CA2014652A1

CA2014652A1 - Printer medium drive clearance eliminator

Info

Publication number: CA2014652A1
Application number: CA 2014652
Authority: CA
Inventors: Anthony W. Ebersole; John A. Underwood
Original assignee: Hewlett Packard Co
Current assignee: HP Inc
Priority date: 1989-09-29
Filing date: 1990-04-17
Publication date: 1991-03-29
Also published as: EP0420400A3; DE69015749T2; EP0420400A2; DE69015749D1; JPH03173663A; JP2886312B2; EP0420400B1

Abstract

PRINTER MEDIUM DRIVE CLEARANCE ELIMINATOR
ABSTRACT OF THE DISCLOSURE

A printer medium feed mechanism clearance eliminator is provided, including a paper guide (32) mounted to the printer, a clearance eliminator sheet (38), and tensioning means (43). The clearance eliminator plate (38) conforms to the curve of a medium drive roller (20), thereby elimi-nating clearance wherein the medium (14) might buckle and cause jamming or skewing within the printer (10).

Description

2 ~ ' 5 2 PATENT

PRI~TER ~E~IUM ~RIvE C~EARA~cE ELIMINATOR

~E~HNICAL FIELD

Th~ present invention relates generally to computer printer medium dri~e mechanisms, and, more particularly, to drive mechanisms wherein the medium is required to curl around a roller as it feeds through the printer. The pre~
dominant current usage of the medium clearance eliminator of the present invention is as an aid to paper ~eeding and handling in thermal ink- jet printer medium drive mecha-nisms.

BACKG~QUN~ ART
In any type of printer assembly, a mechanism is re-quired to move print medium, usually either paper or a transparency, through the printer. The medium drive mech-anism is required to advance medium smoothly a~d accurately and frequently both forward and backward through the print-~r. It usually must be capable of handling several types of medium, someti~es including both sheet ~edium and form feed medium, wherein the medium is suppli~d in a continuous length. The mechanism must no~ be prone to jamming, sincP
3Q it is intended that mediu~ handling be entirely automatic and that it not re~uire opera~or in~ervention. The mecha nism must provide a proper medium exit angle appropriate to the type and design o printer to which it is adapted~ The mechanism must further readily accept medium that is auto-matically fed into it, since this is frequently a part of Case 188428 2014L~52 the automated medium handling process within a printer.
Because of the great variety of computer printer types and applications, a variety of different medium drive mecha-nisms have been developed for use in such printers. It is, of course, the objective of each of these mediu~ drive mechanism designs to achieve all of the above-mentioned desired properties. However, because of lim~tations of space and other factors, designers have frequently been compelled to ~avor some of these desired qualities over others.
One of the most common designs ~or printer medium drive mechanis~s has the medium entering the mechanism be-tween an opposed pair of rollers. The medium then curves around one roller and exits the drive mechanism in a direc-tion essentially opposite the entering direction. Among the advantages of this arrangement are that the drive mech-anism may be placed near the back o~ the printer, thereby reducing overall printer size. This type of drive mecha-nism has been found to work well, and has been in service for a considerable period of time. Nevertheless, this type mechanism is not without its problems. Among these are the fact that paper exiting the mechanism sometimes tends to skew, that is, to become i~properly aligned with the print-head as its exits the drive mechanism.
A nu~ber of different methods have been tried to elim-inate this problem. However, as anyone who uses this typ~
o~ computer printer knows, this problem has certainly not been eliminated to date.
Another problem associated with this type o~ printer ~edium drive mechanism that it is not impervious to jam~
ming. In ~ac~, jamming is probably ~he most frequent com-plaint of users of printers incorporating this type of mechanism. No prior art mechanism to the inventors' know-ledge has been developed which will prevent jamming and 3~ skewing in this otherwise highly successful style of medium Case 188428 2 ~ 5 2 I

drive mechanism. All successful designs to date which have tended to reduce skewing and jamminy have incorporated types o~ drive mechanis~s which were not as suitable for desirable placement within a printer as is the drive mech-anism style for ~hich the present invention is adapted.

~ISCLOSURE QE~IEY~ ON

This invention relates to computer hardcopy output printers incorporating a conventional medium drive mecha-nism, and further incorporating the inventive mechanism so as to eliminate jamming and skewing problems associates with the conventional medium drive mechanism.
The present in~ention is particularly adapted for use in thermal ink-jet printer assemblies. Briefly, the pre-ferred embodiment of the present invention is a clearance eliminator which s~rves to hold medium against a drive rol-ler as the medium curves around the roller. The inventive clearan~e eliminator thereby prevents buckling o~ skewing o~ paper within the drive mechanism itself which can result in jamming o~ the mechanism or skewing of the medium as it exits the mechanism.
In the preferred embodiment of the invention, a flex~
ible clearance eliminator sheet is mounted on a paper guide. The clearance eliminator sheet is provided with a pivot point and a tension which causes the clearance elim-inator sheet to maintain contact with a drive rollerl thereby eliminating space wherein ~edium might buckle as it passed through the drive mechanism.
The clearance eliminator sheet can be made of any of number of di~ferent materials~ In the pr~sen~ly pre-ferred embodiment of the invention, it has been found that a sheet of ultrahigh molecular weight (U~MW) polyethylene provides some particular advantages, as will be described herein.

Case 188428 2 ~ 2 Since clearance and drag within the mechanism are both reduced by use o~ the present inve~tion, any tendency for medium to drag thereby causing one side of the medium to exit the mechanism before the other is eliminated. Fur-S thermore, net drive force is increased by use of the inven-tive mechanism, thereby also helping to insure proper medi-um handling.
An advantage of the present invention is that j~mming within a printer drive mechanism is reduced.
Another advantage of the present invention is that skewing of medium within a printer drive mechanism is re-duced.
A further advantage of the present invention is that a conventional, proven and otherwise desirable drive mecha-nism design may be employed while reducing tendencies of medium to jam or skew within the printer drive ~echanism~
These and other objects and advantages of the present invention will become clear to those skilled in the art in view o~ the description of the bes~ presently known mode o~
carrying out the invention and the industrial applicability of the preferred embodiment as described herein and as il-lustrated in the several Figures of the drawings.

~IEF DES~IP~Q~ Q~_THE DRAWI~S
FIG. 1 is a side view of a printer assembly incorpo~
rating the clearance eliminator of the invention;
FIG. 2 is a side Yiew of a printer assembly with con-ventional paper guide, FIG. 3 is a side view of a portion o~ the printer as-sembly of FIG. 2, showing a medium jamming probl~m; and FIG. 4 is a top view of a portion of the pri~ter as~
sembly of FI~. 2, showing a medium skewing problem~

Cass 188428 2 ~ 2 ~E~T MO~S FOR CARRYING OUT THE INvENTION

The best presently known mode for carrying out the in-vention is a thermal ink-~et printer incorporating conven~
tional elements including a medium drive, or "feed" mecha-nism. The medium fe~d mechanism includes the inventive medium clearance eliminator as a means for eliminating clearances within the mechanism, which would otherwise al-low medium within the feed mechanism to buckle, and thus cause the undesirable properties of ~amming and skewing of the medium.
The predominant expected usage of the inventive medium clearance eliminator is in ink-jet printers used in the da-ta processing industry and in office and home computer printer installations.
A portion of the thermal ink-jet printer of the pres-ently preferred embodiment of the present invention is il-lustrated in a side view in FIG. 1 and is designated there-in by the general reference character 10. In most o~ its substantial components, the printer 10 does not dif~er sig-nificantly from conventional thermal ink-jet printers. The physical structure is similax to that of prior art thermal ink-jet printers.
The conventional elements o~ the printer 10 include a pen 12 for depositing ink upon a print medium 14, a platen 16 ~or holding the mediu~ 14 relatively parallel to the pen 12 during printing, and ~n input guide 18 for guiding th~
medium 14 into contact with a drive roller 2~. A dri~e pinch roller 22 is contiguous to the drive roller 20 and parallel along its length. The medium 14 is drawn ~hrough the printer 10 by the drive roller 20 and is pushed past the pen 12 and the platen 16 where it is further dir~cted by an exit roller ~4 and an exit pinch roller 26. The me-diu~ 14 is held against th~ drive roller 20 near ~he pen 12 by a drive plate 28. The pen 12 is mounted on a pen Case 188428 ~; ~ ....
, . . .

20~652 traversing mechanism (not shown), allowing the pen 12 to traverse the medium 14 in a pla~e parallel to the medium 14 and perpendicular to a medium advance direction 30.
Referring now to FIG. 2 wherein is illustrated a com-parable printer assembly 10 including a conventional paperguide 32, the drive plate 28 is a~fixed to the paper guide 32, and the paper guide 32 is rigidly a~fixed relative to the printer assembly 10. The medium 14 is shown buckling in a clearance area 34. Jamming o~ the printer 10 can occur when medium 14 ~uckles sufficiently in clearance area 34 so as to double back as depicted in FIG. 3. FIG. 4, wherein a portion of printer assembly 10 is shawn from a top view, shows the medium 14 exiting from the drive plate 28 in a skewed fashion as a result of the medium 14 having not advanced squarely through the clearance area 34.
Referring now again to FIG. 1, the paper guide 34 is shown reshaped according to the present in~ention and piv-otallv mounted relative to the printer assembly 10 at a pivot Point 36. A clearance eliminator sheet 38 is shown holding the medium 14 against the drive roller 20. The clearance eliminator sheet 38 is made of a flexible ultra-~ high molecular weiqht (UH~) polyethylene so that it may : conform somewhat to the shape of the drive roller 20. The clearance eliminator sheet 38 is rigidly mounted at a top mounting tab 40 and a bottom mounting tab 42 so as to allowfor t~is flexibility~ Bottom mounting tab 4~ is slidingly mounted to the paper guide 32 and is tensioned by coil spring 43 so as to hold the clearance eliminator sheet 38 firmly against the drive roller 20. The ~orce holding the clearance eliminator sheet 38 against the drive roller ~0 is provided by coil spring 43, which is secured at one en~
by spring mountin~ pivot 46.
In the presently preferred e~bodiment of the inven-tion, the clearance eliminator sheet 38 is made of ultra~
high molecular weight (UHMW) polyethylene sheet. While any Case 188428 2~6~2 of a number of relatively low friction materials might be used, UHMW polyethylene has been found to provide the best combination of low friction, flexibility, and wear resis-tance. UEMW polyethylene is well-known and commercially available. Advantageously, the thickness of UHMW polyeth-ylene sheet, while not being particularly cr'tical, is about 0.005 inch.
In the presently preferred embodi~ent of the inven-tion, the drive plate 28 is also surfaced with UHMW poly-ethylene in the area of contact with the medium 14.
The paper guide 32 may be pivotally mounted as shown or rigidly affixed to the input guide 28 or an extension thereof. Another spring (not shown), or its equivalent, causes the paper guide 32 to rotate in the direction indi-cated by arrow 52. The pivot point 36 is provided in the presently preferred embodiment of the present invention as a means for biasing the drive plate 28 against the drive roller 20.
According to the present invention, the clearance area 34 (FIG. 2) is greatly reducPd. The medium 14 does pass through two residual unsupported areas 54. However, the medium 14 is suf~iciently stiff to pass through these short residual unsupported areas 54 without buc.~liny. Accord-ingly, the improvements o~ the present invention effective-ly eliminate jamming in the area of the drive roller 20 a~d the paper guide 32. Furthermore, the medium cannot ~ecome skewed in this area, as elimination of the clearance area 34 prevents either side of the medium 14 ~rom advancing ahead of ~he o~her.
Proper medium handling is ~urther insured by use o~
the inventive mechanism by virtue of the ~act that net driYe force is increasad by the clearance eli~inator sheet 38 as disclosed herein. This net increase in drive force is a result ~ the fact that the clearance eliminator sheet 38 forces the print ~edium 14 agains~ ~he drive roller 20, Case 18842 2 ~

thereby increasing the e~ficiency of drive force transPer between the drive roller 20 and the print medium 14. Be-cause the clearance eliminator sheet 38 is made of an ~x-tremely low friction material, any drag produced between the clearance eliminator sheet 38 and the print medium 14 : is of a considerably lower vector quantity than is the ad-dition forward drive force which is thereby transferred to the print medium 14. Therefore, the net drive force is increased.
10Various modifications may be made to the invention without altering its value or scope. For example, tension may be provided by means other than a coil spxing 43. Ten-sion points and pivot points may also ~e altered as neces-sary to adapt the inventive clearance eliminator to various printer drive mechanisms. Another conceivable alteration would be to adapt the inventive clearance eliminator to printer types other than thermal ink-jet printers.
All of the above are only some of the examples of available embodiments of the present invention. Those skilled in the art will readily observe that numerous other modifications, alterations, and adaptations may be made without daparting from the spirit and scope of the inven-tion. Accordingly, the above disclosure is not intended as limiting, and the appended claims are to be interpreted as encompassing the entire scope of the invention.

INDUST~IAL ~PLICA~ILIT~

The need ~or computer output printers has increased greatly ovex the past decade and is expected to continue to increase. ~ecause o~ ~heir many desirable ~ualities, ink-jet printers are expected to fill an increasing percentage of the demand ~or such printers. The type of medium drive mechanism for which the present invention is adapted has been proven to be one o~ the most desirable ~or ink jet Case 188428 2 ~ 2 printers. It combines the attributes of readily accepting sheets of medium as they are fed into the drive mechanism, and allowing advancement of the medium in both a forwar~
and backward direction. It has, therefore, become a much used type of drive mechanism. By incorporating the medium clearance eliminator into a printer assembly alcng with the medium drive mechanism, a significant improvement in relia-bility and ease of operation has been realized. It is be-lieved that the reduced tendency of medium to jam or skew within a printer as a result of the use of ~he inventive medium clearance eliminator will increase the desirability of ink-jet printers incorporating the present invention in the marketplace.
Ink-jet printers incorporating the present invention may be utilized in any application wherein conventional ink-jet printers or other conventional computer hardcopy output printers are currently used. Since computer print-ers utilizing the present invention may be readily con-structed and do not require that an operator vary the man-ner in which such printers are used, it is expected thatthey will be acceptable in the industry as substitutes for conventional printers. The increased reliability and im-provement in medium feed qualities will make printers in-corporating the present invention desirable substitutes and will enhance the applicability of the present invention.
For these and other reasons, it is expected that the utility and industrial applicability of the invention will be both significant in scope and long lasting in ~uration.

Case 188428

Claims

1. An apparatus for guiding a print medium through a printer feed mechanism, comprising:
a means for imparting motion to said print medi-um:
a clearance eliminator piece; and means for holding said clearance eliminator piece against said means for imparting motion to said print medi-um .

2. The apparatus for guiding a print medium through a printer of claim 1, wherein:
said means for imparting motion to said print me-dium is a drive roller.

3. The apparatus for guiding a print medium through a printer of claim 2, wherein:
said clearance eliminator piece is flexible so as to conform to a surface of said drive roller, thereby main-taining conformity to said surface of said driver roller over at least a portion of the circumference of said drive roller.

4. The apparatus for guiding a print medium through a printer of claim 1, wherein:
said clearance eliminator is mounted on a medium guide piece, which is provided with a pivot point thereon and with means for applying tension to said medium guide piece around said pivot point.

5. A medium feed mechanism for a printer comprising a drive roller for propelling a print medium and at least one Case 188428 pinch roller for holding the print medium against the drive roller, and further comprising a clearance eliminator mech-anism, including:
a medium guide piece;
a clearance eliminator sheet mounted on said me-dium guide piece; and means for providing tension on said clearance eliminator sheet so as to hold said clearance eliminator sheet against the drive roller.

6. The medium feed mechanism of claim 5, wherein:
said clearance eliminator sheet is made of ultra-high molecular weight polyethylene.

7. The medium feed mechanism of claim 5, wherein:
said means for providing tension on said clear-ance eliminator sheet is provided by a coil spring.

8. A device for eliminating unwanted clearance in a printer medium drive mechanism, comprising:
a medium guide piece;
a clearance eliminator sheet affixed to said me-dium guide piece; and a means for tensioning said clearance eliminator sheet against a drive roller.

9. The device for eliminating unwanted clearance of claim 8, wherein:
said clearance eliminator sheet is made of an ul-trahigh molecular weight polyethylene material.

10. The device for eliminating unwanted clearance of claim 8, further including:
a drive plate attached to said medium guide piece and pivoting therewith in respect to the drive roller for Case 188428 holding the medium against the drive roller at an exit point of aid printer medium drive mechanism.

ll. The device for eliminatirlg unwanted clearance of claim 10, further including a surface on said drive plate comprising an ultrahigh molecular weight polyethylene mate-rial .

Case 188428