CA2484587C

CA2484587C - Hand-held cordless vacuum cleaner

Info

Publication number: CA2484587C
Application number: CA2484587A
Authority: CA
Inventors: Michael A. Milligan; Patrick Wade Mooney; Xianyao Shen; Ted A. Kimball; Andrew Walker
Original assignee: Black and Decker Inc
Current assignee: Black and Decker Inc
Priority date: 2003-10-15
Filing date: 2004-10-13
Publication date: 2011-01-25
Anticipated expiration: 2024-10-13
Also published as: CN1626025B; US20110030164A1; US7845046B2; US20050081321A1; AU2004220716A1; AU2011201938A1; US20090144931A1; DE602004022234D1; CN1626025A; CN101822506A; EP1523916A2; EP1958560B1; ATE437599T1; AU2004220716B2; EP1523916B1; EP1523916A3; AU2011201938B2; NZ535942A; CA2484587A1; EP1958560A1

Abstract

A hand-held vacuum cleaner with a container for the storage of dirt and debris therein. To provide improved efficiency and performance, the hand-held vacuum may employ a primary HEPA filter, a device for swirling a dirt and debris laden air flow and/or a mechanized filter cleaning device. Swirling may be employed to direct entrained dirt and debris in a desired direction relative to the container to slow the rate with which dirt and debris accumulates on the primary filter and/or to centrifugally remove dirt and debris from the air flow. Mechanized cleaning is employed to shake, scrape or otherwise remove accumulated dirt and debris from the primary filter.

Description

Oct-11-2004 11:21am Fros-BiD PATENT DEPT. 410-716-2610 T-829 P.002 F-18T
HC~BP Ref. 02758-000799 Black 8 necker Ref.
HAND-HELD CORDLESS VACUUM CLEANER
INTRODUCTION
[00011 The present invention generally relates to hand-held portable vacuum cleaners and improvemar>ts thereto.

[0002] Typically, hand-held portable vacuum cleaners employ a motor that is powered by either a main supply of electricity (i.e., a source of alternating current power) yr a battery pack, which may be rechargeable, to drive an impeller.
Rotation of the impeller generates an sir flow which entrains therein dirt and debris which enter the vacuum cleaner via an inlet. One yr more filters may be employed to retain the dirt and debris within the vacuum.

[0003] One problem with such vacuum clean~rs concerns the relatively rapid rate with which the efficiency, and performance of such vacuum cleaners may deteriorate. SpeciOcally, the use of such vacuums to collect relatively small sized particles can rapidly load the filter and substantially reduce the amount of air that . passes therethrough. When filter loading is encountered in the known hand vacuum conftguratians, the user must disassemble the vacuum, remove the filter, clean (or dispose of and replace) the filter and replace the filter. In some situations, the user may be reluctant to perform the tasks of removing and cleaning the filter due to the ; unwholesomeness of the material that has accumulated on the filter. 1n situations where the filter is heavily loaded, the vacuum will have a relatively low effciency and consequently, vacuuming tasks _1_ Oct-11-2004 11:23am From-BdD PATENT DEPT. 410-716-2610 T-830 P.003 F-18r HD8~P Ref. 02758-000799 Black & Decker Ref, will take longer, the vacuum will experience greater wear, and if battery powered, the user will be able to perform relatively fewer vacuuming tasks per cht~rge.
SUMMARY OF THE INVENTION

[0004] !n one form, the present teachings provide a hand-held portable vacuum having a housing, an impeller that is at least partially disposed in the housing, a dirt cup and a HEPA filter. The dirt cup, which is removably attached to the housing, includes an inlet and defines a container for storage of dirt and debris therein. The HEPA filter is disposed between the impeller and the inlet.

[0005] In another form, the present teachings provide provides a method for filtering a dirt and debris laden air flow. The method includes: providing a hand-held vacuum with a housing, an impeller, an inlet, a container and a primary filter, the housing including a handle that permits a user to employ the hand-held vacuum for vacuuming with a single hand, the impeller being disposed within the housing, the inlet being configured to receive the dirt and debris laden air flow therethrough, the container being configured to retain dirt and debris removed from the dirt and debris laden air flow and the primary filter being disposed between the impeller and the iniet;~ rotating the impeller to generate the dirt and debris laden air flow;
and swirling the dirt and debris laden air flow about the interior of the container.
[aao~ In yet another form, the present teachings provide a hand-held portable vacuum including a housing with a handle, a dirt cup, an impeller at least partially disposed in the housing, a filter and a filter cleaning device. The dirt cup, Oct-11-2004 11:23am From-BiD PATENT DEPT. 410-116-2610 T-830 P.004/048 F-18T
HD&P Ref. 027~R-000799 Black $~ Decker Ref.
which is removably attached to the housing, has an inlet and defines a container for storage of dirt and debris therein. The filter, which is disposed between t:he impeller and the inlet, is formed with a plurality of pleats. The filter cleaning device is coupled to at least one of the housing and the dirt cup and includes at least one rib and a hub. The hub is coupled to one of the filter and the rib and configured to rotate the one of the filter and the rib about the other one of the filter to generate contact between the rib and the filter tv at least partially dislodge accumulated dirk and debris from the pleats.
[OOOTj In a further form, the present teachings provide a hand-held porfiable vacuum Including a housing with a handle, a dirt cup, an impeller, a filter and a means for swirling the dirt and debris laden air in the dirt cup. The dirt cup, which is removably attached to the housing, has an inlet and defining a container for storage of dirt and debris therein. The impeller is at least partially disposed in the housing and operable for generating an air flow that flows through the inlet. The filter is disposed beiween the impeller and the inlet.
[0008] Further areas of applicability of the present teachings will became apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Oct-11-2004 11:24am From-BjD PATENT DEPT. 410-T16-2610 T-830 P.008/046 F-18t HD&P Ref. 02758-000799 Black & Decker Ref.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] Additional advantages and features of the present invention will become apparent from the subsequent description and the appended claims, taken in Conjunction with the accompanying drawings, wherein:
[0010] Figure 1 is a perspective view of a vacuum kit constructed in accordance with the teachings of the present invention;
(0011] Figure 2 is a side elevation view of a portion of the vacuum kit of Figure 1 illustrating the vacuum in greater detail;
(0012] Figure 3 is a longitudinal section view of the vacuum of Figure 2;
[0013] Figure 4 is a perspective view of a portion of the vacuum of Figure Z
illustrating the dirt cup in greater detail;
(0014] Figure 5 is a longitudinal section view of the dirt cup of Figure 4;
[0015] Figure 6 is a longitudinal section view of a portion of tho vacuum of Figure 2 illustrating the dirt cup assembly in greater detail;
[001f] Figure 7 is a sectional view taken along the line 7-7 of Figure 8;
[0017] Figure 8 is a perspective view illustrating the interior of the dirt cup assembly;
[0018 Figure 9 is a perspective view of a portion of the dirt cup assembly illustrating the elbow in greater detail;
[0019] Figure 10 is a top view of a portion of the vacuum of Figure 2 illustrating the housing assembly in greater detail;
-4~

Oct-11-2004 11:24am From-BZD PATENT DEPT. 410-T16-2610 T-830 P.006/046 F-1BT
HD$~P Ref. 02758-000799 Black & Decker Ref.
[0020] Figure 11 is a side elevation view of a portion of the housing assembly illustrating a housing shell in greater detail;
[0021] Figure 12 is an exploded perspective view of a portion of the housing assembly;
(0022] Figure 13 is a elevation view of a portion of the vacuum of Figure 2 illustrating the exhaust grille in greater detail;
[0023] Figure 14 is section view taken along the line 14-14 of Figure 13;
[0024] Figure 15 is a side elevation view of a portion of the vacuum of Figure 2 illustrating the cleaning wheel in greater detail;
(0025] Figure 18 is a front elevation view of the housing assembly;
[0026a Figure 17 is a side elevation view of the housing assembly;
(0027] Figure 18 is a perspective view of a portion of the housing assembly illustrating the prefilter In greater detail;
[0028] Figure 19 is a longitudinal section view of the prefilter;
[0029] Figure 20 Is a longitudinal section view of the primary filter;
(0030] Figure 21 is a longitudinal section view of a portion of the housing assembly illustrating the seCOnd seal portion of the primary fitter in seating engagement with the prefilter;
[0031] Figure 22 is an exploded perspective view of the vacuum and recharging base of Figure 1;
_5_ Oct-11-2004 11:24am From-BiD PATENT DEPT. 410-T16-2610 T-830 P.00T/046 F-18T
HD&P Ref. 02758-000799 Black & Decker Ref.
[0032] Figure 23 is an exploded perspective view of the vacuum and recharging base illustrating one means by which the vacuum and recharging base may be keyed to one another;
[0033] Figure 24 is a schematic illustration of a portion of an injection mold for forming the mating key that is associated with the vacuum in the example provided;
X0034] Figure 25 is a perspective view of a family of vacuums and recharging bases constructed in accordance with the teachings of the present invention;
[0035] Figure 28 is a perspective view of an alternately constructed prefilter;
[0036] Figure 27 is a longitudinal section view similar to that of Figure 3 but illustrating the prefilter of Figure 26;
[0037] Figure 28 is a perspective view of another alternately constructed prefilter;
[0038] Figure 29 is a perspective view of an alternately constructed vacuum;
[0039] Figure 30 is an exploded perspective view of the vacuum of Figure 29;
[0040] Figure 31 is a partial longitudinal section view of another attemately constructed vacuum illustrating a lock-out device for inhibiting the operation of the cleaning wheel;

Oct-11-2004 11:24 Fran-BiD PATENT DEPT. 410-716-2610 T-830 P.008/048 F-18T
WD&P Ref. 02758-000799 Black & Decker Ref.
[0041] Figure 32 is a schematic illustration of another alternately constructed vacuum illustrating an electronic lock-out device far inhibiting the operation of the motor when the cleaning wheel is rotated;
[004Z] Figure 33 is a sectional view taken along the line 33-33 of Figure 32;
[00431 Figure 34 is a schematic illustration of yet another alternately constructed vacuum illustrating a drive system far rotating the cleaning wheel under a source of power;
[0044] Figure 35 is a schematic illustration of still another alternately constructed vacuum illustrating another drive system for rotating the cleaning wheel under a source of power, [0045] Figure 36 is an exploded perspective view of a portion of the vacuum of Figure 2 illustrating the battery pack and motor assembly in greater detail;
[0046] Figure 37 is another exploded perspective view of the lJattery pack and motor assembly;
[0047] Figure 38 is an exploded side elevation view of the battery pack and motor assembly;
[0048] Figure 39 is a bottom plan view of the battery pack as coupled to the motor assembly;
[0049] Figure 40 is an exploded perspective view of an alternately constructed primary filter;
[0050] Figure 41 is a longitudinal section view of the primary filter of Figure 40;

Oct-11-2004 11:24an Frao-BiD PATENT DEPT. 410-T16-2610 T-830 P.009/048 F-187 HD&P Ref. 02758-000799 Black 8~ Decker Ref.
[0051) Figure 42 is an exploded perspective view of another alt~rnately constructed primary filter;
(0052) Figure 43 is a longitudinal section view of the primary ifiter of Figure 42; .
[0053) Figure 44 is an exploded pef~pective view of yet another alternately constructed primary ~Iber;
[0084] Figure 45 is a longitudinal section view of the primary filter of Figure 44; , [OOSS) Figure 46 is a rear view of another prefliter constructed in accordance with the t~achings of the present invention;
[0056) Figure 47 is a bottom view of the prefilter of Figure 4$; and [005TJ Figure 4$ is a perspective view of yet another prefilter constructed in aa;ordance with the teachings of the pros~rrt invention.
DESCRIPTION OF VARIOUS EMBODIMENTS
X0068] With reference to Figure 1 of the drawings, a vacuum kit constructed in accordance with the teachings of the present invention is generally indicated by reference numeral 10. The vacuum kit 10 may include a hand-hr~ld cordless vacuum 10a and an optional set of accessories 10b, With reference to Figures 2 and '3, the vacuum 10a may include a dirt cup assembly 12 ancJ a housing assembly 14. In the particular example provided, the dirt cup assembly 12 includes an inlet housing or dirt cup 20 and an elbow 22, while the housing _g_ Oct-11-2004 11:25am From-BlD PATENT DEPT. 410-T16-2810 T-830 P.OiO/048 F-18t HD&Q Ref. 02758-000789 Black 8~ Uecker Ref.
assembly 14 may include motor assembly 30, an outlet housing or housing 32, a filter system 3~, a filter cleaning system 36 and a latch release 38 having a conventional latch mechanism 40 and a conventional retaining tab 42 that may be Integrally formed with the housing 32.
[0059] In Figures 4 and 5, the dirt cup 20 includes a wall member 50 that defines a container-tike housing structure 52 and an inlet port 54 that may be formed through the housing structure 52 and which may extend rearwardly therefrom. A pair of securing apertures 56a and 56b may be formed in and through the housing structure 52, respectively, and a plurality of prefifter locating Tabs 58 may extend inwardly from the wall member 50 about the inside perimeter of the housing structure 52. Both the securing apertures 56a and ~r6b and the pretilter locating tabs 58 will be discussed in additional detail, below.
[0060) The inlet port 54 may have a generally rectangular cross-sectional shape that eXtends rearwardly from the housing structure 52 and terminates at a rearward face 60. As will be discussed in greater detail, below, the front end of the inlet port 54 may be configured to fractionally engage various components of the accessory set 10b (Fig. 1), while the rear end of the inlet port 54 may be configured to fractionally engage the elbow 22, which is shown in Figure 6.
[0061) With reference to Figures 6 through 9, tile elbow 22 may include an attachment portion 62 that may be sized to fractionally but removably engage the rear end of the inlet port 54 and a body portion 64 that turns the incorning air flow in a desired manner as wilt be discussed in greater detail, below. The body Oct-tt-Z004 11:Z5am From-BiD PATENT DEPT. 410-T16-T610 T-B30 P.O11/048 F-181 HD8~P Ref. 02758-000799 Black 8 Cfecker Ref.
portion 64 may be sued so as not to choke or diffuse the air flow that is provided through the inlet port 54. The interior of the dirt Cup 20 (i.e., a cross section taken perpendicular to the longitudinal axis of the dirt cup 20) may be at least somewhat circular in shape (i.e., lacking sharp corners - see, Figure 7) so as to promote the swirling of the inlet air flow about the longitudinal axis of the dirt cup 20.
(0062] (n Figure 3, the motor assembiy 30 may include a motor 70, a fan assembly 72, a battery pads 74 and a power switch 76. The motor 74 may be a conventional QC motor having a motor output shaft 88. The fan assembly 72 may be a conventional centrifugal fan that includes a fan or impeller 90, which may be coupled for rotation with the output shaft 88, and a fan housing 92. The fan housing 92 Includes art inlet aperture 94 that may be centered about the rotational axis of the impaller 90, and one or more discharge apertures 96, which may be Ivcated on a bottom side of the fan housing 92 generally transverse to the inlet aperture 94. Air that is discharged from the discharge aperture 9fi may be guided through an associated flow channel 98 that is also integrally formed with the fan housing 92 in the particular example provided. Tha filow channel 98 may direct the air downwardly and somewhat rearwardly.
j0063] The battery pack 7A. conventionally Includes a plurality of rechprgeable batteries 100, which are adapted to be electrically cnupled to a source of electrical power, as through the recharging base 76 that is illustrated in Figure 1. The battery pads 74 may be coupled to the motor 70 and the power switch 76 in a conventional and well known manner. In the alternative, the battery Oct-11-2004 11:25am From-BiD PATENT APT. 410-116-2610 T-880 P.012l048 F-181 HD&P Ref. 02758-000798 Black 8~ Decker Ref.
pack 74 may be coupled to the motor 70 by way of an integrated snap connector 108 as illustrated in Figures 38 through 39. The snap connector 108 may have a first portion 108a that may be integrated with the motor 70 and a second portion 108b that may be integrated with the battery pack 74. The first portion 108a may include a circuit board 110 with a plurality of terminals, such as blade-type male terminals 112. The circuit board 110 may include all of the integrated circuits and salid~ state components that are employed for controlling the distribution of electrical power from the battery pack 74 to the motor 70, as well as for controlling the charging of the battery pack 74 (e.g., timers). The second portion 108b may include a plurality of mating terminals, such as blade receiving terminals 114, that matingly engage the terminals of the first portion 108x. In the particular embodiment illustrated, the blade receiving terminals 114 slidably receive the blade-type male terminals 112 to permit the motor assembly 30 to bfs coupled to the battery p>s~ck 74 prior to their Installation to the housing 32.
[0064] The battery pads 74 may further include a housing 120 having a pair of engagement features 122 that co-engage mating featun3s 124 (Fig. i1) to permit the battery pack 74 to be coupled to the housing 32 without separate fasteners, etc. In the particular embodiment illustrated, the engagement features 122 are tabs and the mating features 124 are slats that are configured to receive an associated one of the tabs to thereby fixedly but rernovably couple the battery pads 74 to the housing 32. At least one of fhre tabs may be a cross-tab (i.e., a tab with two portions that era skewed to one another) that is configured to engage an Oct-11-2004 11:25zm From-BiD PATENT DEPT. 410-116-2810 T-830 P.013/04B F-187 HD&P Ref. 02758-000799 t3lack & Decker Ref, associated mating feature 124 in a manner that inhibits vertical and horizontal movement of the cross-tab relative to the associated mating feature 124. In the particul>9r embodiment illustrated, the structure into which the cross-tab is received defines a cross-slot (i.e., a slat with two portions for receiving the two portions of the cross-tab), but as those skilled in the art will appreciate from this disclosure, one portion of the cross tab may be disposed in the slot while the other portion of the cross-tab abuts an end of the structure that defines the slot.
Additionally, the housing 120 may house a pair of charging terminals 126 that may be configured to extend through the housing 32 so as to be accessible by the recharging base 75 (Fig. 1) when the vacuum 10a is coupled thereto.
~0065~ One suitable power switch 7B is described in detail in U.S. Patent No. 5,544,274, which is hereby Incorporated by reference as if fully set forth herein. Briefly, the power switch 78 may inchade a conventional slide switch 78a that selectively enables or disables the transmission of electric power therethrough to close or open the electrical circuit between the batteries 100 and the motor 70.
The slide switch 78a may be fixedly coupled to the circuit board 110 in the paficular example provided and employed to move contacts into and out of electrtcai connection with terminals on the arcuit board 110.
[0066) With reference to Figures 3, 10 and 11, the housing 32 of the particular embodiment provided may include a pair of housing shells 150a and 150b and an exhaust de5ector 154. The housing shells 150a and 150b may be configured to be coupled together in a conventional and well known manner to _12_ Oct-11-2004 11:26am From-BiD PATENT DEPT. 410-T16-2610 T-830 P.014/048 F-167 HD&P Ref. 02758-000799 Black & Decker Ref.
define a switch mounting structure 160, a switch aperture 162, a latch mounting structure 164, the retaining tab 42 and a handle 168. The switeil mounting structure 160 may be conventionally configured to receive therein and support the power switch 76 of the motor assembly 30 such that the power switch 76 extends through the switch aperture 162 so as to be actuate-able by the user of the vacuum 10a.
[OOfi7j The latch mounting structure 164 may be configured to receive therein and support a conventional latch mechanism 40 having a latch member 170 for engaging the securing aperivre 56a in the housing structure 52 of the dirt cup assembly 12 and a spring (not shown) for biasing the latch member 170 upwardly relative to the housing 32.
(0068] The retaining tab 42 extends outwardly from the hauling 32 and defines an abutting wall 174. The retaining tab 42 may be configured to project through the securing aperture 56b when the dirt cup assembly 12 is coupled to the housing assembly 14 to permit the abutting wall 174 to cooperate with the rear edge of the securing aperture 58b to thereby limit forward movement of the dirt cup assembly 12 relative to the housing assembly 14.
(0069] In the example provided, the handle 168 is integrally formed with the housing shells 150a and 150b and may extend between the forward and rearward portions of the housing 32 and above the body of the housing 32 to define therebetween a handle aperture 180 that is sized to receive the hand of the user of the vacuum 10a. Those skilled in the art will appreviate, however, thfit the handle Oct-11-2004 11:28am From=B8D PATENT DEP1. 410-118-2610 T-830 P.015/048 F-187 H08~P Ref. 02758-000799 Blank & Decker Ref.
168 may be otherwise positioned andlor a discrete component that is joined or fastened to the remainder of the housing 32 in a known manner.
[0070] Except as noted below, each of the housing shells 150a and 150b may be constructed in an identical manner so that further description of the housing shell 150a will suiilce for both. With primary reference to Figure 11 and additional reference to Figure 12, the housing shell 150a includes a wall member 186 that may defiine a front wall 188, a central cavity 186, an exhaust cavity and a recessed area 202 through which an elliptical through-hole 204 is formed.
The wall member 186 may also define a motor mount 206 and a hub mount 208, both.of which being disposed in the ventral cavity 19fi.
[0071] The motor mount 206 may inGude first and second mount portions 206a and 206b, respectively, that are employed to fixedly couple the motor 70 to the housing 32. The motor mount 206 may be configured tv receive the motor 70 in a snap-fit manner so that discrete fasteners and the like are not required.
[0072] The hub mount 208 may include structure which, in association with the fan housing 92 in the example provided, serves to maihtain the filter cleaning system 38 in a desired location along a longitudinal axis of the vacuum 10a relative to the fitter system 34. fn the example provided, the hub mount 208 includes first and second bearing porti6ns 208a and 208b, respectively, which are axially spaced apart along an axis that is coincident with a rotational axis of the motor 70. The first bearing portion 208a may be semi-circular In shape so as to form a circular aperture when the housing shells 150a, 150b are coupled to one Oct-11-2004 11:26 From-BiD PATENT APT. 410-116-2610 T-830 P.018/048 F-181 Hb&P Ref. 02758-000799 Black 8: Decker Ref.
another. The second bearing portion 208b may include a rear wall 210 that may be generally transverse to the rotational axis of th~ motor 70.
[0073 As is apparent .from the discussion above, the fan housing 92 may farm the Inlet aperture 94 and one or more discharge apertures 96 througi~
which air is introduced and discharged, respectively, from the fan assembly 72. In the particular example provided, the fan housing 92 forms a volute that terminates at the discharge aperture 96. The flow channel 98 may serve as a fluid conduit which couples the discharge aperture 98 with the exhaust cavit~r 200.
[0074] With specific reference to Figure 13, the exhaust deflector 15A~ may f~clude a frame 270 and a plurality of flow guiding vanes 272 that are set into the frame 270 and fixedly coupled thereto. The flow guiding vanes 272 of the particular embodiment illustrated are shaped so as to direct the air exiting the exhaust cavity 200 both downwardly and rearwardly.
[0075 With additional reference to Figures 3 and 1~4, the frame 270 of the exhaust deflector 154 may extend upwardly of the flow guiding vanes 272 to create a pocket 276 into which may be fitted an optional exhaust filter 280.
The exhaust filter 2B0 operates to filter the air that exits the exhaust cavity 200 and thereby prevents fine dust particles from being expelled from the vacuum 10a.
The exhaust filter 280 may be formed from a non-woven mesh fabric so as to be washable should it become undesirably dirty or clogged. Those skilled In the art will apprec(ate from this disclosure, however, that tho exhaust filter 280 may be formed from another washable filter media or may alternately be a disposable type Oct-11-2004 11:28am Fran-BiD PATENT DEPT. 41D-116-2610 T-830 P.O1T/048 F-187 HD~P Ref. 02758-000799 Black & Decker Ref.
ftlter (e.g., paper). Those skilled in the art will also appreciate from this disclosure that the exhaust filter may be configured to provide HEPA (high efficiency particulate air) filtration or ULPA (ultra low penetration air) filtration. As used herein, a "HEPA" filter will be understood as being capable of removing 99.97%
of particles as small as 0.3 pm from an air flow, while a "ULPA" filter will be understood as being capable of removing 99.999% of particles as small as 0.12 wm from an air flow.
[OQT6] Returning to Figures 3 and 13, the frame 270 may also include a pair of trunnions 284 and a pair of clip structures 288. The trunnions 284 permit the exhaust deflector 154 to be pivotably coupled to the housing 32. More specifically, each of ttte housing shells 150a and 150b may include a recess (not spec~c811y shown) far receiving an associated one of the trunnlons 284. Each trunnion 284 is illustrated as being coupled to a portion of the frame 270 that may be deflected taterally inward (i.e., toward the centerline of the exhaust deflector 154) so that the trunnians 284 may be installed to their respective recess when the housing shells 150a and 150b are coupled to one another. With the trunnions 284 engaged to recesses, the exhaust deflector 154 may be pivoted b~tween a closed position, wherein the rear surFace of the exhaust deflector 154 covers the exhaust cavity 200, and an open position, wherein the exhaust deflector 154 substantially clears the exhaust cav'~r 200.
[0077] The clfp structures 286 are configured to restliently deflect In response to the application of a modest farce to the exhaust deflector 154 to Oct-11-2004 11:27~n From-BiD PATENT DEPT. 410-T16-2610 T-630 P.019/046 F-18t HD&P Ref. 02758-000799 Black & Decker Ref.
permit the exhaust deflector 154 to be secured to or released from the wall member 186 when the exhaust deflector 154 is moved into or out of the closed position. As will be apparent to those of ordinary skin in the art, engagement of the clip structures 286 to the wall member 188 effectively maintains the exhaust deflector 154 in the closed position. Those skilled in the art will also appreciate that features such as recesses or tabs 288 may be formed into the wall member 186 to serve as points that enhance or improve the ability of the clip structures 286 to engage the wall member 186.
[007$ Returning to Figures 3 and 13, the top of the frame 270 of the exhaust deflector 154 stay be areuateiy shaped to define a finger grip 290 that is configured to receive the thumb or finger of the user of the vacuum 10a so that the thumb or finger may be employed to move the exhaust deflector 154 out of the closed position. The finger grip 290 may include a gripping feature, such as a raised lip, that permits the user to pry downwardly and outwardly on the exhaust deflector 154 with their thumb or finger to thereby disengage the clip structures 286 from the wall member 186.
[0078] With renewed reference to Figure 12, the filter cleaning system 36 may include a cleaning wheel 300 that housed by the housing 32. With additional reference to Figures 3, 15 and 16, the cleaning wheel 300 may be generally hollow and may include a gripping portion 302, a hub portion 304, a filter drive portion 306 and a filter engagement portion 308: The gripping portion 302 may be an annular ring that may be coupled to the rearward side of the hub portion 304 and which -i 7_ Oct-11-2004 11:21a~ FrarBiD PATENT DEPT. 410-716-2810 T-830 P.Olit/013 F-181 HD&P Ref. 02758-000799 Mack 8~ Oecker Ref.
may~lnalude a plurality of circumferentially spaced apart recesses 310. The hub portion 304 may define a bearing surface 312 that may be journally supported by the housing 32. The filter drive portion 306 may be formed on a wall 314 that is coupled to the hub portion 304 generally transverse to the bearing surface 312.
[0080] In the particular example provided, the fitter drive portion 306 includes a plurality of radially extending drive tabs 316 that are circumferentially spaced apart from one another and collectively oriented concentric with the bearing surface 312. Those skilled in the art wilt appreciate from this disclosure, however, that the filter engagement portion 308, through frictional engagement or other engagement with the primary filter 414, may also serve in whole or in part as the biter drive portion 306.
[0081] The filter engagement portion 308 may be an elongated annular structun= that may extend forwardly from the wall 314 of the filter drive portion 306.
The cleaning wheel 300 may also include a grille 320 which inhibits the passage of relatively large objects from passing through the cleaning wheel 300 and contacting the impeller 90.
[0080 The cleaning wheel 300 may be installed over the fan housing 92 prior to the installation of the motor 70 and fan assembly 72 to the housing 32, thereby permitting these components to be collectively assembled to one of the housing shells (e.g., housing shell 150a) substantially simultaneously. The cleaning wheel 300 may be positioned rofadve to the housing 32 such that gripping portion 302 partially extends through the elliptical through-holes 204 in the Oct-11-2004 11:2Tam From-BiD PATENT DEPT. 410-T16-2610 T-630 P.020/046 F-18T
HD&P Ref. 02758-000799 t3tack & Decker Ref.
recessed areas 202 of the housing 32 as shown in Figure 97. Once the cleaning wheel 300 has been installed to the housing 32, movement of the cleaning wheel 300 in an axial direction along the rotational axis of the motor 70 may be limited through contact between the gripping portion 302 and housing 32 along the perimeter of the eNiptical thraugh-holes 204. Additionally or attemativaly, contact with the fan housing 92 and the rear wall 210 of the second bearing portion 248b (Figure 11) may be employed to limit movement of the cleaning wheel 300 axially along the rotational axis of the motor 70.
t0083J The first and second bearing portions 208a and 208b of the hub mount 208, however, cooperate with the bearing surface 312 to limit the movement of the cleaning wheel 300 vertically and horizontally relative to the rotational axis of the motor 70, but permit the cleaning wheel to be rotated about the rotational axis of the motor 70. Ths recesses 310 in th~ gripping portion are speaflcally configured to be gripped by the thumb andlor fingers of a user of the vacuum 10a to rotate the cleaning wheat 300.
[0084 In Figures 3 and 12, the filter system 34 may include an intake filter 400 and the above-discussed optional exhaust f(Iter 280. The intake filter 400 may Include a prefilter 412 arid a primary filter 414. In Figure 18 and with additional reference to Figures 10 and 16, the prefitter 412 may include a filter flange 420, a prefilter body 422 and a securing means 424 for releasably securing the prefilter 412 to the housing 32. The fitter flange 420 may extend radially outwardly from the prefilter body 422 and may be configured to abut the front facEa 188 of the Oct-11-2004 11;Z1om FronrBiD PATENT DEPT. 410-118-2610 T-830 P.021/048 F-i81 HD&P Ref. 02758-000799 Black 8~ Decker Ref.
housing 32. The filter flange 420 may be unitarily formed with the remainder of the prefifter 412 from a material that is structural, such as polyethylene or polpropylene. Those skilled in the art will appreciate, however, that the filter flange 420 could alternatively include a resilient band of material (not shown) that is coupled to the remainder of the ftlter flange 420, via a mechanical connection, adhesives or overmolding, and employed to sealingly engage at least one of the housing 32 and the dirt cup 20.
[008&] With additional reference to Figure 19, the prefifter body 422 may have a truncated cone shape, with a front wall 430 and a side wall 432 that has a pluralrty of filtering apertures 434 fon~ned therethrough. The filtering apertures 434 may be sized to prevent relatively coarse dirt and debris from contacting the primary filter 414 (Fig. 3). In the example provided, the ffitering apertures 434 are about 0.020 Inch (0.5 mm) to about 0.040 inch (1.0 mm) in diameter. !n the particular embodiment provided, one or more ribs 43fi are farmed on the interior surface 438 of the side wall 432. The ribs 436 will be discussed in greater detail, below.
[0086 As those of ordinary skill In the art will appreciate from this disclosure, any appropriate means may be employed to removably couple the filter flange 420 to one or both of the housing 32 and the dirt cup 20. Preferably, the securing means 424 will not automatically detach from the housing 32 when the dirt cup 20 Is removed from the housing 32.

Oct-11-2004 ti:28an From-B6D PATENT DEPT. 410-t16-2810 T-830 P.022/048 F-18T
HDB~P Ref. 02758-000799 Black & Decker Ref.
[008Ta in the particular example provided, the securing means 424 is illustrated in Figure 98 to include a plurality of holes 440 that are configured to receive therethrough corresponding pegs 442 that extend from the front face of the housing 32 as illustrated in Figure 16. The holes 440 may be shaped to directly correspond to the shape of the pegs 442, but in the example illustrated, include fret and second portions 440a and 440b, respectively, that intersect one another. The first portion 440a is relatively large and configured to receive therethraugh an associated peg 442, which is illustrated in Figure 10 to include a relatively large head pardon 442a and a somewhat smaller body portion 442b. In contrast, the second portion 440b is configured only to receive therethrough the body portion 442b of the associated peg 442. Accordingly, once the prefilter has been installed over the pegs 4~t2, it may be rotated to position the body portion 442b of the pegs 442 into the second portion 440b of the holes 440. As the head portion 442a of the pegs 442 is relatively larger than the second portion 440b, the filter flange 420 wilt remain attached to the housing 32 when the dirt cup 20 is removed, unless the filter flange 420 is rotated to align the pegs 442 with the first portion 440a of the holes 440.
[00881 To guard against undesired rotation of the filter flange 420 relative to the housing 32 when the dirt cup ZO has been removed from the rear housing, the securing means 424 may include a resilient finger 440c that contacts the body portion 442b of an associated peg 442 to inhibit rotation of the filter flange Oct-11-2004 11:28am Frwn-BiD PATENT DEPT. 410-116-2610 T-830 P.023/048 F-181 HD8~P Ref. 02758-000799 Black & Decker Ref.
unless a fierce in excess of a predetermined force has been applied to rotate the filter flange 420 in a desired rotational direction relative to the housing 32.
j0089] In Figure 20, the primary filter 414 may have a filter body 450 with first and second seal portions 452 and 454, respectively, disposed on opposite sides thereof. The filter body 450 may have a shape that is similar to that of the prefiiter body 422 (Fig. 18) and In the example provided, is illustrated to have a truncated cone shape. The filter body 450 may be formed from any appropriate filter media, such as paper, plastic or fabric and is preferably fom~ed with a plurafityr of pleats 460. Also preferably, the filter media is wear resistant or includes a wear resistant outer layer 462. Furthermore, the fitter body 450 is preferably formed from a filter media that provides HEPA or ULPA filtration.
One such suitable fitter media is manufactured by W. L. Qore & Associates, a Delaware Corporation having a place of business in Elkton, Maryland.
(0090] In the example provided, the pleats 460 are formed such that their outer ends or peaks 464 lie along a straight Ilne that intersects the axis of a theoretical cone (not shown) that includes the peak 464 of each pleat 460 on the ~Iter body 450. Alternatively, the pleats 460 may be formed such that their peaks 484 are straight but skewed to the axis of the theoretical cone or generally helical in shape. For reasons that will be apparent from the discussion below, however, the pleats 460 should be formed relative to the theoretical cone in a manner that is consistent with the ribs 436 on the interior surface 438 of the filter housing 432.

Oct-11-2004 11:28 From-BiD PATENT DEPT. 41D-716-2610 T-830 P.024/046 F-18I
HD&P Ref. 02758-000799 Black & Decker Ref.
[0091 The first seal portion 452, which is coupled to the smaller end of the filter body 450, may be a plate-like structure that is formed from a suitable material and is sealingly bonded to a lower end of the filter body 450. Alternatively, the first seal portion 452 may be wholly or partially farmed from an appropriate filter material, such as the material from which the filter body 450 is manufactured, and bonded or otherwise sealingly coupled to the filter body 450.
[0482] The second seal portion 454 may be an annular flange that may be sealingly bonded to an upper end of the filter body 450. With additional reference to Figures 12 and 21, the second seal portion 454 may include a body 470 that defines a receiving aperture 472, a primary seal 474 which is disposed about the perimeter of the receiving aperture 472 and sized to sealirigly engage the seal engaging portion 308 of the cleaning wheel 300 (Fig. 15), a secondary seal 476 that sealingly engages the interior surface 438 of the prefilter body 422 of the prefilter 412, and a plurality of drive tabs 478. The drive tabs 478, which extend radially outwani and are circumferentially spaced apart from one another, are configured to engage the drive tabs 316 that are formdd on the filter drive portion 308 of the cleaning wheel 300.
[0093] With the primary filter 414 Installed to the cleaning wheel 300 such that the primary seal 474 sealingly engages the seal engaging portion 308 and the drive tabs 318 and 478 are meshingly engaged with one another, the pre~iter may be positioned over the primary filter 414 such that the first portion 440a of the through-holes 204 in the filter flange 420 are aligned to the pegs 442 on the _23_ Oct-11-2004 11:x8 Froia-BdD PATENT DEPT. 410-716-2610 T-890 P.025/048 F-18T
HD&P Ref. 02758-000799 Black & Decker Ref.
housing 32. The preftlter 412 may be urged toward the housing 32 such that the pegs 442 are fitted through the through-holes 204 and thereafter the prefllter is rotated to position the pegs 442 within the second portion 440h of the through-holes 204. With the dirt cup 20 coupled tv the housing assembly 14, the prefilter Locating tabs 58 urge the Frfter flange 420 rearwardly toward the front face 188 of the housing 32 sv that the secondary seal 476 seallngly engages the pret7lter body 422 of the prefilter 492.
(0094] While the primary filter 414 has beers illustrated and described as Including first and second seal portions 452 and 454 which are bonded directly to the filter body 450, the primary filter 414 may be formed in various other manners.
For example, the primary filter 414 may include a pair of discretely formed, caps 480a and 480b as illustrated in Figures 40 and 41. The cap 480a may be generally cup shaped, with a Dosed top 482 and a side wall 484 with sa plurality of teeth 486 formed about the inside perimeter of the side wall 484. The cap 480b maybe an annular ring that similarly includes a plurality of teeth 488 formed sbout its inside perimeter. The caps 480a, 480b may be secured to the opposite ends of the fitter body 450 through an adhesive, heat staking ar sonic welding, for example, so that the teeth 486 and 488 of the caps 480a and 480b meshingly engage the pleats 460 of the filter media. The first seal portion 452 may be integrally formed with, molded onto or bonded to the annular cap 480b. The second seat portion 454 is optional in this embodiment, es the cap 480a may be formed wiifi a Dosed configuration, rather than the annular shape of the cap 480b.
-z4-Oct-11-2004 11:2B~n From-Bl0 PATENT APT. 410-T16-2610 T-630 P.02B/04B F-181 HD&P Ref. 02758-000798 ' Black & Decker Ref.
(0095 The embodiment of Figures 42 and 43 is similar to that discussed above in that it likewise employs a pair of discretely formed caps 480c and 480d.
However, the teeth 488 and 488 are formed on the exterior suriaoes of the caps 480c and 480d so as to meshlngly engage the pleats 460 from the interior of the filter body 450.
[0098] The embodiment of Figures 44 and 45 employs a pair ~f ring sets 490 and 492. The ring set 490 may Include an outer ring 490a, which may be similar to the cap 480a, and an inner ring 490b, which may be similar to the cap 480c. The outer and Inner rings 490a and 490b are assembled to the filter body 450 such that the flter media is sandwiched therebetween and secured to the filter body 450 andlor to one another via an adhesive, heat staking or sonic welding, for example. Likewise, the ring set 492 includes an outer ring 492a, which may b~
similar to the cap 480b, and an Inner ring 492b, which may be similar to the cap 480d. The outer and inner rings 492a and 492b are assembled to thv filter body 450 such that the filter media is sandwiched therebetween. The outer and inner rings 492a and 492b are secured to the filter body 450 andlor to one another via an adhesive, heat staking or sonic welding, for example.
(0087] V1lith reference to Figures 3 and 8, when the vacuum 10a is operated, the fan assembly 72 expels air from the fan housing 92 which creates a negative pressure differential relative to atmospheric conditions and causes a dirt and debris laden air flow to rush Into the dirt cup 20 through the Inlet port 54.
When coupled to the inlet port 54, the elbow 22 directs the dirt and debris laden air Ost-11-2004 11:29am Fry-Bd0 PATENT DEPT. 410-T19-2610 T-B30 P.02T/04B F-1B7 . HD&P Ref. 02~SR-000799 Black & Decker Ref.
that is flowing through the inlet port 54 tawani the interior wall of the dirt cup 20, causing the dirt and debris laden air to swirl about the interior of the dirt cup. In the particular example provided, the outlet 500 of the elbow 22 is configured to direct the dirt and debris laden air flow in a direction to the side and rear of the dirt cup 20. Those of ordinary skill in the art will appreciate from this disclosure, however, that the elbow 22 may be configured to direct the dirt and debris laden air flow in a direction generally transverse to the inlet port 54, that the outlet 500 of the elbow 22 may or may not lie in the same "plane° as the inlet port 54 (i.e., the centeHine of the elbow 22 at the outlet 500 may or may not lie in a plane that is contains the centerline of the inlet port 54) and that any portion of the elbow 22 between the outlet 22 and the Inlet port 54 may be formed with a desired shape (e.g., helical) to enhance the swirling effect produced by the elbow 22 and the dirt cup 20.
[0088 In some situations, the swirling effect may be so strong as to create centrifugal force that causes the dirt and debits to move outwardly toward and collect agatnst the dirt cup 20. The swirtfng effect may also slow the collection of dirt and debris on the prefilter 412 and the primary filter 414 to thereby provide improved effidency of the vacuum 10a. Improved efficiency is particularly important with cordless vacuums, as it permits extended operation on a given battery charge. Those of ordinary skill in the art will readily appreciate in view of this disclosure that the swirling effect may not be desirable under some circumstances and as such, the elbow 22 may be removable from the inlet port 54.
_28_ Oct-1t-2004 11:2Aam From-BiD PATENT DEPT. 410-116-2610 T-B80 P.028/049 F-18T
HQ&P Ref. 02758-000799 Black & Decker Ref.
[0089 With reference to Figures 3, 12, 19 and 20, the vacuum 10a may be additionally and further maintained in an efficient state by rotating the cleaning wheel 300 as needed or at a desired interval when the impeller 80 is not rotating to at feast partially clear accumulated dirt and debris from the pleats 460 of the primary filter 414. More specffically, as the primary filter may be coupled to the cleaning wheel 300, rotation of the cleaning wheel 300 causes contact between the ribs 438 and an associated set of the pleats 460 which may deflect the pleats 480 and vibrate tho pleats 480 after the pleat 460 has rotated .past the rib 438.
The faros of the impact, the deflection of the pleat 460 and its subsequent vibration may cooperate to dislodge particles of dirt and debris from both ttte pr~efilter 412 and the primary filter 414.
[010GJ Those skilled in the art will appreciate from this disclosure that various modfioations may be made to the prefilter 412 to aid in discharging dirt and debris that are dislodged from the primary fitter 494 andlor to slow the rate with which the pleats 460 of the primary filter 414 wear. For example, the prefllter 412 may be canstnrcted with one or more apertures 6000 as shown in Figures 48 and 47. Tha apertures 5000 are relatively larger than the filtering apertures 434 so that dirt and debris that are dislodged from the primary filter 414 (Fig. 20) during cleaning, c.g., rotation of the cleaning wheel 300 (Fig. 15), may more readily fail through the prefllter body 422 and collect in the dirt cup 20 (Fig. 1 ). In the example of Figure 48, the prefilter body 422 is constructed such that at least a portion of the ribs 436 are shifted along the longitudinal axis of the prefilter body 422. In the Oct-11-2004 11:30am Frwn-B8D PATENT DEPT. 410-T18-2610 T-880 P.029/048 F-181 HD&P Ref. 02758-000799 Black & Decker Ref.
particular example provided, each of the ribs 436 is shifted so that no two ribs 438 contact the same area of the pleats 460 (Fig. 20j.
[0101] Returning to Figures 1 and 3, the tool set 10b may include a brush tool 500 and a crevice tool 502 that may be fixedly but removably engaged to the front end of the inlet part 54 via a friction fit. Unlike the known configurations of accessories, the brush tool 500 and crevice tool 502 each employ a body portion 50a having first and second portions 506 and 508 with a U-shaped aperture 510 formed therebetween. The U-shaped aperture a10 permits a relafivety large degree of flexure between the first and second portions 606 and 608 so as to ensure high quality frfction frt and associated seat between the body portion and inlet port 54 of the dirt cup 20.
[0102] In the part'cular example provided, the brush tool 500 may be stored in a cavity 518 formed in the rear of the housing 3Z, while the crevice tool 502 may be coupled to a bottom face 520 of the housing 32. One or more resilient clips 522 may be employed to retain the particular accessory to the housing 32.
(0103] With reference to Figure 22, the recharging base 75 is Illustrated in association with the vacuum 10a. The recharging base 75 may include a base 1000, a charging circuit 1002, a pair of terminals 1004 and a key 1006. The base 1000 may be a molded structure and may be configured to sildably receive the vacuum 10a such that a pair of mating terminals 1014 and a mating key 1016 matingly engage the terminals 1004 and the key 1006, respectively. The charging circuit 1002 may be cor>tigured in a conventional and well known manner to _28-Oct-11-2004 11:8Z~a Frae~-BtD PATENT DEPT. 410-t16-2010 T-881 P.030/048 F-18T
HD&P Ref. 02758-000789 Black & Decker Ref.
receive electrical power from a source of A.C. power and provide a source of D.C.
power of a predetermined voltage to the terminals 1004.
X0104] !n the particular example provided, the terminals 1004, which may be mounted to the base 1000, may extend outwardly from the base 1000 so as to contact associated ones of the mating terminals 1014 when the vacuum 10a is fully r~eoeived into the base 1000. As the terminals 1014 are electrically coupled to the battery pack 74, contact between the terminals 1004 and 1014 permits electrical energy to be transmitted from the charging circuit 1002 to the batteries 100.
[0105] The key 1006 and the mating key 1016 coordinate with pne another to permit the base 1000 to fully receive the vacuum 10a. In the particular example provided, the key 1006 includes a pedestal 1028, a flange 1030 and optionally one or more engagement tabs 1032, while the mating key 1016 includes a receiver 10~t0. The pedestal 1028 of the key 1008 may be Coupled to the base 1000 in any conventional manner, including for example, threaded fasteners andlor features that are integrally formed onto andlvr into the pedestal 1028 and base 1000 that permit the pedestal 1028 and the base 1000 to be engaged to one another in a snap-fit manner. The flange 1030 may be coupled to the pedestal 1028, extending upwardly therefrom so as to protrude from a corresponding aperture 1036 in the base 1000 when the key 1006 and the base 1000 are coupled to one another. 1f employed, the engagement tabs 1032 extend from the flange 1030 in the example provided.

Oat-11-2004 1i:32am From-BiD PATENT DEPT. 410-116-2610 T-831 P.031/043 F-18P
HD&P Ref. 02758-000799 Black & Decker Ref.
(alo6~ The receiver 1040 may be caupted to the housing 32 in any conventional manner, including for example, threaded fasteners andlor features that are integrally formed onto andlar into the receiver 1040 and housing 32 that permit the receiver 1040 and the housing 32 to be engaged to one another in a snap-fit manner. The receiver 1040 of the mating key 1016 may optionally include one or mare slots 1042 for receiving the engagement tabs 1032. The engagement tabs 1032 and slots 1042 are posmoned such that they must engage one another before the terminals 1020 and 1022 may contact one another. Those of ardlnary skill in the art will appreciate from this disclosure that although the vacuum 10a has been described thus far as including slots 1042 for receiving engagement tabs 1032 that are associated with the recharging base 75, the slots 1042 and engagement tabs 1032 may alternatively be associated with the recharging base 75 and the vacuum 10a, respectively.
X0107] Wifh reference to Figure 23, the interchangeable nature of the charging system of the present invention is illustrated. Specifically, several tem~inal block (1004) and key (i.e., 1006x, 1006b, 1006c, 1006d, and 1006e) combinations are Illustrated as being Interchangeable with the base 1000, while several receivers (1040a, 1040b, 1040c, 1040d, and 1040e) are illustrated in association with the vacuum 10a. Significantly, the injection molds for each of the key and the receiver employ exchangeable tooling segments that permit the molds to be readily converted so that they may be employed to form each of the various key configurations and receiver configurations. With reference to Figure 24, five Oct-11-2004 11:32am Fran-BiD PATENT DEPT. 410-T16-2610 T-631 P.032/048 F-16T
HD&p Ref. 02758-000799 Black 8~ t7ecker Ref, tooling segments 1050a, 1050b, 1050c, 1050d and 1050e are employed in conjunction tnitth a base mold 1052 to produt~ each of the receiver combinations.
(0108 One especially significant aspect of providing various key and mating key combinations is the ability to provide a family of similar vacuums having different batteries (i.e., different voltages) yet which utilize as many common components as possible. In this regard, the various key and mating key combinations are employed to "key" a particular vacuum to a particular recharging base so as to prevent a vacuum from being coupled to a recharging base having a charging circuit that provides a charging vokage in excess of that which the batteries of the vacuum are designed to be charged.
[0108] With reference to Figure 25, a family of hand-held cordless vacuums is generally indicated by reference numeral 2000. The family of vacuums 2000 includes vacuums 2002a, 2004a, 2006a, 2008a and 2010a, which are assodated with recharging bases 2002b, 2004b, 20086, 2008b and 20106, respectively. The vacuums 2002a, 2004a and 2006a are generally identical tv vacuum 10a and differ from one another only in the design charging voltage of their respective battery packs 74. For example, the vacuum 2002a may have a design charging voltage of 14.4 volts, the vacuum 2004a may have a design charging voltage of volts and the vacuum 2006a may have a design charging voltage of 9.Ii volts.
The vacuums 2008a and 2010a are similar to the vacuum 10a (Fig. 1 ) except that they lack ~a filter cleaning system 36 and may have design charging voltages of 7.2 volts and 4.8 volts, respectively. The recharging bases 2002b, 2004b, 2008b, Oct-11-2004 11:32am From-BiD PATENT DEPT. 410-'f16-2610 T-831 P.033/048 F-181 HD~P Ref. 02 768-000799 Black & Decker Ref.
2008b and 2010b are generally identical to the recharging base 75 (Fig. 1) and differ from one another anly in the charging voltage that they output.
r411fl] As those skilled in the art will appreciate from this disclosure, the recharging bases (i.e., the keys) may be configured so that they will only engage one vacuum (i.e., mating key). However, it is permissible for a recharging base (i.e., key) to receive more than one type of vacuum (i.e., mating key) so long as the charging voltage provided by the recharging base will not exceed the design charging voltage of any vacuum that may be engaged thereto. In the particular example provided, any member of the family of vacuums 2000 may be engaged to the recharging base 2010b. Furthermore, the vacuum 2004a may also be engaged to the charging bases 2004b, 2006b, and 2008b.
[0111] While the vacuum 10a has b~en described thus far as employing an elbow to impart a swirling action to an incoming dirt and debris laden air flow and a manually rotatable cleaning wheel for use in dislxlglng particles of dirt and debris from a ~Iter, those skilled in the art wilt appredate that the invention, in its broader aspects, rnay be constructed somewhat differently. For example, the vacuum 10c may employ one or more vanes to swirl the incoming dirt and debris laden air flow as shown in Figures 26 and 27, (n this example, the vacuum 10c is identical to the vacuum 10a described above, except that the elbow 22 (Fig. 3) is net employed and a prefllter 412c has been substituted for the prefilter 412. The prefilter 412c is substantially similar to the prefilter 412, except for the inclusion of a plurality of filow guiding vanes 600 on the front wall 430c of the prefilter body 422c. The flow Ost-11-2004 11:33am From-880 PATENT DEPT. 410-T16-2610 T-831 P.034/046 F-161 HDBP Ref. 02758-000799 Black 8~ Decker Ref.
guiding vanes 800 are disposed axially in-line with the inlet port 54c such that the axially directed incoming dirt and debris laden air flow is fumed by the slow guiding vanes 600 outwardly toward the interior surface of the wall of the dirt cup 20c. As with the elbow 2z, the flow guiding vanes 600 may be configured aggressively, wherein the entire flow is turned outwardly at the interior surface of the dirt cup 20c, or somewhat less aggressively, wherein the flow is turned outwardly but retains a portion of its o~lginat axial velocity.
[011 As those of ordinary skill in the art will appreciate from this disclosure, vanes BOOB for swirling the incoming dirt and debris laden air flow may be additionally or alternatively formed on another surface, such as the exterior surface 620 of the side watt 4324 of the prefllter 412d, as illustrated in Figure 28.
[0113a Alternatively, the vacuum 10e may be configured as is shown in Figures 29 and 30. In this embodiment, the housing assembly 14e defines a filter recess 700 into which the filter system 34e is disposed. The filter system 34e includes a hat-shaped prefilter 412e and a hat-shaped primary filter 414e. The prefilter 412e includes a filter flange 420e and a prefilter body 422e, white the primary filter 414e includes a filter flange 710 and a filter body T12. A
nozzle 720 is pivotally coupled to the housing assembly 14e and unlike the dirt cup 20 of Figure 1, the nozzle 720 has no capacity for the storage of the dirt and debris that is drawn up by the vacuum 10e. Rather, coarse dirt and debris are retained in the prefilter 412e while finer dirt and debris which pass through the prefllter 412e are contained by the primary filter 414e. PtvoHng of the nozzle 720 into the closed Oct-11-2004 11;33am From-BdD PATENT DEPT. 410-718-2610 T-831 P.033/048 F-187 HD8~P Ref. 02758-000799 Black & Decker Ref.
position causes the nozzle 720 to compress the filter flange 420e and filter flange 710 against one another such that a seal is formed between the nozzle 720 and the housing assembly 14e, 10114] The nozzle 720 includes an outlet 730 that directs an incoming flow of dirt and debris laden air tangentially into the prefilter 412e, thereby generating a swirling effect that tends to reduce the accumulation of dirt and debris against the side wall 432e of the prefilter 412e. Thts configuration is highly advantageous in that it permits the user to not only pertortn vacuuming operations with a single hand, but also to empty the vacuum 10e of dirt and debris w~h a single hand.
More specifically, the user need only access the. latch release 38 to unlatch the nozzle 720 from the housing assembly 14e to permit the nozzle 720 to pivot into the open condition. A detent (not specifically shown) may be employed td retain the nozzle 720 in the open condition. The user need only grasp the handle 168 of the housing assembly 14e and overturn the vacuum 10e to empty the contents of the prefilter 412e.
[0115] As is apparent from the discussion above, rotation of the cleaning wheel 300 when the impeller 90 is rotating renders the cleaning action relatively less effective (as compared to when the impeller 90 is not rotating) since dirt and debris that are dislodged when the cleaning wheel 300 is rotated tends tv be immediately drawn back into the primary filter 414. Accordingly, it is within tha scope of the present invention to include with the vacuum 10a a device that either locks the cleaning wheel 300 or electrically disables the fan assembly 72 when the Oct-11-2004 11:33am From-BiD PATENT DEPT. 410-T16-2610 T-831 P.036/043 F-1BT
HD&P Ref, 02758-000799 Black & Decker Ref.
cleaning wheel 300 is rotated. 1rt Figure 31, a lock-out device 800 is illustrated to be coupled to the power switch 76 far Translation therewith. When the power switch 76 is activated, a cock-out member 802 translates into locking engagement with one of the circumfererttially spaced apart recesses 310 in the gripping portion 302 of the cleaning wheel 300 to prevent the cleaning wheel 300 from being rotated. In Figure 32, a sensor 850 is employed to detect the rotHtlon of the cleaning wheel 300 relative to the housing 32 and generate a sensor signal in response thereto. In the particular example provided, the sensor 85D includes a pair of spaced apart contacts 850a and 850b which are normally not in contact with vne another but which are urged Into electrical contact with one another by actuating feature 852 that are formed on the cleaning wheel 300. In response to receipt of the sensor signal, a controller 860 is employed to inhibit the flow of electricity from the batteries 100 to the motor 70 to thereby deactivate the fan assembly 72. In the example provided, the controller 860 employs a conventional relay 862 to inhibit the flow of electricity from the batteries 100 to the motor 70. In this latter embodiment, the controher 860 may include a timer 864 which maintains the motor 70 in a deactivated state for a predetermined amount of time after receipt of the sensor signal.
[011b'j In the embodiments of Figures 34 and 35, the cleaning wheel is Illustrated to b0 driven by a motor rather than manually operated. In Figure 34, a duteh 900 having an input shaft 802, which is coupled to the output shaft 88 of the momr 70, a first output shaft 904, to which the impeller 90 is coupled for rotation Oct-11-2004 11:34am From-B&D PATENT DEPT. 410-T16-2610 T-831 P.03r/048 F-16T
HD&P Ref. 02758-000799 Black ~ Decker Ref.
therewith, and a second output shaft 9013, which is concentric with the first output shaft 904, which is meshingly engaged with an idler gear 908. A shaft 910 couples an output pinion 912, which is meshingly engaged with teeth 3108 formed on the Cleaning wheel 300g, for rotation with the idler gear 908. The clutch 900 is normally operable in first condition, wherein totary power is transmitted to the first output shaft 904 but not the second output shaft 806, and a second condition, wherein rotary power is transmitted to the second output shaft 906 but not the first output shaft 904. The clutch 900 is preferably electronically controlled, so that the user need only press a button to change the condition of the clutch 900 from the first condfivn to the second condition (such as by translating the power switch 76 (Fig.. 3) in a direction apposite that which is normally employed to actuate the vacuum 10a)- As noted above, the clutch 900 is nofmally operable in the first condition, so that when the button is released, the clutch 900 will revert to the first condition. In the embodiment of Figure 35, a second motor 960 is employed to rotate the cleaning wheel 300.
(01171 While the invention has been described in the specification and illustrated in the drawings with reference to various embodiments, It wilt be understood by those skilled in the art that various changes may bc~ made and equivalents may be substituted for elements thereof without departing from the scope of the inrrention as defined in the claims. Furthermore, the mixing and matching of fieatures, elements arKilor functions between various embodiments is expressly contemplated herein so that one of ordinary skill In the art would Oct-11-2004 11:34am Fry-B3D PATENT DEPT. 41D-716-2810 T-831 P.D38/048 f-187 HD8~P Ref. 027~R-000799 Black & Decker Ref.
appnciate from this disclosure that features, elements andlor functions of one embodiment may be incorporated into another embodiment as appropriate, unless described ethenuise, above. Moreover, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention nclt be limited to the particular embodiment illustrated by the drawings and described in the specification as the best mode presently contemplated for carrying out this invention, but that the invention will include any embodiments falling within the foregoing description and the appended claims.

Claims

1. A hand-held portable vacuum comprising:
a housing;
a dirt cup having an inlet and defining a container for storage of dirt and debris therein, the dirt cup being removably attached to the housing;
an impeller at least partially disposed in the housing;
a HEPA filter disposed between the impeller and the Inlet, the HEPA filter being formed with a plurality of pleats;
means for swirling the incoming air about the dirt cup; and a filter cleaning device coupled to at least one of the housing and the dirt cup, the fitter leaning device including at least one rib and a hub, the hub being coupled to one of the HEPA filter and the rib and configured to rotate the one of the HEPA filter and the rib about the other one of the HEPA filter to generate contact between the rib and the HEPA filter to at least partially dislodge accumulated dirt and debris from the pleats.

2. The hand-held vacuum of Claim 1, wherein the swirling means includes a flow deflector associated with the inlet of the dirt cup.

3. The hand-held vacuum of Claim 2, wherein the flow deflector is an elbow.

4. The hand-held vacuum of Claim 1, wherein the swirling means includes a plurality of vanes disposed in an axially spaced relation to the inlet.

5. The hand-held vacuum of Claim 4, wherein the vanes are associated with a prefilter, the vanes being disposed between the inlet and the HEPA
filter.

6. The hand-held vacuum of Claim 1, wherein the hub includes a gripping portion that extends through the housing and is manually rotatable.

7. A hand-held portable vacuum comprising:
a housing;
an impeller at least partially disposed in the housing;
a dirt cup having an inlet and defining a container for storage of dirt and debris therein, the dirt cup being removably attached to the housing; and a HEPA filter disposed between the impeller and the inlet.

8. The hand-held portable vacuum of Claim 7, wherein the HEPA filter is formed with a plurality of pleats.

9. The hand-held portable vacuum of Claim 8, further comprising a filter cleaning device associated with at least one of the housing and the dirt cup, the filter cleaning device including at least one rib and a hub, the hub being coupled to one of the HEPA filter and the rib and configured to rotate the one of the HEPA filter and the rib about the other one of the HEPA filter to generate contact between the rib and the HEPA filter to at least partially dislodge accumulated dirt and debris from the pleats.

10. The hand-held portable vacuum of Claim 9, wherein the hub is rotatably coupled to the housing.

11. The hand-held portable vacuum of Claim 10, wherein the HEPA filter is sealingly attached to the hub.

12. The hand-held portable vacuum of Claim 10, wherein the hub includes a plurality of drive tabs that meshingly engage a plurality of drive tabs formed on the HEPA filter.

13. The hand-held portable vacuum of Claim 10, further comprising a prefilter, the prefilter having a prefilter body that surrounds the HEPA
filter, the prefilter body having an open end which is sealingly engaged with the HEPA
filter.

14. The hand-held portable vacuum of Claim 10, further comprising a prefilter, the prefilter having a prefilter body that surrounds the HEPA
fester, the rib extending from an interior surface of the prefilter- body.

16. The hand-held portable vacuum of Claim 7, further comprising a prefilter, the prefilter having a prefilter body that surrounds the HEPA
filter 16. The hand-held portable vacuum of Claim 15, wherein the prefilter body has an open end and the prefilter and HEPA filter are sealingly engaged to close the open end.

17. A method for filtering a dirt and debris laden air flow, the method comprising:
providing a hand-held vacuum with a housing, an impeller, an inlet, a container and a primary filter, the housing including a handle that permits a user to employ the hand-held vacuum for vacuuming with a single hand, the impeller being disposed within the housing, the inlet being configured to receive the dirt and debris laden air flow therethrough, the container being configured to retain dirt and debris removed from the dirt and debris laden air flow and the primary filter being disposed between the impeller and the inlet;
rotating the impeller to generate the dirt and debris laden air flow; and swirling the dirt and debris laden air flow about the interior of the container.

18. The method of Claim 17, further comprising removing the container from the housing to empty the container.

19. The method of Claim 18, wherein the container and the inlet are fixedly coupled to one another.

20. The method of Claim 17, further comprising pivoting the inlet relative to the housing to gain access to the container.

21. The method of Claim 20, further comprising rotating the housing with the single hand grasping the handle to overturn the vacuum and empty the container.

22. A hand-held portable vacuum comprising:
a housing having a handle;
a dirt cup having an inlet and defining a container for storage of dirt and debris therein, the dirt cup being removably attached to the housing;
an impeller at least partially disposed in the housing;
a filter disposed between the impeller and the inlet, the filter being formed with a plurality of pleats;
a filter cleaning device coupled to at least one of the housing and the dirt cup, the filter cleaning device including at least one rib and a hub, the hub being coupled to one of the filter and the rib and configured to rotate the one of the filter and the rib about the other one of the filter to generate contact between the rib and the filter to at least partially dislodge accumulated dirt and debris from the pleats.

23. The hand-held vacuum of Claim 22, wherein the hub is rotatably coupled to the housing.

24. The hand-held portable vacuum of Claim 23, wherein the hub includes a gripping portion that extends through the housing and is manually rotatable.

25. The hand-held portable vacuum of Claim 23, wherein the filter is sealingly attached to the hub.

26. The hand-held portable vacuum of Claim 23, wherein the hub includes a plurality of drive tabs that meshingly engage a plurality of drive tabs formed on the filter.

27. The hand-held portable vacuum of Claim 23, further comprising a prefilter with a prefilter body that surrounds the filter, the prefilter body having an open end which is sealingly engaged with the filter, the rib extending from an interior surface of the prefilter body.

28. The hand-held portable vacuum of Claim 27, wherein the prefilter body has an open end and the prefilter and filter are sealingly engaged to close the open end.

29. The hand-held portable vacuum of Claim 27, wherein the prefilter body has a truncated cone shape.

30. The hand-held portable vacuum of Claim 29, wherein the filter has a truncated cone shape.

31. The hand-held portable vacuum of Claim 22, wherein the filter has a truncated cone shape.

32. A hand-held portable vacuum comprising:
a housing having a handle;
a dirt cup having an inlet and defining a container for storage of dirt and debris therein, the dirt cup being removably attached to the housing;
an impeller at least partially disposed in the housing, the impeller being operable for generating an air flow that flows through the inlet;
a litter disposed between the impeller and the inlet; and means for swirling the air flow about the dirt cup.

33. The hand-held vacuum of Claim 32, wherein the swirling means includes a flow deflector associated with the inlet of the dirt cup.

34. The hand-held vacuum of Claim 33, wherein the flow deflector is an elbow.

35. The hand-held vacuum of Claim 32, wherein the swirling means includes a plurality of vanes disposed in an axially spaced relation to the inlet.

38. The hand-held vacuum of Claim 35, wherein the vanes are associated with a prefilter, the vanes being disposed between the inset and the filter.

37. A hand-held portable vacuum comprising:
a housing having a handle;
a dirt cup having an inlet and defining a container for storage of dirt and debris therein, the dirt cup being removably attached to the housing;
an impeller at least partially disposed in the housing, the impeller being operable for generating an air flow that flows through the inlet;
a filter disposed between the impeller and the inlet; and a flow deflector associated with the inlet of the dirt cup, the flow deflector being configured to direct the air flow toward an interior surface of the dirt cup in a manner that causes dirt and debris entrained in the air flow to swill about the interior surface of the dirt cup.

38. The hand-held vacuum of Claim 37, wherein the flow deflector is an elbow that is coupled to the inlet.