US2474983A

US2474983A - Feed table and front guide adjustment

Info

Publication number: US2474983A
Application number: US751096A
Authority: US
Inventors: Henri E Peyrebrune; Wormser Arthur
Original assignee: Individual
Current assignee: Miehle Printing Press and Manufacturing Co
Priority date: 1947-05-28
Filing date: 1947-05-28
Publication date: 1949-07-05
Anticipated expiration: 1966-07-05

Description

FEED TABLE AND FRONT GUIDE ADJUSTMENT 8 Sheets-Sheet 1 Filed May 28. 1947 f, ,Z v

i www @Ew NEU Z W f fw. /W 4 Q M L MQ .v Nm, KQ Rv 59 i949. H. E. PEYREBRUNE ETAL FEED TABLE AND FRONT GUIDE ADJUSTMENT Filed May 28, 1947 8 Sheets-Sheet 2 July 5, w49, H. E. PEYREBRUNE Erm.

FEED TABLE AND FRONT GUIDE ADJUSTMENT 8 Sheets-Sheet 5 Filed May 28, 1947 INVENTORS- 8 Sheets-Sheet 4 H. E. PEYREBRUNE ETAL FEED TABLE AND FRONT GUIDE ADJUSTMENT V l NHHIIIII? Illl July 5f, 149.

Filed may ze, 1947 INVENToRs. grab/'ami Omzef;

IITIIIIIIIII July 5, 1949. H. E. PEYREBRUNE TAL 2,474,983

FEED TABLE AND FRONT GUIDE ADJUSTMENT 8 Sheets-Sheet 5 Filed llay 28. 1947 July 5 1949- H. E. PEYREBRUNE Erm. 2,474,983

FEED TABLE-ANDFRONT GUIDE ADJUSTMENT MMMQfM-f July 5, 1949 H. E. PEYREBRUNE vET Al. 2,474,983

FEED TABLE AND FRONT GUIDE ADJUSTMENT Filed May 28, 1947 8 Shee'ts-Sheet 7 @whiff-wlw July 5, 1949. H. E. PEYREBRUNE Erm. 2,474,933

TABLE AND FRONT GUIDEADJUSTMEBT Filed May ze. 1947 u a shuts-sheet a INVENTOR.

H enrzl E. Peyreb/une, BY drthuf Wormser @am s/4%.M

Patented July 5, 1949 y .UNTfPj vS'l'NfflS vPATENTY OFFICE FEED TABLE AND FnoN'r vannum ADJUSTMENT Henri E. Peyrcbrune, River Forest, and Arthur 'Wormsen Riverside, Ill., assignora, by mesne aasignments, to Miehle Printing Press and Manufacturing Company, Chlcagorlll., a corporation of Delaware Application May 28,1941, serial No. rs1-,ose

- V1s claims. 101.21148) i The invention relatestoslieet feeding mechanism for advancing sheets either separately or inlapped relation to front registering guides and selectively modifying the front. lay ofthe regishasreference inV particular to a movable sheet Y vregistering table for adjusting the front lay of the sheets.

'I'he improvements of the invention are intended, although not necessarily limited, to sheet y feeders for printing presses wherein the individually fed sheets are first properly registered by front and side registering guides and thenA veri-- gaged by the grippers of the transfer mechanisml which presents the registered sheets to the impression-cylinder of the press for printing.

Although the sheets may be finally *and accurately registered by the sheet controlling means provided therefor on the sheet registering table, nevertheless serious inaccuracies in registration .may result in the printed sheet, depending on whether the lay of the sheet V coincides with the printing form or plate to the degree of exactness required'for the particular printingl job. This is especially important in multi-color work where any variation inthe front lay of the registered sheets or shifting inthe position of the form materially affects that preciseness in registration demanded in'.prlnting work of this character. y

It is therefore desirable to provide the operator with a convenient adjustment for the frontvlay of the registered sheets and this is accomplished by the present invention by the novel manner of supporting the sheet registering table for adjustment and by the improved structural means provided in combination therewith for effecting su'ch adjustment.`

lA further object of the invention resides in the provision of a movable sheet registering table that can be adjusted for modifying thefron't lay of the registered sheets'and whichincorporates improved means whereby .adjustments can be made to both sides ofi-the table from one side of the same and `whereby 'saidadjustments can be made during the feeding operation, thus eliminating stopping of the printing press or` v other paper processing machineand the many disadvantages incidental thereto.

Another and more specific object is to provide an adjustable sheet registering table capable'rofmovement in directions parallel tojthe travel of the fed sheets as well as angularly in the plane of said sheets, with said angular movement taking place about a swivel point at the front edge of the table relatively close to the side registering guides. e

Another object to provide a vsheet registeringV table which is movable as above described for tered `sheets and wherein the side registering guides are stationary, being supported by conventional" frame structure independently of: the movable table.

Another object resides in .the provision of novel means for supporting a sheet registering table for adjustable movement for modifying the front lay ofthe registered sheets and which has combined therewith eccentric means `located at the rearv of the table for effecting said adjustments and which can be done conveniently and accurately to a ne degree including adjustments microscopic in amount.

Another object of the invention resides in the combinationjwith an adjustable registering table of improved actuating means respectively for theV vthe press about a swivel point relatively .close tothe transfer mechanism .for modifying lthe frontlay of the registered sheets.

With these and various other objects in view, the invention may consist of certain novel fea.- tures` ofconstruction and operation as Iwill be more fully 'described and particularly pointed out in the specification, drawings and claims appended hereto.

In the drawings, which illustrate an embodiment of the invention, and wherein like reference characters are used to designate like partsf Figure 1 is a longitudinal sectional view, some parts being shown in elevation, of asheet registering table incorporating the improvements of vthe present invention; A.

Figure 2 is a side elevational view of the'sheet vregistering table of the invention illustrating the Y association .therewith of sheet transfer vmeans f and an impression cylinder;

Figure 3 lis atop plan view fragmentary in extent illustrating the sheet controlling means car- 3 ried by the table at the forward end of the same; Figure 4 is a top plan view of 4the registering table of the invention illustrating the manner of supporting the same for adjustable movement;i

Figure 5 is a fragmentary top plan View illustrating the eccentric supporting means at the rear of the sheet registering table and the structure for effecting selective actuation of said eccentric supporting means; v

Figure 6 is a detail sectional view taken substantially along line B-B of Figure 1 and showing one of the eccentrics for adjustably supporting the rear of the table;

Figure 7 is a detail sectional View taken substantially along line 1--1 of Figure 1 and illustrating the structure for adjusting the eccentrics;

Figure 8 is a vertical sectional view illustrating certain structural details of the front registering guides and the improved actuating means therefor;

Figure 9 is a fragmentary sectional view taken substantially along line 9-9 of Figure 8;

Figure 10 is a. vertical sectional view illustrating certain structural details of the sheet detector means and the improved actuating means therefor;

Figure 11 is a fragmentary sectional view taken substantially along line II-il of Figure 10; Figure 12 is a top plan view of the sheet detector means;

Figure 13 is a fragmentary perspective view illustrating structural details of the front swivel member, and

Figure 14 is a fragmentary elevational view showing the means for adjustably supporting the l front end of the table.

nated by

numerals

21 and 28 extend transverselyl of and connect the

side frame members

22 and 23. Said frame and top board 2 I, comprising the sheet registering table, are supported by stationary frame structure in a mannerproviding for adjustable movement of the sheet registering table for modifying the lay of the sheets registered by the table. Said stationary frame structure essentially consists of frame elements 30 and 3l located on the respective sides of the table and which adjustably support the table by means of eccentrics at the rear and supporting links or connecting rods at the forward end of the table, all of which will be presently described in detail.

The

frame members

22 and 23 journal the roller 32 over which pass tapes for advancing the sheets to the forward end of the table in the well known manner. In accordance with the invention the

members

22 and 23 are cut away as at 33 to provide a recess within which is disposed supporting structure such as the rods 34 for supporting adjustable side registering guides 35 and which are thus supported by the stationary frame structure independently of the movable table 20. At the forward end of the table there are Iprovided sheet controlling elements which register the front edge of the sheets prior 4 to their being fed to sheet processing mechanism such as a printing press. The sheet controlling elements generally consist of introducing nozzles 36, slow down hooks 31, front registering guides 33 a'nd 39, and sheet detector means generally indicated by numeral 40.

Operation of a sheet registering table such as described above is as follows: Sheets are advanced in the conventional manner by the moving tapes and which may feed the sheets separately or in lapped relation, all as well known in this art. At the forward end of the table the leading edge of the sheets is engaged by the introducing nozzles 36 which guide said edge into contact with the slow down hooks which function as preliminary means for registering the front edge of each sheet. After having received a preliminary registration the sheet is then presented by the slow down hooks 31 to the front registering guides 38 which finally and accurately register the front edge of the' sheet, thus determining or accomplishing the lay of the sheets on the feed table. While in this position the sheet is then side registered by the side registering guides 35. The improvements of the invention are intended. although not necessarily limited, to sheet feeders for printing presses and when the table is associated with a printing press it will be understood that the sheet transfer mechanism 4I of the press including the sheet gripping elements '42 are operative to grip the leading edge of the registered sheet, removing the same from the feed table for the purpose of presenting the sheet to the gripper mechanism 43 of the impression cylinder 44 of `the press. Although the sheets on the feed table are finally and accurately registered with respect to each other by the front registering guides, nevertheless perfect registration of multi-color work can only be secured when the lay of the sheet coincides with the printing form or plate of the press. It is therefore desirable that the press operator be able to conveniently adjust the front lay of the registered sheets and this is accomplished by the present invention i by supporting the sheet registering table in a manner permitting adjustable movements of the table in a direction parallel to the travel of the fed sheets as well as at an angle laterally in the plane of travel of said sheets and about a swivel point located at the front edge of the table relatively close to the stationary side registering guides and the sheet `gripping elements of the transfer mechanism.

In accordance with the inventionthe parallel and angular adjustments of the sheet registering table are effected by means of eccentrics located at the rear of the table, as best shown in Figures 4, 5 and 6. The

side frame members

22 and 23 are each provided with arear journalling portion 45, which portion is bored'for receiving the eccentrics 46 and 41, respectively, said eccentrics being formed integral with the

arms

48 and 49. Each eccentric and arm is bored for receiving its stub shaft 50, the same being suitably fixed toits stationary side frame 30 or 3|. Thus the frame members 'of the registering table are supported by stub shafts 50 and adjustment is provided for through the eccentrics 46 and 41 rotatable on said stub shafts. The arm 48 is connected at 5l'to link 52 which is pivotally connected' in turn to the arm 53 fixed to shaft 54. The shaft extends transversely of the table frame and is journalled for rotation by the

members

22 and 23. In a similar manner the arm 48 is pivotally connected at 55 to link 56 which is connected in turn at 51,

armena I and two arms, namely, 60 and 5|, together with locking screws for locking the parts in adjusted position. Whereas, the lever is mounted for free rotation on shaft 54, the arms are fixed to the shaft by pins 62 so that movement of the arms will produce rotation of the shaft. Lever Il is locked in position by the locking screw I3, the

shank of which is disposed in the arcuate slot 54 and threadedl into frame 23. The arm 60 is locat-l ed on the opposite side of the frame 23 and is substantially similar in size to lever 58 having an arcuate slot 65 within which is located the shank of locking screw 66, said screw having threaded engagement in frame 23 for locking the arm thereto. Arm 6| is smaller in size than both lever 58 and -arm 50 but is constructed similarly, having a slot 61 for accommodating the locking screw 88 and which has threaded connection to lever 58 to which lever the arm 6| is thus locked.

It will be understood that actuation of the links 52 and A55 will rotatethe eccentrics for adjusting the registering table. When both eccentrics are rotated to the same extent the table will move in a direction-'parallel to the travel of the fed sheets.

- .In other-words toward or away from the sheet carrying .cylinderas desired. ARotation of only one of the eccentrics or rotation of both in unequal amounts will produce angular movement of the table laterally in the plane of the sheets to adjust the position of the table angularly of the.

direction of travel of the fed sheets. In other Words rotation of one eccentric will directly affect the parallel relation of the bar 24 with respect to the axis of the cylinder 4,8., The adjusting device provides accurate means for the operator to make such adjustments of the table and it will be. seen that the eccentrics on both side of thev table are actuated by said device which is located on the feeder side of the table where it is most convenient and accessible to the operator. For eiecting adjustment of eccentric 46 on the driving side of the table the locking screws 66 and 88 are releasedso that the shaft 54 can be rotated.

By inserting a pin wrench or similar tool in recess 18 the arms can be moved to the desired, predetermined extent and which can Abe measured by the indicia on plate 1|, Figure 5. The arms are then locked by tightening theA screws 66 and 68. For adjusting eccentric 41 on the feeder side voi.' the table itis necessary to release

screws

63 and 68 and by inserting the tool in recess 12 the 4 'lever 58 onlyis moved since shaft 54. remains locked. When it is desired to adjust both eccentrics equally the locking screws 63 and 68 are released so that lever 58 and arm 60 are free to move and the desired adjustment can thus be effected. It will be understood that this actuation will be uniform for both eccentrics since lever 58 is locked to shaft 54 through arm 6|.

In accordance with the invention the parallel and lateral adjustments as herein` described will be imparted to the table'at the rear thereof, the table being supported at its forward end by means of links 19, see Figure 14, one of which is pivotally attached to each side of-the table. The de'- the sheet transfer grippers when first installed. This arrangement permits of. forward and backward movement of the table as well as of the center line of the registering table and functionsV as a guide to prevent any lateral movement thereof. Said swivel essentially consists of a swivel* member 14 which is fixed toor formed integral with the 'main frame 15 of the feeder, Figure 2. The swivel member is mounted'between the two guide blocks 18 secured by boltsl11, Figures 8 and 13, or otherwise fastened to the front transverse member 24 of the table. Parallel movement of the registering table is accordingly permitted since for this movement the guide blocks 15 will move parallel to the side edges of the swivel member 14 as the table rocks on its supporting links. It will be understood that a vdefinite angular adjustment of the table 28 in the horizontal plane can be accomplished. For that purpose vthe guide nblocks 16 on the member 24 and the stationary member 14 function as` a pivot or swivel at the front end of the table. and the lateral movement thereof is transmitted to the rear section of it. Such movement is limited and is absorbed by an axial sliding movement of the eccentrics 48 and 41 on their respective stub shafts 50. This movement is so infinitesimal that the coacting memf bers present no interference therewith. The angular movement of the registering table actually takes place about a swivel axis which substantially to the front registering guides. Also its distance v' from the stationary side registering guides is not.

so great as to interfere with the registering function of said guides considering the limited angular movement of the table required for adjusting the front lay of the sheets. When making an angular adjustment of the table, the movement which takes place can best be explained with refrence to Figure 4 of the drawings.- For example, to correct any misregister of the sheets resulting from a discrepancy in the placement of the form on the plate carrying cylinder, it may be necessary to advance one corner of the sheet with respect to the other. However, it is imperative that the side register `be maintained atv all times. Therefore, any lateral movement of the table at its front end must be avoided. As indicated yswivel arrangement shown in Figure 13.

pending ends of said links are connected to the main frames 15, preferably by means of eccentric For example, by rotating the eccentric 41, see Figure 5, the feed table 20 willl have a natural tendency to rock or pivot about the eccentric 45. This would normally result in a lateral movement of the front edge or transverse member 24 to the left. However, the swivel or guide member 14 prevents any such lateral movement. Therefore, the rear portion of the table supported by the eccentrics 48 and 41 slides axially to the right on the stub shafts 50 causing the table to pivot on the swivel 14.

The front guides are carried by and are thus shaft will impart to'said guides the compound ceives the coil spring 80 motion required for performing their function.l The shaft 8| extends transversely of the registering table adjacent to and parallel with the transverse member 2l and said shaft is Journalled for rotation by the bearing brackets 02 which are integral with an arcuate supporting arm 08 pivotally supported at Il by brackets 80. Bodily movement is imparted to the bearing brackets 82 in an up and down direction by the actuating arms 88 which are suitably ilxed to operating shaft 81 journalled for rotation by bearings 88, Figure 3. The actuating arms 88 at their free ends each carry a roller for contacting the undersurface of bearing bracket 02 to thus minimize the frictional resistance which arms 08 would otherwise -encounter in lifting the bearing brackets and shaft 8| journalled thereby. Each bearing bracket is formed with an integral projection 9| which connects by means of pin 82 with the rod 88 extending through the fixed shaft 04, Figure `l. 'I'he depending end of rod 98 rewhich is maintained on said rod under compression. The action of said coil spring is to hold the and shaft 0| in down position and which locates the front registering guides with their cover plates 18 at the correct distance from the registering table. The operating shaft 81 may be oscillated by the arm 88, Figure 3, ilxed to the shaft and vcarrying the roller 81 at its opposite end which bearing members 82 In operation. a sheet to be processed is registered against the front guides 88 while they are in a position as shown in Figure 8. Immediately thereafter and in timed relation with the transfer mechanism Il which is indicated in Figure 2, the guides 88 are receded from the path of the sheet to permit the transfer of it to the sheet carrying cylinder I8, also shown in Figure 2. This movement is accomplished by means of the cam |0| which controls the movement of lever |02. As cam |0| revolves with shaft |00 the spring |18 acting on lever lil, see Figure 3, urges shaft 8| and thereby the guides 88 with the cover plates 'I8 in the clockwise direction. This movement is also transmitted through link bell crank 06, and link |00 to the lever |02 thereby maintaining the contact relation of roller |88 with cam |0| After the leading edge of the sheet has been thereby imparting counter-clockwise movement to bell crank |08 through the connecting link |88 and to the shaft,8| and guides 88 through the intermediary of link and'lever ||8.

contact the periphery of cam |0|. The outer end of arm |02 is pivotally connected by link |00 with one arm of the bell crank lever |00 supported for rotation at |01 by the bracket |00 suitably fixed to the transverse member 28. The other arm of the bell crank lever pivotally connects at ||0 with the link which has pivotal' connection at its opposite end as at ||2 with the lever I I8. Said lever i8 is suitably ilxed to shaft 8|, and as shown in Figure 9. the lever actuates structures 80 which` provide the front registering guides 38. As shown in Figure 3, shaft 8| at its ends is provided with lever ||4 which is fixed to the shaft'by pin ||0 so as to rotate therewith. The lever III pivotally receives one end of the rod the other end of which is supported by the transverse member 28. The coil spring is carried by rod H6, the same being conilned between the member and the bracket and being under compression so that its action is to resiliently bias shaft 8| in a clockwise direction, Figure 8. This action of the coil spring maintains roller .|04 against the actuating cam |0|. Rotation of shaft 8| in a clockwise direction accordingly takes place as a result of tension im parted thereto by coil spring when permitted by cam |0|, whereas, rotation of shaft 8| in a counterclockwise direction is effected by cam |0| by forcing arm |02 downwardly. In addition to this oscillating motion of arm 0| and thus the front registering guides 38 and 89 fixed thereto it will be understood that the parts have bodily movement as a result of the lifting action of arms 86.

Simultaneously with the return movement of the guides 88 the shaft 81,'actuated by means of the cam 88 the lever 00, Figure 3, is rocked in counter-clockwise direction causing levers 88 to elevate the bearings 82 and therewith the complete front guide assembly until the guides 88 and cover plates 'I8 are raised substantially above the feed table 20. This movement of the guides is for the purpose of raising the trailing portion of the transferred sheet and insuring engagement of the subsequent sheet` by the front guides. After the leading edge of the subsequent sheet has engaged the guides 88, the complete assembly is again lowered to the position shown in Figure 8 by virtue of the contour of cam 88. see Figure 3, which permits shaft 81 and lever 88 to move in clockwise direction thereby lowering the guides 88 and their associated members to their registering position.

Since the registering table 20 is capable of adjustable movement as herein described, it is necessary to provide improved actuating means for the sheet controlling elements carried by the table, such as the front registering guides. in order that the adjustments of the table will not vadversely affect their actuation because the actuating means are supported in. the stationary frame and do not move with the registering table. For this purpose the connecting link |00, in accordance with the invention, is perpendicularly disposed with respect to the plane of the registering table. 'I'he right angle relation between the top board 2| and the link |05 enables adjustable movement of the table to take place without affecting in the least the position of the front registering guides with respect to the table since it will be observed that the degree of oscillating movement imparted by cam |0| will be the same even thoughthe table may have movement in a direction parallel to the fed sheets or angularly with respect to the fed sheets.

A substantially similar provision is embodied in the actuating means for the sheet detector as shown in Figure 10. The detector essentially consists of the holder arm |20 pivotally secured at its rear as at |2| to bracket |22 fixed to transin which the registering table may be located.

cated on the feeder side where'it is vmost converse member 28. The forward end of the holder |20 is bifurcated as shown' in Figure 12 and the actuating link |23 is located within the bii'urcatedl arms, being pivotally secured to the holder by j the pin |24. The sheet detector |25 is located 5 forwardly of the pin, the same essentially consisting of a pendulum located between the bifurj cated arms of holder |20 and being pivotally suspended from the same as at |20 so as to swing freely. The pendulum is normally urged against the bracket |21 by means of the coil spring |28, the operative end of bracket |21 being provided with notch |30 which is vadapted to engage the depending' end of the pendulum |25 except when said pendulum has been caused to swing out of alignment with said notch as when engaged by a sheet. The link |23 is pivotallysecured at |3I to lever |32 fixed to and actuated by shaft |33 which is journalled at eachend in the stationary frames 30 and 3|. 20 The manner of operation of the detector -mech- I anism just described is as follows: The shaft |33 is repeatedly rocked during operation of the mechanism to oscillate'lever |32 and also the holder of the sheet detector means which is 25 connected to the level` by the link |23. This up and down movement of the holder 20 takes place in proper timed relation with the feeder. The pendulum has a blade portionl which projects into the path of the sheets, being fed to the front registeringguides such as 39, which are disposed on the respective sides of the sheet detector means and are similar in all respects and voperated the same as described with respect to front registering guides 38. At the time when 35 a sheet is adapted to contact the pendulum |25 l it is in elevated position so that the pendulum 'i is released with respect to notch |30 provided by stationary bracket |21. In the event the sheets are being properly fed to the front registering 40 guides, a sheet at this time will 'thus contact the pendulum and swing the same about its pivot |26 against the light tension of spring |28. This action of the sheet in swinging the pendulum in a clockwise direction, Figure 10, will move the same out of alignment with hook |30 so that as the holder |20 moves downwardly its stroke is not restrained and consequently tripping does not take place. However, in the event a sheet is misfed to the front registering guides or a sheet is not fed at all, then the pendulum |25 is not en'- gaged and swinging of the same out of alignment with notch |30 does not take place, with the result that the succeeding stroke of the holder |20 f is restrained which actuates tripping mechanism by conventional means 'not shown.

As explained in connection with the front registering guides the actuating means for the sheet Y detectorincludes the link |23 which'is perpen'I f dicularly disposed to the plane of theregistering o table. Movement of the table for adjustment. purposes .therefore does not affect the up and down movement o'f the holder |20, the magnitude of which isfthe same for any adjusted positionv as The invention therefore provides a movable sheet registering table for adjusting thefront layof the sheets registered by the table and fed to a sheet processing machine such as a printing press. The' adjusting device for the-table is lo- 7 vement to the operator whp is thus able to make the adjustments selectively' and while the feeder and press are in operation. 1 g

The invention is not to li-limited to or by details of construction of the particular embodiment thereof illustrated by the drawings, as varielements in'- a plane parallel to the fed sheets for p the purposeof modifying the lay of the sheets, and control means arranged at and actuated from one side only of the feeder for actuating said mechanism to thereby selectively effect adjustmen-t of the support parallel to the path followed by the fed sheets as well as angularly to said path and in the plane of said sheets.

2. In a sheet feeder, the combination of a support for sheets to be registered,'front guides carried by said support for determining the front lay of the sheets prior to being fed to a sheet processing machine, mechanism for imparting movement to said vsupport together with ysaid front guides in a plan'e, parallel. to the fed sheets for the purpose of modifying the frontlay of the sheets, adjustable control means for said mechanism arranged at and actuated from one side only of the feeder for selectively effecting adjustment v'of' the support parallel to the path followed by the fed sheets as well as angularly to said path and in the plane of said sheets while the feeder is in operation, and means for locking and control means -in adjusted position.

3. In a sheet feeder,.the combination of a support for sheets to be registered, sheet controlling elements carried by said support for determining the front lay of the sheets prior to being fed to a sheet processing machine, eccentric means for imparting movement. to said support together A with said sheet controlling elements in a plane parallel to the fed sheets for the purpose of modifying the front lay of the sheets, adjustable control means for said eccentric means arranged at and actuated from the feed side only of the lfeeder for vselectively effecting adjustment of the support both parallel to the pathffollowed by the fed sheets as well as'angularly 'to said path and inthe plane of said sheets, and "additional sheet controlling elements including Aside guides mounted independently of said support.

4. In a feeder for sheetprocessing machines,

the combination of a sheet registering table, sheet controlling elements for accomplishing the lay of sheets fed'to the processing machine, a sheet transfer member having sheet gripping elements for transferring registered sheets from said table to said machine, mechanism for impartingmovement to said table in' a substantially horizontal plane and control means for saidgmechanism arranged at and actuated from one side only of the feederv for selectively effecting movement of said table both parallel as well as angularly with relation to the axis of said sheet transfer member and its Isheet gripping elements and in the plane of the fed sheets forl the purpose of modifying. the

0 lay of the sheets on said registering table while the machine and feeder are in operation.

5. In a feeder for sheet processing machines, the combination of a sheet registering table, sheet 4controlling elements carried by said table for accomplishing the front lay of sheets fed to the movement to said table, and control means ar-l ranged at and actuated from one side only of the feeder for selectively effecting movement of said table bothI parallel as well as angularly with relation to the axis of said sheet transfer member and sheet gripping elements and in the plane of the fed sheets for the purpose of modifying the front lay of the sheets on said registering table while the machine and feeder are in operation,

and means operatively associated with said controlmeans for indicating the .exact degree of variation in the registering position imparted to the table.

6. In a feeder for sheet processing machines, the combination of a movable sheet registering table, sheet controlling elements mounted to move with said table for accomplishing the front lay of sheets fed to the processing machine, additional sheet controlling elements mounted for movement independently of the movement of said table, a sheet transfer member having sheet gripping elements for transferring registered sheets from said table to said machine. mechanism for imparting movement to the table, and control means for said mechanism arranged at one side y only of the feeder for selectively effecting movement of said table parallel as well as angularly.

with relation to the axis of said sheet transfer member and in the plane of the fed sheets for the purpose of modifying the front lay of the sheets on said registering table while the machine and feeder are in operation.

7. In a feeder for sheet processing machines,I

guides, introducing nozzles. and sheet slow down members, a sheet transfermember having sheet gripping elements for transferring registered sheets from said table to said machine, mechanism for imparting movement to the table, and control means for said mechanism arranged at one side only of the feeder for selectively effecting movement of said table together with its asso- 'ciated sheet controlling elements parallel as well as angularly with relation to the axis of said sheet transfer member and in the plane of the sheets for the purpose of modifying the fro'nt lay of the sheets on said registering table while the machine and feeder are in operation.

8. In combination with a printing press, a sheet feeder including a movable sheet registering table, sheet guides carried thereby, eccentric mechanism arranged at each side of the table for effecting movement of said table together with said sheet guides to adjust the front lay of the fed sheets at the sheet guides at both sides of the press,. and adjustable control means for said mechanism arranged at and actuated from one side only of the feeder and operable while the press and feeder are running.

9. In combination with a printing press, a sheet feeder including f a movable sheet registering table, sheet guides carried thereby, a sheet transfer member having sheet gripping elements for transferring registered sheets from said registering table to the printing press, mechanism for effecting movement of said table together with said sheet guides to adjust the front lay of the fed sheets with respect to said sheet grlpping'ele- 10. In a .sheet feeder, the combination of a movable frame member, a registering table supported thereby. sheet controlling devices carried by said movable frame member, a stationary frame member, eccentric mechanismcarried by the stationary frame member, and manually operated control means carried by said movable frame member for actuating said mechanism to thereby eifect adjustment of the registering table and said sheet controlling devices for the purpose of modifying the front lay of the fed sheets.

1l. In a sheet feeder, the combination of a movable frame member, a registering table supported thereby, sheet controlling devices carried by'said movable frame member. a stationary frame member, mechanism, including eccentric elements, supported by the stationary frame member and having operative association with the movable frame member on the respective sides thereof adjacent the rear of the registering table, control means for said mechanism for rotating said eccentric elements to thereby impart movement in a substantially horizontal plane to the registering table, said control means being located at and actuated from oney side of the movable frame member to selectively eifect adiustment of the registering 'table and said sheet controlling devices for the purpose of modifying the front lay of the fed sheets.

l2. In a sheet feeder, the combination of a movable frame member, a registering table supported thereby, sheet controlling devices carried by said movable frame member, a stationary frame member, mechanism, including a pair of eccentric elements rotatably supported by the stationary frame member and disposed in spaced relation at each side of the movable frame member and operatively associated therewith adjacent the rear of the registering table, a swivel member guiding said movable frame member at the forward end thereof and permitting movement of the registering table in directions parallel to the travel of the sheets fed over the table as well as angular-ly to the path of said sheets and in the plane thereof, and a manually operable control device located on one side of the movable frame member only and supported thereby for selectively actuating said eccentric elements to thereby effect adjustment of the registering table and the sheet controlling devices for the purpose of modifying the front lay of the fed sheets.

13. A sheet feeder as defined by claim 12, wherein the control device includes a member for actuating each eccentric, and locking means for the members respectively.

14. A sheet feeder as defined by claim 12, wherein the control device includes a member for actuating each eccentric, and locking means for Athe members respectively, and wherein the swivel member is located on the longitudinal center line of the registering table relatively close to the sheet controlling devices.

15. In a sheet feeder, a movable sheet registering table, sheet controlling devices carried by the table, means for effecting movement of the 13 table together with the sheet controlling devices for adjusting the front lay of the sheets fed over the table. and actuating means for the sheet controlling devices including connecting linkage at least one element of which is disposed perpendicularly to the plane of the table, whereby movement of the table for the purpose of adjusting the front lay of the sheets will not affect the operation of the sheet controlling devices.

i6. In a sheet feeder, the combination of a movable frame member, a registering table provided thereby, sheet controlling devices carried by the movable frame member, a stationary frame member, eccentric means supported by the stationary frame member and having operative association with the movable frame member on the respective sides thereof, whereby rotation of said eccentric means will impart adjustable movement to the registering table together with the sheet controlling devices for adjusting the front lay of the sheets'fed by the table, actuating means for the sheet controlling devices respectively including operating shafts journalled by thestationary frame member. and connecting linkage between each shaft and its sheet controlling device, at least one element of said linkage being disposedl perpendicularly to the plane of the table, whereby movement of the table for the purpose of adjusting the front lay of the sheets will not affect the operation of said sheet controlling devices.

17. In a sheet feeder, the combination of a movable registering table, sheet controlling elements carried thereby; mechanism for selectively 14 varying the registering position of the table at either side thereof, to thereby correct the registering lay of the fed sheets, and manually actu-L ated control means mounted at and actuated from one side only of the feeder for imparting motion to said mechanism to thereby vary the registering position of said table at either side thereof as well as parallel to the direction -of sheet travel and'while the feeder is in operation.

18. In a sheet feeder, the combination of a movable registering table, sheet controlling elements carried thereby, mechanism for selectively varying the registering position of the table at either side thereof.J to thereby correct the registering lay of the/fed sheets, and manually actuated control menns for imparting motion to said mechanism to Ithereby vary the registering position of said table at either side thereof as well as parallel tothe direction of sheet travel and while the feeder is in operation, and means operatively yassociated with said control means for indicatingzthe exact degree of variation in the registering position imparted to the table.

HENRI E. PEYREBRUNE.

ARTHUR WORMSER.

REFERENCES crran The following references are of record in the of this patent:

UNITED STATES PATENTS Number Name Date 1,545,912 Matson at July 14, 1925