US1161014A - Register device for feeders. - Google Patents

Description

W. 8. STORY.

REGISTER DEVICE FOR FEEDERS.

APPLICATION FILED MAR. 12, I912.

2 SHEETS-SHEET I.

Patented N 0v. 16, 1915.

W. B. STORY.

REGISTER DEVICE FOR FEEDERS.

APPLICATION FILED MAR. 12. 1912.

Patented Nov. 16, 1915.

2 SHEETSSHEET 2- A ttorneys.

WARD B. STORY, OF NEW YORK, N. Y., ASSIG-NOR TO WARD B. STORY COMPANY, INC., OF NEW YORK, N. Y., A CORPORATION OF NEW YORK.

REGISTER DEVICE FOR FEEDER S.

1710 all ii /tom it may concern V Be it known'that I, hum B. S'roR'r, :1 citizen of the United States, residing in the borough of Brooklyn, county of rings, city "and State of. New York, have invented a certain. new and useful Register Device for Feeders, of which the following is a specification. Y Q i This invention relatesv to machines for *feeding sheets to a printing couple, to a folder, or for feeding insert sheets or covers to the folder of a web printing machine.

The'objects of the present invention are the same as there set forth in the specification of my application for patent, filed March; 12, 1912 and. numbered serially 683,330, but are accomplished 'by means of 7 a different arrangement of mechanism. t

min the drawings, Figure 1 is a plan vicw, with parts broken away, of the operative 7 portions of a device embodying the inven- Fig. 2 is a section on the line of Fig. 1. Fig.3 is a side elevation of the retarding and accelerating cam. Fig. l is an edge 'view ofthc same. Fig. 5 is a View similar to Fig-[3, with the cam parts In a different position from that shown in Fig. 3. Fig. 6 is a similar View of the retarding cam. part. Fig. 7 is a similar view of the accelerating cam part. Fig. 8 is a diagram- Inatic view of a modification. Fig. 9 is a detail View of a portion of the device shown in Fig. 8. Fig. 10 is a plan view of a portion of the device illustrated in Fig. 8. Fig. 11 isa diagrammatic ricw of a modification.

In all of the views, like parts are desighated by the samc referencicharacters.

Referring particularly to Figs. 1 to 8 inclusive, the feed rollers 1, 1 are rotated by suitable mechanisni, at normal speed. These rollers are adapted to have the sheets fed to them from any form of feeding device, such as a pile feeder or continuous feeder.

The feeding devices similar to that shown in my con-whaling application, before identified, may be employed in feeding the sheets to the feed rollers 1, 1. From the feed n'illersthc sheets pass upon the tapes 2 betweeufl the upper gage roller 3 and lower gage roller 4. From those gage rollers, they pass-between the food table rollers 5, 5, which are rotated at normal speed and then pass from the table 6, so as to be fed between the rolls of the printing coup-lo. Re-

ferring more particularly to Figs. 1 and 2,,

. Specification of Letters Patent.

Patented Nov. 16, 1915.

Application filed March 12, 1912. Serial No. 683,331.

the table'6 has edge guides 7 7 for controlling and defining the edge of the sheet. These guides are carried, by suitable supports 8 from the frame 9, of the machine. The continuously operated driving shaft 10 drives the shaft for the feed rollers 1, 1, and feed table rollers 5, 5 by means of bevel gears. The lower gage roller 4 turns with the shaft 11. This roller is divided intoas many sections as are necessary. A lay shaft 12 is arranged parallel with the shaft 11. For the purpose ofrotating the gage rollers, I provide mechanism which comprises a spur gear 13, which is loosely mounted. upon the shaft 11. This spur gear meshes with and is,

shafts which support the feed table rollers 5, 5, which in turn is driven by the bevel gear from the shaft 10, as shown. The connections between the shaft 11 and spur gear 13 are as follows: A toothed sector 15 is fixed upon the shaft 11, and turns with the latter. A sccond'toothcd sector 16 is in engagement with the toothed sector 15, and is carried upon a short shaft 17. This short shaft is supportcdlin bearingsin the spur gear 13, and rotates with the latter. The shaft carries a crank 18 on the other side of the spur gear fromthe toothed sector. ()n the end of the crank is a pin 19, which may be hushed with a" roller, as shown, for rcductin'g friction. This pin engages with a .cam 20, which surrounds the shaft 11. The

cam is supported concentrically.inrelation to the shaft by being carried upon a bushing 21, attached to the frame 9. The cam 20 is formed of two partsan accelerating cam part 22, anda retarding cam part 23; each being shown in Figs. 6 and 7, respectively. The retarding cam part 23 is attached fixodly to the frame 9. The accelerating cam part is capable ofrotary motion in respect to the bushing. Its position is determined by means of mechanism which includes worm teeth 24 on the cam part, and a Worm 25 carried bythe frame and engaging with the worm teeth. A hand wheel 26 gives motion to the worm, and allows a limited but sufiicient rotary movement of the accelerating cam part. The lower ga e roller has a high part 27, extending a su cient distance to propel the sheet to two rollers 5, 5, and a low part 28 extending through the rethrough the agency of the spur gears 13,

the lay shaft 17 and the toothed sectors. If the cam 20 were in the form of a circular groove concentrically located in relation to the shaft 11, the shaft 17 would not be oscillated in its bearings by engagement with the crank pin with the cam. As, h0wever,

thecam slot is distorted, asshown, the pin following this cam slot will oscillate the shaft 17' to an extent which depends upon the shape of the slot and the position that the pin occupies in the cam. When the pin engages with the low part of the cam, the shaft is oscillated in one direction, andwith it the two toothed sectors are relatively moved, which'hasthe effect of turning the shaft 11 slightly in advance of the spur gear 13. When the pin is in the high part of the cam, it has the reverse efl'ect and slightly retards it. The shape of the cam is such that when the gage 29 is rising through the opening of the table, and is about to engage with the sheet which is being fed forward by the tapes, itj-will begin to be re tarded. As the sheet is being fed forward atnormal speed by means of the tapes, the retardation of the movement of the gage will bring it into engagement with the forwardedge of the sheet. This retarded movement will continue until the stop-has passed under] the upper gage roller 3, and until the forward edge of the high part 27 of the lower gage roller engages with the sheet and pinches it against the upper-gage roller 4 3. The sheet will then'lfe fed forward by engagement with these two rollers.

While the sheet'is in engagement with the gage and the latter is being retarded, the pin 19 will be in engagementwith the retarding part 23, of the cam. When the high part of the roller is in engagement with the sheet, the pin will have entered the accelerating'part 22 of the cam. The effect of this will be to oscillate the shaft 17, turn the sectors and advance the gage roller relatively to the shaft 11. The efi'ect of this will be to accelerate'the sheet so that its speed will then be equal to normal. This'accelerationwill continue until the sheet is fed-sufficiently far so that it will be'g'ripped between'the' feed table'rollers 5, 5." The operator, ,by adjust- 'ing the position of the hand wheel 26, can

displace the accelerating cam part 22 in rethe same e eat as the retardation of the gage .ated and the gage will beretarded.

lation to the retarding cam part 23, as shown I in Fig. 5. The effect of this will be to continue the acceleration for a' longer period than when the cam parts are arranged, as

will be decreased and the total movement of the sheet will be below normal.

From the foregoing description, it will be apparent that I attain the same objects by the double cam'that I do by the two-cam arrangement described in my co-pending ap plication before referred to.

Fig. 8 illustrates a modification of the inyention in which the gage 29,;instead of be ng supported upon the gage; roller, is supported upon the tapes 2. Inthis view is shown a spur gear 30,on the shaft 11, for rotating the gage roller, and this spur gear engages with an intermediate spur gear 31, which in turn, is rotated by the spur gear 13. Fig. 8 shows a convenient way of grouping the parts, the spur gear 31 being mounted upon the same shaft which supports the cam 20. This impression cylinder 33, transfer cylinder 34 and delivery cylinder 35 are arranged in the usual manner. According to the apparatus illustrated in Fig. 8, the roller 4; is of such diameter that the type will'make one complete revolution.

for each sheet that is fed. The gage, when supported by flexible carriers, will have its movement retarded in precisely the same manner as the gage 29 which is attached directly to the lower gage roller; In order to avoid any chance of slipping of the tapes upon the roller, the latter may be provided with notches 36, which will be engaged by teeth 37 carried by the tapes.

According to the modification of the inventi'on illustrated in Fig. 11, I employ accelerating rollers 38, which are geared to rotate at a speed above normal. According to this embodiment of the invention, -'thecam. 20 is sh made that it accelerates only and does not retard the movement of the gage rollers while controlling the sheet. The gage, therefore, when engaged by the sheet, moves at normal speed. The sheets are brought into engagement with the gage by acceleratio of the rollers 38,- 38, which has in the devices previously described. i

The acceleration rollers 38 38 may be eniployed in the structure illustrated in Fig.

8, in which event the sheet will. be'acceler- In accordance with the provisions of the.

patent statutes, I have describedthe pri'nciple of my invention, together with the ap-. .paratus which I now consider to represent the best embodiment thereof; but'I desire 'to have it understoodthat the apparatus shownl merely illustrative and that the invention can be carried out-in other ways.

' Having noW described my invention, what I claim as new and desire to secure by Let ters Patent, 'is:-- g

1. A registering devicehaving a movable gage, means for feeding a sheet to the gage, means for feeding the sheet from the gage,

and means for varying the movement of the gage and for accelerating'or retarding the movement ofthe last named feeding means. 2. A registering device having means for feeding a sheet to a gage, 'a movable gage; means for feeding the sheet ,from the gage; and common means for'va'rying the movement of the gage and for acceleratiiig or retarding the movement of the last named feeding means.

3. A registering device having means for feeding a sheet to a gage; means for feeding the sheet from the gage; and common means for varying the movement of the gage and for accelerating or retarding the last named feeding means, said common means being adjustable while the feeding means are in operation.

4. A registering device having means for feeding a sheet to a gage, a movable gage, means for feeding the sheet from the gage, a Single cam, and connections between the cam and the gage, and between the cam and the last named means for varying the speed of movement of the gage and for accelerating or retarding the said last named means.

5. A registering device having sheet feeding means, a movable gage, a roller, a single cam, and connections between the cam and the gage, and between the cam and the roller for varying the. speed of movement of the gage and for accelerating or retarding the roller, and means for adjusting the position of the cam for varying the amount of acceleration 0f.the roller.-

6. A registering'device having a frame, a feeding means, a movable gage, a roller and a two-part cam, one part being rigidly connected to the frame, and the other part cooperatively connected to the first part, connections between the cam and gage, and means for varying the angular relation of the two parts of the cam.

7. A registering device having means for feeding a sheet to a gage, a movable gage, means for feeding the sheet from the a cam, and means coiiperating with the last named feeding means and the cam for varying the movement of the gage and for accelerating or retarding the movement of the said feeding means.

8. A registering device having means for feed ng a sheet to a; gage, a movable. gage,

. means for feeding the sheet from the gage,

an adjustable cam, and means Cooperating with the last named feeding means and the cam for varying the movement ofthe gage "and for accelerating or retarding the move- 'ment of the said feeding means. i

9. A registering device having means for feeding a sheet to a gage, a movable gage,

10. A registering device having means for feeding a sheet to a gage, a moving gage, a

gageroller, means for driving the gage and gage roller in unison, a cam, and connect-ions between the cam and gage roller for varying the speed of the roller relatively to that of the driving means.

ll. A registering device having means for feeding a sheet to a gage, a movable gage,"a gage roller and means for rotating the' same, an adjustable cam, connections between the cam and gage rollerfjfor varying the speed of the roller relatively to that of the driving means, and means for adjusting the cam while the machine is in operation.

12. A registering device having means for feeding a sheet to a gage, a shaft carrying a gage. and means for taking the sheet from the gage, means for driving the shaft, a cam,

- and means carried by the driving means and co-acting with. the cam, for varying the speed of the taking means and gage rela-, tively to that of the driving means. l3. Aregistering-device having means for feeding a sheet to a gage, a shaft carrying a gage and means for taking a sheet from the gage, means for driving the'shaft, a cam, an arbor carried by the driving means, a crank, on the arbor, engaging the cam, connections between the shaft and the arbor for rotating the shaft relatively to the driving means.

14. A registering device having means for feeding a sheet to a gage, a gage roller and means for rotating the same, a gage carried by the gage roller, a cam, and connections between the cam and gage roller for varying the speed of the roller relatively to that of the feeding means. a

15. A registering device having means for feeding a sheet to a gage, a gage roller, and means for rotating the gage roller at the speed of the feeding means,,a gage carried by the gage roller, a cam, and connections between the cam and gage roller for varying the speed of the roller relatively to that of the driving means.

16. A registering device having sheet feeding means, means for retarding and accelerating the movement of the sheet, and means for varying the amount of acceleration, said latter means being adjustable whilethe feeding means are in operation."

17. A registering device having sheet sheet, means for accelerating the speed of the sheet, and means for varying thee-mount of acceleration.

18. A registering device having sheet feeding means, a gage for retarding the movement of thesheet, means for accelerating the movement ofthe sheet, and means for varying the amount of acceleration.

19. A registering device having sheet feeding means, a moving gage, means for retarding the movement of the gage to lower the speed of travel of the sheet, means for accelerating the speed of the sheet after retardation, and means for varying the amount of acceleration.

20. A registering device havmg sheet 21. A registering device having sheet feeding rollers,'amovinggage for retarding the speed of movement of the sheet, means whereby the sheet is gripped by the rollers after gaging, and means for accelerating or retarding the speed of the rollers.

This specification signed and witnessed this 7th day of March,1912. V

' WVARD B. STORY. Witnesses J. F. COLEMAN, JOHN L. LOTSCH.

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