US549667A - Machine for making paper tubes - Google Patents

Description

5 Sheets-Sheet l.

H DENNEY MACHINE PoR MAKING PAPBRYTUBES- j Patented Nov. 1-2, 1895.

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H. DENNEY. MACHINE EOE MAKING PAPER TUBES.

N0.'549,667. Patented Nov. 12,1895.

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ANDREW a GHAHAM.PHOT0L|THO WASHINGTDN.D.C.

(No Model.) 5 Sheets--Sheet 3.

' H. DENNEY.

MACHINE POP. MAKING PAPER TUBES. No. 549,667. Patented-Nov. 12, 1895.

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ANDREW E.GRHAM PHOTO-LWHUWSHINGTON. D C.

(No Model.) 5 Sheets-Sheet 4.

.H.DBNNBY. MACHINE EOE MAKING PAPER TUBES.

No. 549,667.. Patented Nov. 12, 1895.

INVENTOH Y O ATTORNEYS.

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1 MACHINE FOR MAKING PAPER TUBES.. l No. 549,667. Patented Nov. 12, 1895.

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UNITED STATES PATENT OFFICE.

IIARMER DENNEY, OF NEW YORK, N. Y., ASSIGNOR, BY MESNE ASSIGN- MENTS, TO THE UNITED STATES MAILING TUBE COMPANY, OF CHICAGO, ILLINOIS.

MACHINE FOR MAKING PAPER TUBES.

SPECIFICATION forming part of Letters Patent No. 549,667, dated November 12, 1895. Application led December 7, 1892. Serial No. 454,326. (No model.)

To @ZZ whom t may concern,.- longitudinal side view of the same, and Fig. Beitknown that I, HARMERDENNEY, aciti- 11 is a face view of the end plate for the zen of the' United States, and a resident of the roller. l

city, county, and State of New York, have Y Similar letters of reference indicate corre- 5 invented certain new and useful Improve- `sponding parts. 5 5

ments in Machines for Making Paper Tubes, On the two standards A' A of the machineof which the following is a specification. frame Aa tubular shaft B is mounted to turn,

This invention relates to improvements in and on one end of the same is fixed a coinmachines for making paper tubes; and the bined reel and belt-pulley C, over which a Io object'of my invention is to provide a madriving-belt C passes from apulley C3 on-a 6o chine of this kind which is simple in concounter-shaft C2. The block Dis fastened in struction, strong, and durable, and in which one `end of said shaft, and on said block a the speed of the different parts of the mamandrelD is fixed, which is located centrally chine can be so regulated that even when the in said tubular shaft B and rotates with the 15 paper is not of uniform width the same will same. 65 be laid in such a manner as to form an abso- A coil of paper a is Wound on part of the lutely close and tight joint in the tube protubular shaft B, projecting into the pulley or duced. rcel C, and the paper strip o. passes from the The invention consists of a machine for coil over pulleys E and e, mounted on the inzo making paper tubes, constructed with a roner side of the rim of the pulley O, and from 7o tary mandrel, means for conducting the tapthere passes over a pulley E', mounted beering strip upon said mandrel, arotarysleeve tween the ends of two arms E2, projecting through which the strip passes, and a rotary from the block D in the direction of the frame provided with feed-rollers, between length of the tubular shaft B, and from said 2 5 which feed-rollers the tubes pass after havpulley E the strip a passes through an open- 75 ing passed through the rotary sleeve, which ingE3 in the block D to the mandrel D, upon mandrel, sleeve, and rotary frame are rotated which it is wound so as to form a spiral core. by independent power-transmitting devices. A sleeve F is formed on the upper end of The invention also consists in the constructhe standard F on the machine-frame A, the

3o tion and arrangement of numerous parts and central aXis of which sleeve is in yline with 8o details, as will be fully described and set the central axis of the tubular shaftB. Withforth hereinafter, and nally pointed out in in said sleeve F a sleeve Gis arranged, which the claims. is provided at its outer end with a belt-pulley In the accompanying drawings, Figure l is G', over which a driving-belt G2 passes, that 35 a plan view of my improved machine for also passes over a pulley G3 on the counter- 85 making paper tubes. Fig. 2 is an end view shaft C2. of the reel, parts being broken out. Fig. 3 is At one side of the machine-frame a reel I a vertical longitudinal sectional view on the is arranged, from which a strip of paper Z9 is line 3 3 of Fig. 1. Fig. 4 is an end view of guided at an inclination upon the core d,

4o the machine, parts being broken out and formed by the paper strip CL on the mandrel, 9o others in section. Fig. 5 isa vertical transand at the other side of the machine a simiverse sectional view on the line 5 5, Fig. 6. lar reel I is arranged, from which a strip of Fig. 6 is an enlarged detail sectional plan paper b/ also passes to the core d, said strip b view through the feed-rollers and mechanism passing through a paste-pot J, having a suit- 45 for operating the same. Fig. '7 is a vertical able doctor or scraper J 9 5 transverse sectional view on the line 7 7, On the two standards K K of the machine- Fig. 6. Fig. 8 is an enlarged detail longiframe, arranged at that end of the frame optudinal sectional view of one of the rubber posite the one to which the reel or pulley C pressure and feed rollers and its shaft. Fig. is located, two disks L L are mounted to ro- 5o 9 is an end view of the same. Fig. 10 is a tate,rwhich disks are united by bars L2, in roo which bearings are formed for a series of shafts M, said shafts being provided alternately at opposite ends with the worin-wheels N, engaging worms N' on two shafts N2, arranged parallel with said bars L2 and having their ends mounted to rotate in the disks L L'. vEach shaft N2 carries at one end a pinion O, which engages the circular rack O', having a hub P', mounted loosely on the sleeve l), 011e end of which is fixed centrally in the disk L'. On the hub P' a worm-wheel P2 is fixed, which engages a worm Q on a horizontal shaft Q', arranged transversely to the length of the machine-frame and suitably journaled in bearings on the top of said machine-frame, which shaft Q' carries at its end a bevel eog-whecl Q2, engaging the bevel cog-wheel Q3, which is fixed on the same shaft Q4 with a cog-wheel R, the shaft Q4 of said united bevel cog-wheels Q3 and R being mounted in a bracket A2 on the side of the machine-frame. The cog-wheel R engages a cog-wheel R', mounted to turn on an L" shaped arm R2, that is mounted to swing on the shaft Q4 of the bevel cog-wheel Q3 and cog-wheel R, which L-shaped arm has a segmental slot R3, through which a bolt R4 passes from the bracket A2. The cog-wheel R' engages a pinion S on the end of the shaft4 S' of a tapering drum S2, over which a driving-belt S3 passes, that also passes over a tapering drum S4, fixed on the counter-shaft C2. The pinion S is interchangeable and can be replaced by a smaller or larger wheel, for a purpose that will be set forth hereinafter, and to permit of interchanging said cog-wheel the arm R2, on which the cog-wheel R' is mounted is made adjustable, so as to adapt it for the various sizes of wheels.

Between the bars L2 a soft-rubber roller M' is mounted on each short transverse shaft M, the rim of each roller having a concave annular groove. As said rollers must be made interchangeable, so as to adapt the machine for tubes of various diameters, the same are constructed as shown in Figs. 8 to 11. The shaft M is provided with two transverse slots no', through which pins m2 are passed, the ends of which rest in the notches fn.' of the central necks n2 of the end plates a3, which are mounted loosely upon the shafts M and rest against the side faces of the rollers h Screws 0 are screwed into threaded apertures extending from the ends of the shafts M to the slots m', the inner ends of said screws 0 bearin g against the transverse pins m2. Said screws press the transverse pins m2 against the necks 71,2 of the disks n3 and thus press said disks n2 against the sides of the rubber rollers M', thereby holding said rollers in the proper place 011 the shafts M.

lVhenever a roller is to be removed, the screws o are loosened, so as to permit of removing the pins m2, and then the end disks n3 and the roller M' are removed and a new roller is placed upon the shaft with the end vthe mandrel.

disks n3, the pins m2 are replaced, and the screws 0 drawn up so as to press said pins m2 against the end disks and said disks against the sides of the rubber roller. In this way the machine can easily be adjustable for tubes of: various diameters. Said rollers M' must be inter-changed to suit the various sizes of the tubes, and to facilitate this interehangin g the shafts of the rollers are held in place by detachable bearing-blocks T, (see Fi 1,) which are held in place by bow-springs T', fastened by screws T2 to the bars L2, each bow-spring resting on two adjacent bearingblocks. The mandrel D' passes between the two sets of rollers M'. A belt-pulley W is fixed on the sleeve P, and over the same a belt NV' passes, that also passes over a pulley W2 on the counter-shaft C2.

The operation is as follows: The paper strip a' is drawn from the reel upon the mandrel and is wound upon the same spirally by hand until the coils of the spiral have been passed through the rotating sleeve G, the belt and pulleys of which are so arranged that the speed of said sleeve is different from that of This rotating sleeve holds the paper coil snugly on the mandrel and pre vents 4unwinding of the same. Immediately beyond the sleeve G the two paper strips b D' are wound upon the core on the mandrel, the strip b', which is provided with paste on both sides, being wound on first, and the strip b is wound directly upon the strip 'b'. The completed tube now passes on the mandrel in between the rubber feed-rollers M' and the rotating frame formed by the disks L L' and the bars L2, and thereby the several layers of paper forming the tube are pressed together by the grooved rubber feed-rollers M' and at the same time the tube is drawn forward. The speed of rotation of said rotating frame on its longitudinal axis must be different from the speed of rotation of the mandrel and its pulley, so as to form the spirals. As said frame rotates, the pinions O on the shafts N2 are rotated as they are engaged with the circular rack O'. The said circular rack rotated around the cylinder I by means of the worm-wheels and gearing described and the belt S2 from the shaft C2. Accordingly said circular rack O' is rotated with greater or less speed, or in the same direction or the reverse direction of said pinions O, the speed of rotation of the shafts N2, and consequently the speed of rotation of the shafts M of the rollers M', varies. The paper strips are not always of the saine width and thickness, and in order to cause the edges of said paper strips to lie snugly and closely against each other, so as to form close and tight joints, it is necessary to regulate and govern the speed of rotation of the feed-rollers M' accordingly. The operator of the machine can easily accomplish this by varying the speed of' rotatation of the circular rack O' around the cylinder P. The said feed-rollers M' press the IOO IOS

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layers of paper firmly against each other and firmly against the mandrel D', which, as shown in dotted lines in Fig. 3, passes in between the two layers or sets of rollers M. The mandrel D rotates in the same direction as the frame formed by the two disks L L and the bars L2 uniting them, but, as stated before, the speed of rotation of said frame is different from the speed of rotation of the mandrel. The rubber feed-rollers M do not only press the strips of paper against each other and against the mandrel, but at the same time theymove the tube forward in the direction of its length by drawing it off the mandrehwhich travels, as has been previously stated, at a rotary speed different from the speed of rotation of the frame formed by the disks L L and the bars L2 uniting them, both said frame and the mandrel rotating on the same longitudinal aXis. As the mandrel runs in between the rubber feed-rollers it permits of exerting considerable pressure by said rollers on the tube without crushing the latter, and thus a friction can be obtained between the feed-rollers and the tube to draw the tube off the mandrel and move it in the direction -of its vlength uniformly.

The variation of speed that can be accomplished by shifting the belt S3 on the two pulleys S2 and S4L has certain limitations, and sometimes it is necessary to adjust the machine beyond these limitations, and in that case the pinion S is removed from the shaft S and is replaced by a wheel of greater or less diameter.

Having thus described my invention, what I claim as new, and desire to secure by Letters Patent, is-

1. In a machine for making paper tubes, the combination with a rotary tubular shaft, of a mandrel held concentrically in the same, a paper-holding reel on said tubular shaft, the plane of rotation of said reel being at right-angles to the longitudinal axis ofthe tubular shaft, and means for drawing the paper from said reel forward upon the mandrel and winding it upon said mandrel, substantially as set forth.

2. In a machine for making paper tubes, the combination with a rotary tubular shaft, of a mandrel mounted centrally in the same to rotate therewith, a reel mounted on the end of the tubular shaft, guide-rollers for a paper strip at the circumference of the reel, a guide-roller mounted on a projecting arm of the reel and means for drawing the paper unwound from the reel upon the mandrel and drawing the paper lengthwise on the mandrel and also winding it on said mandrel, substantially as set forth.

3. In a machine for making paper tubes, the combination with a rotary tubular shaft, of a reel fixed on one end of the same, the plane of the reel being at` right-angles to the axis of the tubular shaft; a mandrel in said tubular shaft mounted to rotate therewith,

circular rack at one end of said frame, longitudinal shafts in said rotary frame rotating 'at less'speed than the frame, pinions on the ends of said shafts engaging said rotative circular rack, a series of feed rollers in the frame and gearing for rotating said feed rol` 1ers from the above mentioned shafts in the frame, substantially as set forth.

5. In a machine for making paper tubes, the combination with a mandrel, of means for guiding a strip of paper upon the same, means for supplying strips of paper to be wound on the strip on the mandrel, a rotating frame having a speed different from that of the mandrel, a series of feed rollers on said frame, bearing blocks for the shafts of said feed rollers and springs held between the bearing blocks, each spring resting on two adjacent bearing blocks, substantially as herein shown and described.

6. In a machine for making paper tubes, the combination with a rotary tubular shaft, of a mandrel in the same, means for guiding paper upon the mandrel, a rotary frame, a series of feederollers mounted in said frame to rotate with the frame and to rotate on their own axes, and means for rotating said rotary frame at a speed varying from the speed of the mandrel, which means for rotating the frame are independent of the means for rotating the mandrel, substantially as set forth.

7. In a machine for making paper tubes, the combination with a rotating mandrel, of means for guiding a strip of paper upon the mandrel, a rotating sleeve through which the mandrel passes and a rotating frame carrying a series of feed rollers mounted to rotate within the frame on their own axes and means for rotating said sleeve and said frame at speeds differing fromthat of the mandrel, substantially as set forth.

8. In a machine for making paper tubes, the combination with a tubular shaft, of means for guiding a strip of paper on the mandrel, a mandrel held in the same, a rotating sleeve at one end of said tubular shaft and in line with the center of the same, and a rotating frame carrying feed rollers, which rollers are mounted to rotate on .their own axes and means for rotating said sleeve and frame at speeds differing from that of the mandrel, substantially as set forth.

9. In a machine for making paper tubes, the combination with a mandrel, of means for IOO IIO

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guiding a strip of paper on the mandrel, a rotating sleeve and a rotating tube-feeding device, each driven by an independent powertransmitting device at speeds differing from that of the mandrel, substantially as set forth.

l0. In a machine for making paper tubes, the combination with a rotating mandrel, means for guiding paper on the same, a rotating frame, means for rotating the same at a speed differing from that of the mandrel, rollers in said frame, means for rotating said rollers in the rotating frame on their own axes, and means for varying the speed of rotation of said feed rollers, substantially as set forth.

l1. Ina machine for making paper tubes, the combination with a rotating mandrel, of means for feeding paper to the same, a rotating frame, means for rotating the same at a speed differing from that of the mandrel, rotative feed rollers in said frame, and means for varying the speed of rotation of said rotary feed rollers independent of the speed of the rotative frame, substantially as set forth.

12. In a machine for making paper tubes, the combination with standards, of disks mounted to rotate in the same, bars connecting the disks, feed rollers mounted between the bars, Worms on the ends of the feed roller sl1afts,worm-sl1afts mounted in said disks parallel to the bars conneetin g the disks, pinions on the ends of said shafts, a rotative circular rack engaging the pinions, a sleeve on one of the disks, a Worm-wl1cel mounted on the hub of the circular rack and gearing for transmitting motion to said Worm-wheel, substantially as set forth.

In testimony that I claim the :foregoing as my invention I have signed my name in presence of two subscribing Witnesses.

HARMER DEN NEY.

Titnessew OSCAR F. GUNZ, CHARLES SeHRoEDER.

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