CA1184866A - Printing apparatus feeding - Google Patents

Abstract

ABSTRACT
Printing apparatus is disclosed which has a rotatable platen with a printing element in front of it, lower and upper platen feed rolls and a platen drive for rotating the platen upwardly relatively to the printing element. The apparatus is operable to feed, from an upper hopper extending upwardly and rearwardly from the bottom of the platen, an unprinted sheet to the bottom of the platen and forwardly and upwardly to the front of the platen into printing position. This is done by means of a bail switch operable upon movement of the upper platen feed roll away from the platen to cause the platen to rotate upwardly to move the leading edge of the unprinted sheet into printing position.

Description

This invention relates to printers and, more particularly, to high speed printers such as are used in conjunction with word processing computer systems and the like.
It is particularly deslrable that a high speed printer Eor a word processlng computer system be capable of automatically feeding and moving into printing position individual sheets of paper to be printed with a minimum of operator intervention.
A disadvantage of prior art printers is the requirement that the operator manipulate several mechanisms in sequence in order to move a sheet into printing position.
In view of such deficiency of the prior art, it is a major object of the present invention to provide a novel printing apparatus capable of automatically feeding and moving into printing position individual sheets of paper to be printed.
According to one aspect of the present invention, there is provided sheet printing apparatus, comprising a frame, a rotatable platen mounted on said framel a printing element mounted on said frame adjacent the front of said platen for printing on sheets interposed between said platen and said 2Q printing element, platen drive means for rotating said platen in a direction upwardly r`elative to said printing element, lower platen feed roll means adjacent the bottom of said platen cooperating with said platen for feeding an unprinted sheet from the bottom of said platen upwardly and forwardly to the front of said platen, upper platen feed roll means mounted on said frame adjacent the top of said platen cooperating with said platen for feeding a printed sheet upwardly and rearwardly, said upper B

platen feed roll means being manually movable from a normal feeding position closely adjacent said platen to a sheet insert-ing position spaced from said platen, bail switch means connected to said platen drive means and operable upon manual movement of said upper platen feed roll means, and sheet sensing means connected to said platen drive means for sensing said unprinted sheet~ said sheet sensing means upon sensing said unprinted sheet together with said bail switch means upon move-ment of said upper platen feed roll means away from said platen operating said platen drive means before printing to rotate said platen in said upward direction to move said unprinted sheet into printing position.
For the purpose of more fully explaining the above and still furth.er o~jects and features of the invention, reference is now made to the following detailed descritpion of a preferred embodi-ment thereof, taken together with the accompanying drawings, wh.erein:
Figure 1 is a top view of the printing apparatus of the present invention;
Figure 2 is a front vertical cross section view of -the printing apparatus of Figure 1, taken along line 2 - 2 of Figure l;
Figure 3 is a side vertical cross section view of the printing apparatus of Figure 1, taken along line 3 - 3 of Figures 1 and 2;
Figure 4 is a horizontal cross section view of the printing apparatus of Figure 1, taken along line 4 - 4 of Figures 2 and 3;

Figure 5 is a horizontal cross section view of the printing apparatus of Flgure 1, taken along line 5 - 5 of Figur~s 2 and 3;
Figure 6 is an enlarged cross section view of the prin-ting apparatus of Figure 1, taken along line 6 - 6 of Figure 1;
Figure 7 is an enlarged cross section view of the printing apparatus of Figure 1, taken along line 7 - 7 of Figure l;
Figure 8 is an enlarged cross section view of the printing apparatus of Figure 1, taken along line 8 - 8 of Figure 1, showing the print head and ribbon cartridge in operative position;
Figure ~ is an enlarged cross section view of the printing apparatus B

of Figure 1, taken along line 8 - 8 of Figure 1, showing the print head and ribbon cartridge in tilted inoperative position;
Figures 10 and 11, on the same sheet as Figure 1, are diagrammatic side cross section views of the printing apparatus of Figure 1, illustrating its operation; and Figure 12, also on the same sheet as Figure 1, is a simplified cir-cuit diagram of the printing apparatus of Figure 1.
Referring to the drawings, the printing apparatus of the present in-vention, generally designated 12, is best shown iTI Figures 1, 2, 3, 4 and 5.
Printing apparatus 12, which is preferably selectively operable in either a single sheet delivery mode or a multiple sheet collating mode, comprises a front wall 14, a rear wall 16, a top wall 18, a bottom wall 20, side walls 22 and 25, and a generally horizontal center wall 26 which defines two vertically spaced chambers 28 and 30. A printing mechanism, generally designated 50, is received within upper chamber 28.
More specifically, upper inner opposed side walls 23 and 24 and generally horizontal cen~er wall 26 together define upper chamber 28, as best shown in Figures 2, 3 and ~, which has a configuration adapted to receive printing mechanism 50 Center wall 26, as shown in Figures 3 and 4, includes a narrow elongated opening 32 which is adjacent to and extends along rear wall 16. Narrow opening 32 allows communication between upper chamber 28 and lower chamber 30.
Top wall 18 has a wide central cover portion 34 which is pivotably mounted thereon and includes a narrow elongated aperture 36 adjacent and ex-tending along rear wall 16, and two side door portions 38 and 40 each of which is pivotably mounted on outer side walls 22 and 25, respectively. Top cover 34, as best shown in its open position in Figures 2 and 3, and side doors 38 and 40, as shown in their open positions in Figure 2 by dotted lines, provide easy access to printing mechanism 50 Eor maintenance thereof.
More specifically, top cover 34, which is made of transparent plastic material for allowing viewing of printing mechanism 50, is mounted on hinges 35 at the rear of top wall 18. In addition, top cover 34 has an outwardly pro-truding detent 33, as best shown in Figures 2 and 3~ which facilitates easy opening thereof by an operator. Left side door 38 includes an operating lever 37 which is used to actuate prin~ing mechanism 50; and right side door 40 in-cludes an opening 39 which allows an operator access to pushbutton selector switches 41, as best shown in Figures l, 2 and 12.
Bottom wall 20, rear wall 16, and lower inner opposed side walls l9 and 21 define lower chamber 30 which is provided as a hopper for receiving printed sheets PS with their printed side down. For facilitating the removal o~ collated printed sheets PS from lower chamber hopper 30, bottom wall 20 includes a generally downwardly and rearwardly extending recessed central por-tion 42, as bes-t shown in Figures 2, 3 and 5.
Front wall 14 includes an aperture 44 which provides easy access to lower chamb0r hopper 30 for removing printed sheets PS, as best shown in Fig-ures 3 and 5. In addition, a disk memory mechanism 45 is mounted between left outer and left lower inner side walls 22 and l9; and printing apparatus con-troller 47 is similarly mounted between right lower inner and outer side walls 21 and 25, as shown in Figures 2 and 5. Printing apparatus power supply 46 is mounted below lower chamber 30, as shown in Figures 2 and 3. Power switch 48 is provided on the front side of power supply 46.
~ccording to the present invention, printing mechanism 50, as best shown in Figures 1l 2, 3, 4, 8 and g, comprises a frame 52 which is removably mounted within upper chamber 28, a rotatable platen 54 mounted on :Erame 52, and a "daisy" rotary wheel printing element 56 rotatably mounted on frame 52 adjacent the front of platen 54 for printing on individual sheets interposed between platen 54 and printing element 56.
More specifically, a reversible platen drive mechanism, best shown in Figures 1, 2, 3 and 4) is mounted on frame 52 for selec~ively rotating platen 54 in a direction upwardly or downwardly relatively to rotary print wheel 56. The platen dr;.ve mechanism includes a reversible platen drive motor 58, which drives gears 57 and 59 which in turn rotate platen shaft 53 having platen 54 mounted ~hereon.
Lower platen feed roll and guide mechanism, as best shown in Figures 6, 7, 8 and 9, mounted on frame 52 adjacent the bottom of platen 54, is provided to cooperate with platen 54 for feeding an unprinted sheet US from the bottom of platen 54 upwardly and forwardly to the front of platen 54. The lower platen feed roll and guide mechanism includes an arcuate feed guide 60 having a plurality of feed rol:Lers 62 rotatably mounted thereon. A leaf spring 64 mounted on frame 52 normally urges feed guide 60 in an upward direction to main-tain contact between rollers 62 and the bottom of platen 54, as best shown in Figure 7.
A manually operable platen tension release lever 78, pivotally mounted on frame 52 away from drive gears 57 and 59, is provided for disengaging rollers 62 from platen 54, as shown by the dotted lines in Figure 7. To this end, lower end 79 of tension release lever 78 operates to cam leaf spring 64 downwardly which in turn disengages rollers 62 from platen 54.
An upper hopper plate 66, extending upwardly and rearwardly from the lower platen feed roll and guide mechanism, as best shown in Figures 1, 2 and 3, is provided for feeding the unprinted sheet US to lower platen feed rollers 62 and guide 60. Hopper plate 66, which is removably mounted on an upwardly and rearward]y extending metal bracket 68 and secured thereto by screws 69, extends through narrow aperture 36 of transparent top cover 34.
Printed sheet guide plate 51, mounted on frame 52 below platen 54 adjacent rear wall 16, is provided for guiding a printed sheet PS with its printed side down through narrow opening 32 of center wall 26 toward lower cham-ber hopper 30 to collate successive printed sheets in their order of printing in lower chamber hopper 30, as best shown in Figures 2, 3, 5, 8 and 9.
Bail switch and upper platen feed roll mechanism, generally designated 70 and best shown in Figures 1, 2, 3, 6 and 7, is provided to operate reversible platen drive motor 58 to rotate platen 54 in the upward direction to mo~e the unprinted sheet US from upper hopper plate 66 into printing position. A shaft-like bail 71, mounted on -Erame 52 adjacent the top of platen 54, includes a plurality of upper platen feed rollers 72 rotatably mounted thereon which are normally in contact with platen 54 to feed printed sheet PS upwardly and rear-wardly toward upper hopper plate 66. Upper platen feed rollers 72 are arranged to be manually moved from a normal feeding position closely adjacent platen 54 to a sheet inserting position spaced from platen 5~, as hereinafter more fully described.
A manually operable upwardly extending bail switch lever 73 and a downwardly extending bail switch actuator 75, pivotally mounted on :Erame 52, are connected to a bail switch cam 74 having bail 71 mounted thereon, as best shown in Figure 6. Bail switch lever 73, cam 74, and actuator 75 are normally held in the non-inserting position by spring 76, which in turn also maintains upper platen feed rollers 72 in contact with platen 54. When left side door operating lever 37 is manually moved to contact bail switch lever 73, as shown by dotted lines in Figure 6, bail switch actuator 75 contacts bail switch 77 which is connected to platen drive motor 58. Bail switch cam 74, camming on platen shaft 53, spaces rollers 72 away from platen 54.
Sheet sensor photocell 80, which is mounted on frame 52 adjacent the lower platen feed rol] and guide mechanism and bail switch mechanism 70, as best shown in Figure 1, 8 and 9, is provided for sensing the leading edge LE and trailing edge _ of a sheet. Photocell 80 is cor.nected and arranged to operate platen drive motor 58. Selector switches 41, mounted on frame 52 below right side door 40, as best shown in Figures 1, 2 and 12, are provided for selecting the direction of rotation of platen 54 after completion of printing of the sheet, selector switches 41 being connected and arranged to operate reversible platen drive motor 58.
Photocell 80, upon sensing the leading edge LE of unprinted sheet US
from upper hopper plate 66) together with bail switch mechanism 70 upon manual movement of bail switch lever 73 to move rollers 72 away from platen 54, operates platen drive motor 58 before printing to rotate platen 54 in the up-ward direction to move unprinted sheet US into printing position.
Photocell 80, upon sensing the trailing edge TE of printed sheet PS, together with selector switches 41 upon selection of rotation of platen 54 in the upward direction UP, operates platen drive motor 58 after printing to move printed sheet PS upwardly and rearwardly toward upper hopper plate 66, as best illustrated in Figure 10.
Photocell 80, upon sensing the trailing edge TE of printed sheet PS, together with selector switches 41 upon selection of rotation of platen 54 in the downward direction DN, operates platen drive motor 58 after printing to move printed sheet PS first upwardly to move the trailing edge TE upwardly above lower platen feed guide 60 and then downwardly for sequential stacking in lower chamber hopper 30, as best illustrated in Figure 11.
A print head and ribbon cartridge assembly, as best shown in Figures 1, 2, 3, 4, 8 and 9, is provided for supporting print head 82 carrying rotary print wheel 56 for tilting movement between its normal position adjacent platen 54 with the rotational axis of rotary print wheel 56 perpendicular to platen 54 and i.ts inoperative position tilted away from platen 54 for removal and replace-ment of pri.nt wheel 56. Print head 82 in turn supports ribbon cartridge 83 thereon for tilting movement from a normal position wi~h its portion 98 adjacent platen 54 in contact with supporting lug 87 on print head 82 into an inoperative position with its portion 98 tilted away from print head 82, so tha~ rotary print wheel 56 may be removed and replaced without removing ribbon cartridge 83.
More specifically, the print head and ribbon cartridge assembly in-cludes assembly base plate 84 movably mounted on support shafts 85 and 86, which are mounted on frame 52, as best shown in Figures 1, 2 and 4. The print head and ribbon cartridge assembly is arranged to be moved along a printing line P
parallel ~o the surface of platen 54 by operating mechanisms well known in the printer art.
Print head 82 has a pivot axis 90 adjacent the bottom of print head 82 and parallel to print line P for mounting it on base plate 84 for tilting the print head and ribbon cartridge assembly into an inoperative position away from platen 54, as shown by Figure 9. The inoperative position places print wheel 56 tilted approximately 90 degrees away from the operative position adja-cent platen 54, as shown in Figure 8. Print head 82 has a coil spring 89 which normally urges print head 82 to the printing position shown in Figure 8. Down-wardly extending detent 92 is received within socket 93 of base plate 84 for maintaining print head 82 in the printing position shown in Figure 8.
Ribbon cartridge 83 is pivotally mounted adjacent its end away from platen 54 on top of print head 82 for tilting movement about pivot axis 95 on top of print head 82 and parallel to and spaced from print head pivot axis 90 :Erom its operating position with its portion 98 in contact with supporting lug 87 on print head 82 into ~n extended inoperative position with its portion 98 tilted away from print head 82 and spaced from lug 87.
An actuating link 96 is provided for tilting ribbon cartridge 83 into its extended inoperative tilted position upon tilting of the print head and ribbon cartridge assembly into its inoperative position. Link 96 has its lower end pivotally mounted on base plate 8~ for pivotal movement about its pivot axis 94 and its opposite end 97 contacting ribbon cartridge 83 between ribbon cart-ridge pivot axis 95 and print wheel 56. Its upper end is ret~ined in position by pin and slot retainer 88.
Link pivot axis 94 is spaced beneath print head pivot axis 90 on the opposite side thereof with respect to ribbon cartridge 83 in normal operating po-sition. The length of actuating link 96 between its pivot axis 94 and the bottom of ribbon cartridge 83 is greater than the distance between print head pivot axis 90 and the bottom of ribbon cartridge 83 but less than the distance between its pivot axis 94 and the bottom of ribbon cartridge 83 in normal operating po-sition, so that in normal operating position, ribbon cartridge portion 98 re-mains in contact with lug 87 with the ribbon interposed between print wheel 56 and platen 54.
~owever, upon tilting print head 82 about its pivot axis 90 to its inoperative position, actuating link 96 contacts portion 98 of ribbon cartridge 83 to tilt it progressively away from lug 87 to its extended tilted position in which the length o:E link 96 is greater than the normal distance between print head pivot axis 90 and the bottom of ribbon cartridge 83, since in such extended operating position, link pivot axi.s 94 is generally beside, rather than on the opposite side of, print head pivot axis 90 with respect to ribbon cartridge 83.
In the extended tilted position o:E ribbon cartridge 83, its ribbon no longer _ 9 _ overlies print wheel 56, so that print wheel 56 can be removed or replaced with-out interference from the ribbon.
The print head and ribbon cartridge assembly further includes a printed sheet deflector guide 91 positioned between platen 54 and print wheel 56 to guide the trailing edge TE of printed sheet PS toward narrow opening 32 of center wall 26, and a form thickness adjustment lever 99 mounted around the peri-phery of shaft 86 adjacent the rear of base plate 84. Adjustment lever 99 per-mits the feeding of multiple sheets between platen 54 and deflector guide 91 for simultaneous printing thereof.
In operation, an unprinted sheet US is placed on upper hopper plate 66, its leading edge LE extending through narrow top cover aperture 36 and posi-tioned at the nip formed between platen 54 and lower platen feed guide 60, as best illustrated by the dotted lines in Figure 10. Left si.de door operating lever 37 is then manually moved forward to actuate bail switch and upper platen feed roll mechanism 70, as best illustrated in Figure 6. Photocell 80, having sensed the leading edge L~ of unprinted sheet US, together with the manual move-ment of bail switch lever 73 to move rollers 72 away from platen 54 operates platen drive motor 5~ to ro~ate platen 54 in the upward direction to move un-printed sheet US into printing posi.tion. Operating lever 37 is then returned to its normal feeding position with feed rollers 72 closely adjacent platen 54.
If unprinted sheet US is improperly aligned or skewed, manually operable platen tension release lever 78 may be used to disengage lower platen feed rollers 62 from platen 54 in order to re-align unprinted sheet US.
When printing has been completed, selector switches 41 are actuated to select either the single sheet delivery mode by actuating switch 41UP or the multiple sheet collating mode by actuating switch 41DN, as best shown in Figure 12. If the single sheet delivery mode is selected, photocell 80, upon sensing the trailing edge TE of printed sheet PS together with the selection of this mode, operates platen drive motor 58 to rotate platen 54 upwardly to move printed sheet PS upwardly and rearwardly toward upper hopper plate 66, as best shown in Figure 10. If the multiple sheet col.lating mode is selected, photo-cell 80, upon sensing the trailing edge TE of printed sheet PS together with the selection of this mode, operates platen drive motor 58 to move printed sheet PS first upwardly to move the trailing edge TE upwardly above lower platen feed guide 60 and then downwardly for sequential stacking in lower chamber hopper 30, as best shown in Figure 11.
During the downward movement of the collation mode, printed sheet deflector guide 91 positioned between platen 54 and print wheel 56 guides the trailing edge TE of printed sheet PS toward narrow opening 32 of center wall 26 to prevent the trailing edge TE from being caught on print wheel 56, as best shown in Figure 11. Printed sheet guide plate 51 then guides printed sheet PS
with its printed side down through narrow opening 32 of center wall 26 toward lower chamber hopper 30 to collate successive printed sheets of a multiple sheet document in their order to printing in lower chamber hopper 30, as best shown by the dotted lines in Figure 11. Front wall aperture 44 provides easy access to the collated printed sheets PS in lower chamber hopper 30; and the generally downwardly and rearwardly extending recessed central portion 42 facilitates the removal of the stacked and collated printed sheets PS.
During maintenance or adjustment of printing mechanism 50, top cover 34 and side doors 38 and 40 are opened to provide easy access thereto. Top cover 34, using detent 33, is pivoted back to lie atop upper hopper plate 66, as best shown by Figures 2 and 3. Platen 54 and lower platen feed guide 60 and feed rollers 62 may be readily removed from frame 52 for servicing.
The print head and ribbon cartridge assembly may be tilted into the inoperative position for easy access to rotary print wheel 56 without having to remove ribbon cartridge 83. The inoperative position places print wheel 56 ap-proximately 90 degrees away from the operative position adjacent platen 54, as best shown in Figure 9. Actuating link 96 then tilts portion 98 of ribbon cart-ridge 83 into the extended tilted position to facilitate the removal of print wheel 56 free from interference from either platen 54 or ribbon cartridge 83.
~ arious modifications of the invention, such as the use of alternative sheet supporting surfaces, within the spirit of the inventi.on and the scope of the appended claims, will occur to those skilled in the printing apparatus art.

Claims (3)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. Sheet printing apparatus, comprising a frame, a rotatable platen mounted on said frame, a printing element mounted on said frame adjacent the front of said platen for printing on sheets interposed between said platen and said printing element, platen drive means for rotating said platen in a direc-tion upwardly relative to said printing element, lower platen feed roll means adjacent the bottom of said platen cooperating with said platen for feeding an unprinted sheet from the bottom of said platen upwardly and forwardly to the front of said platen, upper platen feed roll means mounted on said frame adjacent the top of said platen cooperating with said platen for feeding a printed sheet upwardly and rearwardly, said upper platen feed roll means being manually movable from a normal feeding position closely adjacent said platen to a sheet insert-ing position spaced from said platen, bail switch means connected to said platen drive means and operable upon manual movement of said upper platen feed roll means, and sheet sensing means connected to said platen drive means for sensing said unprinted sheet, said sheet sensing means upon sensing said unprinted sheet together with said bail switch means upon movement of said upper platen feed roll means away from said platen operating said platen drive means before printing to rotate said platen in said upward direction to move said unprinted sheet into printing position.

2. Individual sheet printing apparatus, comprising, a frame, a rotatable platen mounted on said frame, a printing element mounted on said frame adjacent the front of said platen for printing on individual sheets interposed between said platen and said printing element, platen drive means for rotating said platen in a direction upwardly relative to said printing element, lower platen feed roll and guide means adjacent the bottom of said platen cooperating with said platen for feeding an unprinted sheet from the bottom of said platen upwardly and forwardly to the front of said platen, upper hopper means extending upwardly and rearwardly from said lower platen feed roll and guide means for feeding said unprinted sheet to said lower platen feed roll and guide means and said platen, upper platen feed roll means mounted on said frame adjacent the top of said platen cooperating with said platen for feeding a printed sheet upwardly and rearwardly toward said upper hopper means, said upper platen feed roll means being manually movable from a normal feeding position closely adjacent said platen to a sheet inserting position spaced from said platen, bail switch means connected to said platen drive means and operable upon manual movement of said upper platen feed roll means, and sheet sensing means connected to said platen drive means for sensing the leading edge of said unprinted sheet, said sheet sensing means upon sensing said leading edge of said unprinted sheet together with said bail switch means upon movement of said upper platen feed roll means away from said platen operating said platen drive means before printing to rotate said platen in said upward direction to move said unprinted sheet into printing position.

3. The printing apparatus as claimed in claim 2, further including sheet sensing means connected to said platen drive means for sensing the trailing edge of said unprinted sheet, platen drive means for rotating said platen in a direction downwardly relative to said printing element, and selector switch means connected to said platen drive means for selecting the direction of rotation of said platen after completion of printing of said unprinted sheet, said sheet sensing means upon sensing a trailing edge of a printed sheet together with said selector switch means upon selection of rotation of said platen in said upward direction operating said platen drive means after printing to move said printed sheet upwardly and rearwardly toward said upper hopper, and said sheet sensing means upon sensing said trailing edge of said printed sheet together with said selector switch means upon selection of rotation of said platen in said down ward direction operating said platen drive means after printing to move said printed sheet first upwardly to move said trailing edge upwardly above said lower platen feed roll and guide means and then downwardly for sequential stacking in a lower hopper.