US26090A - Improvement - Google Patents

Description

UNITED STATES PATENT OFFICE.

cYRus oIIAMEERs, Jn., or PHILADELPHIA, PENNSYLVANIA.

SIVIPROVElVIENT IN MACHINES FOR FOLDING PAPER.

` Specification forming part of Letters Patent No. 26,090, dated November 15, 1859.

To If/ZZ whom t may concern:

Be it known that I, CYRUs CHAMBERS, Jr., of the city of Philadelphia and State of Pennsylvania, have invented certain new and useful Improvements in Machinery for Folding Paper, and I do hereby declare the following to be a correct description of the same, reference being had to the accompanying drawings, and to the numbers and let-ters of reference marked thereon, the same part being marked by the same letter or number wherever it occurs.

My invention mainly consists of the following improvements: First, starting the paper into the machine by means of a drop-roller so placed as to act directly with one of the folding-rollers, thus dispensing with the double series of tapes and the three rollers heretofore employed; second, feeding the end of the paper to adjustable guides, which are received into grooves in the foldingrollers, instead of feeding to marks, as heretofore; third, combining a carrying-roller with the folding-roller for the purpose of carrying the paper into the machine; fourth, bearing off the sheet from the folding-roller by means of stationary surfaces projecting from the roller; fifth, giving a peculiar and improved Inovement to the iirst folding-knife; sixth, placing the center of motion of the rst folding-knife near or within the periphery of the first folding-roller; seventh, imparting to the sheet on its passage from the foldingrollers a peculiar waved or corrugated form for the purpose of more certainly and accurately arresting its movement at the proper point; eighth, turning and conducting the paper when issuing from the rollers without the aid of tapes; ninth, an improved arrangement and movement of the packing apparatus, and, tenth, providing the packing apparatus with notches and yielding catches and giving an improved form to the bottom piece of the same, over which the plunger moves. n

To enable others to make and use my improved folding-machine, I will proceed to describe its construction and operation, referring'to the accompanying sheet of drawings, in which-e Figure 1 is a side elevation of the machine. Fig. 2 is a rear elevation. Fig. 3 is a front elevation. Fig. 4 is a ground plan. Fig. 5'

shows the undulating form given to the sheet by the peculiar arrangement of the tapes and bars. Fig. G shows the eccentric manner of hanging the first folding-knife with respect to the centers of the folding-rollers. Fig. 7 shows the drop-roller and the adjustable guides when they are down and in a position to carry the paper into the machine. Fig. 8 shows the same parts when they are raised and in a position to have the sheet fed to them. Fig. 9 is a transverse section of the first folding-roller with the curved bar or rod projecting beyond the surface of the same. Fig. 10 represents au arrangement for conducting the folded sheet out horizontally without the aid of tapes when the paper is passing downward from between the rollers. Fig. 1l shows an arrangement forturning the sheet over horizontally when the paper is passing upward between the rollers. Fig. 12 is a detached side elevation of the packingplunger and adjacent parts. Fig. 13 is a side view showing the shape of the cam for operating the drop-roller.

In the drawings, A marks the sides of the main framing of the machine; B, the crossrail's holding the side framing together; C, the main shaft, on which the cams for operating the knives and other parts of the machine are placed, and to which the drivingpower is applied. It is supported in suitable bearings on the main frame, as represented.

D marks the feed-table, on which the paper to be folded is placed; E, an adjustable guide on the far side of table I), to which one edge of t-he sheet is fed.

F is a rock-shaft working in suitable bearings across the front end of the machine and having two arms 1 1, which support the bearings of the 'drop-roller G. To the rock-shaft F are also attached two adjustable guides 2 2, Figs. 1, 4, 7, and 8, the bent endsof which extend a little beyond the point of contact between the drop-roller and the first foldingroller, as most clearly seen in Figs. 7 and 8.

H marks the first and upper folding-roller Immediately in front of the drop-roller G and resting` on the rst. folding-roller H is `a carrying-roller, I Figs. l, 3, and 4, which de rives its motion from the roller Il by frictior` It has its bearings in suitable bracket-s pro jectiug from the main frame.

H is the under folding-roller.

The upper roller H has grooves in it for the reception of the adjustable gages 2 2, which pass below its surface when the drop-roller Gr comes in Contact with it, thus allowing an unobstructed passage for the paper between rollers G and H, as clearly shown in Fig. 7.

Rollers H and H. co-operate to impart the first fold to the sheet. In addition to the grooves for guides 1, rollei1 His provided with grooves for the recept-ion of curved bars 3, the curved ends of which lie beneath its su rface, as shown in Fig. 9.

Immediately in front of the roller H is the lfirst folding-knife J, Figs. 1, 3,.and 6, se-

cured to eccentric bands 4, turning on stationary eecentrics 5. The eccentrics 5 serve also for the bearings of roller H. (See Fig. 3.) The knife J moves in an arc around the roller, the center of said arc being outside of the center of the roller, as shown in Fig. G. This arrangement of the knife causes it to move with the rollers at the moment when the folding-line of the paper has arrived opposite the edge of the knife, so that the folding-line may be carried around with the roller H and started between rollers H and H', thus making the first fold withoutarresting the motion of the sheet and requiring the knife to move only with the velocity of the periphery of the roller, whereas when the knife is arranged as heretofore its velocity must be much greater to insure accuracy of fold and prevent the paper from bagging over the knife. The eecentric movement of the knife causes it to recede from the roller H as it rises, so as to allow ample room for the paper to pass between it and the roller, and when the Vknife is down causes its edge to coincide with the line of contact of the two rollers, as shown in Fig. 6 by the dotted lines.

The knife J receives motion from a cam K on the main shaft C, through the arm L, with its friction-roller 6, rock-shaft M, and its arms 7, and the oonnecting-rods 8.

Around the roller H and extending to and passing round the pulleys 9 are four endless tapes 10, Figs. 1, 3, 4, and 5, which conduct the paper from the firstpairof folding-rollers.

The curved bars 3 are'supported at one end by a cross-bar 11, Figs. 1 and 4, so that their under surface is just above the surface of the roller H', and at the other end by the upper cross-rail B, so that their under surfacev is below the upper surface of the tapes. These bars, with their curved ends, perform three distinct and important functions: First, by their projection beyond the surface of the roller H, as shown in Fig. 9, they prevent the end of the sheet from adhering to that roller and passing in between the rollers, but cause it to tloat out on the air; second, they prevent the sheet from turning up and leaving the tapes during its passage 'from the rollers, and, third, by their being on a different level from that of the tapes they impartto line at right angles to the corrugations, n0.

matter how thin, soft, or wet the paper may be. Vhen, therefore, the corrugated folded edge of the paper strikes against the stop N, the progress of the whole sheetis immediately arrested and it remains straight and smooth in the line of the next fold, ready for the action of the second folding-knife.

At right angles to and in the same plane with the roller H is situated the second pair of folding-rollers O O, which run in suitable boxes on the upper cross-rails B, and have grooves turned in them for the reception of bars 12 and 13, Figs. 1, 2,4, and 10. These bars are so arranged as to conduct the paper horizontally from the rollers O O, the bent part of bar 13, Fig. 10, turning the paper as it descends from between the rollers. The bars thus perform thefunction of tapes, as described in a patent granted to me the 7th of October, 1856. Sliding on and supported by the bars 12 and 13 is an adjustable stop P, Figs. 1, 2, and 10, whose office is to arrest the sheet at the proper point.

Under the rollers O O and at right angles to them are the third pair of folding-rollers Q Q, running in suitable boxes on the main frame of the machine. These complete the third fold, and, when desired, discharge the folded sheet into the packing apparatus,which is situated under them.

The packing apparatus consists of an os'- cillating plunger and a frictional plunger eooperating in a box ortrough. The oscillating plunger R is about the size of the folded sheet and works on a shaft 14, supported by brackets from main frame A. It receives a vibratory or oscillating motion from eccentric 16 by means of the connecting-rod 15. When up it is at right angles to the bottom S of the packing-trough, (see Fig. 2,) and when down it is in thel position shown by the red dotted lines R in Fig. 1, and ready to receive the folded sheet as it issues from between the rollers Q Q. I,

The packing-trough is composed of a bottom piece S and two side pieces 17. The end of the bottom piece S next the plunger R is rounded oif in an arc, the center of which coincides, or nearly so, with the center of motion of the plunger. Under the bottom piece S and at inner ends of side pieces 17 are small rock-shafts 18, turning in suitable bearings. (See Figs. 3 and 12.) Each ,of these shafts has one or more catches 19, held in the position shown by spiral springs, and controlled in their backward movementby stops. They have free forward movement, so that when the plunger R moves up with a folded sheet the catches yield to let it pass and then Hy back to prevent the return of the sheet. The

plunger, having notches cut in it sufficiently large for the passage of the catches, returns to its upright position without coming in contact with them. The folded paper is held against the catches 19 by the frictional plunger T, Figs. 1 and 2, which is supported in a vertical position by the bracket 20, and held in contact with the folded sheets with any required degree of force by the springs 21, which bear against the inner surface of side pieces 17. This arrangement is capable of giving any amount or variation of friction that may be required, as clearly set forth in a patent granted to me April 5, 1859.

A fourth pair of folding-rollers U U' is supported in suitable boxes under the upper back .cross-rail B and the middle cross-rail V, Figs. 1, et, and 11, the roller U' having grooves for the reception of the ends of the bent bars 22. These bars are so situated and shaped as to turn the paper over horizontally while passing upward from the rollers U U', as shown in Fig. l1, the tapes 23 carrying the paper to the adjustable stop 24, Fig. 2, and

presenting it ready for the action of the fifth folding-knife and the fifth pair of foldingrollers XV NV.

No folding-knife except the first is4 represented, because the arrangement and operation of the succeeding ones are substantially the same as those shown and described in my previous patents above alluded to, unless it be in the case of the one for introducing the paper between the fourth pair of rollers U U', and the only difference there consists in so placing the knife as to strike the paper upward instead of downward.

The operation of the machine is as follows: The paper being placed on the feed-t-able D, with one edge against the adjustable guide E, the sheets are scraped down until the front end of the top one comes against the adjusty able gages 2, while those gages and the droproller Gr are raised to the position shown in Fig. 3 by means of cam 25, friction-roller 26,

f and connecting-rod 27. On the further rotation of cam 25 the drop-roller falls on the end of the sheet and clamps it against the revolving roller H. This starts the sheet under the carrying-roller Lwhich passes it between said roller and roller H and under the knife J. The projecting surfaces of the bent bars 3 raise the end of the sheet from the roller l-I and bear it off, so that the sheet hangs entirely clear when the folding-line of the pawhen it is struck by the second knife and forced between the second pair of foldingrollers O O, which give it a second fold and deliver it to the bars 12 and 13, the bent part of bar 13 turning the sheet and the two bars conducting it out, as before described. The momentum of the sheet is sufficient to conduct it to the stop P after it has left the rollers. The sheet now receives its third fold by bcing forced between the third pair of rollers Q Q, from which, when desired, it may be delivered to the packer, falling onto the plunger R when in the position represented by red dotted lines in Fig. 1. This is effected by leaving off the tapes that conduct the sheet to the fourth pair of rollers. When discharged from the third pair of rollers, the sheet slides down on the plunger R until it strikes the bottom piece S, when the plunger moves up and pushes the sheet past the yielding catches, which, when the sheet has passed them, return to their former position and prevent the sheet from returning with the plunger. The frictional plunger T is forced back by the pressure to make room for each additional sheet that falls from the rollers. When five folds are required, the tapes from the rollers Q Q are put on and the sheet conducted -to the fourth pair of rollers UU', when it is forced upward between them. The bar 22 turns the sheet over horizontally as it leaves rollers U U', and by the aid of tapes or otherwise conducts it to rollers W W, which give it the fifth fold.

Having thus fully described my invention, what I claim, and desire to secure by Letters Patent, is*

1. So arranging the drop-roller that it shall co-operate with one of the feeding-rollers in feeding in the sheet.

2. Forming grooves in the folding-rollers for the reception of the adjustable guides, as described.

3. The combination of the carrying-roller with the folding-roller for carrying in the sheet.

4. Giving the curved bars a projection besubstantially as and for the purpose set forth..

7. Corrugating the sheet as it passes from one folding mechanism to a position to be acted upon by the next, for the rpurpose described.

8. Turning or conducting the paper by means of the bent bars 13 or 22 or their equivalents, substantially in the manner specified.

9. The combination of the bent bars with the straight bars and adjustable stop, trmnged substantially in the manner described. 10. The combination of the bent bars with the tapes and stop, for the purpose specified. 11. The oscillating` packer or plunger R, having its Center of motion below the point of contact with the folded sheet, as set forth. l2. The yielding catches for preventing the 'return of the packed sheets, `constructed and operating substantially as described.

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