US362287A - Machine for straightening rods - Google Patents

Machine for straightening rods Download PDF

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US362287A
US362287A US362287DA US362287A US 362287 A US362287 A US 362287A US 362287D A US362287D A US 362287DA US 362287 A US362287 A US 362287A
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rolls
machine
roll
rod
rods
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21HMAKING PARTICULAR METAL OBJECTS BY ROLLING, e.g. SCREWS, WHEELS, RINGS, BARRELS, BALLS
    • B21H1/00Making articles shaped as bodies of revolution
    • B21H1/18Making articles shaped as bodies of revolution cylinders, e.g. rolled transversely cross-rolling

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  • 1 2 represent a pair of rolls, journaled at their endsin pillow-blocks? and provided with cog-wheels4 5, respectively, with which meshes a third cog'wheel, 6, secured to the drivingshaft.
  • the rolls should be fully as long as the rod or bar to be straightened, and are each pro- .vided at regular distances apart throughout their entirelength with circum ferential grooves so disposed that the ridges of the one roll (consequent to the formation of the grooveslwill work opposite to the grooves of the other. They are preferably located in such positions relatively to each other that a line drawn through their axes will have an angle of forty fivedegrees (more or less) to the horizon, for the reason which will appear hereinafter.
  • the rolls 1 2 may be rotated in the direction shown by the arrows, or vice versa. In other words, their contiguous faces are caused to move inwardly and outwardly, respectively.
  • the circumferential speed of the inwardly moving roll is slightly greater than that of the outwardly-moving roll, the increase being produced by forming the working part of the one of a greater diameter than the other, or by using differential cogwheels 4 5 on their shafts.
  • the shaft of the roll 2 has stationary hearings in the pillow-blocks 3, while the shaft of the roll 1 is mounted in bearings 7, which are adjustable to and from the roll 2 by means of setscrews 8 9 impinging against their opposite sldes, as fully shown in Fig. 4.
  • a feeding device is employed for evenly forclng or carrying the rod or bar to be operated upon throughout its entire length to its place between the oppositely-moving contiguous faces of the rolls and holding it in such po sition until it is gripped.
  • This feeding device consists of a bar, 10, running the whole length of the rolls, said bar being bent at right angles at both ends and pierced with holes for the re ception of the shaft of the roll 2, on which it is supported, and pivots.
  • the bar 10 is provided throughout its length with any necessary number of fingers 11, which support the rod being operated upon and feed it forward to be gripped by the differentially-trayeling rolls, and also with one or more handles or levers, 12, for prehension,according to the length or capacity of the machine.
  • the operation of the machine is as follows: The rolls are first so adjusted that the space between the-contiguous faces of the ridges is a little less than the diameter of the rod to be operated upon. The rod is then placed upon the feeder and carried into the space between the rolls, with its axis parallel therewith. It will now be seen that the rod being operated upon will be turned or revolved by the oppositely-moving contiguous faces of the rolls, and if the circumferential speed of said rolls were the same it would neither pass through between them nor fall out backward, but would maintain about the same position relatively thereto; but by imparting to them a differential circumferential speed it will be carried in the direction of the adjacent moving'face of the roll having the greater speed.
  • the rapidity with ICO 1 which the rods are carried through the rolls is plane of their axes it will be kinked or crooked in a degree corresponding to the difference between its diameter and the distance between the faces of the ridges, thereby destroying all crooks which it had on entering the machine and preventing the liability of springing back.
  • the rod passes beyond this position it is revolved and the crooks formed by the rolls gradually taken out, the least motion of the rolls having a tendency to destroy the kinks, until the rod reaches a point where the distance between said rolls is equal to or greater than its diameter, when it falls from the machine straightened.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Wire Processing (AREA)

Description

(No Model.)
M. KRUMM.
MACHINE FOR STRAIGHTENING RODS, 850.
Patented May 3, 1887.
V UNITED STATES PATENT OFFICE.
MARTIN KRUMM, OF COLUMBUS, OHIO.
.MACHINE FOR STRAIGH TENING RODS, 80c.
SPECIFICATION forming part of Letters Patent No. 362,287, dated May 3, 1887.
Serial No. 137,353. (No model.)
To all whom, it may concern:
Be it known that I, MARTIN KRUMM, a citizen of the United States, residing at Columbus, in the county of Franklin and State of Ohio, have invented certain new and useful Improvements in Machines for Straightening Round Rods, Bars, Pipes, &c., of which the following is a specification.
The invention consists in certain features of novelty hereinafter pointed out in the claims.
In order that those skilled in the art to which my invention appertains may fully understand the same, I will proceed to describe it with reference to the accompanying drawings, in which-- Figure I is a perspective view of the machine with the driving-pulley removed. Fig. II is a front elevation thereof. Fig. III is a vertical transverse section on the line3 3, Fig. II, and Fig. IV is an end elevation.
1 2 represent a pair of rolls, journaled at their endsin pillow-blocks? and provided with cog-wheels4 5, respectively, with which meshes a third cog'wheel, 6, secured to the drivingshaft.
The rolls should be fully as long as the rod or bar to be straightened, and are each pro- .vided at regular distances apart throughout their entirelength with circum ferential grooves so disposed that the ridges of the one roll (consequent to the formation of the grooveslwill work opposite to the grooves of the other. They are preferably located in such positions relatively to each other that a line drawn through their axes will have an angle of forty fivedegrees (more or less) to the horizon, for the reason which will appear hereinafter.
It will be seen that by placing each of the cog-wheels 4 5 into engagement with the driving-cog 6 the rolls 1 2 will both be revolved in the same direction, which gives their contiguous faces a consequent movementin opposite directions.
The rolls 1 2 may be rotated in the direction shown by the arrows, or vice versa. In other words, their contiguous faces are caused to move inwardly and outwardly, respectively.
The circumferential speed of the inwardly moving roll is slightly greater than that of the outwardly-moving roll, the increase being produced by forming the working part of the one of a greater diameter than the other, or by using differential cogwheels 4 5 on their shafts. The shaft of the roll 2 has stationary hearings in the pillow-blocks 3, while the shaft of the roll 1 is mounted in bearings 7, which are adjustable to and from the roll 2 by means of setscrews 8 9 impinging against their opposite sldes, as fully shown in Fig. 4. I do not, however, limit myself to the precise arrangement herein shown and described, as it is obvious that the relations of the two rolls may be reversed, the roll 2 being made to travel inward at greater speed and have adjustable bearings, while the roll 1 travels slower outwardly and is stationary.
A feeding device is employed for evenly forclng or carrying the rod or bar to be operated upon throughout its entire length to its place between the oppositely-moving contiguous faces of the rolls and holding it in such po sition until it is gripped. This feeding device consists of a bar, 10, running the whole length of the rolls, said bar being bent at right angles at both ends and pierced with holes for the re ception of the shaft of the roll 2, on which it is supported, and pivots. The bar 10 is provided throughout its length with any necessary number of fingers 11, which support the rod being operated upon and feed it forward to be gripped by the differentially-trayeling rolls, and also with one or more handles or levers, 12, for prehension,according to the length or capacity of the machine.
The operation of the machine is as follows: The rolls are first so adjusted that the space between the-contiguous faces of the ridges is a little less than the diameter of the rod to be operated upon. The rod is then placed upon the feeder and carried into the space between the rolls, with its axis parallel therewith. It will now be seen that the rod being operated upon will be turned or revolved by the oppositely-moving contiguous faces of the rolls, and if the circumferential speed of said rolls were the same it would neither pass through between them nor fall out backward, but would maintain about the same position relatively thereto; but by imparting to them a differential circumferential speed it will be carried in the direction of the adjacent moving'face of the roll having the greater speed. The rapidity with ICO 1 which the rods are carried through the rolls is plane of their axes it will be kinked or crooked in a degree corresponding to the difference between its diameter and the distance between the faces of the ridges, thereby destroying all crooks which it had on entering the machine and preventing the liability of springing back. As the rod passes beyond this position it is revolved and the crooks formed by the rolls gradually taken out, the least motion of the rolls having a tendency to destroy the kinks, until the rod reaches a point where the distance between said rolls is equal to or greater than its diameter, when it falls from the machine straightened.
Having thus described iny invention, the following is what I claim as new therein and desire to secure by Letters Patent:
1. In a machine for straightening round rods, bars, &c., the combination of a pair of rolls having alternate circumferential grooves and ridges so disposed that the ridges of the one will work opposite the grooves of the other, and suitable gearing rotating them in the same direction at different circumferential speeds, as and for the purpose explained.
2. In a machine forstraightening round rods, bars, 820., the combination, with a pair of rolls rotating in the same direction, of a feeding device consisting of a bar running the entire length of the rolls, pivoted to the shaft; of one of said rolls and provided with a handle for prehension, as explained.
3. In a machine for straightening round rods, bars, 8m, the combination, with a pair of rolls rotating in the same direction, of a feeding device consisting of a bar pivoted at its ends to the shaft of one of said rolls and provided with a number of fingers for supporting the rod to be operated upon, and a handle for prehension, as set forth.
MARTIN KRUMM.
\Vitnesses:
ALEX. WV. KRUMM, O. T. MYERs, \V. O. LEsLIE.
US362287D Machine for straightening rods Expired - Lifetime US362287A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2550842A (en) * 1948-06-25 1951-05-01 Nat Tube Co Machine for straightening pipe
US20030130074A1 (en) * 2002-01-10 2003-07-10 Petroskey Angela M. Padded athletic training device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2550842A (en) * 1948-06-25 1951-05-01 Nat Tube Co Machine for straightening pipe
US20030130074A1 (en) * 2002-01-10 2003-07-10 Petroskey Angela M. Padded athletic training device

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