US445598A - Island - Google Patents

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US445598A
US445598A US445598DA US445598A US 445598 A US445598 A US 445598A US 445598D A US445598D A US 445598DA US 445598 A US445598 A US 445598A
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wire
tube
wheel
spool
arm
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • H01B13/06Insulating conductors or cables
    • H01B13/08Insulating conductors or cables by winding
    • DTEXTILES; PAPER
    • D02YARNS; MECHANICAL FINISHING OF YARNS OR ROPES; WARPING OR BEAMING
    • D02GCRIMPING OR CURLING FIBRES, FILAMENTS, THREADS, OR YARNS; YARNS OR THREADS
    • D02G3/00Yarns or threads, e.g. fancy yarns; Processes or apparatus for the production thereof, not otherwise provided for
    • D02G3/22Yarns or threads characterised by constructional features, e.g. blending, filament/fibre
    • D02G3/36Cored or coated yarns or threads
    • D02G3/362Cored or coated yarns or threads using hollow spindles
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/02Disposition of insulation

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  • This invention is an improvement in that class of windinganachines using a central spool of covering material and passing the Wire to be covered through the center of the spool in covering it.
  • the plan of winding with a central spool has very great advantage in regard to the speed that can be atta-ined over the gig system, in which the spool revolves wholly outside of the wire, because in the former plan all the revolving parts are concentric and perfectly balanc d, which. are indispensable conditions for high speed.
  • My invention includes an improvement in the stop-motion, which becomes necessary because of the great increase of speed and in the construction of the spools for holding the covering material.
  • FIG. 1 is a front elevation of a set of winding mechanism and a part of the-frame in which it is held, which is supposed to con tain several such sets, each set being inde pendentin its o 'ierations.
  • lrig. 2 shows a vertical section of the winding devices and the frame, taken through the center of the winding-spindle on line a; 51- in Fig. 1.
  • Fig. 3 is an enlarged view of the spool, plate, and flier in section and the stop-motion in front elevation.
  • Fig. t is an enlarged top view of the rail 0 and plate .under the spool 1 Fig.
  • the winding mechanism proper is held on the upper and loweriniddlerails G D.
  • the feeding or take-up motion is held on the front and back top rails, and the wire reel on an intermediate plate 1:.
  • the winding mechanism consists of a tubula-r spindle a, held fast in the'lower front fithc sleeve being supported on a bnshingb",
  • a drip-cup 71v is screwed on the lower end of the spintla; a to catch the oil from the bearings above and keep it oil the wire
  • the spool oi thread for covering the wire sits on the plate r. and. turns freely on the spindle n. .i tlier-armj (see Fig. 3) is placed on one end of the plate (3, the lower end of the arm passing through the plateand having a nut 2 screwed on the end below.
  • the flier-arm is held up to place when winding by a spiral spring 0, which is placed around it and has one of its ends made fast to the arm j and the other to the spindle in, fast in the plate 0.
  • lhe llier-arm j made tubular from the lower end nearly up to the thread-opening 11 in its side, and is slotted in its uppeside from a little below the opening a nearly to the upper end of the arm, which is tubular for ashort distanee from that end, with. a short bar '2 projecting out over the opening in the end of thearni and having anotch in its end to receive the .wire and assist in holding it against the drag of the thread in winding.
  • centrifugal force throws it against the outer side of the hole in the arm in which it slides;
  • a reference to Fig. 4 will show a lever r, pivoted on the top of the rail 0, in position totbe struck by the lower end of the drop-wire p.
  • This lever 0' extends out front overaknee-levers,swinging on a pivot fast in a plate 2f, that extends from the rail 0 down to the rail D.
  • a shipper-arm w which is pivoted at its inner end to a'standfaston the plate .g and its outer end extends out through an opening in the plate 25, and has.a handleshape at the end.
  • the lower arm of the knee-lever s has a hook at its lower end that will be thrown under a projection on the side of the shipper-armw by a spring b'when the arm is up, and hold the belt 1) on the fast pulley f; bht when the thread breaks or runs out the wire 1) will drop, so that'its lower end will strike the lever 'r,
  • FIG. 1 and-2 An arrangement for holding reserve spools of thread is shown in Figs. 1 and-2.
  • a tube a is held in the arm (1, fastened to p a stand on the top rail B, directly over and in line with the tube or spindle a, before mentioned.
  • This tube 0 is made long enough to hold as many spoolsof thread as may be required to cover the length of wire in one piece.
  • the spools of thread d are putupon thistube c, a
  • FIGs. '2 and 5 The feed or take-up motion is shown in Figs. '2 and 5.
  • a stand g' secured to the top rail B, has a stud 6 fastened to it, carrying a large grooved'wheel h, so placed that the groove in its front side will come directly over the hole in the tube o. The quietn the wheel is held in a slot 7 in the stand; that it maybe let up or down, as may be wanted.
  • the bar 1 on the flier besidessupporting the wire against the drag of the thread as it is wound on it, also serves an important purpose in preventing the thread when it breaks or runs out from slacking up or partially unwinding above the end of the flier and making loose places or holidays, as they are called, which are likely to open and expose the wire.
  • the wheel 72 that draws the wire of't' of the reel cfiand through the winding mechanism
  • a gear-wheel t attached to the bevel-gear s, engages with the gear-wheel 7.2 on the wheel 7/, and thus aipositive motion is conveyed to that wheel from the gear 'c,'whicli is necessary to make the covering of the wire perfect.
  • a grooved pulley a 011 tire bevel-gear s carries motion, by means of a belt or, to a grooved pulley 1," on the reel 11", which is held in stands on the backtop rail. The reel (1?, from which the wire is taken to be covered, is hold- A grooved p.ul-
  • the head of this reel has a belt or cord i" passing over it, one end being made fast to the stand and the other to a lever j pivoted at its inner end to the stand and having a weight (I hung on it to produce the uecessaryfriction to controlthe reel.
  • the wire passes down under a grooved pulley e held on a stand attached to the side of a box or trough f fastened to theinner side of the bottom girt E.
  • the stand that holds the wheel e has a slot in it to receive the stud. on which the wheel turns, and a thumb-nut g on the outer end of the stud holds the wheel up.
  • the wheel e By loosening the nut the wheel e can be set down so as to turn in the box and carry the wire through any substance in the box with which it is desired to coat the wire before it is covered. From this wheel the wire passes up through the tube u, at the upper end of which it has the thread wound on it, and it continues up through the tube 0 and around the wheel 7i as many times as may be found necessary to give the wheel sufficient hold on it to feed it through the winding mechanism. From the wheel 71 the wire goes over the wheel j and down onto the reel w.
  • the staple 3 is then drawn off and a full spool slid down over the wire onto the tu be a to take the place of the one removed.
  • the thread of the full spool is then threaded through the flier, as before described, and the machine started up again. in this way all of the spools held on the tube c :an be used to cover with without cutting the wire a, and it is consideredjhat the supply of reserved spools that can be held in this way is fully equal to covering any length of wire that can be drawn. in one piece.
  • a spool made in this way will be liable to be closed up by the winding of the thread on it, I make a heavy metallic flanged bushing 9 to go in the ends of the spool, as seen in section in Fig. 9.
  • This bushing consists of a tube f and a flange g", and it is let into the end of the spool flush with the outer side of the head, this bushing by its stifiness preventing the spoolfrom closing, as mentioned.
  • Fig. 7 the spool is made in two parts, each part having a short-dovetail h on each end, fitting into notches of the same shape in the other side, so .that' the parts of the spoolcan be put on the wire and then slid endwise to lock the dovetails.
  • the bushings in the bobbins shown in Figs. 7, 9, and It) simply serve the same purpose of the bushings usually inserted in spools-that is, to confine the hearing of the spool on the tube or spindle to the ends of the spools'to avoid the bad effects of their warping out of shape.
  • Fig. 8 shows a side view of the spool of Fig. 6.
  • ig. 9 shows the inner side of one-half of the spool in Fig. 7.
  • Fig. 10- shows the twohalves of the spool hinged together at the heads, so that they can be opened and taken off of the wire when cm pty.
  • the trough f is provided with a sliding cover 15 so that when the machine is not running the wheel e can be raised up out of the trough and the cover l slid over it to keep the contents of the trough from drying up.
  • the tube a through which passes the wire to be covered and upon which is to be placed a spool. holding the covering material, plate 0, and a filer or guide arm set in said plate at an angle to the center line of the tube a, as described, and containing a dropwire, 1n comblnatlon with means for driving' the plate and flier, substantially as described.
  • the stand 9', wheel j, and adjustable wheel h, having means for driving it, and the tube 0, having a sliding tube in it, in com bination with a wire-covering mechanism, substantially as set forth, and for ,the purpose spenelld. 5

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Manufacturing & Machinery (AREA)
  • Coiling Of Filamentary Materials In General (AREA)

Description

(No Model.)
5Sl1efs-Sheet 1. J. MQGAHEY.
' WIRE COVERING MACHINE.
Patented Feb. 3, 18 91.
(1% Model.) Y 5 sheets-sheen a J. MOOAHEY.
' WIRE COVERING MACHINE. No. 445,598 Patented Peg. 3, 1891.
MENTOR fla -w, TTDHNEY 4 t Du e h S m e e h S 5 H N I w A M G AN R B MV 0 E. R I W (No Model) No. 445,598. Patented Feb. 3, 1891.
WiTNESSES:
(No Model. 5 Sheets-Sheet 5.
J. MOOAHEY. WIRE COVERING MACHINE.
No. 445,598. V Patented Feb. 3,1891.
levers of the stop-motion.
in winding a continuous wire.
. llnttgnn States IPATENT m Q l W t J OHN MCCAHEY, OF PROVIDENCE, RHODE ISLAND, ASSIGNOR ENGLAND BUTT COMPANY, OF'SAME PLACE.
TO Tris ivnw WIRE- CGVEMNG MACl-HN E.
aPEGIFIGATION forming part of Letters Patent No. 445,598, dated February 3, 1891.
Application filed April 1-5, 1390 $eria1No.347,950, (N0 model.)
To all whom it may concern.-
Be it known that 1, JOHN lllOCAHEY, of Providence, in the county of Providence and State of Rhode Island, have invented certain new and useful Improvements in \Vire-Oovering Machines; and I do hereby declare that the following is a full, clear, and exact description thereof, reference being bad to the accompanying drawings, and tothe letters and figures of reference marked thereon, which form a part'of'this spa-relocation.
This invention is an improvement in that class of windinganachines using a central spool of covering material and passing the Wire to be covered through the center of the spool in covering it. The plan of winding with a central spool has very great advantage in regard to the speed that can be atta-ined over the gig system, in which the spool revolves wholly outside of the wire, because in the former plan all the revolving parts are concentric and perfectly balanc d, which. are indispensable conditions for high speed.
My invention includes an improvement in the stop-motion, which becomes necessary because of the great increase of speed and in the construction of the spools for holding the covering material.
My invention is fully illustrated in the accompanying drawings, in which- Figure 1 is a front elevation of a set of winding mechanism and a part of the-frame in which it is held, which is supposed to con tain several such sets, each set being inde pendentin its o 'ierations. lrig. 2 shows a vertical section of the winding devices and the frame, taken through the center of the winding-spindle on line a; 51- in Fig. 1. Fig. 3 is an enlarged view of the spool, plate, and flier in section and the stop-motion in front elevation. Fig. t is an enlarged top view of the rail 0 and plate .under the spool 1 Fig. 5; 's an end view taken to the left of Fig.1. l i (i to 10 show constructions of the spools to be used Figs. 11 and 12 show a vertical section of the lower part of the tube that supports the spools in detail enlarged.
1-11 the drzuvings, Ardenotes the end frame; 1%, the top front rail; C, the upper middle rail;
D, the lower middle rail, and E the bottom girt. The winding mechanism proper is held on the upper and loweriniddlerails G D. The feeding or take-up motion is held on the front and back top rails, and the wire reel on an intermediate plate 1:.
The winding mechanism consists of a tubula-r spindle a, held fast in the'lower front fithc sleeve being supported on a bnshingb",
held in the lower rail D. A drip-cup 71v is screwed on the lower end of the spintla; a to catch the oil from the bearings above and keep it oil the wire The spool oi thread for covering the wire sits on the plate r. and. turns freely on the spindle n. .i tlier-armj (see Fig. 3) is placed on one end of the plate (3, the lower end of the arm passing through the plateand having a nut 2 screwed on the end below. Ashonlder l on theliier-arin above, resting on a hub l on the plate, supports the arm, which is l'rec to turn in the plate 0, that the top of the arm may be swung away from over the spool r/ to allow the spool to be taken olt the spindle a. The flier-arm is held up to place when winding by a spiral spring 0, which is placed around it and has one of its ends made fast to the arm j and the other to the spindle in, fast in the plate 0. A wire 11. fast in the armj, brings up against the spindle m and prevents the arm from going too far. lhe llier-arm j made tubular from the lower end nearly up to the thread-opening 11 in its side, and is slotted in its uppeside from a little below the opening a nearly to the upper end of the arm, which is tubular for ashort distanee from that end, with. a short bar '2 projecting out over the opening in the end of thearni and having anotch in its end to receive the .wire and assist in holding it against the drag of the thread in winding.
A drop-wire p fitted to slide freely in the hole in the lower part of the flier-army,
and has a hook at its upper end to catch.
over the thread after it enters the slot through the opening a on its way to the upper end of the arm. When the hook on the upper end of the drop-wire is held 'up just above the opening a by the thread, its lower end will be just flush with the bottom of the nut on the lower end of the flier, whichis the case when the thread is intact and taut; but if .the thread breakssor runs out or becomes loose from any causethe drop-wire p will'be .free to fall, so that its lower end will project below the nut and strike the lever 1', that operates the belt-shipper, as will be explained hereinafter.
' It will be seen thatthe flier-arm j is set in the plate e at an angle and not vertically, the
centrifugal force throws it against the outer side of the hole in the arm in which it slides;
butwhen inclined at the proper angle, whichis found by experiment to be at about five degrees from the vertical for a speed of three thousand turns per minute, the centrifugal I forceassistsitin falling as much as it prevents it by Y pressure against-the tube, as before stated, and the wire will drop as freely as in a stationary vertical tube.
In considering the stop-m'otion a reference to Fig. 4 will show a lever r, pivoted on the top of the rail 0, in position totbe struck by the lower end of the drop-wire p. This lever 0' extends out front overaknee-levers,swinging on a pivot fast in a plate 2f, that extends from the rail 0 down to the rail D. By reference to Fig. 2 it will be. seen that the belt v,-that drives the pulleyf, is controlled by a shipper-arm w, which is pivoted at its inner end to a'standfaston the plate .g and its outer end extends out through an opening in the plate 25, and has.a handleshape at the end. The lower arm of the knee-lever s has a hook at its lower end that will be thrown under a projection on the side of the shipper-armw by a spring b'when the arm is up, and hold the belt 1) on the fast pulley f; bht when the thread breaks or runs out the wire 1) will drop, so that'its lower end will strike the lever 'r,
I the outer end of which will press on the upper arm of the knee-lever s and throw the lower arm, with its hook, out from the catch on the shipper-arm w, and it will fall and move the belt 1; down onto the loose pulley gand let the maclii'ne stop.
. An arrangement for holding reserve spools of thread is shown in Figs. 1 and-2. A tube a is held in the arm (1, fastened to p a stand on the top rail B, directly over and in line with the tube or spindle a, before mentioned. This tube 0 is made long enough to hold as many spoolsof thread as may be required to cover the length of wire in one piece. The spools of thread d are putupon thistube c, a
reason of this being that in a vertical arm.
space bei n g left between the lower end of tu be o and the upper end of the tube or spindle (I,
lower end of the tube c'.. An inner tube q iS fitted to slide up and downjn the lower end of the tube 0, and is split and spread atits upper end, so as to be held where it is put by the friction in the tube 0. The tube q is.
for the purpose of bringing a support to the wire down close Where it is wound, and is slid up out of the way when a spool is'to be put olf or on either tube;
The feed or take-up motion is shown in Figs. '2 and 5. A stand g', secured to the top rail B, has a stud 6 fastened to it, carrying a large grooved'wheel h, so placed that the groove in its front side will come directly over the hole in the tube o. The studin the wheel is held in a slot 7 in the stand; that it maybe let up or down, as may be wanted. A
smaller grooved wheelj' is held on astud 8' in the topof the stand 9, and is placed alittle farther out in front than the front of the Wheel h, so that it shall lift the covered wire from that wheel at a spot a little lower on the wheel thanthat where the latter receives the wire from the tube 0, to prevent any loose threads on the wire coming 'off ofthe largo wheel from being wound over and bound would cause serious trouble.
The bar 1 on the flier besidessupporting the wire against the drag of the thread as it is wound on it, also serves an important purpose in preventing the thread when it breaks or runs out from slacking up or partially unwinding above the end of the flier and making loose places or holidays, as they are called, which are likely to open and expose the wire.
The wheel 72,, that draws the wire of't' of the reel cfiand through the winding mechanism,
receives motion from the gear-wheel c on the the tube o by means of a wire staple y, the v legs of which fit into a. groove around the down b the wire windin on the wheel which i IIC sleeve b'through .the gear-wheel Z on the lower end of the shaft m, which extends up to the top rail. B and has a gear-wheel n on its upper end thatengages with a gear-wheel 0, which is fast on the lower end of a short 'vertical shaft 1), held in hearings in the rail B, which shaft has a small bevel gear-wheel r on its upper end above the rail, which ongages'with a vertical bevel gear-wheel .5 held on a stud fast in the stand 9'. A gear-wheel t, attached to the bevel-gear s, engages with the gear-wheel 7.2 on the wheel 7/, and thus aipositive motion is conveyed to that wheel from the gear 'c,'whicli is necessary to make the covering of the wire perfect. A grooved pulley a 011 tire bevel-gear s carries motion, by means of a belt or, to a grooved pulley 1," on the reel 11", which is held in stands on the backtop rail. The reel (1?, from which the wire is taken to be covered, is hold- A grooved p.ul-
in stands on the plate 7L2. !ley b on,the head of this reel has a belt or cord i" passing over it, one end being made fast to the stand and the other to a lever j pivoted at its inner end to the stand and having a weight (I hung on it to produce the uecessaryfriction to controlthe reel. From the reel a the wire passes down under a grooved pulley e held on a stand attached to the side of a box or trough f fastened to theinner side of the bottom girt E. The stand that holds the wheel e has a slot in it to receive the stud. on which the wheel turns, and a thumb-nut g on the outer end of the stud holds the wheel up. By loosening the nut the wheel e can be set down so as to turn in the box and carry the wire through any substance in the box with which it is desired to coat the wire before it is covered. From this wheel the wire passes up through the tube u, at the upper end of which it has the thread wound on it, and it continues up through the tube 0 and around the wheel 7i as many times as may be found necessary to give the wheel sufficient hold on it to feed it through the winding mechanism. From the wheel 71 the wire goes over the wheel j and down onto the reel w. Before passing the wire up through the tube 0 as many spools of thread (1 may be put on that tube as it will hold, and one spool on the tube u, the thread q,from which passes from the spool (Z through the opening a in the side of the flier-arm j and the book of the drop-wire p, then up in the groove, and through the end of the flier-arm to the wire. 13y raising the shipper u: the drivingbelt 1? from the pulley ll on the driving-shaft .l' at the back of the machine will be moved onto the fast pulleyf, and the sleeve 1) and all its connections will be set in rnotion,causing the flier-arm j to wind the thread around the wire. ll the thread breaks, the drop-wire will fall and cause the winding to stop, as before explained. When the thread on the spool (7. runs out, the machine is stopped by the falling of the wire 1), and the flier-arm is turned to one side, the empty spool raised off of the tube a and taken off of the wire z by letting the wire pass out of a slot madein the side of the spool lorthat. purpose, as horcinalter described. The staple 3 is then drawn off and a full spool slid down over the wire onto the tu be a to take the place of the one removed. The thread of the full spool is then threaded through the flier, as before described, and the machine started up again. in this way all of the spools held on the tube c :an be used to cover with without cutting the wire a, and it is consideredjhat the supply of reserved spools that can be held in this way is fully equal to covering any length of wire that can be drawn. in one piece.
The construction of the spools is shown, lirst, in Fig. (5, in which a slot a is made through the heads and body from the out side to the hole-in the center for the passage of the 'wire in removing them. As a spool made in this way will be liable to be closed up by the winding of the thread on it, I make a heavy metallic flanged bushing 9 to go in the ends of the spool, as seen in section in Fig. 9. This bushing consists of a tube f and a flange g", and it is let into the end of the spool flush with the outer side of the head, this bushing by its stifiness preventing the spoolfrom closing, as mentioned.
Other forms in which the spool may be made to be used on my winder are shown. In Fig. 7 the spool is made in two parts, each part having a short-dovetail h on each end, fitting into notches of the same shape in the other side, so .that' the parts of the spoolcan be put on the wire and then slid endwise to lock the dovetails. The bushings in the bobbins shown in Figs. 7, 9, and It) simply serve the same purpose of the bushings usually inserted in spools-that is, to confine the hearing of the spool on the tube or spindle to the ends of the spools'to avoid the bad effects of their warping out of shape.
Fig. 8 shows a side view of the spool of Fig. 6.
ig. 9 shows the inner side of one-half of the spool in Fig. 7. I
Fig. 10-shows the twohalves of the spool hinged together at the heads, so that they can be opened and taken off of the wire when cm pty.
The trough f is provided with a sliding cover 15 so that when the machine is not running the wheel e can be raised up out of the trough and the cover l slid over it to keep the contents of the trough from drying up.
llaviug thus described my improvements, what I claim as my invention is- 1. The combination of the tube a, plate e, l
and the guide-arm j, pivoted to the said plate 3 and capable of being turned away from over the tube a and the spool surrounding said tube, substantially as and for the purpose set forth.
2. The tube a, through which passes the wire to be covered and upon which is to be placed a spool. holding the covering material, plate 0, and a filer or guide arm set in said plate at an angle to the center line of the tube a, as described, and containing a dropwire, 1n comblnatlon with means for driving' the plate and flier, substantially as described. S. 'lhe combination of the tune a, plate 6, inclined flier arm, and drop-wire with the lever 'r,knee-lever s,'and shipper-lever w,
substantially as and for the purpose speci-' lied.
4. The stand 9', wheel j, and adjustable wheel h, having means for driving it, and the tube 0, having a sliding tube in it, in com bination with a wire-covering mechanism, substantially as set forth, and for ,the purpose speeilled. 5
John mommy. Witnesses:
H. N. FENNER, BENJ. ARNOLD.
-l'IO
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2570929A (en) * 1949-11-23 1951-10-09 Western Electric Co Apparatus for taping cores
US2585999A (en) * 1949-06-08 1952-02-19 Western Electric Co Strand handling apparatus
US2648507A (en) * 1949-07-29 1953-08-11 Coats Ltd J & P Thread reel
US3941331A (en) * 1973-03-29 1976-03-02 Croullebois Georges L Casing for apparatus provided with a flexible or articulated windable element
US4765861A (en) * 1985-02-06 1988-08-23 Kuhlman Corporation Apparatus and method for winding a toroidal magnetic core onto a bobbin for a toroidal transformer
US5632136A (en) * 1995-06-02 1997-05-27 Flex-Ohm, Inc. Wire winding apparatus

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2585999A (en) * 1949-06-08 1952-02-19 Western Electric Co Strand handling apparatus
US2648507A (en) * 1949-07-29 1953-08-11 Coats Ltd J & P Thread reel
US2570929A (en) * 1949-11-23 1951-10-09 Western Electric Co Apparatus for taping cores
US3941331A (en) * 1973-03-29 1976-03-02 Croullebois Georges L Casing for apparatus provided with a flexible or articulated windable element
US4765861A (en) * 1985-02-06 1988-08-23 Kuhlman Corporation Apparatus and method for winding a toroidal magnetic core onto a bobbin for a toroidal transformer
US5632136A (en) * 1995-06-02 1997-05-27 Flex-Ohm, Inc. Wire winding apparatus

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