CA1330905C - Thermal printing device and tape supply cartridge therefor - Google Patents
Thermal printing device and tape supply cartridge thereforInfo
- Publication number
- CA1330905C CA1330905C CA000589359A CA589359A CA1330905C CA 1330905 C CA1330905 C CA 1330905C CA 000589359 A CA000589359 A CA 000589359A CA 589359 A CA589359 A CA 589359A CA 1330905 C CA1330905 C CA 1330905C
- Authority
- CA
- Canada
- Prior art keywords
- tape
- cartridge
- roller
- alignment
- platen
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J3/00—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
- B41J3/407—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for marking on special material
- B41J3/4075—Tape printers; Label printers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J15/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in continuous form, e.g. webs
- B41J15/04—Supporting, feeding, or guiding devices; Mountings for web rolls or spindles
- B41J15/044—Cassettes or cartridges containing continuous copy material, tape, for setting into printing devices
Abstract
ABSTRACT OF THE DISCLOSURE
A thermal printing device or the like and a tape or tape-ribbon cartridge designed for operative insertion into and use with such device. The device and cartridge of the present invention includes a tape drive system for driving the tape or tape and ribbon through the thermal printing device including a drive roller connected with the machine and a corresponding drive roller mounted within the cartridge and biased toward the machine drive roller. The device and cartridge of the present invention also includes an alignment system comprising a floating alignment member for insuring proper transfer alignment between the platen and the printhead.
A thermal printing device or the like and a tape or tape-ribbon cartridge designed for operative insertion into and use with such device. The device and cartridge of the present invention includes a tape drive system for driving the tape or tape and ribbon through the thermal printing device including a drive roller connected with the machine and a corresponding drive roller mounted within the cartridge and biased toward the machine drive roller. The device and cartridge of the present invention also includes an alignment system comprising a floating alignment member for insuring proper transfer alignment between the platen and the printhead.
Description
`~ 1 3 3 ~
~-TAPE SUPPLY CARTRIDGE THEREFOR -~
BACKGROUND OF THE INVENTIO~
The present invention relates generally to a thermal printing device and a tape supply cartridge therefor, and more particularly, to a thermal device for generating an image of characters on, or for transferring an ~ image of characters from a strip of color carrying ribbon `~
; to, an image carrying tape as the result of the localized application of heat and pressure. The invention also relates to an i~proved tape or tape-ribbon tape supply cartridge usable with such devlce whlch embodies an improved ~- ;
~: tape or tape-ribbon drive system and an~im~roved alignment feature for aligning the tape and platen relative to the ~ -, . ,;, . .
transfer station of the device.
There are a number of strip printing or transfer ;~ 20 type devices which currently exist in the prior art and ;
which are utilized to transfer characters from a strip of color carrying ribbon to a strip o image carrying tape.
One such device employs impact or pressure in combination .with a font hàving raised characters to transfer an image of a selected character from a ribbon to an image receiving ~ ., tape. These so-called impact or pressure lettering devices ~ r ;;
have existed since the mid 1970's and are described in U.S.
Patent Nos. 3,834,507; 4,243,333; 4,402,619 and 4,624,5g0, among others. Cartridges for supplying tape and ribbon to ; 30 these devices ar.e described in U.S. Patent Nos. 4,226,547;
4,391,539 and 4,67R,353, among others.
B -2~
- 133~a Printing or transfer devices also exist in which an image of a desired character is formed onto a strip of image carrying tape by transferring ink or other color from a color carrying ribbon to such tape as a result of the localized application of heat and a small amount of pressure. A typical thermal transer device of this type is described in U.S. Patent No. 4,666v319 dated May 19, 1987 ., . - -: ~
and issued to Hirosaki et al.
A further thermal transfer device which currently exists employs a machine for transferring the image of a 1~ :. :: ::
desired character from a strip of ribbon to a strip of tape and a cooperating tape-ribbon cartridge usable with the device for providing a supply of tape and ribbon to the machine transfer station.
Although the above described devices and corresponding cartridges may be satisfactory for various ;
uses and applications, there is always a need to improve the ~ ~ -quality of the image transfer and to reduce the amount of user maintenance. This is particularly true with respect to thermal printing devices in view of the fact that the proper ;~
alignment between the printhead, the platen and the tape or , the tape and ribbon is of critical importance in obtaining a ~ r~
high quality image. Accordingly, there is a continuing need ~ -for improvements in thermal printing and transfer devices and associated cartridges for supplying tape or tape and ribbon thereto. ~
SUMMARY OF THE INVENTION ~ ;
In accordance with the present invention, a thermal ; printing device or system is provided in which an image of a desired character is generated on, or is transferred from a ;:
, _3_ ~ 3 3 ~ ~ ~ .J
1 strip of color carrying ribbon to, a strip of image carrying tape~ Generally, such a system includes a printing or ~ --transfer station defined by a printhead and a cylindrical platen and means or advancing the tape or the tape and ribbon from a supply cartridge to the printing or transfer station. The device of the present invent.ion also includes an improved tape or tape-ribbon drive system and a mechanism for properly aligning the platen relative to the printhead. ;~ ;
These features are incorporated into the thermal printing device and the cartridge to provide an improved cartridge and an improved cartridge and machine combination.
, -, - , More specifically, the thermal printing or transfer ,. .... .
~ device of the present invention includes a fixed printhead, . .
~; a rotatable platen mounted for movement into transfer `-~
alignment with the printhead and an improved means for aligning the platen. Such means includes a platen support member and means for moving the platen toward and away from the printhead. ~ ~ ;
The tape or tape-ribbon supply cartridge of the present invention includes a floating tape or tape-ribbon~`
guide member which is interfaceable with corresponding alignment elements of the device. This floating guide member assists in accurately aligning the tape or the tape and ribbon with respect to the printhead and platen and 2s facilitates the positioning of the platen relative to the printhead regardless of possible imperfections or tolerances in the cartridge.
The tape or tape-ribbon drive system of the present invention includes a pair of driven advancement rollers for engagement with surfaces of the tape or the tape and ribbon. One of the driven advancement rollers is 1 3 3 ~ ~ ~ 3 ~ ~
1 incorporated in the machine, while the other is incorporated in the cartridge. Each of these rollers includes a drive gear near its lower end for selective engagement with one another. The cartridge, and thus the roller within the cartridge, is adapted for limited movement toward one ;
another to facilitate engagement between the respective drive gears. ~ias means are incorporated within the cartridge for biasing the cartridge drive roller into engagement with the machine drive roller.
,, Accordingly, it is an object of the present invention to provide an improved thermal strip printing :
device or the like for generating a desired character on, or for transferring a desired character from a strip of ribbon ~`~ to, a strip of tape.
Another object of the present invention is to provide a thermal printing or transfer devicP or the like having improved alignment means for aligning th0 platen relativa to the printhead.
Another object of the present invention is to provide a tape or tape-ribbon supply cartrid~e usable with a ~ `
thermal printing or transfer device or the like and having a floating alignment mechanism for aligning the tape or the ~ape and ribbon and the platen relative to the printhead.
A further object of the present invention is to provide a tape or tape-ribbon cartridge usable with a thermal printing or transfer device or the like and having an improved tape or tape-ribbon drive system.
A further object of the present invention is to provide a combination machine and cartridge having an -~
improved tape or tape-ribbon alignment system and an improved tape cut-off feature.
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1 In one aspect, the present invention provides a thermal printing device or the like comprising: an apparatus housing having a cartridge receiving portion; a print sta~ion for forming a selected image on a strip of tape; a replaceable and disposable cartridge positioned within said cartridge receiving portion, said c:artridge having a supply of tape for receiving a printed image; a tape advancement ., -assembly comprising a first tape advancement roller having a first generally cylindrical roller portion, a first drive :~ : . ~ i member for rotation with said first roller, a second tape advancement roller having a second generally cylindrical -roller portion and a second drive member for rotation with :~
. .
~ said second rollerr said first and second tape advancement ~:
.
rollers being positioned such that said fir t and second 15 roller portions are opposed to one another and positioned on ~;
opposite sides of said tape, at least one of said first and second advancement rollers being movable between an inoperative position in which said first and second roller :
: : portions are spaced from one another and said first and ; : 20 second drive members are disengaged and a tape advancement . ,- ~ . .: .
~I position in which said first and second roller portions are -~
..
, moved toward engagement with one another with said tape positioned therebetween and said first and second drive .
: members are engaged; and bias means for biasing one of said ~ ;~
tape advancement rollers toward the other.
The above and other objects of the present invention will become apparent with reference to the drawings, the description of the preferred embodiment and the appended claims. ;~ ;
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133~aa Figure 1 is an exploded, pictorial view comprising Figures lA and lB of a thermal transfer device and cartridge ;~
: of the preferred embodiment of the present invention showing . :- ~:
:.~:
: 5 the machine with parts cut away, the service tray removed and suspended over the machine, the cartridge ~uspended over the service tray and the cartridge cover removed and ;~ suspended over the cartridge.
;~ Figure 2 is a top plan view of the tape-ribbon :~
10 cartr1dge of the preferred embodiment of the present :~
invention with the cover removed and parts cut away.
Figure 3 is a fragmentary sectional elevation of the : ribbon supply and rewind spools taXen along the section line 3-3 of Figure 2.
Figure 4 is a sectional elevation showing a portion of the floating tape-ribbon guide member and the ribbon supply spool as ta~en along the section line 4-4 of Figure 2.
Figure 5 is a fragmentary sectional elevation of the tape-ribbon drive feature taken along the section line 5-5 of Figure 2.
Figure 6 is a fragmentary sectional elevation of the tape cut-of feature taken along the section line 6-6 of Figure 2. ~
Figure 7 is an enlarged detail of the tape cut-off ~ :
. ~ .
; 25 feature.
Figure 8 is a pictorial view of a portion of the tape-ribbon drive assembly embodied within the cartridge of the present invention.
~`"'" " '''' ~ 6a-.,., .~.,~
~ 3 3 ~ 9 ~
Figure 9 is a pictorial view of the floating - :
tape-ribbon guide member disposed within the tape-ribbon ;;
cartridge of the present invention.
Figure 10 is a fragmentary sectional elevation taken along the section line 10-10 of Figure 2.
Figure 11 is a fragmentary sectional elevation taken along the section line 11 of Figure 2.
Figure 12 is a fragmentary sectionaI elevation ::
taken along the section line 12-12 of Figure 2. ~
1 o ,~ . .: :.
Figure 13 is a fragmentary sectional elevation taken along line 13-13 of Figure 2. ;.
: Figure 14 is a fragmentary sectional ele~ation ;~ taken along lin~ 14-14 of Figure 16.
Figure lS is a fragmentary sectional elevation taken along section line 15-15 of Figure 16.
Figure 16 is a fragmentary detail view taken along ; ~:
the section line 16-16 of Figure lA and Figure lB showing selected parts therefrom in assembly.
Figure 17 is a detail section taken along the section line 17-17 of Figure 18.
DESCRIPTION OF T~E PREFERRED EMBODIMENT
As described generally above, the present invention relates to a thermal printing or transfer device and an associated supply cartridge. Although the preferred -embodiment illust:rated in the drawings and described below relates to a thermal transfer device and an associated ;~
tape-ribbon cartridge in which an image of a character is ~ ~
transferred at a transfer station from a ribbon to a strip -; ~j , of tape, it i8 also contemplated that the present invention relates to various othsr lettering apparatus and strip printers as. well. For example, without limitation, it is 1 3 3 ~
1 contemplated that tha features o~ the present invention are applicable to various types of thermal printing devices other than a thermal transfer device, such as a thermal printing device in which characters are generated on a strip of thermal tape rather than transferred from a ribbon. In such a device, the tape is treated with certain thermal materials so that when heat is appiied, an image is formed. ;
This eliminates the need for a ribbon supply. Throughout the specification and claims, the term thermal printing lo device is intended to include both a thermal device in which characters are formed directly onto specially treated thermal tape as well as a thermal transfer device in which characters are transferred to such tape from a ribbon member.
Reference is first made to Figure 1 comprising Figures lA and lB showing an exploded pictorial view of a thermal transfer device and a tape-ribbon cartridge in accordance with a preferred embodiment of the present invention. As illustrated, the operative components of the thermal transfer device generally include a printhead 2~ assembly 10, a cooperating platen assembly comprising a cylindrical platen 11, a drive roller assembly comprising a drive roller 12, and a tape cut-off assembly comprislng a tape cut-off actuating arm 14. Associated with the machine -~
is a fixed cartridge service or receiving tray 15 and a tape-ribbon cartridge 16 for providing tape 13 and ribbon 17 to the image transfer station disposed between the printhead 10 and the plate~ 11. The cartridge embodies a drive roller, an alignment mechanism and an internal tape : . .
cut-off means int:erfaceable with corresponding components of 30the machine. The cartridge 16, when inserted into the tray :~r~
15, is adapted for limited movement between a first or :
~ i33Q9~ ~
1 rearward position in which the cartridge 16 is in an inoperative position and a second or forward position in which the cartridge 16 is in an operative position in alignment with the printhead. -~
With specific reference to Figures lB and 14, the printhead assembly 10 includes a rigi~ frame member 19 secured to a portion of the machine housing 21 by appropriate screws or other connecting means. The assembly 10 also includes a printhead element 20 mounted to the frame 19 for operative alignment with the platen 11. In the ~ -preferred embodiment, the printhead element 20 is a conventional thermal printhead identi ied by Model No. XP
~; 86Y01 manufactured by Kyocera International, Inc., of Framingham, MA. Extending rearwardly from, and integrally connected with, a portion of the frame 19 is a horizontally disposed platen support and guide shelf 22. The shelf 22 is disposed at right angles relative to the frame 19 and functions to support the lower surface of a platen carriage 23. The platen carriage 23 is pivotally se~ured to a platen ;~
pivot arm 24 by a pivot pin 25 extending through the arm 24 and an opening 27 in the platen carriage 23. It shouId be noted that the opening 27 in the carriage 23 is elongated in the vertical direction to permit limited vertical movement of the carriage relative to the pivot 25. The carriage 23 includes a pair of forwardly extending spaced platen support ; ` ;~
portions which rotatably receive the center rotation shaft 26 of the cylindrical platen 11.
The platen arm 24 extends generally vertically upwardly from, and is pivotally connected to, a base 28 ~-about the pivot pin 29. The base 28, in turn, is securely connected to a portion of the housing 21. The pivot pin 29 ~ ;:
_g~
133~9 ~3 1 extends generally parallel to the pivot pin 25 and permi~s :
limited counterclockwise and clockwise rotation of the arm .:
24, and thus corresponding forward and rearward movement of the platen 11, respectively. ;
As shown best in Figure 14, a drive rod 30 extends forwardly from a linear actuator mechanism 170 and through an elongated opening formed in a wall portion 32 of the arm 24. Means in the form of a pin or some other stop member 33 is connected with the forward end of the rod 30 to ~eep the rod 30 in engagement with the arm 24. A bearing member 184 engages a portion of the arm 24 to assist in transferring movement of the rod 30 to the arm ~4. A spring 34 is ~;~ disposed between a rearward portion of the bearing 184 and a . ~ .
: forward end portion of a drive pin 171 to bias the arm 24 in ~15 a counterclockwise or orward direction against the stop member 33.
In the preferred embodiment, the linear actuator 170 includes a motor 31 and a reduction gear and linear conversion assembly for converting the rotational movement ~ of the motor shaft 174 to generally linear movement of the ; drive rod 30. Such assembly includes a gear housing 172 and a linear conversion housing 173. Formed within the housing ~ 172 is a ring gear 175 and a pair of planet gears 176, 176. ;~
: The gears 176, 176 are rotatably mounted ~o a planet carrier 177 which is positioned to engage the ring gear 175. A sun gear 178 is connected to the end of the motor shaft 174 for engagement with each of the planet gears 176. Rotation of the motor shaft 174, and corresponding rotation of the sun gear 178, results in rotation of the planet gears 176. This in turn causes revolvement of the plianet gears 176 about the ~: :
gear 178 as a result of en~agement with the ring gear 175.
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~30~a~
1 Such revolvement results in corresponding rotational movement of the planet carrier 177. With the structure `'` -' illustrated in Figure 14, an output reduction of ab~ut 4.8 to 1 is achieved.
A forward output shaft of the planet carrier 177 is connected for common rotation with a drive screw 179 via a cross pin 180. The drive screw 17~ is provided with a double helix guide ramp 181 which engages a cross pin 182 extending through a drive pin 171. The outer ends of the 10cross pin 182 extend through the double helix slot 181 for engagement with a guide and retaining slot 183 in both the top and bottom portions of the housing 173 to guide the forward and rearward movement of the cross pin 182 and prevent rotation of the pin lB2 and thus the drive pin 171.
15With the above described structure, rotation of the motor ;` ~:
shaft 174 causes corresponding rotational movement of the planet carrier 177 and the drive screw 179 via the reduction gear members 175, 176 and 178. Rotation of the drive screw 183, in turn, resu}ts in l1near movement of the drive pin ` .
171 and thus the rod 30. In the preferred embodiment, the : motor 31 is capable of selective movement in both directions, thus providing the capability of selectively !
; moving the rod 30 in either a forward or a rearward :: direction. ;.. ~:~
Such movement of the rod 30 causes corresponding counterclockwise or olockwise pivoting of the arm 24.
During operation, as the rod 30 is extended and the arm 24 pivots in a count~rclockwise direction, the platen 11 moves in a forward dire~tion toward the printhead 20. Continued forward movement of the rod 30 results in engagement between the platen 11 and the rearward surfa~e of the tape which is .. . --11-- .
~ ~:
13~9~ ~
1 positioned between the platen 11 and the printhead element 20. When this occurs, further forward movement of the rod 30 will not result in any fur~her movement of the platen 11. Instead, the platen will be biased against the rearward surface of the tape by the force o~ the spring member 34.
Wi~h this mechanism, a relatively constant force is generated between the printhead element 20 and the platen 11, which force is determined by the spring 34.
The platen 11 is a generally cylindrical member constructed of a rubber-like material. In the preferred embodiment, the platen 11 is constructed of a urethane :
material having a durometer of about 40 (plus lo, minus 0) :~
on the Shore A ~cale. During forward movement of the platen ~ :
11, the bottom portion of the carriage 23 rides on the : .
platen shelf 22 to insure proper vertical positioning of the platen 11.
Also associated with the printhead assembly 10 is an electrical connector element 36 and a plurality of ;~
electrical leads 40 extending from the connector 36 to a `control means (not shown). The control means functions to drive the printhead assembly 10.
As illustrated best in Figures 18 and 5, the - ~:
tape-ribbon drive assembly includes a drive roller 12 rotatably mounted within a drive roller housing 37 with the . .
.
top end of the drive roller 12 journalled in an upper end of :
the housing 37. Adjacent to the lower end of the roller 12 is a drive gear 3;8 which, during operation, is designed for ; ~ :
meshing engagement with a corresponding drive gear 107 ~ :
associated with the cartridge drive roller 106. The drive roller shaft 39 which extends downwardly rom the drive roller 12 and the drive gear 38 is connected with a lower ~12 l330~a~
1 toothed gear 41. The gear 41 is cannected via a gear assembly 43 comprising a plurality o gears to a motor 44.
Rotation of the motor 44 drives the gear assembly 43 which rotates the gear 41 and thus the drive roller 12. As will be more fully described below, rotcltion of the drive roller 12 causes corresponding rotation of the drive roller.106 (Figure 5) as a result of engagemeIlt between the gears 38 and 107. Such rotation drives the tape and ribbon through the system. In a thermal device in which printing occurs directly onto the tape, the drive assembly would drive only the tape.
In the preferred embodiment, the drive assembly housing 37 is rigi`dly secured to a top frame 45 which is spaced from a lower frame member 46. ~he frame members 45 and 46 are rigidly secured to the machine housing 21 by appropriate threaded members and are retained in a spaced relationship by a plurality of spacing posts.
A ribbon rewind shaft 35 includes an upper splined rotatable end and a lower end which is pivotally and ;
rotatably mounted within a portion of the machine housing 21 to permit limited forward and rearward tilting of the shaft 35. A gear 53 connected with the splined shaft 35 is driven by an endless belt 47 which extends around a pair of idler gears 48, 48 and to the gear 42 on the lower end of the shaft 39~ With the above structure, the splined shaft 35 is rotated along wit:h rotation of the drive roller 12. It should be noted that the shaft 35 is mounted in the housing 21 to permit not only rotational movement, but also limited forward and rearward pivoting movement. This enables the splined portion of the shaft to engage the ribbon rewind spool and also to accommodate the limited forward movement ~ ' " , 133~
1 of ~he cartridge after such engagement. A torsion spring member 137 biases the rewind shaft 35 in a rearward direction.
The tape c~ut-off actuating mechanism is illustrated best in Figures 6 and 15. The cut-off actuating arm 14 is ~;
pivotally secured at an intermediate point to a yoke member 186 about the pivot 187. The yoke 186 is in turn secured to the machine housing. The arm 14 includes an upper end which extends upwardly through an opening 156 in the tray 15 and an opening 126 in the cartridge bottom 59 for engagement with a portion of the blade mount 120 within the cartridge.
The lower end of the arm 14 is connected via a clevis member 188 with the drive rod 140 of a linear actuator mechanism `
141. The mechanism 141 is secured to the bottom of the machine housing 21 by appropriate fastening means. In the preferred embodiment the mechanism 141 includes a motor 137 ~;
and a reduction gear and linear conversion assembly 138 which are similar to corresponding elements of the platen a~tuator illustrated in Figure 14. The only exception is that the reduction clear assembly 138 comprises a two stage reduction gear assembly providing a 23 to 1 output reduction as compared to a 4.8 to 1 output reduction for the platen actuator. Selective actuation of the motor 137 caused forward or rearward movement of the rod 140 and thus corresponding rearward or forward movement of the upper end of the arm 14 ancl blade mount 120. Rearward movement of the rod 140 (movement to the left as viewed in Figure 15) causes -corresponding forward movement of the mount 120 and blade 119 to cut the tape in th~ manner which will be described in ;
greater detail below.
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The cartridge receiving or service tray 15 is :
illustrated best in Fiqure lB As shown, the tray includes a bottom surface 145, a pair of side walls 142, 142, a front edge 143 and a rear edge 144 which together define a .
cartridge receiving cavity. PiYotally connected to a rearward e~d of the side walls 142, 142 is a service tray cover 146. The cover 146 includes a pair of connection tabs ;:.
147. Each of the tabs 147 includes a pivot post 148 which extends through a corresponding pivot opening in the side walls 142 to pivotally secure the cover 146 relative to the tray 15. .. ~ ~ -The tray 15 also includes an upstanding post 149 .
and a spring biased plunger 150 partially contained within the pbSt 149 and biased in an upward direction via a spring member also contained within the post 149. A cam member 151 integrally formed with a portion of the cover 146 is adapted .
for engagement with the spring biased plunger 150. The cam member 151 is shaped so that if the cover 146 is open, the plunger 150 will tend to keep it open, while if the cover ~ 20 146 is closed, the plunger 150 will tend to keep it closed.
A tape viewing slot 152 is formed in the cover 146 and is aligned with a corresponding tape viewing slot 134 in the .
cover portion of the cartridge ~Figure lA).
A pair of cam rollers 153 are rotatably secured to : 25 :::
:~ the inside rear surface of the cover 146. Each of the rollers 153 is supported on a shaft 154 which is in turn supported by an appropriate roller mount 155. As illustrated best in Figure 16, these rollers 153.cause the cartridge 16 to move forwardly into an opera~ional position .-; as the cover 146 is closed. Such movement of the cartridge ` .
is the result of engagement between the rollers 153 and a rearward portion of the cartridge 16. .: : :
. ~
. ~
133~
A return spring 139 is connected with a forward portion of the machine cover and adapted to bias the cartridge 16 rearwardly. Thus, when the cover 146 of the tray 15 is opened, the spring 139 acts against the forward end of the cartridge and causes it to move rearwardly so that it can be removed from the machine.
The bottom 145 of the service tray 15 includes an opening 156 to accommodate the tape cut-off arm 14, an opening 157 to allow the printhead and platen assemblies to extend through the tray 15 and into operational relationship with the cartridge and an opening 159 to allow the splined ~ t~ '',~, d ~
shaft 35 to extend into the cartridge. A retaining tab 158 extends upwardly and rearwardly from the bottom 145 to retain the cartridge in a fixed operative position. As illustrated best in Figure 17, the bottom S9 of the cartridge includes an opening 160 which, when the cartridge is inserted into the service tray 15, is positioned over the retaining tab 158 so that the member 158 extends into the interior of the cartridge. Then, as the cartridge 16 is 2 moved forward as a result of closing of the cover 1~6, a portion of the cartridge bottom 159 is retained by the overhanging portion of the tab 158.
- Also mounted to the service tray bottom 145 is a tape sensing means 80. In the preferred embodiment, the ;;~ i;
means 80 is mounted onto a slide 160 which is adapted for limited forward and rearward sliding movement relative to the bottom 145 of the service tray 15. The slide 161 is guided by a plurality of slots 162 and is biased by an . - . . .
appropriat~ spring member in a rearward direction. The service tray 15 is rigidly secured to the housing 21 via a plurality of screws 3xtending through~the tray 15 and into a plurality of corresponding tray support posts 164 (Figure lB). ~ ~ -1 3 3 ~ 9 ~
- ~ ~
As illustrated generally in Figures lA and 2, the tape or tape-ribbon cartridge 16 of the present invention includes a spool of tape 51 for supplying tape 13 to the image print or transfer station, a pair o ribbon supply and ~ -rewind spools 56 and 58, respectively, for providing ribbon 17 to and withdrawing ribbon from the image transfer station and a floating tape guide and alignment member 52 for ~ properly aligning the tape and ribbon 13 and 17 and the : platen 11 with respect to the printhead lo. The cartridge .;
16 also includes a spring biased tape-ribbon drive mechanism illustrated generally by the reference numeral 54 and an internal tape cut-off mechanism illustrated generally by the reference numeral 55. In a device in which printing occurs ~:~ directly onto the tape, without being transferred from a .
ribbon, the cartridge includes only a supply of tape.
~:.
The cartridge 16 is generally rectangular in configuration and, in addition to the cover 18, includes a bottom surface S9, a pair of side walls 60 and 61 and a pair of end walls 62 and 63. The cartridge housing is reinforced by a plurality of reinforcing ribs 65 integrally form~d with . :
the bottom 59 and reinforcing ribs 66 integrally formed with the walls 60-63. The cover 18 includes a top surface 57 and four walls 64 which mate with the side and end walls 60-63.
The cartridge base includes a plurality of alignment and retaining openings 67 to mate with corresponding alignment and retaining posts 73 formed in the cover 18. When assembled, the top surface 57 of the cover 18 and the; ;~
- . ~
: bottom surface S9 are generally parallel to one another. .
` As shown best in Figures 1,2 and 4, the tape supply spool Sl is mounted on a central cardboard cylinder 68. The inner surface of the cylinder 68 is supported and retained ` ~; 13309~
by an annular portion 70 of a plastic hub 69 and a cylindrical support 77 integrally formed with the bottom 59. The hub 69 includes a centrally positioned opening for rotatably mounting the hub 69 relative to the post 71. The -. .~ -:
post 71 is integrally formed with and is generally perpendicular to the cartridge bottom 59. The.spool 51 is supported on the top edges of the reinforcing ribs 65 as shown in Figure 4. A coil spring 74 has one end in ::~
engagement with an annular recess 72 within the hub 69 and . .
its other end in engagement with the top surface 57 of the : ~ :
,. . . .
cover 18. This spring 74 functions to keep the spool 51 in ~.contact with the reinforcing ribs 65 and exerts a frictional force against the hub 69 to provide the desired drag or .
: resistance to rotation of the spool 51. A disc member 75 is disposed on the top side of the spool 51 with its inner edge positioned between an edge of the cardboard cylinder 68 and :
: a portion of the hub 69 to assist in maintaining the spool 59 in a compact configuration. -. ~ ;
As shown in Figure 4, the bottom of the hub 69 .:.
: extends into the interior of the cylindrical support 77 for .. ~
cooperation with a stem 50 of a microswitch 49 mounted to .. -.
: the service tray 15. The stem 50 extends upward tray 15 and . . . .-through an opening 83 in the cartridge bottom or possible . .. ..
engagement with the bottom of the 8ecause of the width of .` - ~ .
the tape on the spool 59 shown Figure 4, the hub 69 is .: ~
precluded from contacting the stem 50. However, if a . .... .
narrower tape is used, the hub 69 will engage and depress the stem 50, thereby acti~ating the microswitch 49. This information regarding tape width in turn is communicated ~o ;~
the machine user and to the other processing circuitry in the machine to indicate width of tape in the cartridge.
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Upon leaving the spool 51, the tape 13 is guided by : :
a pair of flanged guide or idler rollers 76 and 78 (Figure `
2) past a tape sensing opening 79 in the cartridge bottom 59 .
and toward the tape alignment member 52. The opening 79 provides access for a tape sensiny mechanism 80 associated with the service tray 15. In the preferred embodiment, the tape sensing mechanism 80 includes a pair of members which extend upwardly through the opening 79 with one portion on either side of the tape 13. The tape sensing mechanism 80 1 0 ~ , :
electronically determines whether tape exists in the system and warns the user that the tape is e~lausted by sending an appropriate signal to a warning device such as a light or .
buzzer (not shown).
As illustrated best in Figures lA and 3, a color or : ink carrying ribbon 17 is supplied from a ribbon supply spool 56. The spool 56 is rotatably mounted on a post 81 which is integrally formed with the bottom 59 of the : ;
cartridge and extends upwardly for engagement with a -corresponding ribbon spool alignment post 82 ~ormed with the top 57. The ribbon spool 56 is supported on an enlarged annular portion 84 of the post 81 and is retained in such position by a coil spring 85 disposed between the top 57 and a top portion of the spool 56. The spring 85 performs both .;~
a function of maintaining the spool 56 in a proper vertical orientation against the annular portion 84 to prevent the ribbon spool 56 from freewheeling and providing the desired .
tension in the ribbon 17 supplied to the transfer station.
After leaving the supply spool 56, the ribbon 17 is - ;
guided past the guide roller 78 for engagement with the tape-ribbon guide member 52. After the printing or transfer step at the transfer station, the ribbon 17 is stripped or , ~, ~',, - 1 9- , , . ~ :
~ 3 3 ~ 3 ~
1 separated from the tape 13 as a result o being directed .
around a ribbon guide wall or surface 86 for rewinding onto the ribbon rewind spool 58. The ribbon rewind spool 58 ~: -includes an upper cylindrical opening for cooperation with a : -rotation post 88 and a lower annular portion 89 for .
engagement with the cartridge bottom S9. The spool 58 also -includes a clutch means comprising an internal, splined drive member 90 and an 0-ring 91 disposed between the member 90 and the spool for the purpose of transferring a desired torque from the member 90 to the spool 58. This creates a desired tension in the ribbon being rewound. In the preferred embodiment, a splined shaft 35 extends upwardly -~
from the machine and into the cartridge for engagement with -~
the splined member 90. During printing operation of the machine, the shaft 35 rotates continuously, thus causing corresponding continuous rotation of ~he internal splined - . ;
member 90 and corresponding continuous exertion of a rewind `;.
force or torque on the spool 58. The size of this rewind force is determined by the relationship be~ween the element 90, the o-ring 91 and the spool 58. In the preferred embodiment, to achie~e optimum print quality, the structure ` ~`.
is designed to create a torque on the ribbon rewind spool 58 such that approximately 1 1/2 to 4 ounces of tension are created in the ribbon being rewound. ;.
: As illustrated generally in Figures lA and 2, and more specifically in Figure 9, the floating tape or tape-ribbon guide member 52 includes a generally rigid frame 94 comprising a pair of top and bottom edges and a pair of `
side edges to define an opening 101. The opening 101 : :
: . -facilitates operative engagement between the printhead 10 and platen 11 as shown best in Figure 2. The point at which . -20- ` ~
:
1~ 3 ~ 9 ~ ~
1 the printhead 10 and platen 11 are operatively engaged defines the transfer station. A guide surface 92 extends between top and bottom edge portions of the frame 94 to guide the ribbon 17 and tape 13 toward the print or transfer station. A pair of yoke members 95 define a portion of the top and bottom edges of the frame 94 and extend laterally in the area of the transfer station to receive the platen 11. ~ ~ .
Each of the yoke members 95 includes a recessed portion 96 to receive the rotational shaft 26 of the platen 11.
One side edge of the frame 94 includes a pair of alignment openings 98 and 99 for interfacing with corresponding alignment pins 87, 87 (Figure 12) of the printhead 10. In the preferred embodiment, the alignment opening 98 is a cylindrical opening having an axis generally perpendicular to the axis of rotation of the platen 11. The alignment recess 99 has a generally U-shaped configuration ~ ~ -. . ~ . , .
which`opens downwardly. The other side edge of the frame 94 includes an alignment post 100 extending outwardly from the top and bottom surfaces of the frame 94. In Figure 9, only the post 100 extending from the top edge can be seen. The post extending from the bottom edge, however, is identical except that it extends in the opposite direction. As noted, each of the posts 100 extends in a direction generally parallel to the axis of rotation of the platen 11.
As illustrated best in Figure 11, the top 57 and bottom 59 of the cartridge are provided with corresponding ~`
alignment openingæ 97 to receive the posts 100. In the preferred embodiment, each of the openings is elongated in a direction generally parallel to the travel path of tape 13 past the transfer station to permit alignment of the guide member 52 relative to the printhead 10, but to prevent ,,: :
..
y~
~ 13 3 ~ 9 ~ ~
1 movement of the member 52 in a forward or rearward direction, As shown in Figure 2, the guide member s2 is also retained by a retaining memb0r 73 connected with the cartridge bottom 59. A similar retaining member is embodied in the top surface 57 of the cover 18 to retain the top of ~ the guide m~mber 52. The retaining members 73 pre~lude .
; forward and rearward movement of the member 52, With the above structure, the guide member 52 is retained in a plane generally parallel to the printhead -plane. Thus, forward and rearward movement is prevented by -~-. - .: ., ~.
the alignment means comprising the posts lOO and the ; corresponding openings 97 and by the alignment means comprising the retaining members 73. Limited allgning ` - -movement of the guide member 52 within this plane, however, is permitted because of the shape of the openings 97 (Figure 11) and the opening 99 (Figure 12). The final alignment ~; between the mem er 52 is controlled by engagement between the pins 87 and the openings 98 and 99.
The guide member 52 is utilizPd to accurately align not only the tape and ribbon relative to the printhead lO ~ `
and the transfer station, but to also accurately align the platen 11 relative to the printhead lO. The guide member s2 ~ - -`` functions to align the platen 11 as a result of engagement between the alignment recesses 96 in the yoke members 95.
It should be noted, however, that the recessed portions 96 ~ :
are also elongated in a direction generally perpendicular to the printhead plane. Thus, the yoke members 95 and recesses ~:~
96 define the position of the platen axis in a plane generally parallel to the printhead plane, but permits limited movement and tilting of the axis in a plane generally perpendicular to the printhead plane. This allows -22- !:~
: .
~ `~
~ ~3309~ ~
1 the platen axis to be aligned in a forward and rearward ~ :
direction as a result of engagement between the platen 11 and print-head 10, with tape and ribbon positioned . .
therebetween. The above described alignment between the~ .
platen and the printhead facilitates optimum and consistent print quality.
Positioned immediately downstream from the transfer ~ -station is the means for advancing the tape and ribbon-.~: .
through the system, namely, the drive assembly 54. As ;
: lo illustrated best with reference to Figures lA, 2 and 5, the ::
drive assembly 54 includes a yoke member 102 having top and .
bottom yoke elements, 104 and 105, respectively. These elements 104 and 105 extend forwardly to rotatably receive a - ~;
drive roller 106. The drive roller 106 is mounted to a roller shaft 103 whose opposite ends are journalled in the ~ -.. ~
. ~ . :. . , yoke elements 104 and 105. As illustrated best in Figure 5, .
the exterior cyIindrical surface of the roller 106 is .
: provided with a plurality of rubber 0-rings 108 to assist in gripping the back side of the tape 13 and advancing the same . -~
20 .
as the roller 106 is rotated. The lower end of the shaft ~:: 103 extends.through the bottom yoke element 105 and is connected with a toothed gear 107. The gear 107 is adapted .
` for operative engagement with a corresponding toothed gear .
38 at the lower end of the drive roller 12. Because of the .
engagement between the toothed gears 107 and 38, both of the :~
rollers 106 and 12 are driven rollers. ~ ~
The yoke 102 is mounted within the cartridge to ~ :
permit limitod forward and rearward movement of the yoke ~.
102. This limited movement is facilitated by a pair of tabs ~
:
112 extending downwardly form the bottom of the yoke 102 and a tao 114 extendin~ upwardly from the top of the yoke 102.
1330~a 1 As shown best in Figure 10, these tabs 112 and 114 are guided in guide channels 113 and 117 in the bottom and top of the cartridge, respec~ively. The forward movement of the yoke is limited by engagement between one of the tabs 112 and the stop 127 (Figure 5). Connected to the rearward ~:
surface of the yoke 102 are a pair of posts 109 which are aligned with corresponding posts llo extending orwardly ;~
from a fixed member 115. The member 115 is fixedly secured -between the bottom 59 and top 57 of the cartridge by a ~ -~
plurality of retaining posts and corresponding recesses. A
pair of springs 111 are connected with the corresponding pairs of opposed posts 109 and 110 in the manner illustrated i ;
in Figure 5 to bias the yoke 102 and thus the drive roller ; i~
106 in a forward direction. This bias in the forward .
direction results in a tape-ribbon advancement force being `~
exerted toward the drive roller 12 of the machine.
When a tape and ribbon are disposed between the ..... ~ ,~ .. :
drive rollers 106 and 12, the tape 13 and ribbon 17 are dri~en through the system as a result of the force exerted by the springs 111 and the rotation of the rollers 106 and .: ,. ~
12 via the gears 107 and 38. It should be noted that in the preferred embodiment, the 0-rings 108 in the roller 106 are -dimensioned so that approximately S0~ o~ the drive force 25 exerted against the back side of the tape is taken up by the steel portion of the roller 106.
:
After the tape 13 and ribbon 17 have passed through the drive rollers 106 and 12, the tape extends in a generally straight path through an opening 116 (Figures 2 and 7) in the side wall 60 of the cartridge and a corresponding opening 163 in the tray 15. Positioned immediately inside the opening 116 is an internal tape . . , ~L33~90~
1 cut-off assembly 55 is illustrated best in Figures 1,2, 6 and 7 and includes a pair of cut-off edges in the orm of the blades 118 and 119 positioned within the cartridge housing in a side-by-side, shearing position as shown bes~
in Figures 2 and 7. The blade 11~ is secured within the - cartridge in a fixed position with its cutting edge extending generally perpendicular to the top and bottom surfaces of the cartridge 16. The blade 118 is retained in -~
this fixed position by engagement between a recessed portion 128 and an alignment rib 129 integrally formed with the bottom 59 of the cartridge and by a plurality of retaining posts 130.
The blade 119 is also disposed within the cartridge ~ and includes a cutting edge which is beveled relative to the ;~ 15 top 57 and bottom S9 surfaces of the cartridge. The blade 119 is fixed to the blade mount 120 which is adapted for limited forward and rearward~sliding movement within the cartridge and relative to the blade 118. This movement is -in response to corresponding forward and rearward movement ; of the cut-off arm 14 extending upwardly from the machine.
As illustrated best in Figure 6, the cut-off arm 14 extends upwardly through an opening 156 in the tray lS and an opening 126 in the bottom 59 of the cartridge and has a ;~
forward end adapted for engagement with a portion of the blade mount 120. As shown in Figure 13, the top edge of the mount 120 is provided with a pair of guide posts 123 which ~ ;~
are guided by a guide groove 131 integrally formed with the ~ s~
top surface 57 of the cover 18. The bottom edge of the mount 120 is gui~led by the guide groove 133. A spring 124 `~
is connected between a spring connecting tab 122 on the mount 120 and a fixed post 125 to bias the blade mount 120, and thus the blade 119, in a rearward direction. `~
-2s-.
13~09~a l Because of the force exerted by the spring 124, the ;;
normal position of the blade mount 120 and blade 119 is in ~ ;
the position illustrated in Figure 6. When the cutter arm 14 is actuated, the arm 14 moves in a forward direction - -~
causing the mount 120 and the blade 119 to move toward the left as viewed in Figure 6, thus cutting the tape. Upon release of the force driving the arm 14, the spring returns the blade 119 to the position shown in Figure 6.
In the preferred embodiment, both blades or cut-off edges 118 and 119 are sharpened; however, it is generally sufficient if only one is sharpened. Also, in the preferred embodiment the blades 118 and 119 move relative to one another in side-by-side relationship. It is contemplated that one of the blades or cut-of~ edges could be incorporated into a slot or a pair of spaced edges with the -;
other blade being moved into the slot or between the pair of spaced edges to sever the tape.
The cover 18 of the cartridge 16 is shaped to conform generally to the lower portion of the cartridge and includes a pair of recessed gripping portions 132 and 133 (Figure 1) to facilitate easy gripping of the cartridge. A
tape viewing slot 134 is also provided in the cover to permit viewing of the tape within the cartridge. This permits the user to determine the approximate amount of tape left in the cartridge. The forward end of the cover 18 includes a plurality of vent slots 135 to dissipate heat generated by the printhead during operation. A rearward portion of the co~er 18 defined by the shoulder 170 is reduc~d in thickness to receive the tray cover 146 in its -~
closed position.
~', ` 35 --~ 133~9~3 :
1 Having described the structure of the present invention in detail, the operation of the thermal transfer device and the corresponding tape-ribbon cartridge of the present invention can be described as follows. First, with -~
the cover 146 of the cartridge service tray 15 in its open position, the cartridge is manually inserted into the receiving cavity of the tray 15. :tn this position, the ;~
microswitch stem 50 which extends upwardly from the surface of the tray 15 extends through the opening 83 in the bottom lo of the cartridge for possible engagement with a corresponding reference surface of the hub 69. Because the position of this reference surface varies with the width of t`ape within the cartridge, the position of the microswitch stem 50 relative to such reference surface will reflect the -~
width of tape within the cartridge. Also, as the cartridge ~ ~-is placed into the service tray 15, the tape detecting mechanism 80 will extend upwardly through the opening 79 to detect whether or not tape exists within the cartridge. The retaining tab 158 will also extend through ~he opening 160 (Figure 17) and the printheàd and platen assemblies, the cut-off arm 14 and the ribbon rewind shaft 35 will extend through corresponding openings in the cartridge bottom.
After the cartridge has been placed within the service tray 15, the cover 146 is closed by moving it forwardly and downwardly. During this movement, the camming action resulting from the cam surfaces 153, 153 against the rearward edge of the cartridge 16 causes the cartridge to move orwardly a~3ainst the force of the spring 139 into ; ~;~
proper position relative to the printhead 10 and other machine interface components. These include the interface between the cartridge drive roller 106 and corresponding ; ~ ~
1 3 3 ~ 9 ~
1 machine drive roller 12 together with their respective gears -107 and 38. It also results in proper interface relationship between the cut-off clrive arm 14 and the cut-off blade mount 120.
During this forward movement of the cartridge 16, - ;
the alignment pins 87, a7 in the printhead 10 engage the `~
alignment openings 98 and 99 in the guide member 52 to ;~
properiy align the guide member 52 relative to the printhead -~ -, . ., ~ ~ -element 20. Upon initiation of a print or transfer cycle, the platen 11 moves forwardly as a result of actuation of the linear actuator 170 and forward pivoting of the arm 24 so that its shaft 26 engages and is aligned by the openings 96 within the yokes 95. The printing or trans`fer cycle then occurs. During such cycle, the drive rollers 106 and 112 :: 15 ,, ;,: ,,, "
are rotated to advance the tape 13 in a device in which images are formed directly on the tape or the tape 13 and ;-ribbon 17 in a transfer device. After the print or transfer , ., step, the tape 13 exits the cartridge through the opening 116 in the side wall 60 of the cartridge, while the spent ribbon is pulled from the tape and is returned to the rewind `~
, ".
spool 58. When it is desired to cut off a portion of the ~`~ tape on which the printing or transfer has been completed, an appropriate cut-off button is depressed on the machine.
This causes actuation of the cut-off arm 14, thereby driving ~ -the blade mount 120 and the blade 119 in a forward direction to sever the tape.
When the printhead 10 is deactivated, the platen 11 is moved rearwardly so that it is out of engagement with the printhead. To remove the cartridge from the machine, the cover 146 of the service tray 15 is opened. This permits rearward movement of the cartridge as a result of the ~ . '. .. '"~ '~, `:~
~ ~ 13 3 0 9 ~ a 1 rearward force of the spring 139. The cartridge can then be manually removed from the tray 15.
Although the description of the preferred embodiment has been quite specific, it is contemplated that various changes could be made without deviating from the .:
spirit of the present invention~ Accordingly, it is intended that the scope of the present invention be dictated by the appended claims rather than by the description of the preferred embodiment.
''.-;''' ;~
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: . . .
; 25 ,:~ :, .
~-TAPE SUPPLY CARTRIDGE THEREFOR -~
BACKGROUND OF THE INVENTIO~
The present invention relates generally to a thermal printing device and a tape supply cartridge therefor, and more particularly, to a thermal device for generating an image of characters on, or for transferring an ~ image of characters from a strip of color carrying ribbon `~
; to, an image carrying tape as the result of the localized application of heat and pressure. The invention also relates to an i~proved tape or tape-ribbon tape supply cartridge usable with such devlce whlch embodies an improved ~- ;
~: tape or tape-ribbon drive system and an~im~roved alignment feature for aligning the tape and platen relative to the ~ -, . ,;, . .
transfer station of the device.
There are a number of strip printing or transfer ;~ 20 type devices which currently exist in the prior art and ;
which are utilized to transfer characters from a strip of color carrying ribbon to a strip o image carrying tape.
One such device employs impact or pressure in combination .with a font hàving raised characters to transfer an image of a selected character from a ribbon to an image receiving ~ ., tape. These so-called impact or pressure lettering devices ~ r ;;
have existed since the mid 1970's and are described in U.S.
Patent Nos. 3,834,507; 4,243,333; 4,402,619 and 4,624,5g0, among others. Cartridges for supplying tape and ribbon to ; 30 these devices ar.e described in U.S. Patent Nos. 4,226,547;
4,391,539 and 4,67R,353, among others.
B -2~
- 133~a Printing or transfer devices also exist in which an image of a desired character is formed onto a strip of image carrying tape by transferring ink or other color from a color carrying ribbon to such tape as a result of the localized application of heat and a small amount of pressure. A typical thermal transer device of this type is described in U.S. Patent No. 4,666v319 dated May 19, 1987 ., . - -: ~
and issued to Hirosaki et al.
A further thermal transfer device which currently exists employs a machine for transferring the image of a 1~ :. :: ::
desired character from a strip of ribbon to a strip of tape and a cooperating tape-ribbon cartridge usable with the device for providing a supply of tape and ribbon to the machine transfer station.
Although the above described devices and corresponding cartridges may be satisfactory for various ;
uses and applications, there is always a need to improve the ~ ~ -quality of the image transfer and to reduce the amount of user maintenance. This is particularly true with respect to thermal printing devices in view of the fact that the proper ;~
alignment between the printhead, the platen and the tape or , the tape and ribbon is of critical importance in obtaining a ~ r~
high quality image. Accordingly, there is a continuing need ~ -for improvements in thermal printing and transfer devices and associated cartridges for supplying tape or tape and ribbon thereto. ~
SUMMARY OF THE INVENTION ~ ;
In accordance with the present invention, a thermal ; printing device or system is provided in which an image of a desired character is generated on, or is transferred from a ;:
, _3_ ~ 3 3 ~ ~ ~ .J
1 strip of color carrying ribbon to, a strip of image carrying tape~ Generally, such a system includes a printing or ~ --transfer station defined by a printhead and a cylindrical platen and means or advancing the tape or the tape and ribbon from a supply cartridge to the printing or transfer station. The device of the present invent.ion also includes an improved tape or tape-ribbon drive system and a mechanism for properly aligning the platen relative to the printhead. ;~ ;
These features are incorporated into the thermal printing device and the cartridge to provide an improved cartridge and an improved cartridge and machine combination.
, -, - , More specifically, the thermal printing or transfer ,. .... .
~ device of the present invention includes a fixed printhead, . .
~; a rotatable platen mounted for movement into transfer `-~
alignment with the printhead and an improved means for aligning the platen. Such means includes a platen support member and means for moving the platen toward and away from the printhead. ~ ~ ;
The tape or tape-ribbon supply cartridge of the present invention includes a floating tape or tape-ribbon~`
guide member which is interfaceable with corresponding alignment elements of the device. This floating guide member assists in accurately aligning the tape or the tape and ribbon with respect to the printhead and platen and 2s facilitates the positioning of the platen relative to the printhead regardless of possible imperfections or tolerances in the cartridge.
The tape or tape-ribbon drive system of the present invention includes a pair of driven advancement rollers for engagement with surfaces of the tape or the tape and ribbon. One of the driven advancement rollers is 1 3 3 ~ ~ ~ 3 ~ ~
1 incorporated in the machine, while the other is incorporated in the cartridge. Each of these rollers includes a drive gear near its lower end for selective engagement with one another. The cartridge, and thus the roller within the cartridge, is adapted for limited movement toward one ;
another to facilitate engagement between the respective drive gears. ~ias means are incorporated within the cartridge for biasing the cartridge drive roller into engagement with the machine drive roller.
,, Accordingly, it is an object of the present invention to provide an improved thermal strip printing :
device or the like for generating a desired character on, or for transferring a desired character from a strip of ribbon ~`~ to, a strip of tape.
Another object of the present invention is to provide a thermal printing or transfer devicP or the like having improved alignment means for aligning th0 platen relativa to the printhead.
Another object of the present invention is to provide a tape or tape-ribbon supply cartrid~e usable with a ~ `
thermal printing or transfer device or the like and having a floating alignment mechanism for aligning the tape or the ~ape and ribbon and the platen relative to the printhead.
A further object of the present invention is to provide a tape or tape-ribbon cartridge usable with a thermal printing or transfer device or the like and having an improved tape or tape-ribbon drive system.
A further object of the present invention is to provide a combination machine and cartridge having an -~
improved tape or tape-ribbon alignment system and an improved tape cut-off feature.
' ~" ",'' ~
1 3 3 0 9 ~
1 In one aspect, the present invention provides a thermal printing device or the like comprising: an apparatus housing having a cartridge receiving portion; a print sta~ion for forming a selected image on a strip of tape; a replaceable and disposable cartridge positioned within said cartridge receiving portion, said c:artridge having a supply of tape for receiving a printed image; a tape advancement ., -assembly comprising a first tape advancement roller having a first generally cylindrical roller portion, a first drive :~ : . ~ i member for rotation with said first roller, a second tape advancement roller having a second generally cylindrical -roller portion and a second drive member for rotation with :~
. .
~ said second rollerr said first and second tape advancement ~:
.
rollers being positioned such that said fir t and second 15 roller portions are opposed to one another and positioned on ~;
opposite sides of said tape, at least one of said first and second advancement rollers being movable between an inoperative position in which said first and second roller :
: : portions are spaced from one another and said first and ; : 20 second drive members are disengaged and a tape advancement . ,- ~ . .: .
~I position in which said first and second roller portions are -~
..
, moved toward engagement with one another with said tape positioned therebetween and said first and second drive .
: members are engaged; and bias means for biasing one of said ~ ;~
tape advancement rollers toward the other.
The above and other objects of the present invention will become apparent with reference to the drawings, the description of the preferred embodiment and the appended claims. ;~ ;
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133~aa Figure 1 is an exploded, pictorial view comprising Figures lA and lB of a thermal transfer device and cartridge ;~
: of the preferred embodiment of the present invention showing . :- ~:
:.~:
: 5 the machine with parts cut away, the service tray removed and suspended over the machine, the cartridge ~uspended over the service tray and the cartridge cover removed and ;~ suspended over the cartridge.
;~ Figure 2 is a top plan view of the tape-ribbon :~
10 cartr1dge of the preferred embodiment of the present :~
invention with the cover removed and parts cut away.
Figure 3 is a fragmentary sectional elevation of the : ribbon supply and rewind spools taXen along the section line 3-3 of Figure 2.
Figure 4 is a sectional elevation showing a portion of the floating tape-ribbon guide member and the ribbon supply spool as ta~en along the section line 4-4 of Figure 2.
Figure 5 is a fragmentary sectional elevation of the tape-ribbon drive feature taken along the section line 5-5 of Figure 2.
Figure 6 is a fragmentary sectional elevation of the tape cut-of feature taken along the section line 6-6 of Figure 2. ~
Figure 7 is an enlarged detail of the tape cut-off ~ :
. ~ .
; 25 feature.
Figure 8 is a pictorial view of a portion of the tape-ribbon drive assembly embodied within the cartridge of the present invention.
~`"'" " '''' ~ 6a-.,., .~.,~
~ 3 3 ~ 9 ~
Figure 9 is a pictorial view of the floating - :
tape-ribbon guide member disposed within the tape-ribbon ;;
cartridge of the present invention.
Figure 10 is a fragmentary sectional elevation taken along the section line 10-10 of Figure 2.
Figure 11 is a fragmentary sectional elevation taken along the section line 11 of Figure 2.
Figure 12 is a fragmentary sectionaI elevation ::
taken along the section line 12-12 of Figure 2. ~
1 o ,~ . .: :.
Figure 13 is a fragmentary sectional elevation taken along line 13-13 of Figure 2. ;.
: Figure 14 is a fragmentary sectional ele~ation ;~ taken along lin~ 14-14 of Figure 16.
Figure lS is a fragmentary sectional elevation taken along section line 15-15 of Figure 16.
Figure 16 is a fragmentary detail view taken along ; ~:
the section line 16-16 of Figure lA and Figure lB showing selected parts therefrom in assembly.
Figure 17 is a detail section taken along the section line 17-17 of Figure 18.
DESCRIPTION OF T~E PREFERRED EMBODIMENT
As described generally above, the present invention relates to a thermal printing or transfer device and an associated supply cartridge. Although the preferred -embodiment illust:rated in the drawings and described below relates to a thermal transfer device and an associated ;~
tape-ribbon cartridge in which an image of a character is ~ ~
transferred at a transfer station from a ribbon to a strip -; ~j , of tape, it i8 also contemplated that the present invention relates to various othsr lettering apparatus and strip printers as. well. For example, without limitation, it is 1 3 3 ~
1 contemplated that tha features o~ the present invention are applicable to various types of thermal printing devices other than a thermal transfer device, such as a thermal printing device in which characters are generated on a strip of thermal tape rather than transferred from a ribbon. In such a device, the tape is treated with certain thermal materials so that when heat is appiied, an image is formed. ;
This eliminates the need for a ribbon supply. Throughout the specification and claims, the term thermal printing lo device is intended to include both a thermal device in which characters are formed directly onto specially treated thermal tape as well as a thermal transfer device in which characters are transferred to such tape from a ribbon member.
Reference is first made to Figure 1 comprising Figures lA and lB showing an exploded pictorial view of a thermal transfer device and a tape-ribbon cartridge in accordance with a preferred embodiment of the present invention. As illustrated, the operative components of the thermal transfer device generally include a printhead 2~ assembly 10, a cooperating platen assembly comprising a cylindrical platen 11, a drive roller assembly comprising a drive roller 12, and a tape cut-off assembly comprislng a tape cut-off actuating arm 14. Associated with the machine -~
is a fixed cartridge service or receiving tray 15 and a tape-ribbon cartridge 16 for providing tape 13 and ribbon 17 to the image transfer station disposed between the printhead 10 and the plate~ 11. The cartridge embodies a drive roller, an alignment mechanism and an internal tape : . .
cut-off means int:erfaceable with corresponding components of 30the machine. The cartridge 16, when inserted into the tray :~r~
15, is adapted for limited movement between a first or :
~ i33Q9~ ~
1 rearward position in which the cartridge 16 is in an inoperative position and a second or forward position in which the cartridge 16 is in an operative position in alignment with the printhead. -~
With specific reference to Figures lB and 14, the printhead assembly 10 includes a rigi~ frame member 19 secured to a portion of the machine housing 21 by appropriate screws or other connecting means. The assembly 10 also includes a printhead element 20 mounted to the frame 19 for operative alignment with the platen 11. In the ~ -preferred embodiment, the printhead element 20 is a conventional thermal printhead identi ied by Model No. XP
~; 86Y01 manufactured by Kyocera International, Inc., of Framingham, MA. Extending rearwardly from, and integrally connected with, a portion of the frame 19 is a horizontally disposed platen support and guide shelf 22. The shelf 22 is disposed at right angles relative to the frame 19 and functions to support the lower surface of a platen carriage 23. The platen carriage 23 is pivotally se~ured to a platen ;~
pivot arm 24 by a pivot pin 25 extending through the arm 24 and an opening 27 in the platen carriage 23. It shouId be noted that the opening 27 in the carriage 23 is elongated in the vertical direction to permit limited vertical movement of the carriage relative to the pivot 25. The carriage 23 includes a pair of forwardly extending spaced platen support ; ` ;~
portions which rotatably receive the center rotation shaft 26 of the cylindrical platen 11.
The platen arm 24 extends generally vertically upwardly from, and is pivotally connected to, a base 28 ~-about the pivot pin 29. The base 28, in turn, is securely connected to a portion of the housing 21. The pivot pin 29 ~ ;:
_g~
133~9 ~3 1 extends generally parallel to the pivot pin 25 and permi~s :
limited counterclockwise and clockwise rotation of the arm .:
24, and thus corresponding forward and rearward movement of the platen 11, respectively. ;
As shown best in Figure 14, a drive rod 30 extends forwardly from a linear actuator mechanism 170 and through an elongated opening formed in a wall portion 32 of the arm 24. Means in the form of a pin or some other stop member 33 is connected with the forward end of the rod 30 to ~eep the rod 30 in engagement with the arm 24. A bearing member 184 engages a portion of the arm 24 to assist in transferring movement of the rod 30 to the arm ~4. A spring 34 is ~;~ disposed between a rearward portion of the bearing 184 and a . ~ .
: forward end portion of a drive pin 171 to bias the arm 24 in ~15 a counterclockwise or orward direction against the stop member 33.
In the preferred embodiment, the linear actuator 170 includes a motor 31 and a reduction gear and linear conversion assembly for converting the rotational movement ~ of the motor shaft 174 to generally linear movement of the ; drive rod 30. Such assembly includes a gear housing 172 and a linear conversion housing 173. Formed within the housing ~ 172 is a ring gear 175 and a pair of planet gears 176, 176. ;~
: The gears 176, 176 are rotatably mounted ~o a planet carrier 177 which is positioned to engage the ring gear 175. A sun gear 178 is connected to the end of the motor shaft 174 for engagement with each of the planet gears 176. Rotation of the motor shaft 174, and corresponding rotation of the sun gear 178, results in rotation of the planet gears 176. This in turn causes revolvement of the plianet gears 176 about the ~: :
gear 178 as a result of en~agement with the ring gear 175.
.-10~
:-/ ~ `\~
~30~a~
1 Such revolvement results in corresponding rotational movement of the planet carrier 177. With the structure `'` -' illustrated in Figure 14, an output reduction of ab~ut 4.8 to 1 is achieved.
A forward output shaft of the planet carrier 177 is connected for common rotation with a drive screw 179 via a cross pin 180. The drive screw 17~ is provided with a double helix guide ramp 181 which engages a cross pin 182 extending through a drive pin 171. The outer ends of the 10cross pin 182 extend through the double helix slot 181 for engagement with a guide and retaining slot 183 in both the top and bottom portions of the housing 173 to guide the forward and rearward movement of the cross pin 182 and prevent rotation of the pin lB2 and thus the drive pin 171.
15With the above described structure, rotation of the motor ;` ~:
shaft 174 causes corresponding rotational movement of the planet carrier 177 and the drive screw 179 via the reduction gear members 175, 176 and 178. Rotation of the drive screw 183, in turn, resu}ts in l1near movement of the drive pin ` .
171 and thus the rod 30. In the preferred embodiment, the : motor 31 is capable of selective movement in both directions, thus providing the capability of selectively !
; moving the rod 30 in either a forward or a rearward :: direction. ;.. ~:~
Such movement of the rod 30 causes corresponding counterclockwise or olockwise pivoting of the arm 24.
During operation, as the rod 30 is extended and the arm 24 pivots in a count~rclockwise direction, the platen 11 moves in a forward dire~tion toward the printhead 20. Continued forward movement of the rod 30 results in engagement between the platen 11 and the rearward surfa~e of the tape which is .. . --11-- .
~ ~:
13~9~ ~
1 positioned between the platen 11 and the printhead element 20. When this occurs, further forward movement of the rod 30 will not result in any fur~her movement of the platen 11. Instead, the platen will be biased against the rearward surface of the tape by the force o~ the spring member 34.
Wi~h this mechanism, a relatively constant force is generated between the printhead element 20 and the platen 11, which force is determined by the spring 34.
The platen 11 is a generally cylindrical member constructed of a rubber-like material. In the preferred embodiment, the platen 11 is constructed of a urethane :
material having a durometer of about 40 (plus lo, minus 0) :~
on the Shore A ~cale. During forward movement of the platen ~ :
11, the bottom portion of the carriage 23 rides on the : .
platen shelf 22 to insure proper vertical positioning of the platen 11.
Also associated with the printhead assembly 10 is an electrical connector element 36 and a plurality of ;~
electrical leads 40 extending from the connector 36 to a `control means (not shown). The control means functions to drive the printhead assembly 10.
As illustrated best in Figures 18 and 5, the - ~:
tape-ribbon drive assembly includes a drive roller 12 rotatably mounted within a drive roller housing 37 with the . .
.
top end of the drive roller 12 journalled in an upper end of :
the housing 37. Adjacent to the lower end of the roller 12 is a drive gear 3;8 which, during operation, is designed for ; ~ :
meshing engagement with a corresponding drive gear 107 ~ :
associated with the cartridge drive roller 106. The drive roller shaft 39 which extends downwardly rom the drive roller 12 and the drive gear 38 is connected with a lower ~12 l330~a~
1 toothed gear 41. The gear 41 is cannected via a gear assembly 43 comprising a plurality o gears to a motor 44.
Rotation of the motor 44 drives the gear assembly 43 which rotates the gear 41 and thus the drive roller 12. As will be more fully described below, rotcltion of the drive roller 12 causes corresponding rotation of the drive roller.106 (Figure 5) as a result of engagemeIlt between the gears 38 and 107. Such rotation drives the tape and ribbon through the system. In a thermal device in which printing occurs directly onto the tape, the drive assembly would drive only the tape.
In the preferred embodiment, the drive assembly housing 37 is rigi`dly secured to a top frame 45 which is spaced from a lower frame member 46. ~he frame members 45 and 46 are rigidly secured to the machine housing 21 by appropriate threaded members and are retained in a spaced relationship by a plurality of spacing posts.
A ribbon rewind shaft 35 includes an upper splined rotatable end and a lower end which is pivotally and ;
rotatably mounted within a portion of the machine housing 21 to permit limited forward and rearward tilting of the shaft 35. A gear 53 connected with the splined shaft 35 is driven by an endless belt 47 which extends around a pair of idler gears 48, 48 and to the gear 42 on the lower end of the shaft 39~ With the above structure, the splined shaft 35 is rotated along wit:h rotation of the drive roller 12. It should be noted that the shaft 35 is mounted in the housing 21 to permit not only rotational movement, but also limited forward and rearward pivoting movement. This enables the splined portion of the shaft to engage the ribbon rewind spool and also to accommodate the limited forward movement ~ ' " , 133~
1 of ~he cartridge after such engagement. A torsion spring member 137 biases the rewind shaft 35 in a rearward direction.
The tape c~ut-off actuating mechanism is illustrated best in Figures 6 and 15. The cut-off actuating arm 14 is ~;
pivotally secured at an intermediate point to a yoke member 186 about the pivot 187. The yoke 186 is in turn secured to the machine housing. The arm 14 includes an upper end which extends upwardly through an opening 156 in the tray 15 and an opening 126 in the cartridge bottom 59 for engagement with a portion of the blade mount 120 within the cartridge.
The lower end of the arm 14 is connected via a clevis member 188 with the drive rod 140 of a linear actuator mechanism `
141. The mechanism 141 is secured to the bottom of the machine housing 21 by appropriate fastening means. In the preferred embodiment the mechanism 141 includes a motor 137 ~;
and a reduction gear and linear conversion assembly 138 which are similar to corresponding elements of the platen a~tuator illustrated in Figure 14. The only exception is that the reduction clear assembly 138 comprises a two stage reduction gear assembly providing a 23 to 1 output reduction as compared to a 4.8 to 1 output reduction for the platen actuator. Selective actuation of the motor 137 caused forward or rearward movement of the rod 140 and thus corresponding rearward or forward movement of the upper end of the arm 14 ancl blade mount 120. Rearward movement of the rod 140 (movement to the left as viewed in Figure 15) causes -corresponding forward movement of the mount 120 and blade 119 to cut the tape in th~ manner which will be described in ;
greater detail below.
... . , -, .
' " ',"'. .-~.':
~ 3 3 ~ 9 ~
The cartridge receiving or service tray 15 is :
illustrated best in Fiqure lB As shown, the tray includes a bottom surface 145, a pair of side walls 142, 142, a front edge 143 and a rear edge 144 which together define a .
cartridge receiving cavity. PiYotally connected to a rearward e~d of the side walls 142, 142 is a service tray cover 146. The cover 146 includes a pair of connection tabs ;:.
147. Each of the tabs 147 includes a pivot post 148 which extends through a corresponding pivot opening in the side walls 142 to pivotally secure the cover 146 relative to the tray 15. .. ~ ~ -The tray 15 also includes an upstanding post 149 .
and a spring biased plunger 150 partially contained within the pbSt 149 and biased in an upward direction via a spring member also contained within the post 149. A cam member 151 integrally formed with a portion of the cover 146 is adapted .
for engagement with the spring biased plunger 150. The cam member 151 is shaped so that if the cover 146 is open, the plunger 150 will tend to keep it open, while if the cover ~ 20 146 is closed, the plunger 150 will tend to keep it closed.
A tape viewing slot 152 is formed in the cover 146 and is aligned with a corresponding tape viewing slot 134 in the .
cover portion of the cartridge ~Figure lA).
A pair of cam rollers 153 are rotatably secured to : 25 :::
:~ the inside rear surface of the cover 146. Each of the rollers 153 is supported on a shaft 154 which is in turn supported by an appropriate roller mount 155. As illustrated best in Figure 16, these rollers 153.cause the cartridge 16 to move forwardly into an opera~ional position .-; as the cover 146 is closed. Such movement of the cartridge ` .
is the result of engagement between the rollers 153 and a rearward portion of the cartridge 16. .: : :
. ~
. ~
133~
A return spring 139 is connected with a forward portion of the machine cover and adapted to bias the cartridge 16 rearwardly. Thus, when the cover 146 of the tray 15 is opened, the spring 139 acts against the forward end of the cartridge and causes it to move rearwardly so that it can be removed from the machine.
The bottom 145 of the service tray 15 includes an opening 156 to accommodate the tape cut-off arm 14, an opening 157 to allow the printhead and platen assemblies to extend through the tray 15 and into operational relationship with the cartridge and an opening 159 to allow the splined ~ t~ '',~, d ~
shaft 35 to extend into the cartridge. A retaining tab 158 extends upwardly and rearwardly from the bottom 145 to retain the cartridge in a fixed operative position. As illustrated best in Figure 17, the bottom S9 of the cartridge includes an opening 160 which, when the cartridge is inserted into the service tray 15, is positioned over the retaining tab 158 so that the member 158 extends into the interior of the cartridge. Then, as the cartridge 16 is 2 moved forward as a result of closing of the cover 1~6, a portion of the cartridge bottom 159 is retained by the overhanging portion of the tab 158.
- Also mounted to the service tray bottom 145 is a tape sensing means 80. In the preferred embodiment, the ;;~ i;
means 80 is mounted onto a slide 160 which is adapted for limited forward and rearward sliding movement relative to the bottom 145 of the service tray 15. The slide 161 is guided by a plurality of slots 162 and is biased by an . - . . .
appropriat~ spring member in a rearward direction. The service tray 15 is rigidly secured to the housing 21 via a plurality of screws 3xtending through~the tray 15 and into a plurality of corresponding tray support posts 164 (Figure lB). ~ ~ -1 3 3 ~ 9 ~
- ~ ~
As illustrated generally in Figures lA and 2, the tape or tape-ribbon cartridge 16 of the present invention includes a spool of tape 51 for supplying tape 13 to the image print or transfer station, a pair o ribbon supply and ~ -rewind spools 56 and 58, respectively, for providing ribbon 17 to and withdrawing ribbon from the image transfer station and a floating tape guide and alignment member 52 for ~ properly aligning the tape and ribbon 13 and 17 and the : platen 11 with respect to the printhead lo. The cartridge .;
16 also includes a spring biased tape-ribbon drive mechanism illustrated generally by the reference numeral 54 and an internal tape cut-off mechanism illustrated generally by the reference numeral 55. In a device in which printing occurs ~:~ directly onto the tape, without being transferred from a .
ribbon, the cartridge includes only a supply of tape.
~:.
The cartridge 16 is generally rectangular in configuration and, in addition to the cover 18, includes a bottom surface S9, a pair of side walls 60 and 61 and a pair of end walls 62 and 63. The cartridge housing is reinforced by a plurality of reinforcing ribs 65 integrally form~d with . :
the bottom 59 and reinforcing ribs 66 integrally formed with the walls 60-63. The cover 18 includes a top surface 57 and four walls 64 which mate with the side and end walls 60-63.
The cartridge base includes a plurality of alignment and retaining openings 67 to mate with corresponding alignment and retaining posts 73 formed in the cover 18. When assembled, the top surface 57 of the cover 18 and the; ;~
- . ~
: bottom surface S9 are generally parallel to one another. .
` As shown best in Figures 1,2 and 4, the tape supply spool Sl is mounted on a central cardboard cylinder 68. The inner surface of the cylinder 68 is supported and retained ` ~; 13309~
by an annular portion 70 of a plastic hub 69 and a cylindrical support 77 integrally formed with the bottom 59. The hub 69 includes a centrally positioned opening for rotatably mounting the hub 69 relative to the post 71. The -. .~ -:
post 71 is integrally formed with and is generally perpendicular to the cartridge bottom 59. The.spool 51 is supported on the top edges of the reinforcing ribs 65 as shown in Figure 4. A coil spring 74 has one end in ::~
engagement with an annular recess 72 within the hub 69 and . .
its other end in engagement with the top surface 57 of the : ~ :
,. . . .
cover 18. This spring 74 functions to keep the spool 51 in ~.contact with the reinforcing ribs 65 and exerts a frictional force against the hub 69 to provide the desired drag or .
: resistance to rotation of the spool 51. A disc member 75 is disposed on the top side of the spool 51 with its inner edge positioned between an edge of the cardboard cylinder 68 and :
: a portion of the hub 69 to assist in maintaining the spool 59 in a compact configuration. -. ~ ;
As shown in Figure 4, the bottom of the hub 69 .:.
: extends into the interior of the cylindrical support 77 for .. ~
cooperation with a stem 50 of a microswitch 49 mounted to .. -.
: the service tray 15. The stem 50 extends upward tray 15 and . . . .-through an opening 83 in the cartridge bottom or possible . .. ..
engagement with the bottom of the 8ecause of the width of .` - ~ .
the tape on the spool 59 shown Figure 4, the hub 69 is .: ~
precluded from contacting the stem 50. However, if a . .... .
narrower tape is used, the hub 69 will engage and depress the stem 50, thereby acti~ating the microswitch 49. This information regarding tape width in turn is communicated ~o ;~
the machine user and to the other processing circuitry in the machine to indicate width of tape in the cartridge.
-18- . ;
. ~ ~:
:: .
1 3 3 ~ 9 ~ 5 ; ~ ~`
Upon leaving the spool 51, the tape 13 is guided by : :
a pair of flanged guide or idler rollers 76 and 78 (Figure `
2) past a tape sensing opening 79 in the cartridge bottom 59 .
and toward the tape alignment member 52. The opening 79 provides access for a tape sensiny mechanism 80 associated with the service tray 15. In the preferred embodiment, the tape sensing mechanism 80 includes a pair of members which extend upwardly through the opening 79 with one portion on either side of the tape 13. The tape sensing mechanism 80 1 0 ~ , :
electronically determines whether tape exists in the system and warns the user that the tape is e~lausted by sending an appropriate signal to a warning device such as a light or .
buzzer (not shown).
As illustrated best in Figures lA and 3, a color or : ink carrying ribbon 17 is supplied from a ribbon supply spool 56. The spool 56 is rotatably mounted on a post 81 which is integrally formed with the bottom 59 of the : ;
cartridge and extends upwardly for engagement with a -corresponding ribbon spool alignment post 82 ~ormed with the top 57. The ribbon spool 56 is supported on an enlarged annular portion 84 of the post 81 and is retained in such position by a coil spring 85 disposed between the top 57 and a top portion of the spool 56. The spring 85 performs both .;~
a function of maintaining the spool 56 in a proper vertical orientation against the annular portion 84 to prevent the ribbon spool 56 from freewheeling and providing the desired .
tension in the ribbon 17 supplied to the transfer station.
After leaving the supply spool 56, the ribbon 17 is - ;
guided past the guide roller 78 for engagement with the tape-ribbon guide member 52. After the printing or transfer step at the transfer station, the ribbon 17 is stripped or , ~, ~',, - 1 9- , , . ~ :
~ 3 3 ~ 3 ~
1 separated from the tape 13 as a result o being directed .
around a ribbon guide wall or surface 86 for rewinding onto the ribbon rewind spool 58. The ribbon rewind spool 58 ~: -includes an upper cylindrical opening for cooperation with a : -rotation post 88 and a lower annular portion 89 for .
engagement with the cartridge bottom S9. The spool 58 also -includes a clutch means comprising an internal, splined drive member 90 and an 0-ring 91 disposed between the member 90 and the spool for the purpose of transferring a desired torque from the member 90 to the spool 58. This creates a desired tension in the ribbon being rewound. In the preferred embodiment, a splined shaft 35 extends upwardly -~
from the machine and into the cartridge for engagement with -~
the splined member 90. During printing operation of the machine, the shaft 35 rotates continuously, thus causing corresponding continuous rotation of ~he internal splined - . ;
member 90 and corresponding continuous exertion of a rewind `;.
force or torque on the spool 58. The size of this rewind force is determined by the relationship be~ween the element 90, the o-ring 91 and the spool 58. In the preferred embodiment, to achie~e optimum print quality, the structure ` ~`.
is designed to create a torque on the ribbon rewind spool 58 such that approximately 1 1/2 to 4 ounces of tension are created in the ribbon being rewound. ;.
: As illustrated generally in Figures lA and 2, and more specifically in Figure 9, the floating tape or tape-ribbon guide member 52 includes a generally rigid frame 94 comprising a pair of top and bottom edges and a pair of `
side edges to define an opening 101. The opening 101 : :
: . -facilitates operative engagement between the printhead 10 and platen 11 as shown best in Figure 2. The point at which . -20- ` ~
:
1~ 3 ~ 9 ~ ~
1 the printhead 10 and platen 11 are operatively engaged defines the transfer station. A guide surface 92 extends between top and bottom edge portions of the frame 94 to guide the ribbon 17 and tape 13 toward the print or transfer station. A pair of yoke members 95 define a portion of the top and bottom edges of the frame 94 and extend laterally in the area of the transfer station to receive the platen 11. ~ ~ .
Each of the yoke members 95 includes a recessed portion 96 to receive the rotational shaft 26 of the platen 11.
One side edge of the frame 94 includes a pair of alignment openings 98 and 99 for interfacing with corresponding alignment pins 87, 87 (Figure 12) of the printhead 10. In the preferred embodiment, the alignment opening 98 is a cylindrical opening having an axis generally perpendicular to the axis of rotation of the platen 11. The alignment recess 99 has a generally U-shaped configuration ~ ~ -. . ~ . , .
which`opens downwardly. The other side edge of the frame 94 includes an alignment post 100 extending outwardly from the top and bottom surfaces of the frame 94. In Figure 9, only the post 100 extending from the top edge can be seen. The post extending from the bottom edge, however, is identical except that it extends in the opposite direction. As noted, each of the posts 100 extends in a direction generally parallel to the axis of rotation of the platen 11.
As illustrated best in Figure 11, the top 57 and bottom 59 of the cartridge are provided with corresponding ~`
alignment openingæ 97 to receive the posts 100. In the preferred embodiment, each of the openings is elongated in a direction generally parallel to the travel path of tape 13 past the transfer station to permit alignment of the guide member 52 relative to the printhead 10, but to prevent ,,: :
..
y~
~ 13 3 ~ 9 ~ ~
1 movement of the member 52 in a forward or rearward direction, As shown in Figure 2, the guide member s2 is also retained by a retaining memb0r 73 connected with the cartridge bottom 59. A similar retaining member is embodied in the top surface 57 of the cover 18 to retain the top of ~ the guide m~mber 52. The retaining members 73 pre~lude .
; forward and rearward movement of the member 52, With the above structure, the guide member 52 is retained in a plane generally parallel to the printhead -plane. Thus, forward and rearward movement is prevented by -~-. - .: ., ~.
the alignment means comprising the posts lOO and the ; corresponding openings 97 and by the alignment means comprising the retaining members 73. Limited allgning ` - -movement of the guide member 52 within this plane, however, is permitted because of the shape of the openings 97 (Figure 11) and the opening 99 (Figure 12). The final alignment ~; between the mem er 52 is controlled by engagement between the pins 87 and the openings 98 and 99.
The guide member 52 is utilizPd to accurately align not only the tape and ribbon relative to the printhead lO ~ `
and the transfer station, but to also accurately align the platen 11 relative to the printhead lO. The guide member s2 ~ - -`` functions to align the platen 11 as a result of engagement between the alignment recesses 96 in the yoke members 95.
It should be noted, however, that the recessed portions 96 ~ :
are also elongated in a direction generally perpendicular to the printhead plane. Thus, the yoke members 95 and recesses ~:~
96 define the position of the platen axis in a plane generally parallel to the printhead plane, but permits limited movement and tilting of the axis in a plane generally perpendicular to the printhead plane. This allows -22- !:~
: .
~ `~
~ ~3309~ ~
1 the platen axis to be aligned in a forward and rearward ~ :
direction as a result of engagement between the platen 11 and print-head 10, with tape and ribbon positioned . .
therebetween. The above described alignment between the~ .
platen and the printhead facilitates optimum and consistent print quality.
Positioned immediately downstream from the transfer ~ -station is the means for advancing the tape and ribbon-.~: .
through the system, namely, the drive assembly 54. As ;
: lo illustrated best with reference to Figures lA, 2 and 5, the ::
drive assembly 54 includes a yoke member 102 having top and .
bottom yoke elements, 104 and 105, respectively. These elements 104 and 105 extend forwardly to rotatably receive a - ~;
drive roller 106. The drive roller 106 is mounted to a roller shaft 103 whose opposite ends are journalled in the ~ -.. ~
. ~ . :. . , yoke elements 104 and 105. As illustrated best in Figure 5, .
the exterior cyIindrical surface of the roller 106 is .
: provided with a plurality of rubber 0-rings 108 to assist in gripping the back side of the tape 13 and advancing the same . -~
20 .
as the roller 106 is rotated. The lower end of the shaft ~:: 103 extends.through the bottom yoke element 105 and is connected with a toothed gear 107. The gear 107 is adapted .
` for operative engagement with a corresponding toothed gear .
38 at the lower end of the drive roller 12. Because of the .
engagement between the toothed gears 107 and 38, both of the :~
rollers 106 and 12 are driven rollers. ~ ~
The yoke 102 is mounted within the cartridge to ~ :
permit limitod forward and rearward movement of the yoke ~.
102. This limited movement is facilitated by a pair of tabs ~
:
112 extending downwardly form the bottom of the yoke 102 and a tao 114 extendin~ upwardly from the top of the yoke 102.
1330~a 1 As shown best in Figure 10, these tabs 112 and 114 are guided in guide channels 113 and 117 in the bottom and top of the cartridge, respec~ively. The forward movement of the yoke is limited by engagement between one of the tabs 112 and the stop 127 (Figure 5). Connected to the rearward ~:
surface of the yoke 102 are a pair of posts 109 which are aligned with corresponding posts llo extending orwardly ;~
from a fixed member 115. The member 115 is fixedly secured -between the bottom 59 and top 57 of the cartridge by a ~ -~
plurality of retaining posts and corresponding recesses. A
pair of springs 111 are connected with the corresponding pairs of opposed posts 109 and 110 in the manner illustrated i ;
in Figure 5 to bias the yoke 102 and thus the drive roller ; i~
106 in a forward direction. This bias in the forward .
direction results in a tape-ribbon advancement force being `~
exerted toward the drive roller 12 of the machine.
When a tape and ribbon are disposed between the ..... ~ ,~ .. :
drive rollers 106 and 12, the tape 13 and ribbon 17 are dri~en through the system as a result of the force exerted by the springs 111 and the rotation of the rollers 106 and .: ,. ~
12 via the gears 107 and 38. It should be noted that in the preferred embodiment, the 0-rings 108 in the roller 106 are -dimensioned so that approximately S0~ o~ the drive force 25 exerted against the back side of the tape is taken up by the steel portion of the roller 106.
:
After the tape 13 and ribbon 17 have passed through the drive rollers 106 and 12, the tape extends in a generally straight path through an opening 116 (Figures 2 and 7) in the side wall 60 of the cartridge and a corresponding opening 163 in the tray 15. Positioned immediately inside the opening 116 is an internal tape . . , ~L33~90~
1 cut-off assembly 55 is illustrated best in Figures 1,2, 6 and 7 and includes a pair of cut-off edges in the orm of the blades 118 and 119 positioned within the cartridge housing in a side-by-side, shearing position as shown bes~
in Figures 2 and 7. The blade 11~ is secured within the - cartridge in a fixed position with its cutting edge extending generally perpendicular to the top and bottom surfaces of the cartridge 16. The blade 118 is retained in -~
this fixed position by engagement between a recessed portion 128 and an alignment rib 129 integrally formed with the bottom 59 of the cartridge and by a plurality of retaining posts 130.
The blade 119 is also disposed within the cartridge ~ and includes a cutting edge which is beveled relative to the ;~ 15 top 57 and bottom S9 surfaces of the cartridge. The blade 119 is fixed to the blade mount 120 which is adapted for limited forward and rearward~sliding movement within the cartridge and relative to the blade 118. This movement is -in response to corresponding forward and rearward movement ; of the cut-off arm 14 extending upwardly from the machine.
As illustrated best in Figure 6, the cut-off arm 14 extends upwardly through an opening 156 in the tray lS and an opening 126 in the bottom 59 of the cartridge and has a ;~
forward end adapted for engagement with a portion of the blade mount 120. As shown in Figure 13, the top edge of the mount 120 is provided with a pair of guide posts 123 which ~ ;~
are guided by a guide groove 131 integrally formed with the ~ s~
top surface 57 of the cover 18. The bottom edge of the mount 120 is gui~led by the guide groove 133. A spring 124 `~
is connected between a spring connecting tab 122 on the mount 120 and a fixed post 125 to bias the blade mount 120, and thus the blade 119, in a rearward direction. `~
-2s-.
13~09~a l Because of the force exerted by the spring 124, the ;;
normal position of the blade mount 120 and blade 119 is in ~ ;
the position illustrated in Figure 6. When the cutter arm 14 is actuated, the arm 14 moves in a forward direction - -~
causing the mount 120 and the blade 119 to move toward the left as viewed in Figure 6, thus cutting the tape. Upon release of the force driving the arm 14, the spring returns the blade 119 to the position shown in Figure 6.
In the preferred embodiment, both blades or cut-off edges 118 and 119 are sharpened; however, it is generally sufficient if only one is sharpened. Also, in the preferred embodiment the blades 118 and 119 move relative to one another in side-by-side relationship. It is contemplated that one of the blades or cut-of~ edges could be incorporated into a slot or a pair of spaced edges with the -;
other blade being moved into the slot or between the pair of spaced edges to sever the tape.
The cover 18 of the cartridge 16 is shaped to conform generally to the lower portion of the cartridge and includes a pair of recessed gripping portions 132 and 133 (Figure 1) to facilitate easy gripping of the cartridge. A
tape viewing slot 134 is also provided in the cover to permit viewing of the tape within the cartridge. This permits the user to determine the approximate amount of tape left in the cartridge. The forward end of the cover 18 includes a plurality of vent slots 135 to dissipate heat generated by the printhead during operation. A rearward portion of the co~er 18 defined by the shoulder 170 is reduc~d in thickness to receive the tray cover 146 in its -~
closed position.
~', ` 35 --~ 133~9~3 :
1 Having described the structure of the present invention in detail, the operation of the thermal transfer device and the corresponding tape-ribbon cartridge of the present invention can be described as follows. First, with -~
the cover 146 of the cartridge service tray 15 in its open position, the cartridge is manually inserted into the receiving cavity of the tray 15. :tn this position, the ;~
microswitch stem 50 which extends upwardly from the surface of the tray 15 extends through the opening 83 in the bottom lo of the cartridge for possible engagement with a corresponding reference surface of the hub 69. Because the position of this reference surface varies with the width of t`ape within the cartridge, the position of the microswitch stem 50 relative to such reference surface will reflect the -~
width of tape within the cartridge. Also, as the cartridge ~ ~-is placed into the service tray 15, the tape detecting mechanism 80 will extend upwardly through the opening 79 to detect whether or not tape exists within the cartridge. The retaining tab 158 will also extend through ~he opening 160 (Figure 17) and the printheàd and platen assemblies, the cut-off arm 14 and the ribbon rewind shaft 35 will extend through corresponding openings in the cartridge bottom.
After the cartridge has been placed within the service tray 15, the cover 146 is closed by moving it forwardly and downwardly. During this movement, the camming action resulting from the cam surfaces 153, 153 against the rearward edge of the cartridge 16 causes the cartridge to move orwardly a~3ainst the force of the spring 139 into ; ~;~
proper position relative to the printhead 10 and other machine interface components. These include the interface between the cartridge drive roller 106 and corresponding ; ~ ~
1 3 3 ~ 9 ~
1 machine drive roller 12 together with their respective gears -107 and 38. It also results in proper interface relationship between the cut-off clrive arm 14 and the cut-off blade mount 120.
During this forward movement of the cartridge 16, - ;
the alignment pins 87, a7 in the printhead 10 engage the `~
alignment openings 98 and 99 in the guide member 52 to ;~
properiy align the guide member 52 relative to the printhead -~ -, . ., ~ ~ -element 20. Upon initiation of a print or transfer cycle, the platen 11 moves forwardly as a result of actuation of the linear actuator 170 and forward pivoting of the arm 24 so that its shaft 26 engages and is aligned by the openings 96 within the yokes 95. The printing or trans`fer cycle then occurs. During such cycle, the drive rollers 106 and 112 :: 15 ,, ;,: ,,, "
are rotated to advance the tape 13 in a device in which images are formed directly on the tape or the tape 13 and ;-ribbon 17 in a transfer device. After the print or transfer , ., step, the tape 13 exits the cartridge through the opening 116 in the side wall 60 of the cartridge, while the spent ribbon is pulled from the tape and is returned to the rewind `~
, ".
spool 58. When it is desired to cut off a portion of the ~`~ tape on which the printing or transfer has been completed, an appropriate cut-off button is depressed on the machine.
This causes actuation of the cut-off arm 14, thereby driving ~ -the blade mount 120 and the blade 119 in a forward direction to sever the tape.
When the printhead 10 is deactivated, the platen 11 is moved rearwardly so that it is out of engagement with the printhead. To remove the cartridge from the machine, the cover 146 of the service tray 15 is opened. This permits rearward movement of the cartridge as a result of the ~ . '. .. '"~ '~, `:~
~ ~ 13 3 0 9 ~ a 1 rearward force of the spring 139. The cartridge can then be manually removed from the tray 15.
Although the description of the preferred embodiment has been quite specific, it is contemplated that various changes could be made without deviating from the .:
spirit of the present invention~ Accordingly, it is intended that the scope of the present invention be dictated by the appended claims rather than by the description of the preferred embodiment.
''.-;''' ;~
:
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~ ".,.
: . . .
; 25 ,:~ :, .
Claims (46)
1. A tape supply cartridge for operative insertion into and use with a thermal printing device or the like having a print station for forming a selected image onto a tape and an elongated rotatably driven first tape advancement roller rotatably supported within said printing device and including a first generally cylindrical roller portion and a first drive member mounted to said first roller for rotation therewith, said cartridge comprising:
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls;
a supply of tape for receiving a printed image;
guide and alignment means for guiding said tape into alignment with said print station; and an elongated second tape advancement roller disposed within said cartridge housing and having a second generally cylindrical roller portion and a second drive member mounted to said second roller for rotation therewith, said second roller rotatably mounted within a portion of said cartridge and said second drive member adapted for operative engagement with said first drive member, the longitudinal axis of said second roller portion being generally parallel to the longitudinal axis of said first roller portion, said tape being disposed between said first and second roller portions for engagement therewith and said first and second drive members being engaged with one another when said cartridge is operatively inserted into said device;
and bias means for biasing one of said first and second tape advancement rollers toward the other.
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls;
a supply of tape for receiving a printed image;
guide and alignment means for guiding said tape into alignment with said print station; and an elongated second tape advancement roller disposed within said cartridge housing and having a second generally cylindrical roller portion and a second drive member mounted to said second roller for rotation therewith, said second roller rotatably mounted within a portion of said cartridge and said second drive member adapted for operative engagement with said first drive member, the longitudinal axis of said second roller portion being generally parallel to the longitudinal axis of said first roller portion, said tape being disposed between said first and second roller portions for engagement therewith and said first and second drive members being engaged with one another when said cartridge is operatively inserted into said device;
and bias means for biasing one of said first and second tape advancement rollers toward the other.
2. The cartridge of claim 1 wherein said first and second drive members comprise first and second drive gears, respectively.
3. The cartridge of claim 2 wherein said second roller portion engages said tape when said cartridge is operatively inserted into said device.
4. The cartridge of claim 3 wherein said second roller portion includes an outer cylindrical surface and at least one generally annular rubber ring member disposed within said second roller portion and extending outwardly from said outer cylindrical surface to assist in gripping said tape.
5. The cartridge of claim 1 including a slidable yoke member having yoke means for rotatably supporting said second tape advancement roller and means for slidably mounting said yoke member within said cartridge.
6. The cartridge of claim 5 wherein said yoke member is slidably mounted between said top and bottom walls.
7. The cartridge of claim 5 wherein said bias means includes at least one spring biasing said yoke member toward said first tape advancement roller.
8. The cartridge of claim 5 including stop means for limiting the sliding movement of said yoke member.
9. The cartridge of claim 1 wherein said first and second drive members are mounted near the lower ends of their respective tape drive rollers and are equal in diameter to provide generally equal rotational speed of said first and second roller portions.
10. The cartridge of claim 1 wherein said second tape advancement roller is positioned downstream from said print station.
11. The cartridge of claim 1 wherein said cartridge is replaceable and disposable.
12. The cartridge of claim 1 having a supply of ribbon and including a ribbon rewind spool rotatably mounted between said top and bottom walls and on an axis generally perpendicular to said top and bottom walls.
13. The cartridge of claim 12 including a ribbon rewind drive member for receiving a rotatable drive shaft and clutch means positioned between said drive member and said ribbon rewind spool whereby said spool is caused to rotate to the extent ribbon is available to be rewound.
14. The cartridge of claim 13 wherein said clutch means includes a rubber "O" ring.
15. A thermal printing device or the like comprising:
an apparatus housing having a cartridge receiving portion;
a print station for forming a selected image on a strip of tape;
an elongated first tape advancement roller rotatably supported within said apparatus housing and including a first generally cylindrical roller portion for engagement with said tape and a first drive member mounted to said first roller for rotation therewith;
a replaceable and disposable cartridge for operative insertion into said device comprising:
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls;
a supply of tape for receiving a printed image;
guide and alignment means for guiding said tape into alignment with said transfer station; and an elongated second tape advancement roller disposed within said cartridge housing and having a second generally cylindrical roller portion and a second drive member mounted to said second roller for rotation therewith, said second roller rotatably mounted within a portion of said cartridge and said second drive member adapted for operative engagement with said first drive member, the longitudinal axis of said second roller portion being generally parallel to the longitudinal axis of said first roller portion, said tape being disposed between said first and second roller portions for engagement therewith and said first and second drive members being engaged with one another when said cartridge is operatively inserted into said device; and bias means for biasing one of said first and second tape advancement rollers toward the other.
an apparatus housing having a cartridge receiving portion;
a print station for forming a selected image on a strip of tape;
an elongated first tape advancement roller rotatably supported within said apparatus housing and including a first generally cylindrical roller portion for engagement with said tape and a first drive member mounted to said first roller for rotation therewith;
a replaceable and disposable cartridge for operative insertion into said device comprising:
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls;
a supply of tape for receiving a printed image;
guide and alignment means for guiding said tape into alignment with said transfer station; and an elongated second tape advancement roller disposed within said cartridge housing and having a second generally cylindrical roller portion and a second drive member mounted to said second roller for rotation therewith, said second roller rotatably mounted within a portion of said cartridge and said second drive member adapted for operative engagement with said first drive member, the longitudinal axis of said second roller portion being generally parallel to the longitudinal axis of said first roller portion, said tape being disposed between said first and second roller portions for engagement therewith and said first and second drive members being engaged with one another when said cartridge is operatively inserted into said device; and bias means for biasing one of said first and second tape advancement rollers toward the other.
16 The device of claim 15 wherein said first roller is rotatably mounted with respect to a portion of said apparatus housing.
17. The device of claim 15 including means for selectively rotating said first roller.
18. A tape supply cartridge for operative insertion into and use with a thermal printing device or the like having a print station for forming a selected image onto a strip of tape, a fixed printhead disposed in a first plane and a rotatable platen mounted on a rotation shaft and adapted for limited movement into print alignment with said printhead, said cartridge comprising:
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls:
a supply of tape;
tape advancement means for advancing said tape past said transfer station; and a guide and alignment means for guiding said tape into alignment with said print station and for aligning said rotatable platen relative to said printhead, said guide and alignment means comprising a floating guide and alignment member connected within said cartridge housing for limited aligning movement, said floating guide member including alignment means for engagement with corresponding alignment means connected with a portion of said printhead, and platen yoke means for rotatably receiving the rotation shaft of said platen and aligning the same relative to said printhead.
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls:
a supply of tape;
tape advancement means for advancing said tape past said transfer station; and a guide and alignment means for guiding said tape into alignment with said print station and for aligning said rotatable platen relative to said printhead, said guide and alignment means comprising a floating guide and alignment member connected within said cartridge housing for limited aligning movement, said floating guide member including alignment means for engagement with corresponding alignment means connected with a portion of said printhead, and platen yoke means for rotatably receiving the rotation shaft of said platen and aligning the same relative to said printhead.
19. The cartridge of claim 18 wherein said alignment means includes first and second alignment members for engagement with corresponding first and second alignment members connected with a portion of said printhead.
20. The cartridge of claim 19 wherein said first alignment member and said corresponding first alignment member cooperate to substantially preclude movement of said floating guide and alignment member in a direction generally parallel to said first plane.
21. The cartridge of claim 20 wherein said second alignment member and said corresponding second alignment member cooperate to substantially preclude movement of said floating guide and alignment member in a direction generally parallel to said first plane and generally parallel to the travel path of said tape past said print station.
22. The cartridge of claim 21 wherein said second alignment member and said corresponding second alignment member cooperate to permit limited movement of said floating guide and alignment member in a direction generally parallel to said first plane and perpendicular to the travel path of said tape past said print station.
23. The cartridge of claim 20 wherein said first and second alignment members each comprise an alignment opening and said corresponding first and second alignment members each comprise an alignment post.
24. The cartridge of claim 18 wherein said floating guide and alignment member is connected within said cartridge housing to permit limited aligning movement of said guide and alignment member in a plane generally parallel to said first plane, but to substantially preclude movement of said guide and alignment member in a direction generally perpendicular to said first plane.
25. The cartridge of claim 18 wherein said cartridge includes a supply of ribbon and said floating guide and alignment member includes a tape and ribbon guide surface.
26. The cartridge of claim 18 wherein said platen yoke means includes a pair of shaft receiving portions for receiving portions of said platen rotation shaft and aligning said platen relative to said printhead in a plane generally parallel to said first plane.
27. A thermal printing device or the like comprising:
a print station for forming a selected image onto a strip of tape;
a fixed printhead disposed in a first plane;
a rotatable platen mounted on a rotation shaft and adapted for limited movement toward and away from said first plane into print alignment with said printhead;
a replaceable tape supply cartridge comprising:
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls;
a supply of tape;
guide and alignment means for guiding said tape and ribbon into alignment with said transfer station; and means for advancing said tape into printing alignment with said print station.
a print station for forming a selected image onto a strip of tape;
a fixed printhead disposed in a first plane;
a rotatable platen mounted on a rotation shaft and adapted for limited movement toward and away from said first plane into print alignment with said printhead;
a replaceable tape supply cartridge comprising:
a cartridge housing having top and bottom walls and an edge wall joining said top and bottom walls;
a supply of tape;
guide and alignment means for guiding said tape and ribbon into alignment with said transfer station; and means for advancing said tape into printing alignment with said print station.
28. The thermal printing device of claim 27 wherein said platen yoke means includes a pair of shaft receiving portions for receiving portions of said platen rotation shaft and aligning said platen relative to said printhead in a plane generally parallel to said first plane.
29. A thermal printing device or the like for transfering a selected image from a ribbon to a tape comprising:
a housing;
a fixed printhead lying in a first plane and connected with said housing;
a rotatable platen mounted on a rotation shaft, said shaft being disposed in a plane generally parallel to said first plane; and means for aligning said platen relative to said printhead including a platen yoke member for rotatably receiving said platen, a platen alignment shelf rigidly secured to said printhead and extending outwardly therefrom for supporting said platen yoke member, and means for selectively moving said platen forwardly into operative alignment with said printhead and rearwardly out of operative alignment with said printhead.
a housing;
a fixed printhead lying in a first plane and connected with said housing;
a rotatable platen mounted on a rotation shaft, said shaft being disposed in a plane generally parallel to said first plane; and means for aligning said platen relative to said printhead including a platen yoke member for rotatably receiving said platen, a platen alignment shelf rigidly secured to said printhead and extending outwardly therefrom for supporting said platen yoke member, and means for selectively moving said platen forwardly into operative alignment with said printhead and rearwardly out of operative alignment with said printhead.
30. The device of claim 29 including a platen actuator arm connected with said platen yoke member, said platen actuator arm being pivotally connected with a portion of said housing.
31. The device of claim 30 wherein said means for moving said platen includes a linear actuator connected with said platen actuator arm.
32. The device of claim 31 including a spring member disposed between said platen actuator arm and a portion of said linear actuator and override means for exerting a relatively constant force on said platen in a direction toward said printhead.
33. The device of claim 29 wherein said means for moving said platen includes means for exerting a relatively constant transfer force on said platen in a direction toward said printhead.
34. The device of claim 33 wherein said means for exerting a relatively constant transfer force on said platen includes a spring member, a linear actuator and an override means.
35. A thermal printing device or the like comprising:
an apparatus housing having a cartridge receiving portion;
a print station for forming a selected image on a strip of tape;
a replaceable and disposable cartridge for operative insertion into said cartridge receiving portion, said cartridge having a supply of tape for receiving a printed image;
tape advancement means comprising a first tape advancement roller including a first generaly cylindrical roller portion for engagement with said tape and a first drive member operatively connected with said first roller for rotation therewith and a second tape advancement roller having a second generally cylindrical roller portion for engagement with said tape and a second drive member operatively connected with said second roller for rotation therewith, at least one of said first and second advancement rollers being movable toward the other to cause gripping engagement of said tape therebetween and operative engagement between said first and second drive members; and bias means for biasing one of said tape advancement rollers toward the other.
an apparatus housing having a cartridge receiving portion;
a print station for forming a selected image on a strip of tape;
a replaceable and disposable cartridge for operative insertion into said cartridge receiving portion, said cartridge having a supply of tape for receiving a printed image;
tape advancement means comprising a first tape advancement roller including a first generaly cylindrical roller portion for engagement with said tape and a first drive member operatively connected with said first roller for rotation therewith and a second tape advancement roller having a second generally cylindrical roller portion for engagement with said tape and a second drive member operatively connected with said second roller for rotation therewith, at least one of said first and second advancement rollers being movable toward the other to cause gripping engagement of said tape therebetween and operative engagement between said first and second drive members; and bias means for biasing one of said tape advancement rollers toward the other.
36. The device of claim 35 wherein said first and second drive members comprise first and second toothed gears, respectively.
37. The device of claim 35 wherein at least one of said first and second drive members is driven.
38. The device of claim 35 including means for causing selective movement of at least one of said first and second rollers toward the other.
39. The device of claim 38 wherein, upon insertion of said cartridge into said cartridge receiving portion, one of said first and second rollers is selectively movable toward and away from the other roller and the position of the other of said first and second rollers is fixed relative to said apparatus housing.
40. The device of claim 39 wherein said one roller is biased toward said other roller.
41. The device of claim 40 wherein said one roller is selectively movable between an inoperative position in which said one roller is spaced from said other roller and said first and second drive members are disengaged from one another and an operative position in which said one roller is in biased engagement with said other roller, with said tape positioned therebetween, and said first and second drive members are engaged with one another.
42. The device of claim 35 including means for causing selective movement of one of said first and second rollers toward and away from the other of said first and second rollers.
43. The device of claim 42 wherein said one roller is selectively movable between an inoperative position in which said one roller is spaced from said other roller and said first and second drive members are disengaged from one another and an operative position in which said one roller is in biased engagement with said other roller, with said tape positioned therebetween, and said first and second drive members are engaged with one another.
44. The device of claim 43 wherein said one roller and its corresponding drive member are fixed to a common shaft for rotation therewith.
45. A thermal printing device or the like comprising:
an apparatus housing having a cartridge receiving portion;
a print station for forming a selected image on a strip of tape;
a replaceable and disposable cartridge positioned within said cartridge receiving portion, said cartridge having a supply of tape for receiving a printed image;
a tape advancement assembly comprising a first tape advancement roller having a first generally cylindrical roller portion, a first drive member for rotation with said first roller, a second tape advancement roller having a second generally cylindrical roller portion and a second drive member for rotation with said second roller, said first and second tape advancement rollers being positioned such that said first and second roller portions are opposed to one another and positioned on opposite sides of said tape, at least one of said first and second advancement rollers being movable between an inoperative position in which said first and second roller portions are spaced from one another and said first and second drive members are disengaged and a tape advancement position in which said first and second roller portions are moved toward engagement with one another with said tape positioned therebetween and said first and second drive members are engaged; and bias means for biasing one of said tape advancement rollers toward the other.
an apparatus housing having a cartridge receiving portion;
a print station for forming a selected image on a strip of tape;
a replaceable and disposable cartridge positioned within said cartridge receiving portion, said cartridge having a supply of tape for receiving a printed image;
a tape advancement assembly comprising a first tape advancement roller having a first generally cylindrical roller portion, a first drive member for rotation with said first roller, a second tape advancement roller having a second generally cylindrical roller portion and a second drive member for rotation with said second roller, said first and second tape advancement rollers being positioned such that said first and second roller portions are opposed to one another and positioned on opposite sides of said tape, at least one of said first and second advancement rollers being movable between an inoperative position in which said first and second roller portions are spaced from one another and said first and second drive members are disengaged and a tape advancement position in which said first and second roller portions are moved toward engagement with one another with said tape positioned therebetween and said first and second drive members are engaged; and bias means for biasing one of said tape advancement rollers toward the other.
46. The device of claim 45 wherein one of said first and second tape advancement rollers is rotatably supported relative to said apparatus housing and the other of said first and second tape advancement rollers is rotatably supported within said cartridge.
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US151,110 | 1988-02-01 | ||
| US07/151,110 US4832514A (en) | 1988-02-01 | 1988-02-01 | Thermal transfer device and tape-ribbon cartridge therefor |
| US07/299,973 US4930913A (en) | 1988-02-01 | 1989-01-19 | Thermal printing device and tape supply cartridge therefor |
| US299,973 | 1989-01-19 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1330905C true CA1330905C (en) | 1994-07-26 |
Family
ID=26848336
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000589359A Expired - Lifetime CA1330905C (en) | 1988-02-01 | 1989-01-27 | Thermal printing device and tape supply cartridge therefor |
Country Status (6)
| Country | Link |
|---|---|
| US (1) | US4930913A (en) |
| EP (1) | EP0327073B2 (en) |
| JP (1) | JPH02111581A (en) |
| AT (1) | ATE126129T1 (en) |
| CA (1) | CA1330905C (en) |
| DE (1) | DE68923715T3 (en) |
Families Citing this family (23)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5056940A (en) * | 1988-02-01 | 1991-10-15 | Kroy Inc. | Thermal printing device and tape supply cartridge therefor |
| JP2556224B2 (en) * | 1991-09-25 | 1996-11-20 | ブラザー工業株式会社 | Tape printer |
| US5435657A (en) * | 1993-12-28 | 1995-07-25 | Smith Corona Corporation | Label printer and tape and ink ribbon cartridge for use therein |
| JP3111445B2 (en) * | 1995-03-29 | 2000-11-20 | ブラザー工業株式会社 | Tape-shaped label making device |
| US6196740B1 (en) | 1994-05-25 | 2001-03-06 | Brother Kogyo Kabushiki Kaisha | Tape-shaped label printing device |
| US6042280A (en) * | 1995-05-25 | 2000-03-28 | Brother Kogyo Kabushiki Kaisha | Tape label printing device |
| US6190069B1 (en) | 1994-05-25 | 2001-02-20 | Brother Kogyo Kabushiki Kaisha | Tape-shaped label printing device |
| US6132120A (en) * | 1995-03-29 | 2000-10-17 | Brother Kogyo Kabushiki Kaisha | Tape-shaped label printing device |
| US6910819B2 (en) * | 2003-08-12 | 2005-06-28 | Brady Worldwide, Inc. | Printer cartridge |
| JP2006076103A (en) * | 2004-09-09 | 2006-03-23 | Seiko Epson Corp | Tape cartridge and tape printer |
| MX2007006388A (en) | 2004-11-30 | 2007-06-20 | Panduit Corp | Market-based labeling system and method. |
| KR20150038644A (en) | 2008-12-25 | 2015-04-08 | 브라더 고오교오 가부시키가이샤 | Tape cassette |
| PT2666642E (en) | 2008-12-25 | 2016-02-10 | Brother Ind Ltd | Tape cassette and tape printer |
| SG174467A1 (en) | 2009-03-31 | 2011-10-28 | Brother Ind Ltd | Tape cassette and tape printer |
| WO2010113780A1 (en) | 2009-03-31 | 2010-10-07 | ブラザー工業株式会社 | Tape cassette |
| EP2415612B1 (en) | 2009-03-31 | 2019-09-25 | Brother Kogyo Kabushiki Kaisha | Tape cassette |
| CN104589815B (en) | 2009-03-31 | 2017-04-12 | 兄弟工业株式会社 | Tape cassette and tape printer |
| JP5136503B2 (en) | 2009-03-31 | 2013-02-06 | ブラザー工業株式会社 | Tape cassette |
| WO2010125128A1 (en) * | 2009-04-28 | 2010-11-04 | Dymo | Sub-assemblies for use in a casette |
| EP2448762B1 (en) | 2009-06-30 | 2013-09-18 | Brother Kogyo Kabushiki Kaisha | Tape cassette and tape printer |
| CN102510806B (en) | 2009-12-16 | 2014-06-18 | 兄弟工业株式会社 | Tape cassette |
| WO2011080840A1 (en) | 2009-12-28 | 2011-07-07 | ブラザー工業株式会社 | Tape cassette |
| JP6290674B2 (en) * | 2014-03-24 | 2018-03-07 | セイコーエプソン株式会社 | Tape cartridge and tape printer |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3720954A (en) * | 1972-02-04 | 1973-03-13 | Mangood Corp | Recording device |
| US3804227A (en) * | 1972-05-03 | 1974-04-16 | Scm Corp | Typewriter ribbon cartridge |
| DE2830657C2 (en) * | 1978-07-12 | 1983-03-17 | Nixdorf Computer Ag, 4790 Paderborn | Ribbon device for printing units |
| US4307969A (en) * | 1979-10-01 | 1981-12-29 | Wordex | Universal ribbon cartridge |
| CH638438A5 (en) * | 1980-10-09 | 1983-09-30 | Hermes Precisa International | PRINTING TAPE CASSETTE FOR A WRITING MACHINE. |
| JPS58122887A (en) * | 1982-01-18 | 1983-07-21 | Silver Seiko Ltd | Motor driver for typewriter |
| US4507668A (en) * | 1982-10-04 | 1985-03-26 | Tokyo Electric Company, Ltd. | Thermal printer |
| US4467976A (en) * | 1982-10-04 | 1984-08-28 | International Business Machines Corporation | Ribbon cartridge comprising a stuffer box intermediate a supply reel and take-up reel |
| IT1158826B (en) * | 1983-03-07 | 1987-02-25 | Olivetti & Co Spa | BELT CARTRIDGE FOR PRINTER MACHINES |
| GB2141073B (en) * | 1983-06-10 | 1987-08-12 | Ricoh Kk | Ink ribbon feeding mechanism |
| US4523868A (en) * | 1983-07-18 | 1985-06-18 | International Business Machines Corporation | Ribbon feed cartridge |
| US4557617A (en) * | 1983-11-04 | 1985-12-10 | Kroy, Inc. | Tape supply cartridge |
| US4650357A (en) * | 1984-04-12 | 1987-03-17 | Xerox Corporation | Universal ribbon cartridge |
| US4586837A (en) * | 1984-08-27 | 1986-05-06 | International Business Machines Corp. | Ink ribbon cartridge indication system for printer |
| US4606662A (en) * | 1985-01-31 | 1986-08-19 | International Business Machines Corporation | Single stepping motor ribbon and correction feed and lift system |
| US4650354A (en) * | 1985-10-01 | 1987-03-17 | Frye Copysystems, Inc. | Bi-level cartridge with dual drives for endless ribbon |
| US4776714A (en) * | 1986-07-15 | 1988-10-11 | Monarch Marking Systems, Inc. | Ink ribbon cassette with movable guide rolls |
| US4770554A (en) * | 1986-10-28 | 1988-09-13 | Wordex Corporation | Ribbon drive with invertible gear for printer ribbon cartridge |
| US4815874A (en) * | 1988-02-01 | 1989-03-28 | Kroy Inc. | Thermal printer and tape-ribbon cartridge with cut-off mechanism |
-
1989
- 1989-01-19 US US07/299,973 patent/US4930913A/en not_active Expired - Lifetime
- 1989-01-27 CA CA000589359A patent/CA1330905C/en not_active Expired - Lifetime
- 1989-02-01 EP EP89101750A patent/EP0327073B2/en not_active Expired - Lifetime
- 1989-02-01 JP JP1023622A patent/JPH02111581A/en active Pending
- 1989-02-01 AT AT89101750T patent/ATE126129T1/en not_active IP Right Cessation
- 1989-02-01 DE DE68923715T patent/DE68923715T3/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| DE68923715T2 (en) | 1996-04-04 |
| EP0327073A2 (en) | 1989-08-09 |
| EP0327073A3 (en) | 1990-08-08 |
| ATE126129T1 (en) | 1995-08-15 |
| US4930913A (en) | 1990-06-05 |
| EP0327073B1 (en) | 1995-08-09 |
| JPH02111581A (en) | 1990-04-24 |
| EP0327073B2 (en) | 2003-08-27 |
| DE68923715D1 (en) | 1995-09-14 |
| DE68923715T3 (en) | 2004-03-11 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |