US71836A - Improved machine for notching knitting-needles - Google Patents

Improved machine for notching knitting-needles Download PDF

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Publication number
US71836A
US71836A US71836DA US71836A US 71836 A US71836 A US 71836A US 71836D A US71836D A US 71836DA US 71836 A US71836 A US 71836A
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blank
cam
shaft
notching
clamps
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21GMAKING NEEDLES, PINS OR NAILS OF METAL
    • B21G1/00Making needles used for performing operations
    • B21G1/02Making needles used for performing operations of needles with eyes, e.g. sewing-needles, sewing-awls
    • B21G1/04Making needles used for performing operations of needles with eyes, e.g. sewing-needles, sewing-awls of needles specially adapted for use in machines or tools

Definitions

  • Fig. 5 a longitudinal section, of it.
  • Fig. 6 is a side view of the blank to be operated on.'
  • Fig. 7 exhibits it after its first reduction or notchin g. reduction or notching.
  • Fig. 9 shows a top view, and Fig. 10 a side view, of the blank as it appears after being slotted, the burr produced on its lower edge by the slottin g operation being subsequently ground off.
  • Fig. 11 cxhibits the blank after the next operation of boring the tongue-joint pin-hole in it has been performed, and the operation of removing from its slot the burr left on the inner surface of the slot by the drill or borer while making the joint pin-hole.
  • A denotes the base-plate ⁇ ofthe machine.
  • B is a stationary disk, ar-
  • a shaft, D runs axially through and concentrically with the disk B, and has a camwheel, E, fixed on that end of it which is next tothe disk.
  • the said shaft near its opposite end, is supported in a box, a, of a standard, F, erected on the base-plate.
  • the said shaft D at such last-mentioned end, carries an arm, Gr, which has a friction-roller, b, to rest on the periphery of a cam, H, such cam being xed upon a shaft, I, which is duly supported in standards K K, and geared to a driving-shaft, L, by gears c d.
  • the tubular shaft M has a conical, collar, N, fixed on it, the cone part c of which projects into a conical recess, d2, formed 1n a spur-gear, O.
  • This gear turns on Fig. 8 exhibits it after its second ⁇ the shaft M, and is forced or kept in Vclose contact with the cone c by means of a sliding collar-,1), arranged upon the shaft M, and held thereto by clamp-screws ere.
  • the gear O engages with a spur-gear, Q, fixed'on the shaft I.
  • the disk B supports, by suitable brackets i R, S, T, U, and V, extended therefrom, five arbors or shafts, f, g, 71., i, and 7c, each of which has a driving-pulley fixed on it, the same being as shown at l m a o p.
  • Each of such pulleys is to be revolved by a separate belt applied to it.
  • the arbors f, g, h, and 7c carry rotary cutterwheels q, fr, s, and t, there being one of such wheels to each of the said arbors.
  • the other or remaining arbor, t' has a drill, u, projecting from one end of it. This drill, at the proper time, is moved lengthwise in one direction by a lever, a2, actuated by a cam, lv, fixed on the end of the shaft I.
  • a spring, w, applied to the lever and to a projection, x, extended from a standard, y, serves to retract the drill-arbors.
  • W and X are shafts, carrying pulleys for V driving, by means of belts, some ofthe arbors.
  • Extending around the cam-wheel E is a series of clamps, Y, for holding the needle-blanks.
  • Each of such clamps has a frictionroller, z, to rest on the periphery of the cam-wheel.
  • each of the clamps is supported by an arm, a', projecting from a rocker-shaft, b', sustained by bearings fixed to the rotary head L2.
  • a bolt, Z is vapplied to the disk B, and plays through it and into the head L2, such head being with a series of six holes to receive the bolt, they being arranged at equal distances apart.
  • the bolt is shot forward by a spring, c2, and retracted by a cam, dl, fixed on the shaft I, and made to act against an arm, c, extended from the rear part of the bolt.
  • the operation of the machine may be thus described:
  • the clamps, as they are brought around to the attendant, are to be successively supplied with the needleblanks.
  • the head provided on its inner face L2 being put in revolution will be stopped when a needle-blank mayhave reached its position under the rst rotary cutter, q. This stoppage will be -effected by the bolt Z.
  • the cam-Wheel will be partially revolved by the action of the cam H and the arm G, and will crowd the. clamps toward the cutter-Wheels, and thereby force the blanks np to them.
  • a blank, on being reduced by the first cutter, will have a notch formed in it, vas shown at f in Fig. 7.
  • the bolt will be withdrawn, and thehead L2 will be again partially revolved, so as'to carry the blank up to the second cutter-wheel.
  • the blank by the action ofthe cam-Wheel, will be again notched, as seen at g in Fig. 8.
  • the blank in a similar Way will be carried in contact with the third cutter-Wheel, and will be slotted for reception of the tongue.
  • the blank Will be moved a farther distance, and will remain stationary while the drill is advanced and made to bore the joint-hole.
  • the improved machine substantially has* 2.
  • the combination of one or more vibratory clamps, Y, the cam E, and the two burrs or cutters q r, for forming the notches in the needle-blank, such clamp or clamps, cani, and .cutters being provided with mechanism for:

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Drilling And Boring (AREA)

Description

UNITED STATES f .PATENT EETeE.
WALTER AIKEN, on FRANKLIN, NEW HAMrsErEE.V
IMPROVED MACHINE FOR NOTCHING KNlTTlNvGrNEEDLE.
Specification forming part of Letters Patent No. 71,886, dated December 10, 1867.
To all lwhom, it may concern:
Be it known that I, WALTER A1KEN,.ofl Franklin, in the cojulity of Merrimac and Statel clare-the same to be fully described in the fol.
lowing specification, and represented in the accompanying drawings, of which- Y Figure 1 is a top View, Fig. 2 a front-end elevation, Figs. 3 and 4 side elevations, and
Fig. 5 a longitudinal section, of it. Fig. 6 is a side view of the blank to be operated on.'
Fig. 7 exhibits it after its first reduction or notchin g. reduction or notching. Fig. 9 shows a top view, and Fig. 10 a side view, of the blank as it appears after being slotted, the burr produced on its lower edge by the slottin g operation being subsequently ground off. Fig. 11 cxhibits the blank after the next operation of boring the tongue-joint pin-hole in it has been performed, and the operation of removing from its slot the burr left on the inner surface of the slot by the drill or borer while making the joint pin-hole. l
In such drawings, A denotes the base-plate `ofthe machine. B is a stationary disk, ar-
ranged vertically, and supported by a standard, C, erected on the base-plate. 4
A shaft, D, runs axially through and concentrically with the disk B, and has a camwheel, E, fixed on that end of it which is next tothe disk. The said shaft, near its opposite end, is supported in a box, a, of a standard, F, erected on the base-plate. The said shaft D, at such last-mentioned end, carries an arm, Gr, which has a friction-roller, b, to rest on the periphery of a cam, H, such cam being xed upon a shaft, I, which is duly supported in standards K K, and geared to a driving-shaft, L, by gears c d.
Between the cam-wheel E and the stationary disk B is a circular plate or head, L2, which is fixed on one end of a tubular shaft,
M, that is arranged concentrically with the shaft D and extended through a bearing in the standard C. The said tubular shaft M has a conical, collar, N, fixed on it, the cone part c of which projects into a conical recess, d2, formed 1n a spur-gear, O. This gear turns on Fig. 8 exhibits it after its second` the shaft M, and is forced or kept in Vclose contact with the cone c by means of a sliding collar-,1), arranged upon the shaft M, and held thereto by clamp-screws ere. The gear O engages with a spur-gear, Q, fixed'on the shaft I.
From the z bove it will be seen that the head L2 will be revolved by the action of the gears O Q and the friction-cone and its recess.
The disk B supports, by suitable brackets i R, S, T, U, and V, extended therefrom, five arbors or shafts, f, g, 71., i, and 7c, each of which has a driving-pulley fixed on it, the same being as shown at l m a o p. Each of such pulleys is to be revolved by a separate belt applied to it.-
The arbors f, g, h, and 7c carry rotary cutterwheels q, fr, s, and t, there being one of such wheels to each of the said arbors. The other or remaining arbor, t', has a drill, u, projecting from one end of it. This drill, at the proper time, is moved lengthwise in one direction by a lever, a2, actuated by a cam, lv, fixed on the end of the shaft I. A spring, w, applied to the lever and to a projection, x, extended from a standard, y, serves to retract the drill-arbors.
W and X are shafts, carrying pulleys for V driving, by means of belts, some ofthe arbors. Extending around the cam-wheel E is a series of clamps, Y, for holding the needle-blanks. Each of such clamps has a frictionroller, z, to rest on the periphery of the cam-wheel. Furthermore, each of the clamps is supported by an arm, a', projecting from a rocker-shaft, b', sustained by bearings fixed to the rotary head L2.
A series of springs attached to a ring placed next to the head L2, and connected with the several clamps Y, serve to draw such clamps into contact with the cams of the camwheel. A bolt, Z, is vapplied to the disk B, and plays through it and into the head L2, such head being with a series of six holes to receive the bolt, they being arranged at equal distances apart. The bolt is shot forward by a spring, c2, and retracted by a cam, dl, fixed on the shaft I, and made to act against an arm, c, extended from the rear part of the bolt.
The operation of the machine may be thus described: The clamps, as they are brought around to the attendant, are to be successively supplied with the needleblanks. The head provided on its inner face L2 being put in revolution will be stopped whena needle-blank mayhave reached its position under the rst rotary cutter, q. This stoppage will be -effected by the bolt Z. Next, the cam-Wheel will be partially revolved by the action of the cam H and the arm G, and will crowd the. clamps toward the cutter-Wheels, and thereby force the blanks np to them. A blank, on being reduced by the first cutter, will have a notch formed in it, vas shown at f in Fig. 7. Next, the bolt will be withdrawn, and thehead L2 will be again partially revolved, so as'to carry the blank up to the second cutter-wheel. The blank, by the action ofthe cam-Wheel, will be again notched, as seen at g in Fig. 8. Next, the blank in a similar Way will be carried in contact with the third cutter-Wheel, and will be slotted for reception of the tongue. Next, the blank Will be moved a farther distance, and will remain stationary while the drill is advanced and made to bore the joint-hole. The reason Why the blank will be maintained stationary such period of time is that a circular are, h', ofthe periphery of the cam-wheel during such time will be moving` against the friction-roller of the clamp, and consequently Will produce no motion of the clamp. Finally, the blank will be carried around to the llast or burring cutter, which will be causedI to enter the slot of the blank and remove therefrom the burr made in it by the drill. The blank is now ready to be removed from the clamp.
I claim as my invention- 1. The improved machine, substantially has* 2. The combination of one or more vibratory clamps, Y, the cam E, and the two burrs or cutters q r, for forming the notches in the needle-blank, such clamp or clamps, cani, and .cutters being provided with mechanism for:
operating them, substantially as described.
3. The combination of one or more vibratory clamps, Y, the cam E, the two burrs or cutterwheels g r, and the slotting burr, or cutter s,
provided with mechanism for operating them, substantially 'as explained.
4.' The combination of one or more rotary i clamps, Y, the cam E, the burrs or cutter-Wheels g r s, and the drill u, provided with mechanism for operating them, substantially as set forth.
5. The comblnation of one or more vibrating clamps, the barring-cutter t, thev drill u, and the slotting cutter s, arranged and provided with mechanism for operating them, substantially as explained.
- WALTER AIKEN.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20140040404A1 (en) * 2011-03-31 2014-02-06 NextPlane, Inc. System and method for federating chat rooms across disparate unified communications systems

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20140040404A1 (en) * 2011-03-31 2014-02-06 NextPlane, Inc. System and method for federating chat rooms across disparate unified communications systems

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