CA1240552A - Printing press - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE

A self-standing printing apparatus is des-cribed which includes a paper feeder for feeding individual sheets of paper, an impression cylinder and an accessory shaft adjacent the impression cylinder on which various types of printing heads may be mounted, including a numbering device. A counter roller may also be provided adjacent the impression cylinder for perforating the paper against perforating strips which may be provided on the surface of the impression cylinder. The impression cylinder is adapted to move out of contact with the various printing heads on the accessory shaft and the counter roller when the paper supply is interrupted. As the paper supply is reinstated, the impression cylinder automatically moves back into position. A particular paper supply and transfer device is also described as well as a novel inking unit. A stacking plate for stacking the printed sheets along with jogger devices are provided.

Description

.
~240S52 BACl~GROUND OF THE INVENTION
1. Field of the Invention The present i~vention relates t4 an apparatus 1 .
for printing individual sheet~ ~f papex, and more particularly, to an apparatus for numberin~,~pe_torating, and printing sheets of paper.

2. Description of the ~rior Art Traditionally, "letterpres~" techniques for printing ~heet~ require reciprocatin~ platens, and -accessories must be provided for numberin~ and perfora-. .
ting the sheet~. S~ techniques have limitation3, ~uch as low ~ee~, a~ compared with "flexographic"
printing pres,qes which utilize soft printing plate~
on a cylinder but are tradit~bnally limited t~ printing continuous webs of paper, normally from a roll.
Offset printing, on the other hand, ha~ been developed to incorporate rotary printing techni~ues with the sheet feed apparatu~. Numbering deviceY with proper interrupters have been developed for 8UCh an offset machine as described in U. S. Patent 2,583,4 Durto et al,~ 1954. Further, various perforating machine~
have been incorporated in such o~fset preqses for _ perforating the sheets.
However, the numbering apparatus i8 normally an add-on feature and re~uire~ a second impxe~sion cylinder a~ ~.t~ the perfor~tor or cutting features.
Furthermore, offset printing i~ ~ub ject to limitation~
which prevent it from having the versatili~y of printing of a letterpre~ or flexo~raphic printing pre~.
SUMMARY OF THE INVENTION
Zt i8 an aim of the present invention to provide a compact simple stand-alone pres~ which has _, _ ~
A

~4~552 the certain advantages of an offset press but ~hiçh can incorporate the features of the letterpres~ or flexographic press.
It is also an aim of the present invention to provide a rotary printing press with perforating, numbering, and printing features a~out a single lmpression cy'-inder.
:[~t is a ~urther aim of the pre~ent invention to provide an improved pape~ feed mechanism'for feedlng sinyle sheets of paper.
It is also an aim of the present invention to provide an improved interrupter which'will disen~age the impression cylinder from contact with the various perforating, printing, and numbering device3 when the supply of sheets is interrupted.
It is also an aim of the pxesent invention to .
provide an improved ink unit.
It is a further aim of the present invention to provide an improved delivery and stacking system for use with a printing press.
E3sentially the printing press of the present in~D~i n comprises a frame, an impression cylinder mounted for rotation on the frame, and means for feeding sheets of paper to the impression cylinder. Means are provided on the impre~sion cylinder for retaining the sheet of paper on the surface of the impression cylinder as it rotate~
through a predetermined arc. A shaft is~mounted on the frame in spaced and parallel relationship to the axis of rotation of the impression cy]i,!der and is contained within the arc. Means are provided ()55~ ~

for driving the impression cylinder and the naft in registry. Means are provided for mounting on the shaft a numberi~g device~ a letterpress head and,/Gr a flexographic~printing cylinder on the shaft, either any one of these elements or all three of them. The letterpress head, the numbering device, and the f~exoqraphic prin~ing cylinder are mounted such that thév ccntact the impression cylinder surface within the arc. Ink feeding means.are provided, including at least an ink roller for trans-ferring printing ink to the printing devices o~ the shaft, that is, the numbering device, letterpress head and/or the fl`exographic printing cylinder.
Means are also provided for removing the sheet from the impression cylinder at the end of the predetermined arc.
A construction in accordance with the present invention comprises a printing apparatus including an impression cylinder, means for supplying sheets one by one to the impression cylinder, gripping means on the impression cylinder for gripping an edge of a sheet an~ ad ancing the sheet so that it envelops about the impression cylinder, perforating means including strips of teeth adapted to be fixed to the surface of the impression cylinder, ~ounter roller means for pressing the sheet against the perforating teeth, shaft means mounted parallel tc the axis of the cylinder and having a keyway, t;3e shaft means being driven in register wi'h the impression cylinder, the shaft means being ad~ted to recelve and mount at-l~ast one of a nun~ering ~4~552 means, a letterpress head, and a printing cylinder for printing intelligence on the shee~'on the impression cylinder, interrupter means for disengaging the impression cylinder and moving it from th~e locus of the at least one of the numbering means, the , letterprea~ head, and the printing means, inking means including a plurality of auccessive rollers with a transfer roller adapted to intersect the circular locus o~ the ~urface of the at le~st one of the numbering means, letterpress head, and printing cylinder, and means for removing the sheet from the impression roller and stacking the sheet.
One of the important features of the pre~ent invention is the provision of the various printing devices and the numbering devic~ oper~ble on and co-ordinated with the impression cylinder. In the past, particularly in an offset press, the numbering apparatus could be a separate add-on feature which required further equipment, such as an impression roller. It is also contemplated that in the case of multi-colour printing, the printing unit may be repeated in series, wherein the printing unit includes an impression c,ylinder and an accessory ' shaft to w~lich can be mounted different printing heads, such as a printing cylinder with flexographic printing pads or a letterpress device. As many -, head units including the impression cylinder and the ink unit and the acceasory shaft as may be required can be added for the different colour~ to be utilized. Suitable transfer means is easily 5~2 ~dapted for transfer of the sheet from one impre~sion roller to the other.
The numberin~ acces~ory ~ay be in the fenm of a num~ering counter with a printing surface~
moun~ed on the acces~ory ~haft for rotation,thereon:
and in contact with the peripheral Rurfacé of th impres~ion cylinder. A cam.tripping device may be mounted ad]acerlt the path of the numbering head with means for su~c~s.~ively changing the number on the 10 . numbering head for each cycle of the numbering head.
The coun~..roller in the present invention may hav~ d - longitudinally-convex outer slee.ve,an.d the axis of the counter.roller would be parallel to the axie of the impres~ion cylinder a~ opposed to the conven~ional concave angled counter roller. The conve~ ~leeve on the roller provides compensation for the deflection of the c~leeve, particularly in the center a.ad ~hen prC~s-ing the paper against the perforation teeth.
BRIEF DESCRIPTION OF TH~: DRAWINGS
Having thus generally de~cribed the nature of the invention, reference will now be made to the accompanying drawing~, showing by way of lllu~tration, a pre~erred ~ ;liment thereof, and in which:
Figure 1 i9 a perspective view of the . printing press;
Figure 2 i9 a top plan view of a printing press:in accordance with the - present invention with the hou~i~g removed Figure 3 i~ a side elevation of the printing ~ress in accordance with th~ present invent ion;

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Figure 4 is an enlarged fragmentary view, taken partly in cro-qs-section and in elevation ~long the longitudinal axis of the printing press,.
Figure 5 is a further enlarged fragmentary view, partly in cross-section, of the apparatus ~s sh~wn in Figure 4 Figure 6 is an enlarged cross-sectional view, similar to Figure 5~ but showing the elements in a different - operating position;
Figure 7 is a fragmentary enlarged view of a detail of the apparatus, and in particular of the paper supply mechanism;
Figure 8 is an enlarged fragmentary view of a further detail of the apparatus ~howing in particuiar the paper transfer mechanism;
Figure 9 is a fragmentary elevation showing a detail of the paper 3upply mechani~m;
Figure 10 is a view similar to Figure 8 but showing the elements in a dif-'e~ent operative position: .
Figure 11 is an enlarged elevational view of a detail of the paper supply mechanism;
Figure ,2 i~ a top plan view thereof;
Figure 13 is a vertical cross-section of the detail shown in Figures 11 and 12, Figure 14 i9 a fragmentary elevation showing partl~ in cross-section a further 05~

detail~of the paper transfer mechanism, ~ , , Figure 15 i~ a view ~imilar to,Fiquro 14 but showing the elements the~e,in in a S different operative po~ition;
Figure 16 is a vertical croa~-section of the.
interrupter detector;
Figure 17 i~ a perapective view of''a detail of the apparatus and particularly ahowing the impres~lon roller anA
t~e num~ering apparatus7 Figure 18 i~ an exploded view o~ a further detail of the prese~t invention and ''''' particul~rly a ~rinting c~iinder segment;
Figure 19 i8 a radiAl view of a furt~er detail , o~ the pre~ent invention an~ ~howing particularly a printing cylindçr:-Figure 20 ~how~ a lateral e}evation of the ., . apparatu~ and in'particular the counter roller and the impres ion roller,~
~- Figur,e 21 i5 a fragmentaxy schematic end view af - ' the counter roller an~ partial cros's-2S section~ impression ~ller~a~d showing in ' par~icular a perforation mechanism;
'' ' ' Figure 22 i~ a fra~mentary,longitudinal cross-~ectiG~ o~ a detail of the apparatus showing in particuiar the numberlng ao device in operation;
Figure 23 i~ a cros~-sectional view ~imilar to Figure 22 but ~howing the numbering ~.

~Jto~
device in a different operative position, Figure 24 is a fragmentary side elevation of a furt'ner detail of t'ne pre~ent invention and in particular the interrupter mechanism;
Figure 25 is a longitudinal cross-section of the apparatus shown in Figure Z4 showing a further detail thereof;
Fi~lre 26 is a longitudinal cross-~ection showing the ink unit;
Figure 27 is a side elevation of the apparatus showing in particular a detail of the ink unit;
Figure 28 shows a fragmentary cros~-section sf the longitudinal cross-section ....
of a detail of the apparatus and in particular the chain,delive~y, . Figure 29 i9 a fragmentary cross-section similar to Figure 2~ but showing the chain delivery in a differ~nt operative position, Figur,e 30 is a fragmentary cross-sectio-.
~imilar to Figures 28 and 2g, ~ut - showing the chain delivery in yet a different operative position, F;c,uro 31 is a fragmentary view in ~ide elevation of a detail.of the apparatus and in particular the stacking unit;
Figure 32 is an enlarged detailed view of the appara~.us shown in Fi~lre'31 _ g _ -, 12~055;~

but in a different oper~tlve positi.on;
Fi~ure 33 i~ a detail taken along tha lin~3 33-33 of Figure 3l; and ,~
Fiqure 34 i9 a further detail of th,é ~tacking and jogging device. ,' DESCRIPTION OI? ~rlE P~EFERREI~ E~BODI~l~T~
Raferring now to the drawings, the printing press lO is shown in Figurea l to 5 a~ having a frame 14 mounting the various units of the press lO which, in Figure l, i9 covered by a housing 12. At.the feed end of the apparatu~, t~e is provided a paper supply unit 16, a paper transfer unit 18, an impres~ion cylinder .
20 with the accompanying accessory shaft for mounting the printing heads, and an ink unit 22. A ch~n delivery sy~tem 24 trans~ers the printed aheet from ~ e impression cylinder 20 and carrie~ the sheet to th stac~er 26.
Before proceeding,~ it should be mentioned that the driven parts of the press lO are t'aken off from .... . _ .
a drive str~p S (shown in Figure 3) which i~ connected to a suitab1e driYe source and which rotates a pulley W.
~he paper aupply is best illustrated in - . Figures 2, 4, S. 6, 7, 9 and lO. The paper ~upply 16 , is provided with a platform 28 ~hich is arranged'to ~5 move along a vertical axis by following in tracks 29 The platform i8 fixed to a`chain 88, the movement of which will be de~cribed herein. There i~ a chain 88 on both side~ of.the platform 28 ~as can"be seen in ~igu~e 2.
It i9 important that the top level o~ the , 30 paper be always in a predetermined ho~izontal plar.e such that the transfer mechanism 18 can pic~ off sheets one at a time to feed the sheet~ to tha impre~sion A - lo -,~

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cylinder 20. There are numerou3 mecharical well-known devices for ac~omplishing thia particular purpose. A
novel mechanical arrangement will be deacribed herein.
Figures 7, 8, 9 ~Id 10 illu~tr~te/t~e mechanical linXages for intermittently raising the ~
platform having a supply of sheets P to maintain the- , top level of the ~upply o~ pa~ P in a pre~eterminl.d~
horizontal plane.
A ~ensor bar 30 is fixed to pivot pins on either ~ide of the paper supply and passe~ thr-~gh parallel walls 14a ~d 14b which form part of the fr*me 14. Pivot pin 31 pa~-~e~ through wall 14b and mou~lt~
a crank arm 36 to which i~ mounted a cam follower 38.
The cam follower 38 follow~ along the periphe~y of cam wheel 40 mounted to driven sha~t 42. The ~ensor arm 30 is norm1lly maintain~d in an upper position free of the supply of paper P, as shown in dotted lines in Figures 6 and 9, by tha cam wheel 4,P. As the cut-away portion 40a of the cam 40 passes the cam Iollower 38, the senaor bar 30 -(see Fi~.- 7) will rotate down-~a~dly and sense the top surface of the p~per supply P.
~he other end of the sensor bar 30 mounts a pivot pin 32a passing through wall 14a to which a levex 32 is fixed. ~. spring 34 urgea the lev2~ ~2 in a counterclockwise direction and maintains pr~ssure on the cam follower 38 on the other ~ide oP the housir.
against the periphery ~f the cam wheel 40.
on the wall 14a. a lever 44 is pivoted to a ~ pivot 6haft 72~ At the other end o~ the lever 44 1 i 30 a link 46 pivoted to the lever 44 at pivot pin 74.
The lir,k 46 i~ p~ovided with an elongated ~lot 48 adapted to receive d pin 86 mounted on a pivoting bar , A
... . . . . . . . .. .
r:' r ~, cg)552 52 which will be described. A spring 47 is connected at one end to the link 46 and at the other end to the pin 86.
The pivoting arm 52 is mounted on the~shaft 60. At one end of the arm 52 is provided a pin 54 ~dapted to be engaged by a locking lever 64. Locking lever 64 includes a notch 70 and is pivoted to pin 66 on the wall 14a.
A spring 68 urges the locking lever"~64, so t~at its notch 70 will engage the pin 54 on the bar 52.
A saw-toothed wheel 50 is mounted on shaft 60.
The teeth are directed counterclockwise in order to enable a ratchet means 56, 58, 62 to engage the teeth, as shown in Figures 9 and 10. More specifically, a ratchet lever 56 is pivotally mounted on pivot pin 58 on the bar 52 and is urged against the teeth of the wheel 50 by means of a sprin.g 62. As long as the ratchet lever 56 engages the teeth of tne wheel 50, the wheel 50 is prevented from rotat-ing counterclockwise.
Fixed to the wheel 50 is a bevel gear 84 which mates with a bevel gear 85 connected at one end of a worm gear 80 and journa;lled-in a bracket 78. The shaft 60 .
rotates in the journal 76 mounted to the bracket 78. The worm gear 80 mates with a gear 82 mounted to the end of a chain sprocket shaft 89 ~see Figures 2 and 4). The arran- :
gement is such that clockwise movement o~ the wheel 50 will turn the gears, so as to raise the chain 38 and thus the platform 28. ~ \
In operation, the lever 44 is driven in a ~ :
reciprocating fashion Inot shown~ could be:a cam and follower on wall 14b). The stroke distance is shown ln dott:ed lines in Figures 8 and 9, such as to reciprocate ~ -link 46 against the pin 86. As long as the arm 52 is ~, j: : :

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retaine~ by t~e locking lever 64, the pin 86 will not be influenced by the link 46, since the stroke of the link 46 is not greater than the length of the slot therein. However, if the notch 7~0 of locking lever~64 were to disengage the pin 54, the bar 52 would move counter-clockwise by its weight and the urging of the spring 47 on the link 46. Thus, as the link 46 moves upwardly, as shown in Figure 9 from its full`~line to lts dotted line position, it engages the pin 86, thereby moving the bar 52 to rotate clockwise and thus advancing the ratchet lever 56, thereby rotating the wheel 50 in a clockwise direction and thus rotating the gears to elevate the platform 28 by means of the chains 88. However, the bar 52 is normally in the position shown in Figure 9 with the locking lever 64 in position on the pin 54.
For every cycle of the cam wheel 40, the sensor bar 30 will be allowed to move downwardly to engage the top surface of the paper supply P. At the same time that it moves downwardly, the lever 32 moves counterclockwise in Figure 9 on the urging of the spring 34. If the level of the paper P has been lowered, the lever 32 may rotate far enough, so as to engage lock lever 64, thereby pivoting it about pin 66 in a clockwise fashion to disengage notch 70 from the pin 54, and thus allow the bar 52 to move counterclockwise and be engaged by the link 46 which is continually reciprocating.
The cam 40 will causè\.th~ sensor bar 30 to return to its original position, as shown in dotted lines in Figure 9, to thereby retract the lever 32. As the link 46 presses the bar 52 to rotate clockwise, the pin 54 again will engage the notch 70 on the lever A

~405~i2 64. In the ~vent that the paper supply i8 high enough, it is evident from the~e drawings that the bar 30 will not rotate ~ar enough to dllow thé l.ever!32'to engage the lock le~ex ~4.
In order that.the sheets of paper,'be ea~i~ly removed rom the supply, a small air de~-ice, as shown, in Figure~ 11, 12 and 13, i~ provided forwa~d of the platfonm 28 in order to fluff or lift the edge~ o~ the .paper by air. The device compri~es, for instance, a ~air of upstandir~ air pipes~ 9~i provided with a eleri~
- of apertures 98. ~e.pipe~ 96 are mounted on a cross bar 94 which in turn is mounted to a holder 92;
Air to tl..e pipes 96 is supplièd by flexible air'pipes 100, as shown in the drawings. Th~ aperture~
may be set at an angle to the longitudinal axis, to allow the be~t distribution of the jets of air forth-coming from the pipe~ 96. Although not shown, the cro~s bar o r ~h~ pipe~ may be mounted for vertical adjustable movement in order to adjust the hei~ht of the air pipes 96.
The transfer mechani'sm comprise3, in this' embodiment, a plurality of ~uction CUp8 102, which are best shown in Figures 4, 5, 6, 14 and 15.~ The suct.ion CUp8 102 are provided at the end o suction pipe~ 104 mounted on a bar 106 whi~h is journaled at its end~
to a pair of arms 108 which.in turn are mount~d to a shaft 110. Also fixe~ly'mounted to the ~haft 110 on '.
the other side of the wall 14b is a crank arm 112 to which ig mounted ~ cam follower wheel 114 which follow~
on the periphery of the cam 116, as ~hown in Figures . _ 14 and 15. At the end of the bar 106 i~ a lever llB
fixed theret~ LO which is mounted a cam follower wheel ,A. ' .

1~4()~2 120. The c~m follower wheel i9 meant to,follow cam ~lot 122 provided on the wall 14b.
Thus, in operation, the ~am follower wheel 114 will follow the periphery of the cam 116 providing the vertical movement of the air pipe~ 104.,Howev~F, as the arm 108 rotates clockwise, providing the vertic~l lift to the air pipe~ 104, t~e;cam follower 120 will follow in the slot 122 rotating the bar 106 relative to the anm~ lOB in a further clockwise direction, th~reby pivoting the air pipe~3 104, thus advar~cing the s~ction CUp9 102 to~rd3 the nip fonmed ~y the driva roller 134.
When th~ air pipe~ 104 have reached thelr po~i~ion of maxih~um upward extension, the c~m ~ollower 114 will be riding on the area o~ greatest radiu~ sf the cam llS, as ~hown in Fi~ure lS. At that poi~t, the crank arm 112 will engage the cam wheel 131 at the end of the valve lever 126 on the air pipe 130 just above the cam wheel 116. Thu~; the VAl ve 124 will be o~ened, allowin~ atmospheric air to enter the vacuum air pipe 130, releasing the vacuum in the suction cups 102, Thu~, the paper P i~ relea~ f~om _ . the ~uction CUp8 102 and i~ picked up ~y the drive xoller 134.
A~ the suction~pipe~ 104 and the auction cupa 102 move back down to ~heir position above the paper supply P, a~ ~hown in Figure 14, the crank anm 112 will diaerlga~e the cam wheel 131, allowing the lever 126 to clo~e the valve 124 and maintain a vacuum . in the air pipe 130 to the suction cupa 102.
- . A~ ~hown in Fi~ure 5. a driven roller 134 i~
provided for receiving the sheet of paper being relea~ed . . .
....,. -- 1~ --~l ,. , ~ ' ' .

~L~40~

by the suction cups 102. Pressure wheels 136 mounted on the shaft 138 form a nip with the driven roll 134 but are normally disengaged therefrom. The shaft 138 is mounted at both ends to levers 140, which in turn are mounted to a shaft 142 which passes at least through ' the wall 14b and mounts a lever 144 mounting a cam wheel follower 146 (see Figure 8). Cam wheel follower 146 travels on the periphery of tha cam wheel 148 mounted on shaft 42. The cam wheel 148 has a very slight off-circle portion which, when engaged by the cam wheelfollower 146, forces the pressure wheels on the arms 140 to press against the drive roller 134. This is timed ' such that the pressure of the wheels 136 on the drive rol:Ler 134 is applied just when a sheet of paper is engaged by the nip.
A microswitch feeler 150 is provided down-stream of the nip formed by the drive roller 134 and the pressure wheels 136, as shown in Figure 16. This will be described further.
The impression cylinder 20 is mounted eccentrically on a shaft 12, and the shaft includes enlargements 160 and bearings 162. The cylinder 30 includes a hollow portion with an annular shell 164 defining an opening 184. As seen in Figures 5 and 6, a gripper device 166 is located in the opening 184. The gripper device,l66 is clamped on a shaft 165. A plura~ity of gripper devices 166 are on the shaft 165, but for the purposes of sim-plicity, only one gripper device 166 will be described.
Each gripper device 166 is urged closed by ' 30 means of a spring 178 attached at one end to a pin .. . .

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member 180. A cam arm 168, shown in dotted lines ln Figure 5, is connected to the gripper shaft 165 and mounts a cam follower wheel 170. During the rotation of the cylinder 20, the cam follower whe~l 170 -presses over the cam ridge 172, forcing the grippex 166 against the spring 178 to assume an open pos t.ion as shown in Figure 6. The gripper 166 i~ provided with a blade 174 which is adapted to close aga_nst the gripping surface 176 on the shell 164. As the cylinder 2Q rotates in ~ counterclockwise manner, driven by gear wheels 154 and 156 about the shaft 152, the gripper will close as it passes the transfer mechanism 18 just as a sheet i9 being fed between the blade 174 and the surface l76, as be~t ~een in Figure 5. The gripper 166 will then entrain the ~heet about the surface 182 of the cylinder 20 until it i8 approximately 190 from the transfer device, whereby the gripper meàns 166 will be forced to open by mean~
of the cam ridge 172, and the delivery chain 24 will remove the s~eet P as will be further described.
The various printing heads which are mG~nlted on the shaft 188 must be provided with a ~lot whi~h will register with the slot or opening 184 in the impression cylinder 20. It is important that ~uoh a slot be prov-cled in the various printing heads or at least that the heads, such a~ the numbering head 202, do not coincide with the opening 184 so as not to press or otherwise interfere with the gripper 166.
Referring now to Figure 17, there is shown a shaft 188 provided with a gear 186 meshing with gear 156 mounted to the cylinde~ 20. Shaft 188 is adapted to be provided with a number of printing accessories, ,j ., - . - . , .

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including, as shown in Figure 17, a numbering unit 190. In addition to the numbering unit 190, a printing cylinder 214, as shown in Figure 19, can also be provided either in place thereof or in addition to the numbering unit 190. Also, a letterpress type printing head 208, as shown in Figure 18, can be substituted or added onto the shaft 188. The printing cylinder 214 is best suited for a flexograph type soft printing pad, while the letter press 208 can receive, within the slot 210, an insert with the printing characters protruding thereo~.
As shown in Figures 17, 18, 22, and 23, th~
numbering unit lso, as will be described, includes a holder 192 adapted to receive a key 194 in the keyway 196 thereof, and a holder locking insert 198 is provided thereon for retaining the holder in a registered manner on the shaft 188. A land 200 is provided on the holder 192 in order to properly locate the numbering he~d 202 thereon or any other printing head, such as pri~ti~g head 208.
In association with the numbering unit 190, there is provided a shaft 218 on which is mounted a trip-ping cam 220. Shaft 218 i8 journaled in the sleeve 222 provided on both walls 14a and 14b and is actuated by the solenoid 232, as shown in dotted lines in Figures 22 and 23. A lever 234 tdotted lines) is fixed to the shaft 218.
As shown in Figures 20-21, the lmpresslon cylinder 20 is adapted to ~eceive on the surface 182 thereof perforating strips 224 including upstanding teeth, as are well known~ The perforating strips 224 are located either laterally or peripn~rally of the cyllnder surface 182. A counter roller 226, which has an axis parallel to A

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1240~5~

the axis of the cylinder 20, is provided adjacent the cylinder 20 and has a longitudinally-convex surface.
The counter roller 226 presses the paper against the projecting teeth 224, thereby callsing the sheet to be perforated. The counter roller 226 is mounted on an eccentric shaft 228, which can be angularly adjusted by means of lever 230 urged by spring 231, as seen in Figure 24, by adjusting the micro-adjustment screw 231, thus increasing or decreasing the pressure of the counter roller 226 against the perforating strips 224. The counter roller 226 includes a longitudinally-convex sleeve, so as to compensate for the deflection of the outer sleeve when.contacting the teeth.
As mentioned earlier, the impression cylinder 20 is mounted eccentrically on the shaft 152. Rotation of the shaft 152 in a clockwise direction will effect-ively move the impression cylinder 20 away from the shaft 188 on which the various printing heads may be mounted.
In other words, the surface 182 of the impression cylinder 20 will be slightly spaced from the locus of the various printing devices which could be mounted on shaft 188.
The mechanism for rotating the shaft 152 and thus moving the cylinder 20 from the path or locus of the printing devices is made up of ,the bellcrank arms 252 and 254 which are fixedly connected by means of a hub 256 on the end of ! the shaft 152. A solenoid 250~is connected to the bell-crank arm 252, while the other arm 254 mounts a pin 262.
A lock lever in the form of a bellcrank 260 includes a cam follower adapted to follow on the cam wheel 264, shown in dotted lines in Figure 24~ On the ,, ., ~ ~o~

surface of the cam wheel 264, there is provided at least one bump 265, which is effective to disengage bell-crank 260 from a locked position with the pin 262 at each rotation of the cam.
The bellcranks 252 and 254 are retained, in the position shown in Figure 24 by lock lever 260 to maintain the cylinder 20 and itS cylindrical surface 182 tangent to the path of the printing devices mounted on the shaft 188. A microswitch 266 includes a cam follower wheel 267, which travels on cam wheel 268 even when the bellcrank 260 is disengaged from the pin 262 at each rotation of the cam. When the cam follower 267 passes over the bump 270 of cam wheel 268, current which is furnished by microswitch 150 is allowed to pass to solenoid 250 in order to activa~te and maintain the cylinder retracted, thereby holding the shaft 152 in position. However, if in any one cycle of the shaft 188 and of the cylinder 20 the microswitch 150 should fail to be tripped by a sheet of paper, the micxoswitch 266 will be deactivated, thereby allowing the spring 258 to urge the bellcrank 52, 254 to rotate clockwise against the locked bellcrank 260. When the locked bellcrank 260 is disengaged from t~ pin 262, as previously exprained, the bellcranks 252 and 254 will thus move clockwise on urging of the spring 258, thereby rotating the shaft 152, thus moVing ~he impression cylinder 20 away. Any number of electrical circuits may be provided for operating the solenoid 250 from the microswitch 150.
Because of the timing factor of the cam wheel 264, the current may be fed to the solenoid 250 only when the bump 265 on the cam wheel 264 is approaching J,~
, . , ~,, , , _ , .... ... ... . .

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the follower on bellcrank 260 such that when the bellcrank 260 is disengaged from the pin 262, there is current passing through the solenoid, thereby activating it and retaining the bellcrank 252, 254 in its enga;ged position, as shown in Figure 24. If the microswitch 150 fails to be tripped on any one cycle, the solénoid will, of course, not be activated, and the bellcrank arms 252 and 254 will rotate as the~cam wheel 264 trips the bellcrank 260.
The solenoid 232 is affected by the signal from the microswitch 150. As shown in Figures 22 and 23, every time the solenoid 232 is activated, it will retract, drawing the lever 234 to rotate the tripping cam 220, thereby changing the number on the numbering head 202. However, if the microswitch 150 is not tripped at any one cycle, the current will not be sent to solenoid 232, there~y leaving the tripping cam 220 in the position shown in Figure 23 for that particular cycle~ Thus, the numbering head 202 will pass unchanged.
In fact, microswitch 266 provides the current to the solenoid 250 as its cam follower wheel 267 passes over the bump 270. The current, however, will not pass to the solenoids 232 or 250 when the microswitch 150 is not depressed by the paper.
2S The gear rim 186 may be adjusted relative to the gear hub 187 in order to adjust the register o~
the shaft 188 relative to the impression cylinder 20.
The ad~ustment mechanism includes an anchor 248 mounted to the hub 187 which is provided with a threaded aperture through which the threaded bolt 244 passes. The sleeve 246 is mounted to a link 238 which is in turn pivotally articulated to the gear rim 186. A link 236 pivotally ~, , ~ - 21 -A
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mounted to the rim at 240 is also provided and is articulated with the link 238. As shown in Figure 25, the head of the bolt 244 may be rotated by means of a ~
suitable Allen screw for adjusting the rim 186 relatlve to the hub 187.
The ink unit 22 is shown in Figures 2, 26, and 27. The ink unit 22 includes a sub-frame which includes opposed pairs of wall plates 300a and 300b sup-ported together by connecting rods 302, 304, and 306.
The wall 300b mounts pivot blocks 308 and 310 which are meant to be seated on an upstanding pivot rod 312 mounted to the frame 14. The ink unit 22 can be removed as one separate unit by lifting it from the pivot rod 312.
It is also adapted to swing on the pivot rod 312 from a position shown in Figure 2, for instance, where it is disengaged from the printing heads to a position shown in Figures 4, 26, and 27, where the walls 300a and 300b are parallèl to the walls 14a and 14b respectively. The ink unit 22 also lncludes a gear wheel 314, mounted to a shaft 318, and a gear wheel 316, mounted to a shaft 320 spacedly frQm gear wheel 3147 wherein, in the last-mentioned position, both gear wheels 314, 316 mesh with gear wheel 186.
The shaft 338 also mounts a cam wheel 326 on the outside outside of the wall 300b. The cam wheel 326 also acts as a crank wheel mounting a stub shaft 330 to which is connected a link 332. Link 332 includes a link pin 334 at the end thereof to which aremounted a pair of levers 336 and 338.
Lever 336 is connected at its other end to a threaded sleeve 340 through which a threaded screw 344 passes. Screw 344 rotates in a bracket 342 mounted to , . . .
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the wall 300b. A sleeve 345 is also mounted on the screw 344 between the bracket 342 and the threaded sleeve 340 mounted on the lever 336. The other end of lever 338 is connected to a pivot 346 on a lever 348 which in turn is fixed to a ratchet bearing 352 on a shaft 350.
Along opposite wall 300a, shaft 350 mounts the roller 356 in an ink reservoir 353 (Fig. 26). Recip-rocating movement of the lever 348, as shown in dotted lines in Figure 27, causes the roller 356 to rotate clock-wise intermittently by way of the ratchet bearing 352.
The stroke of the reciprocating lever 348 can be adjusted by the screw 344. As the screw 344 is rotated clockwise, it forces the lever 336 to reduce the angle with lever 338. As the angle between levers 336 and 338 decreases, the stroke of the lever 348 is reduced. How-ever, as the screw 344 is adjusted in the opposite direction, the angle between the axis of Ti~vers336 and 338 is increased, thereby increasing the stroke o the lever 348 and thus the speed at which the ink roller 356 passes through the ink well 354.
Another cam wheel 322, mounted on shaft 318 ~Figs 26,27), has a peripheral sur~ace which is eccentric to the shaft 318, and a cam follower 360 follows the periphery of the cam wheel 22, giving the arm 362 a reciprocatlng angular movement. The arm 362 is fixed to the shaft 364, as shown in Figure 26, to which is mounted a first lever 366 connected by a spring 368 to the connecting rod 306, thereby urging it in a counter-clockwise direction.
A pair of levers 374 support by their yoke ends 376 a shaft 372 mounting a transfer roller 370.

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The angular movement of the arm 362 reciprocates the lever 374, thereby moving the transfer roller 370 between a position i~ contact with the ink roller 356 and the transfer roller 380. The transfer roller 380 is mounted on a shaft 383 adapted to slide in a vertical slidé
bracket 388, is in turn mounted to pivot 384 and presses against the rollers 322 and 324 to transfer ink thereon to these rollers. A spreading rol-l~er 382, mounted on a shaft 381 slidable in brackets 388, presses downwardly against the roller 380, in order to spread the ink thereon in a thin film as the ink is intermittently placed on the periphery of the roller 380 by means of the transfer roller 370. The bracket 388 is urged against the rollers 322 and 324 by means of a spring 386 connected to the bracket 388 and to an upright projection 389 extend-ing from the top edge of wall 30Ob.
The take-off of the paper sheet from the impression~roller 20 can be provided in many ways. For instance, a conventional cha~n delivery can be provided which will be briefly described herein. On the other hand, a chute can be provided adjacent the impression roll~r for removing the sheets from the roller after the gripping device 166 has released the she~t.
- In the Fresent embodiment, a chain delivery has been described~ As previously mentioned, the gripper 166 which includes a cam follower arm 168, will release the paper as its cam follower wheel 170 engages the cam ridge 172 as the impression roller 20 rotates counterclockwise. Figure 28 shows the position in which the cam follower wheel 170 engages the ridge 172, and Figure 29 shows the next operative position whereby , the gripper 166 has released the paper as the cam follower ,, .

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wheel 170 rides on the cam ridge 172.
The chain delivery 24 includes, as shown in Figures 2, 5, 6, 28, 29, and 30, a pair of chains 400 and 402, which travel about respective pairs of sprockéts 404, 414, and 406 and 416. The sprockets 404 and~406 are mounted on a shaft 408 which in turn mounts a gear wheel 436 adapted to mesh with the gear wheel 156 ~Fig. 6) on the impression cylinder 20. The shaft 408 also mounts a plurality of spaced-apart spacer wheels 420 (Figure 2) which together form what is known as a false cylinder.
Ea~h spacer wheel 420 is provided with teeth 421 and a sector-shape opening 422 merging with the central through-bore of wheel 420 through which extends sha~t 408. Opening 422 registers with the opening 184 in the impression cyl-inder, so as to avoid interference with the gripper 166 mounted in the opening 184 of impression cylinder 20.
The shaft 408 is mounted on a pair of sub-frames 410 and 412~ as shown in Figure 2.
Each chain 400 and 402 su~tends a plurality of spaced-apart grippers 426. A cam device 424 is mounted to the subframe 410 and is meant to coact with consecutive grippers 426. The grippers 426 are arranged on the chains 400 and 402, so that they coincide with the openings 422 when they pass over the spacer wheels 420. Each gripper 426 includes a gripper bar 431 extending between the chains 400 and 402 with levers 430 pivoted thereon, to which is mounted a jaw 432. The jaw 432 is meant to open and close against the bar 431 of the gripper 426, and a rubber pad 434 may be provided on the face of the bar 431, so as to engage the paper P. The lever 430 mounts a cam follower 428, which is adapted to follow on the cam 424, thereby opening the jaw 432 when the gripper A

, .. . . .

s 426 approaches the tangential position relative to the periphery of the cylindrical surface 182 of the impression cylinder 20. As the jaw 432 passe~ the position shown in Figure 28, it~is open and is adapted to close on the edge of the sheet P to relieve the the sheet from the gripper 166. As seen in Figure 29, once the jaws are closed thereon, the paper sheet P
will be entrained about the falsè`cylinder formed by the spacer wheels 420 and will be carried on the bottom race of th~ chain 400, for instance. A flat tray can be provided below the race to allow the shéets to slide thereon. The chain delivery is designed to release the sheet of paper over the stacker 26.
Stacker 26 is shown in Figures 31 to 34. A
tray 440 (Figure 4) is provided between the frame walls 14a and 14b, ~n~ a Mec~.anlsm~for lowering the tray is illus-trated in Figures 31 and 32. This mechanism includes chains 478 to which tray 440 is attached. The mechanism includes a crank wheel 438 mounted on an extension of the shaft 418 past the wall 14a. The~crank wheel mounts an eccentric stub shaft 442 to which an arm 444 is connected.
The other end of the arm 444 is pivotally connected to a lever 448 by means of a pivot pin 446. The lever 448 pivots on the shaft 450, which mounts a toothed wheel 452 (the teeth being of the sawtooth type~, as well as a ratchet lever 454 pivoted to the pivot pin 456 on the lever 448.
A cam 462 is also pivotally mounted to the shaft 450 and is fixed to a lever 464, which is adapted-to be angularly adjusted in the bracket 466. A handle 460 is provided for adjustment of the lever 464. The ratchet lever 454 is provided with a spring 460 urging - ~6 -.. .. .. .. .

the lever towards the toothed wheel 452. One end of the spring abuts against a cam pin 458 which rides on the cam 462. The position of the cam 462 lS determlned by the position of the lever 464 in the bracket 466 and the position of cam 462 will determine the effective length of movement that the ratchet 454 will be éngaged on the toothed wheel 452. For instance, when the cam 462 is in the position as shown in Figure 32, the'ratchet lever 454 will engage the toothed wheel 452 for a much longer di~tanc~ ln its stroke than-wh~n the cam 462 is'in the position as shown in Figure 31. This results in a faster descent of the tray 440,as will be explained further.
Also mounted on shaft 450 is a bevel gear 470 which is engaged with bevel gear 472 on the end of a worm gear 474 rotatably carried by wall 14a. Work gear 474 turns th~'gear 476 which is mounted on a shaft 479. Altbough not shown, a pair of sprockets are provided on the shaft 479 about`which chains 478 are entrained.
As the crank wheel 438 rotates clockwise, the arm 444 will reciprocate a given distance, as shown in dotted lines in Figures 31 and 32. The cam 462, as previously explained, will determine the length of travel that the ratchet 454 will engage the toothed wheel 452.
The toothed wheel 452, as it rotates counterclockwise, a' ~ rotates the bevel gear 470 and thus the bevel gear 472 and, therefore, the worm gear 474 and the gear 476.
For each intermittent advance thereof, the chain 478 - will lower the tray 440 a proportional distance.
,, , Referring now to Figure 33, it will be evident-that behind the crank wheel 438 is provided a cam path dete~mined by a cam wheel 480, which causes pivoting ' movement of a follower 481 on lever 482, which is .

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intermediately pivoted at 484 on the bracket 483 fixed to the frame wall 14a. A follower on the other end of the lever 482 travels between sleeves 488 and 489 mounted on a sliding rod 486. The other end of the rod 486 is threaded and engages in a bracket 49q which slides on a guide rod 492. A jogger plate 490 is fixed to the bracket 494 and reciprocates a given distance, as shown in dotted-l rles in Fisura 33, in response to the action of the cam wheel 480 on the lever 482. The jogger plate 490 is effective to maintain sidewise alignment of the sheets of paper which are being deposited on the tray 440 by the chain delivery 24. As shown in Figure 2, there are two plates on either side of the stack but only plate 4g0 reciprocates.
Plate 491 is static.
On the other side of the frame 14, that is, on frame wall 14b, there i~ provided, as shown in Figure 34, 1 crank wheel 496 mounted on the shaft 418. A stub shaft 502 i5 eccentrically mounted on the crank wheel 496, to which is connected an arm 500 which is pivotally connected at pin 504 to a lever 506, which in turn is fixedly connected to a shaft 513 (Figure 2) which is journaled to bracket 510.
The shaft 513 mounts a gearwheel 508, which in turn engages a rack 514 sliding in a track 512. The end of the rack 514 is provided with a jogger plate 516, which reciprocates, as shown in dotted lines in Figure 34, to align the ends of the sheets of paper P in the stack. As seen, the reciprocating movement is caused by the crank wheel 496 whlch, through the levers 500 and 506, causes ~he gear - 508 to reciprocate the rack 514.

Claims (11)

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

1. A printing apparatus for letterpresss work comprising a frame, an impression cylinder mounted for rotation on the frame, means for feeding sheets of paper to the impression cylinder, means provided on the impression cylinder for successively retaining the sheets of paper on the surface of the impression cylinder as the latter rotates through a predetermined arc, a shaft mounted on the frame in spaced relation and parallel to the axis of rotation of the impression cylinder and contained within said predetermined arc, driving means for driving said impression cylinder and said shaft in registry, a group of printing elements including a numbering device, a letterpress head and a flexographic printing cylinder;
means for releasably mounting said printing elements on said shaft such that said printing elements contact said impression cylinder surface within said predetermined arc, removable ink means including at least an ink roller positioned for directly contacting and transferring printing ink to the printing elements on said shaft, a perforation strip releasably carried on the surface of the impression cylinder, and a counter roller mounted on the frame adjacent the impression cylinder within said predetermined arc and driven by said driving means to press a sheet of paper on the impression cylinder passing through said predetermined arc against the perforation strip, in order to perforate the sheet of paper, said printing elements and said counter roller all concurrently actuatable upon rotation of said impression cylinder, so that said printing elements and perforating strip can accomplish their respective printing and perforating functions on the sheet retained on said impression cylinder, anyone of said printing elements and said perforating strip attachable to said shaft and impression cylinder, respectively, so that one or more of said printing elements and perforating strip can accomplish its function, and means for removing the sheet of paper from the impression cylinder at the end of said pre-determined arc.

2. A printing apparatus as defined in claim 1, wherein the flexographic cylinder is a part cylinder removably mounted on the shaft, and further including holders, each partly cylindrical and defining a radially-extending opening having a width at least the diameter of the shaft, an insert removably fitted within each said opening for firmly holding the holders to the shaft, key and keyway means securing said part cyl-inder and said holders to said shaft, and a circum-ferential land provided on the surface of the holders to which the numbering device and the letter press head can be fixedly mounted in angularly-adjusted position relative to said holders.

3. A printing apparatus as defined in claim 1, wherein the numbering device includes a numbering printing head travelling in a circular locus tangent-ially intersecting the ink roller and the impression cyl-inder surface, the numbering head being provided with a trip lever adapted to sequentially change the numbers on the numbering printing head, a further shaft mounted on said frame and parallel to the shaft mounting the number-ing device, the further shaft including a cam means adapted to move between a first position in place to trip said trip lever on said numbering device head on each rotation of the numbering device on said shaft, and a second position clear of said trip lever on said numbering device.

4. A printing apparatus as defined in claim 1, wherein the counter roller has an axis of rotation parallel to the axis of rotation of the impression cyl-inder and is driven in registry with said impression cylinder, and the outer surface of the counter roller is longitudinally convex such that this outer surface will deflect when in contact with the paper against the perforation strip.

5. A printing apparatus as defined in claim 1 or 4, wherein the counter roller is mounted on a first eccentric shaft in a pair of journals in the frame, such that the pressure of the counter roller against the impression cylinder may be adjusted by adjustment means associated with said first eccentric shaft.

6. A printing apparatus as defined in claim 3, further including sensor means, associated with the means for feeding sheets of paper to the impression cyl-inder, for sensing any interruption in the supply of sheets of paper to the impression cylinder, first interrupter means, responsive to said sensor means for moving the impression cylinder away from the locus of the printing surfaces of the printing elements, such that these printing elements will be out of contact with the impression cylinder surface, and second interrupter means, responsive to the sensor means to maintain said cam means on said further shaft in said second position out of contact with said trip lever on said numbering head.

7. A printing apparatus as defined in claim 6, wherein the first interrupter means includes a second eccentric shaft, for mounting said impression cylinder on said frame, and means are provided for rotating the second eccentric shaft through another predetermined arc, such as to effectively move the impression cylinder away from contact with said printing elements.

8. A printing apparatus as defined in claim 7, wherein the means for rotating said second eccentric shaft includes a bell crank lever fixed to an end of the second eccentric shaft and operable by a solenoid to move the bell crank lever, thus rotating said second eccentric shaft on receipt of a signal from the sensor means.

9. A printing apparatus as defined in claim 6, wherein a solenoid is operably connected to said further shaft for moving said cam means from the first position operable to trip the trip lever of said flexo-graphic printing head and the second position away from any contact with said trip lever, the solenoid being operable, on receipt of the signal from said sensor means in the event of an interruption in the supply of sheets of paper, to move and maintain the cam means in the second position.

10. A printing apparatus as defined in claim or 6, wherein the impression cylinder is hollow and includes a recess extending laterally of the surface thereof communicating with the hollow center of the cylinder and the means for successively retaining the sheets of paper includes a plurality of pivoting gripping heads mounted within the hollow portion of said impression cylinder at the recess, means for operating the gripping heads such that they grip the edge of a sheet of paper being fed to the impression cylinder against the surface of the impression cylinder adjacent and downstream of the recess, and means for pivoting the gripping heads to release the sheet paper after still another predetermined arc has been completed, and wherein a chain delivery assembly is provided downstream of the impression cylinder which includes a pair of con-veyor chains extending parallel and passing about longi-tudinally-spaced pairs of sprocket assemblies, one pair of sprocket assemblies being adjacent the impression cyl-inder chain, gripping means provided on the chain del-ivery system and subtended between the pair of chains, said chain gripping means to be operable to grip the sheet of paper as it is being released by the gripping heads on the impression cylinder for removing the sheet of paper from the impression cylinder and delivering the sheet of paper to a stacking device.

11. A printing apparatus as defined in claim 1 or 6, wherein said ink means includes a subframe pivotally mounted to the frame of the printing apparatus, such that the subframe can be swung about a vertical axis relative to one side of the frame into engagement with the printing apparatus or out of engagement therewith, the ink means including an ink well and a plurality of laterally-extending transfer rollers mounted adjacent the ink well and adapted to transfer a discrete amount of ink to said ink roller and to a second ink roller tangent with the locus of the printing surface of the printing elements on the shaft.