Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.


  1. Advanced Patent Search
Publication numberUS3477370 A
Publication typeGrant
Publication dateNov 11, 1969
Filing dateFeb 28, 1967
Priority dateMar 3, 1966
Also published asDE1279691B
Publication numberUS 3477370 A, US 3477370A, US-A-3477370, US3477370 A, US3477370A
InventorsFischer Hermann
Original AssigneeMaschf Augsburg Nuernberg Ag
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Register maintaining device for multi-color sheet-fed rotary printing presses
US 3477370 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)


INVENTOR Henmarm Fiachen United States Patent US. Cl. 101-183 7 Claims ABSTRACT OF THE DISCLOSURE A supplemental gearing arrangement is interposed adjacent the direct drive gears of the transfer cylinders of multi-color sheet-fed rotary printing presses incorporating a resilient adjustment for accommodating the backlash in the driving gears at the place of transfer of the sheets between the various cylinders so that the sheets will not become misaligned as a result of the backlash during transfer from one station of the press to the next.

This invention relates to multi-color printing on a sheet-fed multi-color printing press, and, more particularly, to a regitser maintaining supplementary gearing arrangement adjacent the direct drive gears in the train of drive between successive stations of the presses which accommodates, at the moment of transfer of the various sheets between the various impression and transfer cylinders, the backlash in the direct gearing so as to compensate for the distortions caused by such backlash in the placement of the sheets during the transfer between each cylinder so as to effect proper registration of the successive images printed on each sheet to achieve the multicolor printed impression.

In multi-color printing where a final composite multicolor image is formed by the successive printing impressions of a plurality of superimposed single color images, the fine quality of the finished effect depends to a large extent upon the precision and accuracy with which the several successively printed individual impressions or images are registered or congruent to form the composite multi-colored image. With sheet-fed multi-color presses and especially those having a large number of separate successive printing units, however, slight variations in the placing of the paper sheets being printed may occur during the transfer thereof between the various plate and transfer cylinders during the printing run, as caused by the tooth play or backlash in the direct driving gears between the various cylinders.

Thus, regardless of the care with which the various printing plates are positioned at the various printing stations to contact the sheets of paper over precisely the same area to provide exact registration of the several superimposed images or impressions, tooth play between the intermeshing gears leads to a change in flank at the intermesh of these gears and causes a degree of circumferential oscillation of the various cylinders at the moment of transfer of the sheets between the various cylinders which may cause distortion of the registration of the several superimposed impressions during the actual printing thereof.

Even if very careful consideration is taken in the construction of the toothing of the various intermeshing gears, it may not be possible with the rigid drive to prevent a slight oscillating of the gears and, therefore, of the cylinders themselves, since there is always an unavoidable load-dependent slight bending of the ends of the Patented Nov. 11, 1969 shafts on which the various cylinders rotate. Further, because of the high speed of such presses, the heat generated by the interplay between the gears causes a certain degree of change in tooth clearance during a long period of operation, thus affecting the accuracy of the register during the transfer of the various sheets between the various cylinders of the press. Further, even a difference in ink consistency or a change in speed of operation of the press will affect the load on the press and will ultimately have an unfavorable effect on the tooth play or backlash.

If it is attempted to correct or compensate for such variation in the placing of the sheets of paper during the transfer thereof from one cylinder to another during the press run by manufacturing one gear so that the pitch circle radius thereof is of a different size than the circumference, complete compensation may not be achieved throughout the passage of the sheet through all of the subsequent printing units. In addition, the cost of manufacturing such gears is prohibitive and the making of such gears is much more difficult.

Similarly, in those printing presses having series-arranged printing units with the printing units being driven from a common drive but in which the individual printing units can be disconnected from the other units, if the transfer drum on which the drive is disconnected is provided in addition to the regular gear rim, with a resilient gear segment which is in mesh with the next succeeding or following drive gear, a fixed gear segment is disposed thereon which cooperates only during the transfer of a sheet with an identical tooth segment on the preceding drive gear. This arrangement serves to provide a dependable maintenance of the register on the transfer drum of two separately driven printing units. It is not appropriate, however, for the kind of press discussed herein, where the individual printing units are all driven from a single drive.

According to this invention, however, there is provided in a press, in which the drive is connected from one printing unit thereof to the next, an arrangement of supplementary gears which eliminates the peripheral oscillating of the various transfer drums between the individual units of a multi-unit press. This result is obtained by providing adjacent the various intermeshing gears in the direct drive train between the vairous units of the press alternately a supplemental adjustable rigid gearing segment or resilient gearing segment, which rigid and resilient segments between two adjacent intermeshing cylinders mesh with each other at the place of transfer of the sheets between the two intermeshing cylinders. In this manner, the tooth play or backlash between the intermeshing gears of the two cylinders between which a sheet is being transferred is prohibited in either direction of rotation, with the result being that the'different printing units are maintained in register with respect to each other. in this way, the sheet will always be in the proper position for receiving the various colors in the multi-unit press at the proper location in each unit of the press with no misalignment of the sheet during the transfer thereof from one unit to the next.

With the foregoing and additional objects in view, this invention will now be described in more detail, and other objects and advantages thereof will be apparent from the following description, the accompanying drawing, and the appended claims.

In the drawing:

FIG. 1 shows a portion of the drive of a sheet-fed multi-color printing press showing two of the multiple printing units arranged one behind the other and having this invention applied thereto;

FIG. 2 is a partial section along the line IIII of FIG. 1;

FIG. 3 is a simplified diagrammatic enlarged view in- 3 dicating further aspects of the operation of the mechanism of FIG. 1.

Referring to the drawing, in which like reference characters refer to like parts throughout the several views thereof, an arrangement of apparatus embodying and for practising this invention is illustrated as being applied to the direct drive gear train between two printing stations of a sheet-fed printing press, which mechanism is for providing the driving from one unit of the press through the transfer cylinders to the second unit thereof and so on. Since such driving and gearing mechanism in multi-unit printing presses is well known and understood in this art, the drawings are primarily directed to illustrating the application of this invention to such otherwise well known or conventional printing press arrangements, and many of the constructional elements of the printing press and the impression cylinder have been omitted from the drawings for clarity and simplicity.

Thus, FIG. 1 shows impression cylinders and 11 of two succeeding units in a multi-unit rotary printing press, with spur gear 12 disposed on cylinder 10 and spur gear 13 disposed on cylinder 11. Interposed between these two impression cylinders are transfer cylinders 16, 17, and 18, with the transfer cylinders having spur gears 1?, 20, and 21, respectively, disposed on the shafts thereof. Impression cylinder 10 may be driven in conventional manner by worm gears disposed on the shaft thereof from a conventional power source, not shown. As will be understood, therefore, impression cylinder 11 drives transfer cylinder 16 through the intermeshing relationship of their respective spur gears 12 and 19. Further, transfer cylinder 16 drives transfer cylinder 17 through their respective intermeshing gears 19 and 20, and so on through the whole succession of cylinders to the next succeeding impression cylinder 11. Also, as is well known, a sheet being fed through the press will be transferred from the impression cylinder 10 via the successive transfer cylinders 16, 17, and 18 to the next succeeding impression cylinder 11. The remaining printing units or stations of the press are connected, in known manner, with each other with similar gear drives, and may or may not include the interposition of further worm drives which, however, will not be further described here as being a conventional arrangement, which does not form the subject matter of the present invention.

Axially disposed adjacent the various spur gears 12, 19, 20, 21, and 13 are gear segments 22, 23, 2 1-, 25, and 26. These gear segments are partly rigid tooth segments and partly resilient tooth segments with the rigid and resilient segments being arranged alternately along the train of gears interconnecting the various cylinders. That is, segments 22, 24, and 26 are rigid tooth segments, while segments 23 and 25 are resilient. Further, these segments are arranged to intermesh with each other at the point at which a sheet is being transferred from one cylinder to another. For example, in FIG. 1, segments 22 and 23 are shown in intermesh with each other at the point where the sheet (not shown) is being transferred from the impression cylinder 10 to the transfer cylinder 16. The rigid segments 22, 24, and 26 are immovably disposed axially adjacent their corresponding gear rims 12, 20, and 26, as is shown in FIG. 2, with segment 22 being disposed adjacent spur gear 12.

The resilient segments 23 and 25, on the other hand, are disposed on their respective cylinders 16 and 18 to yield circumferentially as between two stops 26 and 27. The resilient action is caused by an adjustable spring 28 disposed on the stop 17 which is the following stop of the segment 23 when noting the direction of rotation as indicated by the arrow 29 in FIG. 1.

The manner of operation of this device is best shown in the diagrammatic arrangement of FIG. 3. That is, with the direction of rotation noted by the arrow 30, the front flank 31 of tooth 34 of spur gear 12 rests against the rear flank 32 of the gear 19. As such, there is a clearance a present on the opposite flanks of the two intermeshing teeth. Without the arrangement described herein, this clearance a may allow a certain amount of play or oscillation between the intermeshing teeth. With the supplementary partial segments interposed over the standard intermeshing gears, however, the action of the spring 28 causes the corresponding tooth of resilient segment 23 to shift to the left in FIG. 3 the amount of the space a toward tooth 33 of the gear 12 and for the corresponding tooth of the rigid segmented portion 22 (shown in dotdash line) so that the tooth gap 36 between the flanks 31 and 37 is filled up on both sides with no room for play between the meshing gears.

Obviously, by adjusting the stop screws 26 and 27 on the resilient gear segment 25 in a corresponding manner exerts the same action on that segment. Therefore, the tooth clearances, which may be different for each set of intermeshing gears in the gear train drive and which may have different distances from cylinder to cylinder are accommodated for, thus eliminating the objectionable oscillation of the entire spur gear drive during the transfer of a sheet from one station to another in a multi-unit press. By adjusting the stop screw 27 in each case, the spring 28 associated therewith can be given a specific initial tension which controls the yieldability of its respective resilient segment.

With such an arrangement, furthermore, a certain limitation of movement is imposed upon the resilient segments which acccommodates more accurately the intermesh between the resilient segments and their respective rigid segments. For example, assuming that there is a clearance of 7 mm. between spur gears 12 and 19 in the transfer region between their respective cylinders and a clearance of mm. at the transfer point between gears 19 and 21 then stop 26 is adjusted to the larger of the two clearances (W mm.) with a slight reserve being made for accommodating the load-dependent operating conditions mentioned above. With such an adjustment, the spring 18 of resilient segment 23 will be compressed more at the transfer point between impression cylinder 10 and transfer cylinder 16 than will be the case at the transfer point between transfer cylinders 16 and 17.

Obviously, the invention is not limited to the field of application described above as relating to a multi-unit sheet-fed rotary printing press but can also be used in other applications utilizing gear drives having an objectionable oscillation and in which a correction is necessary which is both independent of the load on the drive, as well as dependent thereon.

Thus, there is provided in accordance herewith structures and arrangements in a rnulti-unit sheet-fed rotary printing press having a direct gear drive from one unit thereof to the next for accommodating individually objectionable oscillation at the intermesh between the individual gears of the drive, thus eliminating the oscillations and providing accurate registering of the printed sheets as they are transferred from one unit to the next in the multi-unit press. With such an arrangement, each sheet is presented individually at each printing station in precise registry so that the printed image thereon coincides exactly as desired with the previously or subsequently printed area of the sheet to obtain the desired final composite multi-color printed image on the sheet notwithstanding distortions of a variation of the load caused by heat acting on the individual gears of the chain of drive, or load fluctuations caused by differences in consistency of ink or differences in the loading of the individual printing units of the multi-unit machine. In addition, different variations causing different amounts of oscillation between the intermesh of the individual gears in the train can be accommodated for individually without re- "gard to different variations in the intermesh of other intermeshing gears in the train so as to provide complete elimination of all oscillation at the various transfer points between the various cylinders in the chain drive so that the adjustments at one transfer point do not affect the adjustment of a next or preceding transfer point in the chain of transfers of the sheet from one unit to the next.

As will be understood, the various rigid and resilient toothed segments may be composed of steel. Alternatively, the segments may be composed of plastic and steel disposed in alternating fashion through the gear train.

As apparent from the foregoing, the arrangements of apparatus provided in accordance herewith are readily and simply supplied, and are similarly simply applicable, as will be understood, to any simillar mechanism having a direct drive arrangement in which the individual gears thereof may have slight deviations in the teeth clearances between them which cause undesirable oscillation along the various units of the drive.

What is claimed is:

1. In multi-color sheet-fed rotary printing press apparatus of the character described having a plurality of printing stations for imprinting sequentially a series of images on sheets fed therethrough to form a final composite multi-color image on said sheets, and having an impression cylinder at each said station with at least one transfer cylinder disposed therebetween for transferring said sheets from one said cylinder and station to another with each of said impression and transfer cylinders having a spur gear member disposed thereon and on the shafts thereof and intermeshing with each other to form a direct drive gear train from a source of power through said plurality of stations, the combination which comprises,

rigid and movable gear segments each having gear teeth corresponding to the teeth of said gear members, means mounting each of said gear segments on and for circumferential movement with a respective one of said gear members at the point of transfer of the sheets from one cylinder to the next cylinder, said rigid gear segments being rigidly mounted on respective gear members for non-relative movement therewith, said movable gear segments being mounted on their respective gear members for rotational movement therewith and circumferential limited oscillation relative thereto, said rigid and movable gear segments being mounted on alternate ones of said impression and transfer cylinders whereby a movable gear segment meshes with a rigid segment at each transfer point along said direct drive gear train from one station to the next, and resilient adjustable means between said movable gear segments and their respective gear members on which the same are mounted to adjustably position such movable gear segments on their respective gear members to selectively control the intermesh between rigid and movable gear segments.

2. Apparatus as described in claim 1 in which said rigid gear segments are mounted axially of their respective gear members.

3. Apparatus as described in claim 2 in which said movable gear segments are mounted axially and rotatably on said cylinders adjacent their respective spur gears therefor, and in which a stop is disposed adjacent each end of each of said movable gear segments with means disposed on said movable gear segments providing said adjustable predetermined tension on said segments in a direction toward the direction of rotation of the said adjacent spur gears.

4. Apparatus as described in claim 1 in which said movable gear segments are mounted axially on their respective gear members, and in which a stop is disposed on the gear member adjacent each end of each said movable gear segments with resilient means disposed between said movable gear segments and said stop providing an adjustable resilient tension on said movable segments in a direction circumferential of the direction of rotation of their respective gear members.

5-. Apparatus as described in claim 3 in which said resilient means providing said adjustable resilient tension includes a spring disposed on each of said movable gear segments between one of said stops therefor and the end of the said segment adjacent thereto.

6. Apparatus as described in claims 1, 3, 4 or 5 in which said gear segments are composed of steel.

7. Apparatus as described in claims 1, 3, 4 or Sin which said gear segments as disposed along said gear train are composed alternately of plastic and steel.

References Cited UNITED STATES PATENTS 2,767,652 10/ 1956 Dietrich et al. 10l248 XR 2,932,992 4/1960 Larsh 74443 XR 2,144,752 1/1939 Dudley 101183 2,343,110 2/1944 Hale 74-440 2,484,905 10/1949 Peyrebrune 101-183 2,607,238 8/1952 English et al. 74-440 FOREIGN PATENTS 695,072 9/ 1964 Canada. 488,102 6/ 1938 Great Britain.

ROBERT E. PULFREY, Primary Examiner CLIFFORD D. CROWDER, Assistant Examiner U.S. Cl. X.R.

Po-ivso UNITED sTATEs PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,)4'77 37O Dated De 3 6 Inventor-( It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

Column 5, line 37, after- "non-relative" insert --rotative-- Column 6, line 22, the numeral "3" should read --4--,

SlGNED AND SEALED FEB 2 41970 Afloat:

mm M. Fletch 1:. Inn: 1:. 6m, .12. .I g Manner at Patents

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2144752 *Dec 23, 1936Jan 24, 1939Miehle Printing Press & MfgRotary sheet transfer mechanism
US2343110 *Oct 30, 1942Feb 29, 1944Gear SpecialtiesPreloaded gear
US2484905 *Aug 28, 1946Oct 18, 1949Miehle Printing Press & MfgDrive for multiunit printing presses
US2607238 *Apr 28, 1951Aug 19, 1952Oak Mfg CoGear drive
US2767652 *May 2, 1952Oct 23, 1956Maschf Augsburg Nuernberg AgImpression cylinder drive
US2932992 *Oct 8, 1956Apr 19, 1960Everett P LarshGeared power transmission and method of increasing the load carrying capacity of gears
CA695072A *Sep 29, 1964Ford Motor CanadaAnti-backlash device
GB488102A * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4241619 *Apr 25, 1978Dec 30, 1980Adamovske Strojirny, Narodni PodnikDevice for taking up the clearance of gear transmissions
US4651641 *Feb 11, 1986Mar 24, 1987Kabushiki Kaisha Tokyo Kikai SeisakushoOffset rotary press
US5050499 *Aug 7, 1990Sep 24, 1991Robert Bosch GmbhArrangement for correcting registration in a multi-color rotary sheet printing press
US5065677 *Dec 27, 1989Nov 19, 1991Leader Engineering Fabrication Inc.Printing plate mounting and proofing apparatus
US5852950 *Jun 6, 1996Dec 29, 1998Riso Kagaku CorporationCam device having backlash reversal suppression means
U.S. Classification101/183, 74/443, 101/248, 74/440
International ClassificationB41F13/008, B41F13/012
Cooperative ClassificationB41F13/012
European ClassificationB41F13/012