Login| Sign Up| Help| Contact|

Patent Searching and Data


Title:
PRECISION TAPE FEED AND GUIDE MECHANISM
Document Type and Number:
WIPO Patent Application WO/1985/003259
Kind Code:
A1
Abstract:
The guide includes a base plate (308) and a hold-down plate (314) with fingers (316, 318). A spring (345) biases the fingers against the tape (301) during printing. Actuation lever (330) which is pivoted on point (332) causes plate (314) to lift out of contact with the tape and permit its easy removal. Feeding or incrementation of the tape is accomplished by an incompressible roller (350) removably biased against roller (352) which includes a recessed portion (356) having an incompressible O-ring (354) residing therein and biased against roller (350) with a tape (301) therebetween.

More Like This:
JPH1148549PRINTER
JPS5444930MARKING MACHINE
Inventors:
MCGOURTY THOMAS K (US)
MCGOURTY LAWRENCE F (US)
Application Number:
PCT/US1984/000096
Publication Date:
August 01, 1985
Filing Date:
January 20, 1984
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
VARITRONIC SYSTEMS INC (US)
International Classes:
B41J3/38; B41J15/04; B41J15/06; B65H20/02; (IPC1-7): B41J15/04
Foreign References:
JPH101483A1998-01-06
US1800195A1931-04-07
US4243333A1981-01-06
US3912064A1975-10-14
US2052566A1936-09-01
US3768619A1973-10-30
US2909341A1959-10-20
US2848221A1958-08-19
US2348355A1944-05-09
US3042179A1962-07-03
Other References:
IBM Technical Disclosure Bulletin, BULLOCK, Vol. 22. No. 6, November 1979, page 22 30-1, 400-636
Download PDF:
Claims:
We Claim:
1. A tape feed mechanism for incrementally feeding an image carrying tape through a printing station comprising: a first generally incompressible roller aligned to advance an image carrying tape, a second roller in parallel with and adjacent to said first roller; means for releasably biasing said rollers in contact with each other to engage the tape there¬ between, said second roller having side edges including a circumferential and generally incompressible surface having a circumferential recess therein between said edges, at least one compressible oring being fitted onto said recess so that said first roller and said oring contact the tape when biasing means is engaged and one of said rollers is rotatably driven.
2. A mechanism according to claim 1 wherein the depth recess is less than the crosssectional dimension of the oring.
3. A mechanism according to claim 1 wherein the depth of said recess is generally onehalf the cross sectional dimension of the oring.
4. A mechanism according to claim 1 wherein said at least one oring includes a plurality of orings in a sidebyside relationship sufficient to fill the recess between the side edges.
5. A mechanism according to claim 4 wherein the orings are made of neoprene. OMPI .
6. A tape feed mechanism for incrementally feeding an image carrying tape through a printing sta¬ tion comprising: a stationary guide member affixed to a support having a .longitudinal recess sized to receive said tape, said guide being positioned in the printing sta¬ tion, a second guide member being pivotally mounted adjacent said stationary guide and having hold down fingers operable to overlie the tape when it is in said recess and ~to be pivotally liftable from the tape, a first general incompressible roller aligned to advance the tape, a second roller in parallel with and adjacent to said first roller, means releasably biasing said rollers in contact with each other to engage the tape therebetween, said second roller having side edges including a circumferential generally incompressible surface having a circumferential recess therein, between said side edges at least compressible one oring being fitted into said recess so that said first roller and said oring contact the tape when biasing means is engaged, said biasing means including lever means for lifting said fingers of said second guide from the tape, said lever means including a pivot connected to said support, first and second portions on either side of the pivot, said first portion being operatively connected to the second guide and being aligned to lift said fingers when said first portion is actuated.
7. A mechanism according to claim 6 wherein said first roller is rotatably affixed to said lever means so that actuation of the first portion will simulta¬ neously withdraw said first roller and said fingers from the tape.
8. A mechanism according to claim 6 wherein the depth recess is less than the crosssectional dimension of the oring.
9. A mechanism according to claim 6 wherein the depth of said recess is generally onehalf the cross sectional dimension of the oring.
10. A mechanism according to claim 8 wherein said oring is made of neoprene. OMPI.
Description:
PRECISION TAPE FEED AND GUIDE MECHANISM

Technical Field

This invention relates generally to printing or typing equipment involved in the use of a pressure process of dry transfer impression onto an image carrying tape. Specifically, this invention is directed to a mechanism for handling the tape.

Cross Reference This application hereby incorporates by reference the disclosures of our co-pending applications filed on even date herewith with the following titles: Print Disk Positioning System, S.N. .

Printing Mechanism, S.N.

Ribbon Cassette, S.N. Tape Cassette with Supply Indicator, S.N.

Electronic Tape Writing Machine, S.N.

Background of the Invention In the field of commercial art, there is a signifi¬ cant need for a simple means of transferring prefabri- cated letters or characters to a "paste up" sheet for later photographing or printing. A dry rub-on transfer letter process is well known. However, these materials are supplied in sheets and the transfer must be made very carefully to produce carefully aligned and spaced images. Machines were later developed which prepared such letters on a continuous tape and this solved many of the alignment problems. An example of such machine is shown in PCT publication WO82/03600 and in U. S. Patent Nos. 3,912,064 and 4,243,333. Since the paste up may be used in an enlargement with high resolution printing, the spacing of the characters must be accura¬ tely controlled. Even small errors in spacing or kerning would be very apparent upon enlargement.

Prior art devices provide mechanical means for advancing the tape, such as U. S. Patent Nos. 1,800,195 and 3,768,619. Unfortunately, wear of the mechansim over time will cause slight changes in the forward incrementation of the tape and accuracy will not be maintained. The present invention overcomes this problem by providing a simple electromechanical system which uses a minimum of precision parts yet maintains constant tape feed incrementation even after the re- placement of parts.

Furthermore, it is also essential to have a reliable tape holding mechanism to insure that the characters will be perfectly aligned in their vertical orientation. In addition, this alignment means must be capable of releasing the tape rapidly so that an auto¬ mated printing mechanism can produce a stream of characters without impediment. The present invention also provides for such a tape guiding mechanism parti¬ cularly well suited to automated printing machines.

Brief Description of the Invention

According to one aspect of the invention, there is disclosed a tape feed mechanism for incrementally feeding an image-carrying tape through a printing sta¬ tion, including a first generally incompressible roller aligned to advance the image-carrying tape; a second roller, * parallel and adjacent to the firs -roller, for biasing the tape against the first roller; means for releasably biasing the rollers in contact with each other to engage the tape therebetween, the second roller having side edges including circumferential and generally incompressible surface having a circumferen¬ tial recess therein between the edges, at least one compressible o-ring being fitted onto said recess so that first roller and o-ring contact the tape when the

PI

biasing means in engaged. According to another aspect of the invention, a tape feed mechanism for incremen¬ tally feeding an image-carrying tape through a printing station is disclosed having a stationary guide member affixed to a support having a longitudinal recess sized to receive the tape, the guide being positioned in the printing station, a second guide member being pivotally mounted adjacent the stationary guide and having hold down fingers operable to overlie the tape when it is in the recess and to be pivotally liftable from the tape.

Various advantages and features of novelty which characterize the invention are pointed out with par¬ ticularity in the claims annexed hereto and forming a part hereof. However, for a better understanding of the invention, its advantages, and objects obtained by its use, reference should -be had to the drawings which form a further part hereof, and to the accompanying descriptive matter, in which there is illustrated and described a preferred embodiment of the invention.

Brief description of the Drawings

The present invention can be more clearly under¬ stood by reference to the following detailed descrip¬ tion read in connection with the drawings, wherein like reference numerals refer to like elements throughout, wherein:

FIGURE 1 is an overall plan view of a preferred embodiment of the invention in a typical working environment;

FIGURE 2 is a fragmentary top plan view of a pre- ferred embodiment of the present invention;

FIGURE 3 is a view taken along lines 3-3 of FIGURE 2;

FIGURE 4 is a view taken along lines 4-4 of FIGURE 2;

OMPI

FIGURE 5 is a view taken along " lines 5-5 of FIGURE 3; and

FIGURE 6 is an alternate embodiment of the subject matter in FIGURE 5.

Detailed Description of the Preferred Embodiments To understand a possible implementation of the pre¬ sent invention in a larger printing system, reference should be had to FIGURE 1 which shows an overall * environmental view of the system in which the invention is preferably employed. FIGURE 1 shows an electronic tape writing machine 10 having a keyboard 12 which is connected by a cable 14 to an electronics section 16. Signals from the keyboard are interpreted by the - electronics section 16 which causes the print disk positioner 18 to locate the print disk 20 in an appropriate position within the jaws of the impact printing device 22, which holds a carrier tape 15 and a carbon-like material 24. The material is advanced by the precision tape feed and guide mechanism 26 and may later be cut by tape cutting device 28.

In the preferred embodiment, the print disk 20 would be positioned with the appropriate raised (or depressed) character in alignment with the impact printing device 22. The printing action is accom¬ plished by device 22 which causes the print disk * 2Qr, carrier tape 301, carbon material 24, and a print hammer to be brought rapidly in contact with each other, thereby transferring the image from the disk to the carbon material which adheres to the tape 301. The tape 301 is then advanced as desired by the precision tape feed and guide mechanism 26, as will be explained hereinafter. Finally, the tape is cut when the job is completed.

OMPΓ

Turning to FIGURES 2 and 3 where the preferred embodiment is most clearly shown, the printing station 300 includes a printing mechanism 302 which is fully described in our copending application entitled PRINT- ING MECHANISM previously cited herein. This device employs an impact hammer 134 which strikes toward anvil 126 causing the print disk 20 to transfer pigment from the carbon-like ribbon (not shown) onto the carrier tape 301. To hold the tape in longitudinal alignment as it passes the print station (to insure vertically aligned characters) is a tape guide 308 which has " an aperture 310 sized to permit the hammer 134 to pass therethrough. The guide 308 also includes a recessed region 312 which is just wide enough to acco odate the width of the tape and thereby hold it in alignment.

In order to hold the tape flat within the recess 312 during printing, a hold-down member 314 having fingers 316, 318 is provided. Member 314 is pivotally attached by a hinge 320 and a pivot pin 322 at the back of the mouth of the printing station. When hold-down member 314 is operational, it will overlie the tape with the fingers 316, 318.

Extending off finger 318, is a curved portion 319 (shown in FIGURE 3) which follows the curvature of plate 308 and assists in feeding the tape in the direc¬ tion desired. The guide block 308 includes a pair of recesses 324, 326 located to accept the fingers 316, 318 and permit them to touch the tape and assert * a force thereon. When the tape is threaded, it is necessary to lift the hold-down mechanism to permit easy threading in the print station. This is accomp¬ lished by a lift mechanism shown most clearly in FIGURES 3 and 4. A lift arm 330, which is generally U-shaped, is pivoted at its lower point on a pivot shaft 332 when the arm is actuated (in FIGURE 3 that means pushed to the left), the pivot point causes are

portion 334 of arm 330 to rise upward against the force of bias spring 336 (FIGURES 3 and 4) which is held within a hook portion 338 of the arm. This action in turn causes a drive pin 340 which is engaged at one end within aperture 342 on the arm 330 to pass upward through a guiding aperture 344 (shown most clearly in FIGURE 2) and engage a portion of plate 314. at its other end 346. Although in this embodiment, lever 330 is shown mechanically operated, it could likewise be electromechanically operated from the keyboard 12 of the overall system.

As shown in FIGURE 4, spring 345 which engages plate 314 at one end and is mounted on the printing station at the other, maintains plate 314 and likewise fingers 316, 318 overlying the tape.

Before the tape has been guided through the print station, it comes in contact with the precision tape feed or incrementation section. This includes a gener¬ ally incompressible roller 350 which rotatably rides on a shaft 351 attached to lever arm 330 and thus can be pivoted away from the tape when the arm 330 is actuat¬ ed. The feed also includes a second roller 352 aligned in parallel and adjacent to the first roller and being driven by a stepper motor 353 (shown in FIGURE 2). The driven roller 352 is shown in detail in FIGURES 5 and 5, with FIGURE 5 being the preferred embodiment. Roller 352 is generally made of a hard material and has a circumferential recess 356 preferably equal.. to__^___r greater than the width of the tape. Within the recess is placed a plurality of neoprine o-rings 354. The rings are such that they extend over the depth of recess 356, or looking at it the other way, the recess is shallower than the cross-sectional diameter of the o-rings. Neoprine or other like material is chosen since it is possible to manufacture such rings with high precision so that roller 352 will have a known

SUBSTITUTE SHE OMPI

outside diameter (including the rings) from machine to machine. Furthermore, when the o-rings require replacement, the incrementation of the machine will not be substantially altered. It can be appreciated that small variances in the diameter of the o-ring will not have as significant an effect on the incre¬ mentation or feeding of the tape as would small variances of the diameter of roller 352. Thus, in the present invention, accuracy from machine to machine and after replacement of the o-rings is maintained because the roller 352 is never replaced. Furthermore, it is quite simple to replace the o-rings without dis¬ assembly of the machine which could further cause misadjustment thereof. Advancement of the tape is, of course, accomplished by incrementation of the step or motor 353.

In the alternate embodiment, roller 352 is shown as 352a and differs only in that recess 356a is deeper than in the embodiment shown in FIGURE 5. This pro- vides the advantage that the tape and roller 350 may reside within the depressed region 356a and maintain the tape in an accurately formed channel.

Although some specific embodiments of the present invention have been shown, those skilled in the art will perceive modifications which can be made without departing from the spirit of the invention. Therefore, it is intended that the scope o.f the present invention be dictated- by the appended .claims rather than by the description of the embodiment.

OMPI




 
Previous Patent: TAPE CASSETTE WITH SUPPLY INDICATOR

Next Patent: RIBBON CASSETTE