading !o this patent ^'be interpreted as having forfeited any right to any and ail equivalents thereof that do not form a part of the prior art.

[0399JAH of the features disclosed in this specification ma be combined in any combination. Thus, unless expressly stated otherwise, each feature disclosed is only an example of a generic series of equivalent or similar features.

[0400 J It is to be understood that while the invention has been described in conjunction with the detailed description thereof, the foregoing description is intended to illustrate and not limit the scope of the invention, which is defined by the scope of the appended claims. Thus, from the foregoing, it wii! be appreciated that, although specific embodiments of the invention have been described herein for the purpose of illustration, various modifications may be made without deviating from the spirit and scope of the invention. Other aspects, advantages, and modifications are within the scope of the following claims and the present invention is not limited except as by the appended claims.

[0401 ]The specific methods and compositions described herein are representative of preferred embodiments and are exemplary and not intended as limitations on the scope of the invention. Other objects, aspects, and embodiments will occur to those skilled in the art upon consideration of this specification, and are encompassed within the spirit of the invention as defined by the scope of the claims. It will be readily apparent to one skilled in the art that varying substitutions and modifications may be made to the invention disclosed herein without departing from the scope and spirit of the invention. The invention illustratively described herein suitably may be practiced in the absence of any element or elements, or limitation or limitations, which is not specificall disclosed herein as essential. Thus, for example, in each instance herein, in embodiments or examples of the present invention, the terms

14 "comprising", "including", "containing", etc. are to be read expansively and without limitation. The methods and processes illustratively described herein suitably may be practiced in differing orders of steps, and that they are not: necessarily restricted to the orders of steps indicated herein or in the claims. 0402]The terms and expressions that have been employed are used as terms of deseripiion. and. not of limitation, and there is no intent in the use of suc terms and expressions to exclude any equivalen of the features shown and described or portions thereof, but it is recognized that various modifications are possible within th scope of the invention as claimed. Thus, it will be understood that although the present invention has been specifically disclosed b various embodiments and/or preferred embodiments and optional features, any and all modifications and variations of the concepts herein disclosed that may be resorted to by those skilled in the art are considered to be within the scope of this invention as defined by the appended claims.

[0403JThe invention has been described broadly and genericaliy herein. Each of the narrower species and subgeneric groupings failing within file generic disclosure also form part of the invention. This includes the generic description of the invention with a proviso or negative Iimitation removing any subject matter from the genus* regardless of whether or not the excised material is specifically recited herein.

[0404] St is also to be understood that as used herein and in the appended claims, the singular forms "a," "an," and "the" include plural reference unless the context clearly dictates otherwise, the term "X and/or Y" means "X" or "Y" or both "X" and "Y", and the letter "s" following a noun designates both the plural and singular forms of that noun. In addition, where features or aspects of the invention are described in terms of Markush groups, it is intended and those skilled in the art wi!S recognize,

14 that the invention embraces and is also thereby described in terms of any individual member or subgroup of members of the Markusft group.

|0405|Although the invention ha been described in terms of exemplary

embodiments, it is not limited thereto. Rather, the appended claims should be construed broadly, to include other variants and embodiments of the invention, which may be made by those skilled in the art without departing from the scope and range of equivalents of the invention.

[0406]Other modifications and implementations will occur to those skilled in the art without departing from the spirit and the scope of the invention as claimed.

Accordingly, the description hereinabove is not intended to limit the invention, except as indicated in the following claims.

[0407] For example, although the dynamic display of the present invention as described herein is installed on poster panels of an existing billboard, it is

contemplated that a cabinet type electronic display system could also be modified by stripping the cabinet of its display modules and electrical system leaving an open faced cabinet frame. A structural planar back pane! could then be mounted to the open face area of the open faced cabinet frame. This structural planar back panel would then serve and function as the planar mounting surface for the retrofit kit 10 in the same manner as a field billboard. The cabinet structure originally installed would remain in place but would be modified as described herein.

[0408] As another example, a building face surface of a multi-store or single story building could be modified by the installation of a structural pianar back pane! of any suitable structural material (sheet metal, wood, structural foam, plastic, etc.) with surface to surface standoffs to provide sufficient spacing for installation of the power system described herein, in this regard, the power and data junction boxes would be installed on the backside of the planar back panel so as to be disposed spaced from the exterior surface of the _.building. In an alternative configuration, the planar back panel could be installed flat against the exterior surface of the building and power access for front mounted display modules could be provided from junction boxes installed inside the building and routed to a structural planar back panel mounted on the exterior surface of the building. This structural planar back panel would then serve and function as the planar mounting surface for the retrofit kit 10 in the same manner as the poster panels of an in-field billboard.

[0409]Therefore, provided herein is a new and improved in field retrofit kit for converting a static non electronic billboard into a dynamic electronic billboard and methods of retrofitting a static billboard in the field in a fast and convenient manner without the need of special equipment. The following specific features are deemed important and unique:

[0410] Harnesses: By utilizing the frame as a raceway (as opposed to running cables through a conduit), there are less design limitations. For example: (1 ) connectors, or multiples of connectors would be difficult to pull through conduits, which would more likely than not result in multiple conduits to avoid this problem; (2) alternately, such harnesses may have to be replaced with cabling that is pulled through conduits, with the connectors then added in the field. Quality control and build time issues would then become a problem, which is not an issue with the present invention; and (3) utilizing conduit and cables as opposed to the disclosed structural frames and preformed harness design would result in more sign real estate required for conduit, especially at bends where there is a minimum radius requirement; more material costs, and greater labor costs for installing conduits,

15 cable routing and connector installation. Again, the structural frame and harness design of the present invention eliminates all of these issues.

[0411]Safety of installation: HVAC powe is rectified to substantially less than 30 VDC from the backside of the billboard 110 to the frontside of the billboard 1 10. In this regard, safety and practicality for workers to install and service the billboard 1 10 is of paramount importance. Higher direct current voltages or line voltages represent pending safety hazards and may affect the required skili level of the person or persons installing the billboard 1 10. Use of the substantially less than 30 VDC power eliminates the need for such skili labor during the installation and maintenance of the billboard 1 10.

[0412]Compound Frames with Specific Arrays: The new and improved billboard 1 10 is optimized for panel form factor and assembly efficiency. In this regard, the 4 foot by 5 foot form factor selected for the structural frames 12 is optimized for the size of existing static panels which will be utilized in the retrofit process. Moreover, with the use of compound frames, such as the compound structural frames 12, the number of frames required to be mated with an existing panel board is greatly reduced.

[0413}Structural Foam Use: Ease of mating a structural frame 12 with an existing static billboard 8, is achieved with the large, Sight-weight structural frames, such as the structural frame 12. This is a key factor in the design criteria of the present invention; namely substantial weight reduction coupled with simple and effective molding constraints, !n short, the utilization of large 4 x 5 foot frames is the optimal way of fabrication. That is, injection molding would make moiding costs prohibitive and would make the overall weight of the individual panels too excessive for a worker to lift and place in position without using special equipment during

15 installation. The structural foam construction of the individual frames 12 imparts to the individual frame unusual strength and durability effectively weaiherizing the frames against strong buffeting winds for example. The structural foam i fact is so strong that it may be used in other applications as a structural building material or a form of heavy-duty furniture.

[0414}Bee Stops and Vent Chimney Screens: To help prevent local insects and ground animals, such as bees, wasps, flies, rodents, squirrels and the like from finding shelter between the panel boards of the billboard 8 and the structural frames 12 of a converted billboard 1 10, each retrofit kit 10 includes a plurality of bee stops, such as a bee stop 98 that is utilized to close off the electrical pass troughs on the end of the array structural of a structural frame 12. Pass through notches uniquely enable the vertical routing of data connections, which at the same time, in combination with the bee stops prevent the invasion of such flying insects into the cooling vents 91 and electrical conduit passageways.

[0415]Ease of Operating Latches: The structural frames and bay members are configured with mutuai mechanical datum structures coupled with central power and data connectors that provide for effective and easy installation and release of the individual LED display modules 14 relative to an associated bay member 16. That is, the module latches 412, which help secure each display modules within its associate bay member 16, is made ready to be acted upon through strategically placed latch access openings 17H disposed in each display module 14.

[0416]ln combination then, the retrofit kit 10 enables a static billboard 8 to be easily and quickly converted into a dynamic billboard 110 by assembling an array of structural bays 16 upon an existing standing panel of the static billboard 8. Each ba member 16 in this arrangement, includes a power and data connector for

15 coupling power and data to an individual display module 14, a strategically placed alignment features, and a uniquely operable latching feature, which operate or cooperate with a complementary set of display module 14 features including a module data and power connector, a module alignment feature, and a module latching feature for enabling a display module 14 to be mechanically and electrically coupled to a bay member 14 for dynamically displaying sign information.

Advantageously, each display module 14 is also provided with a weatherized sealing design which protects the electronics and completely eliminates the need for a rigorous weather seal which would otherwise be needed between the module 14 and the bay member 16. In this regard, the otherwise needed rigorous weather seal is eliminated by a unique and novel perforated channel member which is filled with a potting compound in order to weatherize and seal the display module 14. Moreover, the weatherized modules protect the cabling from the degradation effects of ultra-violet sunlight.

[0417JA!though the invention has been described i terms of exemplary

embodiments, it is not limited thereto. Rather, the appended claims should be construed broadly, to include other variants and embodiments of the invention, which may be made by those skilled in the art without departing from the scope and range of equivalents of the invention. 0418]Other modifications and implementations will occur to those skilled in the art without departing from the spirit and the scope of the invention as claimed.

[0419JThe following is a parts list for each of the component parts identified in the detailed specification and drawings:

8 a static non electronic billboard

15 a poster panel 9 of the static billboard 8

a^' seif contained in-field modification or retrofit kit 10

A a plurality of structural frames 10A

B a piura!ity of full weatherized display modules 10B

C a power modification kit 10C

D a plurality of preformed wire harness assemblies 1GD

a structural frame 12

a sealed dispia module 14

AR an alignment receptacle of the dispiay module 14

CAR a center alignment receptacle of the display module 14

L a left side display pane! of module 14

R a right side dispiay pane! of module 14

a structural bay member 16

B a bottom row of structural bay members 16B

M a middle row of structural bay members

L a left side !ouver 17L

R a right side louver 17R

H a latch access hole 17H

V a louver visor 17V

a pixel arrangement 18 (258 pixels)

a daughter board

a daughter board printed circuit board 21

a daughter board dam 22

E an edge feature of the daughter board dam 22

a daughter board thermal gap pad or brick 23

a daughter board heat sink 24

F daughter board heat sink cooling fins 24F

a daughter board can (electronics) 26

a power data connector 27 (A oSex connector)

LSPH a !eft side pin header 28LSPH

RSPH a right side pin header 28RSPH

E a greatly simplified diagram of the dispiay panel electronics 29E

L a channel of 16 !ight emitting diode drivers

a structural frame array 30

a first column in a structural frame array

a second column in a structural frame array

a third column in a structural frame array

a fourth column in a structural frame array

a fifth column in a structural frame array

a sixth column in a structural frame array

a seventh column in a structural frame array

an eight column in a structural frame array

15 a ^'ninth column in a staictural frame array

a tenth column in a structural frame array

a set of paired wire guide securing staictures

A a perpendicularly extending hook

B a perpendicularly extending hook

a set of plural w re guide securing structures

A a perpendicularly extending hook

B a perpendicularly extending hook

C a perpendicular extending hook

a lockab!e junction box for a first power path

C a conduit for power harness wires to junction box 48 to power enclosure 48 a lockabSe junction box for a second power path

C a conduit for power harness wires to junction box 47 to power enclosure 48 a lockabie power/data controller enclosure 48

C a power conduit to the universal power source

an ambient light sensor arrangement 50

C a conduit for ambient Sight sensor 50 to power enclosure 48

C a conduit for universal power source

C a conduit for data harness wires

AR a structural bay alignment column structure or feature

ARC a center structural bay alignment column structure of feature

an intermediate frame bolt location feature

a center frame bolt location feature

an outside frame edge bolt location feature

a pilot hole feature

a horizontal visualization or cutting line guide feature

a vertical visualization or cutting line guide feature

a lanyard receiving hole

a left board dc power path 70

a right board dc power path 72

a left board data path 80

a right board data path 82

a side frame to side frame dovetail joint 84

a bottom frame to top frame dovetail joint 86

a chimney vent cover slot 88

a chimney vent cover 90

an air channel column, conduit or self cooling air vent SI

a self drilling screw or rivet 92

a mounting hole 93 for a self drilling screw or rivet 92

A a rivet nut

a set of alignment tabs 94

a set of alignment slots 96

15 97 a bee stop slot 97

98 a set of bee stops or plugs 98

1 10 a dynamic electronic billboard 1 10

1 12B a mounting boit

1 12H a mounting boit hole 112 to secure frame 12 to poster panel

1 12W a mounting boit washer 114 for use with bolt 1 28

1 12N a mounting boit nut 112N for use with bolt 1128

1 14H a power access hoie 1 14H, a two inch hole in frame 12

1 15H a power access hoie 1 15H, a two inch hole in frame 12

1 18H a data access hole 1 16H, a two inch hole in frame 12

1 18 a rubber grommet 118

120 a power/data distribution system

201 a perforated channel LED frame 201 forming part of display module

201 F a front side of the LED frame 201

201 B a back side of the LED frame 201

201 FL a front left side of the LED frame 201

201 FR a front right side of the LED frame 201

201 BR a back right side of the LED frame 201

201 BL a back left side of the LED frame 201

204 an alignment feature of the LED frame 201

208 a daughter board alignment feature forming part of frame 201

207 a daughter board alignment hole 207

208 a daughter board alignment hole 208

21 1 a left side 26 pin header slot or opening 21 1

212 a right side 28 pin header siot or opening 212

213 a plurality 213 of power data connector alignment pins

214 a dam receiving space or area 214

215 front side of displa module 14

216 backside of display module 14

21 a center alignment feature of display module 14

218 a latch receiver of the display module 14

220 a latch access opening or cutaway area of the display module 14

224 a too! access opening or cutaway area of the display module 14

225R a red light generating LED 225R

225G a green Sight generating LED 225G

225B a blue Sight generating LED 225B

230 a plastic dam feature 230 on the backside of the LED frame 201

232 an elongate perforated potting channel

233 a centrally disposed LED frame dam 233

234 a plurality of perforations 250 an LED frame seating wall 250

251 a low wall portion of the LED frame wa!i

252 a high wall portion of the LED frame wail

304 an expanded bottom left side weight reduction cutout area

306 an expanded bottom right side weight reduction cutout area

307 a data connection wire routing feature 307

308 a left side data connection wire routing feature 308

309 a power/data harness wire routing feature 309

310 a right side data connection wire routing feature 310

311 a centra! wire routing feature 311

312 a top left weight reduction cutout area 312

313 a bottom left weight reduction cutout area 313

315 a top right weight reduction cutout area 315

316 a bottom right weigh reduction cutout area 316

317 a top middle right weight reduction cutout area 317

318 a bottom middle right weight reduction cutout area 318

319 a lateral rear inside wall area 319

320 a latch assembly mounting hole

321 a latch assembly mounting hole

322 an upper left side +Y latch receiving boss area

323 a upper center +Y latch receiving boss area

324 a lower left side -X latch receiving boss area

325 a lower center -Y latch receiving boss area

326 a lower right -Y latch receiving boss area

327 an upper right side +X latch receiving boss area

330 a centrally disposed daughter board receiving or cutout area

331 a first power/data node or over mold structure

332 a second power/data node or over mold structure

333 a third power/data node or over moid structure

334 a fourth power/data node or over mold structure

335 a fifth node power/data node or over mold structure

336 a sixth node power/data node or over mold structure

337 a seventh power/data node or over mold structure

338 a eighth node power/data node or over mold structure

339 a ninth power/data node or over mold structure

340 a tenth power/data node or over mold structure

350 an upper wire harness node receptacle feature

352 a lower wire harness node receptacle feature

412 a frame latch assembly

413 a frame latch screw member

15 414 a frame latch housing

418 a frame latch latching member

418 a frame latch tool receiving hole

419 a frame latch assembly mounting screw or rivet

420 a displa module latch receiving receptacle {delete for 14LSV1)

508 a chalk outline grid

512T a top horizontal chalk Sine

512B a bottom horizontal chalk line

513 a left side chalk Sine to mark a starting corner

514 a horizontal center chalk line

518 a vertical center point chalk Sine

520 a bottom left corner of the grid

522 a corner to corner diagonal chalk Sine

524 a comer to corner diagona! chalk Sine

610 a left side printed circuit board 610 forming part of PGA 14L

812 a right side printed circuit board 812 forming part of PCA 14R

820 a LED mounting hole

621 a LED mounting hole

630 a printed circuit board mounting hole

632 a louver mounting hole

834 a latch access hole

835 a set of header pin mounting holes

837 indicia marking identify printed circuit association

712 structuraS bay display module wall receiving slot 712

1010 a method of retrofitting or assembSing a billboard 1010

1014 a prepare site for installation step

1018 a decision step, is site prepared

1018 an install step, install structural frames and chimney vent covers

1020 a decision step, are all structural frames installed

1022 an install step, install wire harnesses on structuraS frames

1024 a decision step, are all harnesses installed

1026 an install step, install displa modules

1028 a decision step, are all display modules installed

1030 a verify step, start up and verify system operation

1032 a decision step, is system operational

1034 a decision step, is preventive maintenance needed

1036 a cleaning step, clean all display modules

1038 a decision step, is preventive maintenance completed

15 1040 a decision: step, is repair needed

1042 a repair step, repair as needed

1044 a decisio step, is repair completed

1046 an end step, installation complete

1 1 10 a method of retrofitting or assembling

1 1 10Aa factory assembly method 11 10A

1 1 10B a field installation assembiy method 1 110B

1210 a sectional sign assembiy and installation kit 1210

121 OA a factory assembly portion

1210B a field assembiy portion

1212 a plurality of pre-wired sign section assembiy units 1212

1214 a plurality of display modules 1214

1218 a power/distribution kit

1218 a plurality of DC/data sateliite hubs 1218

1220 a centra! AC and data distribution kit portion 1220

1222 a hub mounting kit 1222

1224 a signage installation kit 1224

1310 a fiat tabietop or bench top jig

1410 an existing sign support structure

1500 a wire harness assembly 1500

1500Aa first part of the vvire harness assembiy (a wire harness) 1500

1500B a second part of the wire harness assembiy (hubs) 1500

1501 sign trim

1502 another sign trim

1503 lifting hooks or brackets

1505 hanger brackets

1507 hanger c!ips

1508 a fastener

1509 assembly support bracket 1509

1510 sign mounting hardware

1512 hanger brackets 1512

1514 hanger clips 1514

1518 hardware for lifting brackets 1516

1518 hardware for sign finishing trim 1518

1520 mounting bolts (with dry loktite)

1522 rivet nuts

1524 alignment guides

15 1602 a first or power junction end of the wire harness 1500

1710 a satellite DC/data satellite structural frame hu 1710

1712 chord grip

1714 hub hinge

1716 oversized conduit between satellite hub and compound structural frame

1810 a central AC and data hub

1812 weatherproof conduit

2010 a site inspection process 2010

2014 a start step 2014 start inspection process 2010

2026 an inspect poster panel step 2026

2038 a determination step 2038, inspection completed

2040 a power inspection step 2040

2042 a determination step 2042, power verified

2044 an install step 2044, install a power converter

2050 a take physical inventory step for billboard power

2084 a go to step 2084, go to step 1016

2400H a power/data wiring harness 2400H

2400HUB a hub power/data wiring harness 2400HUB

2400HE wire end of a power/data wiring harness 2400H

2400HM Moiex connector of a power/data vvinng harness 2400H

2400DJC a data connector of the power/data wiring harness 2400H

2400 J a data jumper cable assembly 2400 J

2400JC a data jumper cable

2400 J 1 a data connector of data jumper cable 2400 J

2400J2 a data connector of data jumper cable 2 00 J

2401 a first node or over mold locator

2401 Sa first connection sequence indicator 2401 S

2402 a second node or over mold locator

2402S a second connection sequence indicator 2402S

2403 a third node or over mold locator

2403S a third connection sequence indicator 2403S

2404 a fourth node or over mold locator

2404S a fourth connection sequence indicator 2404S

2405 a fifth node or over mold locator

2405S a fifth connection sequence indicator 2405S

2406 a sixth node or over mold locator

2400PS a power splice connection sequence indicator 2400PS

2406PS a power splice node or over mold locator

16 2407 a seventh node or over moid locator

2407S a seventh connection sequence indicator 24G7S

2408 a eighth node or over mold locator

2408S an eighth connection sequence indicator 240SS

2409 a ninth node or over mold locator

2409S a ninth connection sequence indicator 24G9S

2410 a tenth node or over moid locator

241 OS a tenth connection sequence indicator 241 OS

3010 a structural frame installation process 3010

3014 a start step 3014, start structural frame installation process

3018 a grid layout step 3018

3024 an verify grid layout step 3024

3034 an orient structural frames step 3034

3040 a parts verification step 3040

3054 an install chimney vent covers step 3054

3066 an align and install structural frames step 3066

3068 a verification step, all frames are properly secured

3069 an install bee stop plugs step

3070 a go to step 3070, continue installation process

4010 an install wire harness process

4014 a start step for the install wire harness installation process 4010

4018 a drill power access holes step 4018

4020 a drill data access hole step 4020

4022 a drill centered holes step

4032 an install rubber grommets step

4044 an install wire harnesses step

4047 an install data jumper cable step

4048 an install data connection cable step

4050 an install junction boxes step

4056 an attach hanger bracket step

4060 an install power data controller step

4062 an attach step

4064 an install light sensor arrangement step

4066 a measure conduit run step

4068 an install conduit run step

4070 a pull and connect wire step

4072 a start up main power step

4080 an end wire harness installation process step

4310 a start step 4310

16 4312 a cutting operation step 4312

4314 an install step 4314

4316 another install ste 4316

4318 another operation step 4318

4320 a cutting step 4320

4322 an action step 4322

4324 another action step 4324

4330 an action step 4330

4332 another action step 4332

4334 a punch out and install step 4334

4336 an action/install step 4336

4337 an assemble step 4337

4338 a prepare step 4338

4339 an affix step 4339

4340 an affix step 4340

4342 another affix step 4342

4348 a marking step 4348

4350 an install step 4350

4352 an affix step 4352

4354 a chimney install step 4354

4356 an install bee stop step 4356

4358 an arrangement step 4358

4380 an alignment step 4360

4362 an install step 4362

4384 an install wire harness step 4364

4370 a prepare for shipping step 4370

4372 a box and palletize step 4372

4373 a final preparation step 4373

4374 a go to instalSation site step 4374

4410 an arrive at installation site from step 4410

4412 a delivery step 4412

4414 a preparation step 4414

4416 a replacement step 4416

4418 a mounting step 4418

4419 a popu Sate step 4419

4420 a lifting step 4420

4422 a hanging step 4422

4428 another hanging step 4428

4430 a disconnect step 4430

4432 another attachment step 4432

4434 a readying or access step 4434

16 4438 another attachment step 4436

4438 another attachment step 4438

4444 an install step 4444

4446 another attachment step 4446

4448 a determination at a decision step 4448

4450 a trim affix step 4450

4460 a replacement step 4460

4462 an install step 4462

4464 a terminate step 4464

4466 a decision step 4466

4468 another install step 4468

4470 a run or pul! wiring step 4470

4476 another instai!ation step 4476

4478 a verification step 4478

4480 a power on step 4480

4482 an end step 4482

5010 an install LED tiie or dispiay module process

5014 a start process step

5020 an unlatch step, unlatch all latches in the structural bays

5030 a verify ail latches are unlatched

5040 an install first display module step

5050 an end step, ending the install display module process

6010 a display module manufacturing process

6012 a start assembly process

6021 a fabricate printed circuit board assembly step

6032 an assembly step 6032, assemble PCA units to frame

6036 an assembly step 6036, assemble daughter board to frame

6040 a form thermal interface step 6040

6048 an attach heat sink step 6048

6050 a test partially assembled display module step 6050

6060 a solder step, solder header pins step 6060

6070 a dispense and cure step, dispense adhesive potting compound

6080 an attach louvers step 6080

6082 an end or stop manufacturing display module step 6082

8010 an electronic sign or billboard 8010

801 OA a small half poster height board sign 801 OA

8010B a medium half poster height board sign 3010B

16 801 OC a poster height ^'board sign 8010C

801 QD a junior bulletin board sign 8010D

8012 a planar structural support member 8012

8013 another planar structural support member 8013

8014 a vertical structural support member bolt 8014

8015 a wooden support member or wood blocking 8015

8016 a rivet nut

8017 a horizontal support member

8018 a horizontal support member bolt

8019 a horizontal support member nut

8019E a super bulletin board sign 8010E

81 10 a rear access electronic sign or billboard

8210 another rear access electronic sign or billboard

9010 a pre-wired sign section assembly 9010

9010C a center sign section assembly 9010C

9010L a left most sign section assembly 9010D

901 OR a right most sign section assembly 901 OR

9012 a rear access structural frame 9012

9013 a front-facing portion 9013

9015 a rear-facing portion 9015

9016 a front loading structural ba member 9016

9017 sheathing without access door 901

9018 zipper tie for cable harness

9019 a flat sheet of sheath ing 9019

9020 a horizontal direction line 9020

9021 a vertical direction line 9021

9022 a plurality of vertical support members 9022

9023 a rolled sheathing section 9023

9024 a plurality of support member bolts with !oktite coating 9024

9026 a plurality of structural frames 9026

9028 a plurality of sheathing members

9030 a two-dimensional array of bay members 9030

9032 component parts for assembly of power distribution kit 1212

9034 component parts for assembly of display modules

9036 component parts for assembly of signage installation kit

9050 ac power source

9052 data source

9064 pilot hole feature

16 9092 frortiface only assembly hardware

9095 structural frame opening or cutout 9095

9096 a female dovetail receptacle

9097 structural frame opening or cutout 9097

91 10 a pre-wire sign section assembly

91 12 a rear accessible structural frame

91 13 a front-facing portion 91 13

91 15 a rear-facing portion 91 5

9116 a rear loading structural bay member 9116

91 17 sheathing with access door 9117

91 18 a access door 9118

9130 a two dimensional array of bay members 9130

9150 a wire harness 9150

9163 a display module alignment feature

9192 a mounting hole feature

9194 a male dovetail member

9196 a female dovetail receptacle

9307 wire routing feature

9308 wire routing feature

9309 wire routing feature

9310 wire routing feature

9312 cut out area

9313 cut out area

9315 cut out area

9316 cut out area

9318 cut out area

9322 latch boss area

9323 latch boss area

9324 latch boss area

9325 latch boss area

9326 iatch boss area

9327 Iatch boss area

9350 a wiring alignment node receptacle

9352 a wiring introduction node receptacle

9362 cut out area

9363 display module removal keyhole cutout area

9364 cut out area

16

Claims

We Claim:

1 . A modification kit for converting an existing signage mounting structure to an electronic sign comprising: a plurality of weatherized dispiay modules: a plurality of sign sections each having a front-facing^' portion and a rear-facing portion, the front facing portion defining a two dimensiona! array of bays arranged in a plurality of rows along a vertical direction and a plurality of columns along a horizontal direction, each bay configured to receive one of the display modules, the rear-facing portion for mounting to a surface of the existing signage mounting structure; a plurality of power routing systems, each power routing system having a power input for coupling to a power source and a plurality of power extensions, each power extension for coupling the power source to one of the plurality of

weatherized display modules.

2. The modification kit of claim 1 wherein the arra of bays is two bays wide and includes at least five rows of bays.

3. The modification kit of claim 2 wherein the array of bays includes at least 10 rows of bays.

4. The modification kit of claim 1 wherein each rear-facing portion is a mounting structure and each front facing portion includes a compound structural frame mounted to the mounting structure.

5. The modification kit of claim 4 wherein the front facing portion includes two adjacent compound structural frames mounted along the vertical direction.

6. The modification kit of claim 1 wherein each sign section defines a plurality of openings that each couple one bay to a rear surface of the sign section to enable a weatherized display module to be removed and replaced from a bay through the opening.

7. The modification kit of claim 1 wherein each power routing system includes a hub mounted to the rear-facing portion, and

wherein each power extension has one end coupled to the hub and another end disposed within a bay configured to be coupled to one of the weatherized display modules.

8. The modification kit of claim 7 wherein each hub is configured to receive AC power from the power source, rectifies the AC power, and delivers DC power to the bay.

9. The modification kit of claim 1 , wherein each power routing system includes a wiring harness;

wherein the power input is an end of the harness that couples to a DC power source;

wherein the wiring harness includes a plurality of nodes; and wherein each power extension extends from an individual one of said plurality of nodes to a power output end disposed a bay for coupling to one of the weatherized display modules.

10. A modification kit for converting an existing signage mounting structure to an electronic sign comprising:

a plurality of weatherized display modules;

a plurality of sign sections each having a front portion and a rear portion, the front portion defining at least two vertical columns of bays that span and define a height of the sign, each bay configured to receive one of the weatherized display modules, the rear portion configured to be attached to a beam surface of the existing structure to allow most of a rear surface of the rear portion to be exposed for servicing, each sign section defining an opening that couples the rear surface to each bay to enable a weatherized display module to be removed and replaced from each bay; and

a plurality of power routing systems each including at ieast one node associated with each sign section with a plurality of individual power extensions each extending from one node to one of the bays.

11. The modification kit of claim 10 wherein the front portion defines two columns of bays.

12. The modification kit of claim 10 wherein each rear-facing portio is a mounting structure and each front facing portion includes a compound structural frame mounted to the mounting structure.

13. The modification kit of claim 10 wherein each front facing portion ineiudes a plurality of compound structural frames arranged along the vertical direction and each defining a portion of th arra of bays.

14. A sectional assembly for converting an existing signage mounting structure to an electronic sign comprising:

a front portion defining a two dimensional array of bays that span the height of the electronic sign and a portion of the width of the electronic sign whereby a plurality of sectional assemblies are required to fully form the electronic sign;

a display module configured to be installed into each of the array of bays; a power routing system that delivers power to each display module of the array of bays, the power routing system including at least one node and a plurality of individual power extensions that are each electrically coupled to a node and each having a power delivery end that is coupled to an individual display module when installed into each of the arra of bays; and

a rear portion for mounting the sectional assembly to a beam surface of the existing mounting structure.

15. The sectional assembly of claim 14 wherein the array of bays is two bays in width.

16. The sectional assembly of claim 14 wherein the front portion and the rear portion are integral.

17. The sectional assembly of claim 14 wherein the front portion includes a plurality of compound structural frames that are each two bays wide and are mounted adjacently and vertically to the rear portion.

18. The sectional assembly of claim 17 wherein the front portion and the rear portion collectively define a plurality of openings that each couple a rear surface of the rear portion to each one of the bays whereby the display modules installed in the array of bays can be removed and replaced through the opening thereb enabling rear side servicing of sectional assembly.

19. The sectional assembly of claim 18 further comprising:

a plurality of access doors, wherein each individual access door is configured to cover an individual one of said plurality of openings.

20. The sectional assembl of claim 19 further comprising a plurality of latches in each bay configured to affix each display module to an individual bay in the array of bays, the latches configured to be actuated by a particular tool inserted through either a front portion of the display module or the rear portion; and

wherein each individua! access door is configured to be opened using said particular tool.

21. A modification kit for converting an anchored planar mounting structure having a frontside and an opposing backside into a dynamic electronic sign, the modification kit comprising:

a plurality of weatherized display modules;

a plurality of structural frames for supporting said plurality of weatherized display modules, each structural frame having a back portion for mounting to the frontside of the anchored planar mounting structure and a front portion defining a plurality of bay members for receiving corresponding ones of said plurality of weatherized display modules;

at least one wiring harness including a first end for coupling to a power source mounted on the backside of the anchored planar mounting structure and a plurality of power extensions for coupling the power source to said plurality of weatherized display modules.

22. The modification kit of claim 21 wherein each individual one of said plurality of bays defines a receiving feature for receiving and aligning a portion of the at least one wiring harness within the bay to facilitate assembl of the at least one wiring harness to the bay.

23. The modification kit of claim 22 wherein the receiving feature is a receptacle, the at least one wiring harness including a portion to be received into each receptacle.

24. The modification kit of claim 23 wherein the portion to be received into the receptacle is an overmolded node which is configured to be received into the receptacle and retained therein to help facilitate the routing of at least one of said plurality of power extensions to an individual one of said plurality of weatherized display modules.

25. The modification kit of claim 21 wherein each individual one of said plurality of structura! frames includes pilot features for facilitating the forming of at least one bore through the anchored planar mounting structure to enable routing of the at least one wiring harness through the anchored planar mounting structure for facilitating the coupling of the power source to said plurality of weatherized display modules.

26. The modification kit according to claim 21 , wherein each individual one of said plurality of structural frames is interchangeable with any other individual one of said plurality of structural frames; and wherein each individual one of said plurality of structural frames is provided with a plurality of wind load resisting features to facilitate accommodating

installation of said plurality of interchangeable^' structural frames in any wind zone specified for the anchored planar mounting structure.

27. The modification kit according to claim 21 , wherein said plurality of bays are arranged in an array defined by a plurality of visual separation features to facilitate separating the array of bay members into smaller array configurations for customizing a display sign area to comply with the size of the anchored planar mounting structure.

28. The modification kit according to claim 21, further comprising:

a utility box mountable to the opposing backside of the planar mounting structure for facilitating the coupling of the power source to said at least one wiring harness and for receiving electrical energy to be rectified into a low voltage power source for use by said plurality of weathe ized display modules to convert display data into visible radiant energy for instantaneous dynamic display purposes.

29. The modification kit according to claim 26, wherein each individual one of said plurality of interchangeable structural frames, when mounted to the frontside of the anchored planar mounting structure, defines a set of cooling conduits; and

wherein said set of cooling conduits are in fluid communication with individual ones of said plurality of display modules when mounted in individual ones of said plurality of interchangeable structural frames.

30. The modification kit according to claim 26, wherein each individual one of said plurality of interchangeable structural frames is provided with rows and columns of aligned wire routing features and node receptacles to heip facilitate the routing and securing of said at least one. wiring harnesses within the frame to enable power to be distributed throughout the structural frame in a daisy-chain manner.

31. The modification kit according to claim 30, wherein the node receptacles are arranged in alignment to eliminate the need for special node to receptacle alignment markings to facilitate installation of said plurality of interchangeable preformed wiring harnesses without installation placement errors.

32. The modification kit according to claim 21, wherein each individual bay member has integrally formed therein a plurality of different types and kinds of wire harness receptacles distributed among a plurality of latching features; and

wherein said plurality of latching features are multi-directional, and

complementary to corresponding display module multi-directional latching features to help facilitate the mounting of individual ones of said plurality of display modules within individual ones of said plurality of bay members with a sufficient latching force to resist wind load forces in excess of 100 pounds per square foot.

33. The modification kit according to claim 21 , wherein each individual one of said plurality of structural frames has a plurality of cutout areas in sufficient number to minimize the frame weight of an individual one of said plurality of structural frames to no greater than 50 pounds, but not such a sufficient number of cutout areas to compromise the structural integrity of the individual structural frame for resisting wind load forces in excess of 100 pounds per square foot when the individual structural frame is mounted to a frontside surface of the anchored planar mounting structure.

34. A modification kit for sign conversion, comprising:

a plurality of display modules for converting electrical data into visible radiant energy for display by an electronic sign;

at least one compound structural frame for defining a plurality of structural bay members, each individual one of said plurality of structural bay members being configured for removably receiving, supporting and latching therein corresponding ones of said plurality of display modules each being mounted with a sufficient latching force to withstand a wind load force in excess of 100 pounds per square foot;

wherein each individual one of said plurality of ba members has a sufficient number of cutout areas to provide a frame weight of no greater than 50 pounds for hand lifting and mounting the frame to a planar structural surface by a single person, but not such a sufficient number of cutout areas to compromise the structural integrity of the compound structural frame for resisting wind load forces of up to 100 pounds per square foot when mounted to the planar structural surface while supporting said plurality of display modules; and

at least one preformed interchangeable wiring harness having a plurality of mechanical-electrical nodes for coupling a source of low voltage power from a backside to a frontside of the planar structural surface and then to said plurality of display modules.

35. The modification kit according to claim 34, wherein each individual one of said plurality of bay members is provided with a plurality of node receptacles for securing therein said plurality of mechanical-electrical nodes to facilitate coupling the source of lower voltage power at said frontside of the sign mounting structure to said plurality of display modules.

38. The modification kit according to claim 34, wherein said plurality of structura! bay members are arranged in an array defined by a plurality of visual separation features to facilitate separating the array of structural bay members into smaller array configurations for customizing a display sign area to comply with the size of the planar structural surface.

37. The modification kit according to claim 34, wherein said at least one compound structural frame is provided with rows and columns of wire routing features and node receptacles to accommodate said at least one interchangeable wiring harness and to facilitate distribution of power and data throughout said at least one compound structural frame in a daisy-chain manner.

38. The modification kit according to claim 34, wherein said at least one compound structural frame is provided with a piurality of interconnecting reference features, said plurality of interconnecting reference features including:

a first set of tabs disposed on the compound structural frame;

a first set of slots disposed on the compound structural frame;

said first set of tabs and said first set of slots in combination defining a plurality of top to bottom dovetail joints to facilitate interconnecting pairs of compound structura! frames in flush top surface to flush bottom surface alignment along a longitudinal axis of the planar structura! surface;

a second set of tabs disposed on the compound structural frame;

a second set of slots disposed on the compound structural frame;

said second set of tabs and said second set of slots defining a plurality of side to side dovetai! joints to facilitate interconnecting pairs of compound structural frames in flush right side surface to flush left side surface alignment along a lateral axis of the planar structural surface; and wherein pairs of compound structural frames are inferconnectable in a array to support therein said plurality of display modules for providing a billboard display sign.

39. The modification kit according to claim 34, wherein said at Ieast one compound structural frame is provided with plural vertical axis mounting holes and plural lateral axis mounting holes, said plural vertical axis mounting holes and said plural lateral axis mounting holes being distributed in plural mounting hole locations throughout said at least one compound structural frame and each being

dimensioned for receiving therein a mounting screw to facilitate securing said at Ieast one structural frame to the planar structural surface so that a sufficient mounting force may be applied to said compound structural frame to substantially eliminate face to face separation of said compound structural frame and the planar structural surface in wind load forces in excess of 100 pounds per square foot.

40. A self contained in-field retrofit kit for a static billboard coupled to a universal source of electrical power, comprising:

at least one modular hand mountab!e compound structural frame for mounting to at least one poster panel of a static billboard, said at least one modular compound structural frame and said at least one poster panel cooperating to provide a plurality of self cooling vents and a plurality of wire routing paths between said at least one modular compound structural frame and the universal source of electrical power;

wherein said at Ieast one modular compound structural frame is provided with a plurality of receptacle nodes and wire routing guides to receive substantially identical power and data wire harnesses for coupling electrical energy along a plurality of wire routing paths within said compound structural frame; at least one modular electrical conversion device for mounting partially within an individual one of said plurality of self cooling vents and partially within said at least one modular compound structural frame, said at least one modular electrical conversion device for coupling to the universal source of electrical power via at least an individual one of said plurality of wire routing paths to transform the universal source of power to a constant power source;

wherein said at Seast one modular electrical conversion device includes a plurality of electrical elements coupled to said constant power source and to said data source for converting electrical energy into visible radiant energy indicative of an electronic message intended for pubic viewing; and

wherein said at Seast one modular electrica! conversion device is further for coupling to a data source via said at least an individual one of said plurality of wire routing paths.