US2317290A - Winding apparatus - Google Patents

Winding apparatus Download PDF

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Publication number
US2317290A
US2317290A US298839A US29883939A US2317290A US 2317290 A US2317290 A US 2317290A US 298839 A US298839 A US 298839A US 29883939 A US29883939 A US 29883939A US 2317290 A US2317290 A US 2317290A
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Prior art keywords
winding
spool
rheostat
clutch
wound
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US298839A
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Edwin J Mcilvried
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Vaughn Machinery Co
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Vaughn Machinery Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H59/00Adjusting or controlling tension in filamentary material, e.g. for preventing snarling; Applications of tension indicators
    • B65H59/38Adjusting or controlling tension in filamentary material, e.g. for preventing snarling; Applications of tension indicators by regulating speed of driving mechanism of unwinding, paying-out, forwarding, winding, or depositing devices, e.g. automatically in response to variations in tension

Definitions

  • This invention relates to winding apparatus and more particularly to improved apparatus of this kind in which the speed of a rotatable takeup member is automatically varied in response to the building-up of wound material on such take-up member.
  • Another object of my invention is to provide improved winding apparatus adapted to be used with a wire drawing machine or other device for taking up material being delivered or payed-out and in which the driving means for the rotatable take-up member includes a magnetic clutch adapted to be adjusted in response to the building-up of wound material for automatically varying the winding speed.
  • Still another object of my invention is to provide improved Winding apparatus for taking up wire or other material to be wound and in which the rotatable take-up member is driven by an electromagnetic clutch adapted to operate with controlled slippage for driving the take-up member at different winding speeds and in which the magnetization of the clutch can be automatically varied for controllingr the slippage thereof.
  • Fig. l is a side elevation of my winding apparatus showing the same applied to a wire drawing machine or the like;
  • Fig. 2 is a partial sectional plan View taken through the winding apparatus
  • Fig. 3 is a wiring diagram.
  • Fig. 1 of the drawing I show my improved winding apparatus I applied to a Wire drawing machine Il, and show a strand of wire l2 passing from the capstan i3 of the drawing machine to the spool or rotatable take-up member I4 upon which the material is to be wound.
  • My improved winding apparatus includes a frame or housing I5 having a rotatable shaft I8 mounted therein.
  • One end of this shaft may project from the housing I5 and may carry an arbor or rotatable take-up member, such as the spool Il shown in this instance, and upon which the material may be wound after passing through the guide device Ila.
  • Power for driving the shaft I6 may be supplied by an independent driving motor, or as shown in this instance, may be supplied from the machine Il through the shafts I1 and I8 and the coupling I9 connecting the same.
  • I For transmitting power from the shaft ll to the shaft I6, I employ an electromagnetic or eddy current clutch 20 which, as ⁇ will be presently explained, forms a part of a control means whereby the winding speed at which the spool I4 is driven can be automatically varied in response to the building-up of the material on the spool.
  • Such variation of the winding speed is desirable, as is well known to those skilled in thisl art, because as the material builds up on the spool the Winding speed should be progressively decreased to prevent breakage of the strand or other material being wound.
  • the clutch 20 may comprise a frame 2
  • the outer rotor 22 which may also be referred to as the driving rotor is keyed or otherwise connected to the shaft Il, and the inner or driven rotor 23 may be keyed or otherwise connected to a rotatably mounted sleeve or hollow shaft 24 which surrounds the shaft I1.
  • the sleeve 2d may be drivingly connected with the shaft i6 by any suitable means, such as the bevel gears 25 and.
  • the driving rotor 22 may be of any appropriate form or construction, for example, it may comprise a wheel-like member or spider 21 and an axially projecting rim portion 29 surrounding the driven rotor 23 with an air gap 2B therebetween.
  • This rim portion 29 may be formed integral with the member 21, or as here shown, may comprise a separate annular member having circumferentially spaced ns 30 on the outside thereof and which is connected with the i member 21, either directly or with the ring 3
  • constituting the outer or driving rotor 22 may be connected by welding or by any other suitable connecting means.
  • the inner rotor 23 may comprise a disk portion or spider 32 and rings 33 and 34 mounted on opposite sides of such disk portion adjacent the rim thereof so as to provide an annular groove or recess 35 adapted to receive an energizing winding 36.
  • the rings 33 and 34 may be welded or otherwise connected with the disk member 32 and the latter may be keyed or otherwise connected with the sleeve 24.
  • the terminals of the energizing winding 36 may be suitably connected with a pair of slip rings 31 and 38 which are mounted on but insulated from the sleeve 24 and with which brushes 39 and 40 cooperate for supplying energizing current t the Winding.
  • the rotor 22 is driven by torque applied to the shaft Il.
  • the rotor 23 can be magnetically coupled with the rotor 22 to be driven thereby and thus driving torque can be transmitted through the sleeve 24 and the gears 25 and 26 to the shaft I6 carrying the winding arbor or spool I4.
  • the magnetic coupling between the rotors 22 and 23 can be varied to thereby vary the slippage between these members. In other words, by reducing the energization of the Winding 36, the slippage between the rotors can be increased and the Winding speed of the spool thereby reduced.
  • I may provide a rheostat 4I or the like in circuit with the winding 36 and may vary the setting of the rheostat in accordance with the building up of wound material on the spool.
  • I may providc'a pivotcd lever 42 which is connested with the actuating arm 43 of the rheostat by a link 44 and which cooperates with the wound material either directly or by means of a roller 45 carried thereby.
  • the arm or lever 42 will be swung on its pivot and the setting of the rheostat 4I will be correspondingly changed and will reduce the energizaton of the winding 36 of the magnetic clutch 20.
  • the slippage of the clutch will be permitted to increase and the winding speed of the spool will be correspondingly decreased.
  • the position or setting of the rheostat arm 43 with respect to the roller-carrying arm 42 can be varied or adjusted as desired by shortening or lengthening the link 44 which can be in the form of a turnbuckle so as to permit of this adjust ment.
  • I may also provide a means for varying or controlling the eiectiveness of the automatically operated rheostat 4I.
  • This means may be in the form of a second rheostat 46 which is preferably arranged in parallel with the rheostat 4I, as shown in Fig. 3, although it may be connected in series with the rheostat 4I if desired.
  • the rheostat 45 is set or adjusted manually at the beginning of the winding operation, or at times during the winding operation if this is necessary or desirable to thereby vary or determine the effectiveness which the rheostat 4I is to have. It may be desirable to provide a further adjustment of the winding speed whereby the tension on the strand I2 can be controlled o1 varied. This latter adjustment may be in the form of a third rheostat 4l provided in the energizing circuit of the winding 36.
  • the Winding 36 may be completely deenergized, as by opening the switch 48, so that the spool can be brought to a stop preparatory to being dismounted from the shaft I6.
  • the switch 48 can be actuated manually or can be incorporated in the rheostat 4I so that it will be opened automatically when the roller 45 is moved to a position corresponding with the lled condition of the spool I4.
  • I may provide a magnetic brake so that the spool will not continue to coast and cause breakage or tangling of the material.
  • I show such a magnetic brake embodied in the clutch 20 and comprising a rotor 50 carried by the disk 32 of the inner rotor 23 and arranged to operate in a stator 5I which is carried by the frame 2
  • This winding can be energized at substantially the same time that the winding 36 is deenergized, as by manual actuation of a rheostat or switch 53 contained in an appropriate energizing circuit, to thereby apply magnetic braking action to the rotor 50 asi the result of which the spool I4 may be quicklyy A brought to a stop.
  • a frame a shaft rotatable in said frame and carrying winding means upon which material is adapted to be wound
  • driving means including an electromagnetic clutch adapted to operate with controlled slippage for driving said shaft at different Winding speeds, a member cooperating with the wound material and adapted to be moved as the material builds up on said winding means, means actuated by movement of said member for controlling the slippage of said clutch, a magnetic brake comprising cooperating brake elements connected respectively with said frame and shaft,
  • driving means including an electromagnetic clutch adapted to operate with controlled slippage for driving said rotatable means at different Winding speeds, a rheostat for varying the magnetization of said clutch to control the slippage thereof, and an arm engageable with the wound material and connected with said rheostat to actuate the latter as the material builds up on the rotatable means.
  • driving means including an electromagnetic clutch adapted to operate with controlled slippage for driving said rotatable means at diierent winding speeds, an energizing circuit for said clutch, a variable resistance device in said circuit, means actuated in response to the building up of wound material for automatically varying the resistance of said device, and other control means in sald circuit comprising a series resistance and a resistance in parallel with said variable resistance and manual means for individually varying such series and parallel resistances.

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  • Operating, Guiding And Securing Of Roll- Type Closing Members (AREA)

Description

April Z0, 1943. E. J. MclLvRlED 2,317,290
wINDNG APPARATUS Filed oct. 10, 1939 lill ATTORNEY 5 Patented pr. 20, 1943 UNITED STATES PATENT OFFICE Vaughn Machinery Com pany, Cuyahoga Falls,
Ohio, a corporation of Ohio Application October 10, 1939, Serial No. 298,839
4 Claims.
This invention relates to winding apparatus and more particularly to improved apparatus of this kind in which the speed of a rotatable takeup member is automatically varied in response to the building-up of wound material on such take-up member.
Another object of my invention is to provide improved winding apparatus adapted to be used with a wire drawing machine or other device for taking up material being delivered or payed-out and in which the driving means for the rotatable take-up member includes a magnetic clutch adapted to be adjusted in response to the building-up of wound material for automatically varying the winding speed.
Still another object of my invention is to provide improved Winding apparatus for taking up wire or other material to be wound and in which the rotatable take-up member is driven by an electromagnetic clutch adapted to operate with controlled slippage for driving the take-up member at different winding speeds and in which the magnetization of the clutch can be automatically varied for controllingr the slippage thereof.
The invention may be further briefly summarized as consisting in certain novel combinations and arrangements of parts hereinafter described and particularly set out in the appended claims.
In the accompanying sheet of drawings illustrating one embodiment of the invention,
Fig. l is a side elevation of my winding apparatus showing the same applied to a wire drawing machine or the like;
Fig. 2 is a partial sectional plan View taken through the winding apparatus, and
Fig. 3 is a wiring diagram.
More detailed reference will now be made to the accompanying drawing for the purpose of describing the particular embodiment of the invention here illustrated, but it will be understood, of course, that the present illustration of the invention is by way of example and that my improved winding apparatus may be embodied in various other constructions and arrangements and can be applied to wire drawing machines, or to numerous other machines from which material to be wound is delivered or payed-out.
In Fig. 1 of the drawing I show my improved winding apparatus I applied to a Wire drawing machine Il, and show a strand of wire l2 passing from the capstan i3 of the drawing machine to the spool or rotatable take-up member I4 upon which the material is to be wound.
My improved winding apparatus includes a frame or housing I5 having a rotatable shaft I8 mounted therein. One end of this shaft may project from the housing I5 and may carry an arbor or rotatable take-up member, such as the spool Il shown in this instance, and upon which the material may be wound after passing through the guide device Ila. Power for driving the shaft I6 may be supplied by an independent driving motor, or as shown in this instance, may be supplied from the machine Il through the shafts I1 and I8 and the coupling I9 connecting the same. For transmitting power from the shaft ll to the shaft I6, I employ an electromagnetic or eddy current clutch 20 which, as `will be presently explained, forms a part of a control means whereby the winding speed at which the spool I4 is driven can be automatically varied in response to the building-up of the material on the spool. Such variation of the winding speed is desirable, as is well known to those skilled in thisl art, because as the material builds up on the spool the Winding speed should be progressively decreased to prevent breakage of the strand or other material being wound.
The clutch 20 may comprise a frame 2| having a pair of coaxial rotors 22 and 23 arranged for rotation therein and adapted to be magnetically coupled with a controlled amount of slippage or relative rotation therebetween for transmitting driving torque through the clutch. The outer rotor 22 which may also be referred to as the driving rotor is keyed or otherwise connected to the shaft Il, and the inner or driven rotor 23 may be keyed or otherwise connected to a rotatably mounted sleeve or hollow shaft 24 which surrounds the shaft I1. The sleeve 2d may be drivingly connected with the shaft i6 by any suitable means, such as the bevel gears 25 and.
26 shown in this instance.
The driving rotor 22 may be of any appropriate form or construction, for example, it may comprise a wheel-like member or spider 21 and an axially projecting rim portion 29 surrounding the driven rotor 23 with an air gap 2B therebetween. This rim portion 29 may be formed integral with the member 21, or as here shown, may comprise a separate annular member having circumferentially spaced ns 30 on the outside thereof and which is connected with the i member 21, either directly or with the ring 3| disposed therebetween. The members 2l, 29 and 3| constituting the outer or driving rotor 22 may be connected by welding or by any other suitable connecting means.
The inner rotor 23 may comprise a disk portion or spider 32 and rings 33 and 34 mounted on opposite sides of such disk portion adjacent the rim thereof so as to provide an annular groove or recess 35 adapted to receive an energizing winding 36. The rings 33 and 34 may be welded or otherwise connected with the disk member 32 and the latter may be keyed or otherwise connected with the sleeve 24. The terminals of the energizing winding 36 may be suitably connected with a pair of slip rings 31 and 38 which are mounted on but insulated from the sleeve 24 and with which brushes 39 and 40 cooperate for supplying energizing current t the Winding.
In the operation of my winding apparatus, the rotor 22 is driven by torque applied to the shaft Il. By energizing the winding 36 the rotor 23 can be magnetically coupled with the rotor 22 to be driven thereby and thus driving torque can be transmitted through the sleeve 24 and the gears 25 and 26 to the shaft I6 carrying the winding arbor or spool I4. By varying the energization or excitation of the winding 36, the magnetic coupling between the rotors 22 and 23 can be varied to thereby vary the slippage between these members. In other words, by reducing the energization of the Winding 36, the slippage between the rotors can be increased and the Winding speed of the spool thereby reduced.
To secure automatic variation or adjustment of the winding speed of the spool I4, I may provide a rheostat 4I or the like in circuit with the winding 36 and may vary the setting of the rheostat in accordance with the building up of wound material on the spool. For this purpose I may providc'a pivotcd lever 42 which is connested with the actuating arm 43 of the rheostat by a link 44 and which cooperates with the wound material either directly or by means of a roller 45 carried thereby. As the material builds up on the spool I4, the arm or lever 42 will be swung on its pivot and the setting of the rheostat 4I will be correspondingly changed and will reduce the energizaton of the winding 36 of the magnetic clutch 20. Thus as the material builds up on the spool, the slippage of the clutch will be permitted to increase and the winding speed of the spool will be correspondingly decreased.
The position or setting of the rheostat arm 43 with respect to the roller-carrying arm 42 can be varied or adjusted as desired by shortening or lengthening the link 44 which can be in the form of a turnbuckle so as to permit of this adjust ment. I may also provide a means for varying or controlling the eiectiveness of the automatically operated rheostat 4I. This means may be in the form of a second rheostat 46 which is preferably arranged in parallel with the rheostat 4I, as shown in Fig. 3, although it may be connected in series with the rheostat 4I if desired. The rheostat 45 is set or adjusted manually at the beginning of the winding operation, or at times during the winding operation if this is necessary or desirable to thereby vary or determine the effectiveness which the rheostat 4I is to have. It may be desirable to provide a further adjustment of the winding speed whereby the tension on the strand I2 can be controlled o1 varied. This latter adjustment may be in the form of a third rheostat 4l provided in the energizing circuit of the winding 36.
When the spool becomes full, the Winding 36 may be completely deenergized, as by opening the switch 48, so that the spool can be brought to a stop preparatory to being dismounted from the shaft I6. The switch 48 can be actuated manually or can be incorporated in the rheostat 4I so that it will be opened automatically when the roller 45 is moved to a position corresponding with the lled condition of the spool I4.
To expedite the stopping of the spool when the magnetic clutch is deenergized, I may provide a magnetic brake so that the spool will not continue to coast and cause breakage or tangling of the material. In this instance I show such a magnetic brake embodied in the clutch 20 and comprising a rotor 50 carried by the disk 32 of the inner rotor 23 and arranged to operate in a stator 5I which is carried by the frame 2| and provided with a magnetizing winding 52. This winding can be energized at substantially the same time that the winding 36 is deenergized, as by manual actuation of a rheostat or switch 53 contained in an appropriate energizing circuit, to thereby apply magnetic braking action to the rotor 50 asi the result of which the spool I4 may be quicklyy A brought to a stop.
From the foregoing description and the accompanying drawing it will now be readily understood that I have provided improved winding apparatus which may be used with a wire drawing machine or with various other devices for taking up the Wire or other material being payed-out or delivered therefrom. It will be seen further that by embodying in the driving means for the spool o1' take-up member an electromagnetic or eddy current clutch adapted to operate with controlled slippage, I am able to vary the winding speed in response to the progressive building up of the Wound material. It will be understood further that the use of such a magnetic clutch in the driving means of my winding apparatus provides a simple and eiiicient means for automatically securing a smooth and positive variation in the Winding speed in response to the building-up of the material on the spool or arbor While I have illustrated and described my improved winding apparatus in a somewhat detailed manner, it will be understood, of course, that I do not Wish to be limited to the particular construction and arrangement of parts herein disclosed but regard my invention as including such changes and modifications as do not constitute a departure from the spirit of the invention and the scope of the appended claims.
Having thus described my invention, I claim:
l. In winding apparatus of the character described, the combination of rotatable means upon which material is adapted to be wound, means for driving said Irotatable means including an electromagnetic clutch, a member engaging the wound material and adapted to be moved thereby as the material builds up on said rotatable means, and means actuated by movement of said member for varying the magnetization of said clutch.
2. In winding apparatus of the character described, the combination of. a frame, a shaft rotatable in said frame and carrying winding means upon which material is adapted to be wound, driving means including an electromagnetic clutch adapted to operate with controlled slippage for driving said shaft at different Winding speeds, a member cooperating with the wound material and adapted to be moved as the material builds up on said winding means, means actuated by movement of said member for controlling the slippage of said clutch, a magnetic brake comprising cooperating brake elements connected respectively with said frame and shaft,
and means for energizing said brake for stopping said shaft.
3. In winding apparatus of the character described, the combination of rotatable means upon which material s adapted to be Wound, driving means including an electromagnetic clutch adapted to operate with controlled slippage for driving said rotatable means at different Winding speeds, a rheostat for varying the magnetization of said clutch to control the slippage thereof, and an arm engageable with the wound material and connected with said rheostat to actuate the latter as the material builds up on the rotatable means.
4. In winding apparatus of the character described, the combination of rotatable means upon which material is adapted to be wound, driving means including an electromagnetic clutch adapted to operate with controlled slippage for driving said rotatable means at diierent winding speeds, an energizing circuit for said clutch, a variable resistance device in said circuit, means actuated in response to the building up of wound material for automatically varying the resistance of said device, and other control means in sald circuit comprising a series resistance and a resistance in parallel with said variable resistance and manual means for individually varying such series and parallel resistances.
EDWIN J. MCILVRIED.
US298839A 1939-10-10 1939-10-10 Winding apparatus Expired - Lifetime US2317290A (en)

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Cited By (33)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2462747A (en) * 1945-03-28 1949-02-22 Harnischfeger Corp Winch control
US2544360A (en) * 1949-11-14 1951-03-06 Gen Electric Clutch and brake mechanism
US2545534A (en) * 1948-04-05 1951-03-20 American Viscose Corp Winding machine
US2603678A (en) * 1946-10-01 1952-07-15 Helmer Transmission Corp Magnetic torque transmission
US2608355A (en) * 1950-02-23 1952-08-26 Universal Winding Co Winding machine
US2629062A (en) * 1950-10-26 1953-02-17 John A Seede Power transmission
US2630466A (en) * 1950-01-24 1953-03-03 Landis Robert Eddy-current clutch and brake motor
US2643827A (en) * 1951-01-25 1953-06-30 Hamilton Tool Co Winding apparatus
US2661825A (en) * 1949-01-07 1953-12-08 Wefco Inc High fidelity slip control
US2662264A (en) * 1951-10-03 1953-12-15 Verney Corp Textile slasher
US2675190A (en) * 1951-09-06 1954-04-13 Littell Machine Co F J Reel for feeding coil stock
US2692735A (en) * 1951-03-24 1954-10-26 Eaton Mfg Co Winding machine
US2697470A (en) * 1951-04-02 1954-12-21 Torrington Mfg Co Spring winding machine
US2741437A (en) * 1953-02-10 1956-04-10 Belden Mfg Co Constant tension take-up and let-off mechanism
US2750921A (en) * 1953-01-12 1956-06-19 Western Electric Co Tension control apparatus for thermal vaporizing coating device
US2756852A (en) * 1952-06-04 1956-07-31 Eaton Mfg Co Magnetic fluid clutch
US2779548A (en) * 1946-10-01 1957-01-29 Helmer Transmission Corp Magnetic torque transmission
US2788807A (en) * 1951-04-02 1957-04-16 Torrington Mfg Co Spring winding machine
US2796222A (en) * 1955-06-16 1957-06-18 Web Controls Corp Combination speed control and torque control device
US2834556A (en) * 1954-02-16 1958-05-13 Kraft August Lucas Tension control device
US2845235A (en) * 1954-06-25 1958-07-29 Gen Electric Electromagnetic wire tension device
US2861601A (en) * 1955-06-09 1958-11-25 Marco Ind Inc Coil winding machine
US2915254A (en) * 1955-04-20 1959-12-01 Barmag Barmer Maschf Tension and diameter control for a winding motor
US2917087A (en) * 1957-01-29 1959-12-15 Dayton Rubber Company Apparatus for winding tire beads
US2958476A (en) * 1957-10-31 1960-11-01 Dictaphone Corp Tape record machine
US2964661A (en) * 1956-10-01 1960-12-13 Metropoitan Vickers Electrical Eddy current brake system for a reactor rod
DE1104477B (en) * 1957-03-15 1961-04-13 Fritz Ungerer Dipl Ing Reel with several wrapping rings driven by friction
US3174701A (en) * 1962-06-13 1965-03-23 Frankel Sidney Winding and unwinding apparatus
US3292871A (en) * 1963-11-18 1966-12-20 Owens Corning Fiberglass Corp Apparatus for forming and collecting filaments
US3345005A (en) * 1964-12-18 1967-10-03 Kursinczky William Re-spooling machine
US3357649A (en) * 1965-08-12 1967-12-12 David And David Inc Speed control means
US3598329A (en) * 1969-10-15 1971-08-10 Maremont Corp Speed control mechanism for strand winding apparatus
US20030172531A1 (en) * 2002-03-14 2003-09-18 Bhagwat Anand Waman Method of manufacturing flat wire coil springs to improve fatigue life and avoid blue brittleness

Cited By (34)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2462747A (en) * 1945-03-28 1949-02-22 Harnischfeger Corp Winch control
US2779548A (en) * 1946-10-01 1957-01-29 Helmer Transmission Corp Magnetic torque transmission
US2603678A (en) * 1946-10-01 1952-07-15 Helmer Transmission Corp Magnetic torque transmission
US2545534A (en) * 1948-04-05 1951-03-20 American Viscose Corp Winding machine
US2661825A (en) * 1949-01-07 1953-12-08 Wefco Inc High fidelity slip control
US2544360A (en) * 1949-11-14 1951-03-06 Gen Electric Clutch and brake mechanism
US2630466A (en) * 1950-01-24 1953-03-03 Landis Robert Eddy-current clutch and brake motor
US2608355A (en) * 1950-02-23 1952-08-26 Universal Winding Co Winding machine
US2629062A (en) * 1950-10-26 1953-02-17 John A Seede Power transmission
US2643827A (en) * 1951-01-25 1953-06-30 Hamilton Tool Co Winding apparatus
US2692735A (en) * 1951-03-24 1954-10-26 Eaton Mfg Co Winding machine
US2697470A (en) * 1951-04-02 1954-12-21 Torrington Mfg Co Spring winding machine
US2788807A (en) * 1951-04-02 1957-04-16 Torrington Mfg Co Spring winding machine
US2675190A (en) * 1951-09-06 1954-04-13 Littell Machine Co F J Reel for feeding coil stock
US2662264A (en) * 1951-10-03 1953-12-15 Verney Corp Textile slasher
US2756852A (en) * 1952-06-04 1956-07-31 Eaton Mfg Co Magnetic fluid clutch
US2750921A (en) * 1953-01-12 1956-06-19 Western Electric Co Tension control apparatus for thermal vaporizing coating device
US2741437A (en) * 1953-02-10 1956-04-10 Belden Mfg Co Constant tension take-up and let-off mechanism
US2834556A (en) * 1954-02-16 1958-05-13 Kraft August Lucas Tension control device
US2845235A (en) * 1954-06-25 1958-07-29 Gen Electric Electromagnetic wire tension device
US2915254A (en) * 1955-04-20 1959-12-01 Barmag Barmer Maschf Tension and diameter control for a winding motor
US2861601A (en) * 1955-06-09 1958-11-25 Marco Ind Inc Coil winding machine
US2796222A (en) * 1955-06-16 1957-06-18 Web Controls Corp Combination speed control and torque control device
US2964661A (en) * 1956-10-01 1960-12-13 Metropoitan Vickers Electrical Eddy current brake system for a reactor rod
US2917087A (en) * 1957-01-29 1959-12-15 Dayton Rubber Company Apparatus for winding tire beads
DE1104477B (en) * 1957-03-15 1961-04-13 Fritz Ungerer Dipl Ing Reel with several wrapping rings driven by friction
US2958476A (en) * 1957-10-31 1960-11-01 Dictaphone Corp Tape record machine
US3174701A (en) * 1962-06-13 1965-03-23 Frankel Sidney Winding and unwinding apparatus
US3292871A (en) * 1963-11-18 1966-12-20 Owens Corning Fiberglass Corp Apparatus for forming and collecting filaments
US3345005A (en) * 1964-12-18 1967-10-03 Kursinczky William Re-spooling machine
US3357649A (en) * 1965-08-12 1967-12-12 David And David Inc Speed control means
US3598329A (en) * 1969-10-15 1971-08-10 Maremont Corp Speed control mechanism for strand winding apparatus
US20030172531A1 (en) * 2002-03-14 2003-09-18 Bhagwat Anand Waman Method of manufacturing flat wire coil springs to improve fatigue life and avoid blue brittleness
US7055244B2 (en) 2002-03-14 2006-06-06 Anand Waman Bhagwat Method of manufacturing flat wire coil springs to improve fatigue life and avoid blue brittleness

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