US598273A - oehrina - Google Patents

oehrina Download PDF

Info

Publication number
US598273A
US598273A US598273DA US598273A US 598273 A US598273 A US 598273A US 598273D A US598273D A US 598273DA US 598273 A US598273 A US 598273A
Authority
US
United States
Prior art keywords
wire
core
spindle
pulley
lever
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Publication date
Application granted granted Critical
Publication of US598273A publication Critical patent/US598273A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K15/00Methods or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines
    • H02K15/08Forming windings by laying conductors into or around core parts
    • H02K15/09Forming windings by laying conductors into or around core parts by laying conductors into slotted rotors

Definitions

  • My invention relates to electrical instruments, and has for 'its object the provision of improved means for Winding electrical conductors about the cores of electromagnets.
  • My present invention consists of a machine having as its principal features automatic 4o means for directing the wire into the guides associated with the core, and automatic means for discontinuing the Winding of a coil when a predetermined number of turns of wire have been received thereby.
  • FIG. l is a side elevation of an electrical instrument-windin g machine made in accordance with my invention.
  • Fig. 2 is a plan view thereof.
  • Fig; 3 is a transverse sectional view taken on line 3 3 of Fig. 1.
  • Fig. l is a perspec- 55 tive view of a portion of the brake-operating mechanism.
  • Fig. 5 is an elevation ofa lever employed in connection with the mechanism shown in Fig. 4.
  • Fig. 6 is a plan view of the lever shown in Fig. 5.
  • Fig. 7 is a view in 6o cross-section of a portion of the brake mechanism on line 7 7 of Fig. 1.
  • Fig. 8 is a side View of one of the cores adapted to be Wound by my machine.
  • Fig. 9 is a partial sectional view on line 9 9 of Fig. 1 with certain parts 65 removed to clearly show the construction.
  • Fig. l0 is an elevation, partly in section, along line 10 l0 of Fig. 1.
  • a metal chuck a is composed of two sections or jaws a a2, which are secured, respectively, to theI live spindle or shaft b and to the dead-spindle c.
  • Section CL2 of the chuck is provided with a cylindrical extension a3, 75 adapted to receive one end of the dead-spindle c.
  • Spindle c is provided with an annular groove o', which engages a stud a4, secured to said extension d3.
  • the dead-spindle is connected With a lever d, pivoted at d. By shifting this lever the dead-spindle may be reciproca'ted to V separate or bring the jaws a a2 together to 85
  • the armature-core is disposed within the 10o chuck with opposite recesses in which a coil of wire is to be disposed, placed between the -Fig. 8.
  • a lug e2 is provided upon one of the jaws of the chuck, which is adapted to enter one of the recesses in said core to prevent said core from rotating after having been adjusted within its chuck.
  • the armature-wire is attached at one end to the core and is unwound from the bobbin f as the core is rotated.
  • armature-cores are frequently assembled upon the armatureshafts.
  • a core thus constructed I interpose a guide 7L between the frictionpulley f and core through which the wire passes and provide means for shifting said guide to one side as the shaft approaches the wire to withdraw said wire from the path of the shaft, said means consisting, preferably, of an oscillating lever h', pivoted at h2, upon which said guide is carried.
  • lever 7i The required motion is imparted to lever 7i by a cam t', secured to the live-spindle b, this motion being imparted through the medium of the centrally-pivoted lever i and a link i2, connecting levers h and z" at their lower extremities, lever z" supporting a roller at its upper eX- tremity which engages said cam.
  • the cam As the core is rotated the cam, through the intermediate mechanism above described, oscillates the lever 7L to remove the guide h and wire from the path of the shaft as it is being turned from a horizontal to a vertical position, while said guide and wire are restored as said shaft approaches a horizontal position, the path of guide 7i being indicated by the dotted line in The guide 7i, is thus in position to direct wire between the lips g g when said lips and shaft are in a horizontal position, .said guide being removed from this position as said shaft and lips are being moved to a vertical position by the cam and lever mechanism aft-er the wire has been directed into the recess in the core.
  • a loose pulley or sleeve Z is journaled upon the live-spindle, which is adapted to be driven by a belt Z'.
  • a friction band or clutch m (shown most clearly in Fig. 7 is secured at m to said pulley, the free ends whereof are adj ustably united by a bolt m2.
  • a friction pulley or sleeve o is secured upon the live-spindle or an extension thereof.
  • a shoulder 0' upon said pulley is surrounded and frictionally engaged by the band m, whereby rotary motion imparted to pulley7 Z may be imparted to the pulley 0 and the live-spindle.
  • a brakeshoe p is pivoted at p upon a stationary block p2.
  • the other end p8 of lever p6 is enlarged and rounded.
  • a vertically-disposed sliding bar q is provided with a slot q', which engages the end p8.
  • This bar is adapted to travel vertically within a stationary casing q2, secured upon the machine, the bar being normally held in its elevated position shown by the engagement of a detent fr with a shoulder g3, formed thereon.
  • the brake shoe p is thereby caused to engage shoulder o2 of the pulley 0, this engagement being reinforced by a weight qt, attached to the bar q.
  • the friction between the brakeshoe p and the shoulder cg is su flicient to overcome the engagement between the frictionband m and shoulder o', whereby rotation of pulley ois checked.
  • I provide a positive stop mechanism in addition to the brake-shoe, which stops the rotation of the live-spindle immediately upon the completion of the predetermined number of turns of wire and at the same point in the rotation of the spindle.
  • This mechanism preferably consists of a detent s, secured to the pulley o, which is brought into engagement with lever s', pivoted at s2 and connected with bar q at s3, this engagement being effected by the descent of bar q a short time after the brake-shoe has been applied to the pulley.
  • the rotation of said pulley having been thereby checked, the force of the impact between said detent and lever s' is thus lessened.
  • a hand-lever g5 is provided to elevate the bar q.
  • a carriage t is supported and adapted to travel longitudinally upon a rod t.
  • a halfnut t2 is supported upon the upper end of the carriage,said nut being provided with threads which engage corresponding threads upon an extension u of the live-spindle.
  • the carriage t is formed in two sections, the lower section being prevented from rotating upon t rod t by a spline t3, while the upper section is hinged upon the lower section.
  • IIandles 00 are provided, by grasping which the half-nut 2 may be disengaged from eX- tension u to enable the carriage t to be freely shifted upon 'rod if.
  • a post 1J' is supported by the carriage, which is adapted to engage and trip the detent s.
  • lVhen a coil of Wire is to be disposed upon a core, the carriage t is shifted to the rear of the machine, 'the handles a: 0c having been grasped to disengage the half-nut t2 from the rod u.
  • An adjustable collar e serves to limit the rearward motion of the carriage.
  • the threads upon shaft u may be propos tioned to the number of turns of Wire it is desirable to form in coils that are being disposed upon the core.
  • the adjustable collar z is provided to adjust the length of travel of the carriage, so that the number of turns in a coil may be varied at will.

Landscapes

  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Power Engineering (AREA)
  • Tension Adjustment In Filamentary Materials (AREA)

Description

3 Sheets- Sheet 1.
(No Model.)-
A. J. OEHRING. INSTRUMENT WINEING DEVICE.
Patented Feb. 1, 1898.
E E. E
me Nunms Pneus ce, Funrourun.. msnumrou. n c.
(No Model.) I 3 Sheets-Sheet 2. A. J. OEHRING. INSTRUMENT WINDING DEVICE.
Patented Peb. 1898.
@l I@ wa'mffeg v l(No Model.) s -sneets-'sheer s.
- A. J. OEHRING.
INSTRUMENT WINDING DEVICE.
Patented Feb. l, 1898.
ATENT Erice.
AUGUST J. OEI-IEINO., AOE CHICAGO, ILLINOIS, AssIGNoR TO THE WESTERN ELECTRIC COMPANY, or SAME PLACE.
ISTRUIVIENT-WINDING DEVICE.
SPECIFICATION forming part of Letters Iatent No. 598,273, dated February 1, 1898.
Application filed November 28, 1896. Serial No. 613,780. (No model.)
T0 @ZZ whom t may concern.-
Be it known that I, AUGUST J. OEHRING, a citizen of the United States, residing at Chicago, in the county of Cook and State of Illi- 5 nois, have invented a certain new and useful Improvement in In strument-Winding Devices, of which the following is a full, clear,
` concise, and exact description, reference being had to the accompanying drawings, form- Io ing a part of this specication.
My invention relates to electrical instruments, and has for 'its object the provision of improved means for Winding electrical conductors about the cores of electromagnets.
I5 In an application of HenryII. Wait, Serial No. 615,707, iled December 14, 1896, is shown and described a device for winding the cores of electrical instruments, consistingin its preferred form of a rotatably-mounted chuck zo adapted to secure a core in position, said chuck being provided with guiding-lips to direct the conducting-Wire upon, the core or within the recesses provided in the core. In my application, Serial No. 608,605, filed October 12, 1896, z5 I'have Vshown and described improvements `upon the device set forth in the said application of W'ait, the essential features thereof being a magnetized chuck adapted to secure the core in position, additional guides to di- 3o rect the wire upon the core, and a counting device for numbering the rotations of the core to insure the same number of turns in two or more distinct coils of Wire upon the core.
The operator in using either of the above 35 appliances has to exercise considerable care in manipulating the Wire andin preserving the number of turns in the distinct coils uniform.
My present invention consists of a machine having as its principal features automatic 4o means for directing the wire into the guides associated with the core, and automatic means for discontinuing the Winding of a coil when a predetermined number of turns of wire have been received thereby.
45 The machine of my invention has additional novel features, which will be hereinafter pointed out.
My invention will be more readily understood by reference to the accompanying draw- 5o ings, in whichn 4 Figure l is a side elevation of an electrical instrument-windin g machine made in accordance with my invention. Fig. 2 is a plan view thereof. Fig; 3 is a transverse sectional view taken on line 3 3 of Fig. 1. Fig. lis a perspec- 55 tive view of a portion of the brake-operating mechanism. Fig. 5 is an elevation ofa lever employed in connection with the mechanism shown in Fig. 4. Fig. 6 is a plan view of the lever shown in Fig. 5. Fig. 7 is a view in 6o cross-section of a portion of the brake mechanism on line 7 7 of Fig. 1. Fig. 8 is a side View of one of the cores adapted to be Wound by my machine. Fig. 9 is a partial sectional view on line 9 9 of Fig. 1 with certain parts 65 removed to clearly show the construction. Fig. l0is an elevation, partly in section, along line 10 l0 of Fig. 1.
Like letters indicate like part-s throughout the different gures. j 7o A metal chuck a is composed of two sections or jaws a a2, which are secured, respectively, to theI live spindle or shaft b and to the dead-spindle c. Section CL2 of the chuck is provided with a cylindrical extension a3, 75 adapted to receive one end of the dead-spindle c. Spindle c is provided with an annular groove o', which engages a stud a4, secured to said extension d3. The chuck -is thus `capable of` being rotated by the live-spindle, 8o while the dead-spindle remains in a fixed position.` The dead-spindle is connected With a lever d, pivoted at d. By shifting this lever the dead-spindle may be reciproca'ted to V separate or bring the jaws a a2 together to 85 The armature-core is disposed within the 10o chuck with opposite recesses in which a coil of wire is to be disposed, placed between the -Fig. 8.
opposing lips g g of the chuck-jaw, said lips forming guides for the armature-wire, as fully set forth in the aforesaid Wait application. A lug e2 is provided upon one of the jaws of the chuck, which is adapted to enter one of the recesses in said core to prevent said core from rotating after having been adjusted within its chuck. The armature-wire is attached at one end to the core and is unwound from the bobbin f as the core is rotated. To wind the wire tightly upon the core, I mount a friction-pulley f upon the bed of 4the machine, about which the wire is passed several times before passing to the core to preserve said wire in a taut condition.
The laminze composing armature-cores are frequently assembled upon the armatureshafts. In Winding a core thus constructed I interpose a guide 7L between the frictionpulley f and core through which the wire passes and provide means for shifting said guide to one side as the shaft approaches the wire to withdraw said wire from the path of the shaft, said means consisting, preferably, of an oscillating lever h', pivoted at h2, upon which said guide is carried. The required motion is imparted to lever 7i by a cam t', secured to the live-spindle b, this motion being imparted through the medium of the centrally-pivoted lever i and a link i2, connecting levers h and z" at their lower extremities, lever z" supporting a roller at its upper eX- tremity which engages said cam. As the core is rotated the cam, through the intermediate mechanism above described, oscillates the lever 7L to remove the guide h and wire from the path of the shaft as it is being turned from a horizontal to a vertical position, while said guide and wire are restored as said shaft approaches a horizontal position, the path of guide 7i being indicated by the dotted line in The guide 7i, is thus in position to direct wire between the lips g g when said lips and shaft are in a horizontal position, .said guide being removed from this position as said shaft and lips are being moved to a vertical position by the cam and lever mechanism aft-er the wire has been directed into the recess in the core.
After a coil has been wound upon the core the machine is stopped, the wire is cut, the
core read j usted Within its chuck, and the armature-wire reattached to the core preparatory to winding the next coil. To insure an equal number of turns in each coil, I provide automatic means for stopping the rotation of the chuck when the predetermined number of turns have been made. The preferred form of mechanism for accomplishing this result will now be described.
A loose pulley or sleeve Z is journaled upon the live-spindle, which is adapted to be driven by a belt Z'. A friction band or clutch m (shown most clearly in Fig. 7 is secured at m to said pulley, the free ends whereof are adj ustably united by a bolt m2. A friction pulley or sleeve o is secured upon the live-spindle or an extension thereof. A shoulder 0' upon said pulley is surrounded and frictionally engaged by the band m, whereby rotary motion imparted to pulley7 Z may be imparted to the pulley 0 and the live-spindle. A brakeshoe p is pivoted at p upon a stationary block p2. A link pais united atp4 p5 with said brakeshoe and a lever p, pivotally mounted at p7 upon said stationary block p2. The other end p8 of lever p6 is enlarged and rounded. A vertically-disposed sliding bar q is provided with a slot q', which engages the end p8. This bar is adapted to travel vertically within a stationary casing q2, secured upon the machine, the bar being normally held in its elevated position shown by the engagement of a detent fr with a shoulder g3, formed thereon. When the predetermined number of turns of wire have been put upon the core, detent r is tripped, as will be hereinafter set forth, whereupon bar q is permitted to descend. The brake shoe p is thereby caused to engage shoulder o2 of the pulley 0, this engagement being reinforced by a weight qt, attached to the bar q. The friction between the brakeshoe p and the shoulder cgis su flicient to overcome the engagement between the frictionband m and shoulder o', whereby rotation of pulley ois checked. Inasmuch as the action of the brake-shoe upon pulley 0 may not be uniform throughout the operation of the machine, I provide a positive stop mechanism in addition to the brake-shoe, which stops the rotation of the live-spindle immediately upon the completion of the predetermined number of turns of wire and at the same point in the rotation of the spindle. This mechanism preferably consists of a detent s, secured to the pulley o, which is brought into engagement with lever s', pivoted at s2 and connected with bar q at s3, this engagement being effected by the descent of bar q a short time after the brake-shoe has been applied to the pulley. The rotation of said pulley having been thereby checked, the force of the impact between said detent and lever s' is thus lessened. Af-
ter the core has been adjusted to receive the der qs thereon again brought into engagement with detent r to secure the bar in its elevated position. A hand-lever g5 is provided to elevate the bar q.
A carriage t is supported and adapted to travel longitudinally upon a rod t. A halfnut t2 is supported upon the upper end of the carriage,said nut being provided with threads which engage corresponding threads upon an extension u of the live-spindle. The carriage t is formed in two sections, the lower section being prevented from rotating upon t rod t by a spline t3, while the upper section is hinged upon the lower section. A spring-actuated plungermmounted upon the lower section of the housing, engages with a lug w, formed upon the upper section of the housing, this plunger serving to maintain the halfnut in engagement with the extension u.
ICO
IIandles 00 are provided, by grasping which the half-nut 2 may be disengaged from eX- tension u to enable the carriage t to be freely shifted upon 'rod if. A post 1J' is supported by the carriage, which is adapted to engage and trip the detent s. lVhen a coil of Wire is to be disposed upon a core, the carriage t is shifted to the rear of the machine, 'the handles a: 0c having been grasped to disengage the half-nut t2 from the rod u. An adjustable collar e serves to limit the rearward motion of the carriage. lhen the carriage has been placed to the rear of the machine and the half-nut rengaged with the extension u, the brake mechanism is released from pulley o, thereby permitting the pulleyl to rotate pulley o through the medium of friction-band m, thereby causing the rotation of the livespindle, extension u, duc. in rotating advances the carriage t upon its rod t', the rate of advancement being proportioned to the number of threads upon shaft u. lVhen the carriage reaches the forward limit of its excursion, detent s is engaged and truipped by post y, when further rotation of the live-spindle is prevented, as above set forth. Y
The threads upon shaft u may be propos tioned to the number of turns of Wire it is desirable to form in coils that are being disposed upon the core. The adjustable collar z is provided to adjust the length of travel of the carriage, so that the number of turns in a coil may be varied at will.
It is obvious that there are features of my invention that may be employed for other purposes and in Windin g material other than wire upon core-bodies, and in the claims I use the term Wire in the sense of threads or strings or bands composed of any material.
I have purposely omitted the enumeration of modifications which may be made Without departing from the spirit of my invention, because to set these forth at length Would obscure rather than make clear the more essenfn the combination With meansfor rotating acore for the purpose of Winding Wire thereon, with a guide adapted to lay the Wire about th'e armature-shaft, and a cam adapted to re ceive motion from said means, said guide be- The extension n' of Winding-wire on said core, a cam i adapted to be rotated by said live-spindle, and a guide h adapted to engage the wire as it is being Wound upon said core, and also adapted to be shifted from side to side by means of said cam, substantially as and for the purpose described.
4. The combination of a chuck adapted to secure a core in position, with a live-spindle adapted to rotate said chuck for the purpose of Windin g Wire on said core, a cam adapted to be rotated by said live-spindle, lever i engaging said cam, lever h, link i2, connecting levers i and 7L', guide 7L supported upon lever h and adapted to engage the Wire as it is beingwound upon said core, substantially as and for the purpose described.
5. In Aan armature-Winding machine, the combination of means for rotating the armaturecore for the purpose of Winding coils of Wire thereon, With automat-ic means for stopping the rotation of said core When each -coil has received its predetermined number of turns, substantially as described.
6. In an armature-winding machine, the combination of means for Winding coils of Wire upon the armature-core, With automatic means for discontinuing the Winding of each coil When a predetermined number of turns have been received thereby, substantially as described.
7. The combination With a shaft, of a pulley or sleeve loosely mounted with relation thereto, a second pulley o r sleeve engaged or adapted to be engaged with said shaft, means for rotating one of said pulleys which thus becomes the driving-pulley, Ja friction-clutch adapted to mechanically engage the drivingpulley-With the remaining pulley which thus becomes the driven pulley, and abrake adapted to engage the driven pulley to counteract the engagement of the friction-clutch, substantially as described.
8. The combination With a shaft, of a pulley loosely mounted With relation thereto, a second pulley fixed upon said shaft, means for rotatingone of said pulleys, a friction-clutch adapted to unite said pulleys, a friction-brake adapted to engage one of said pulleys todecrease the speed thereof, and positive means for stopping said pulley at a iiXed point, substantially as described.
9. The combination with ashaft, of a pulley loosely mounted With relation thereto,a second pulley iiXed upon said shaft, means for rotating one of said pulleys, a friction-clutch adapted to unite said pulleys, a brake adapted to engage one of said pulleys, a Weight connected With said brake to operate the same, a detent normally engaging said Weight to remove its influence from the brake, and means IOO IIO
for tripping said detent, substantially as described.
10. The combination with a rotating pulley or shaft, of a brake adapted to engage the same, a Weight connected with said brake to operate the same, a detent normally engaging said Weight to remove its iniiuence from the brake, and means for tripping said detent, substantially as described.
11. In an instrument-Winding machine, the combination With a rotating pulley or shaft, said pulley or shaft being adapted to rotate a core upon which Wire Ais to be Wound, a.
brake adapted to be brought into engagement with said pulley or shaft, and automatic means for operating said brake, when the predetermined number of turns of Wire have been formed upon the core, substantially as described.
12. In an instrument-Winding machine, the combination With a rotating pulley or shaft adapted to rotate a core upon which Wire is to be Wound, of a brake adapted to engage the same, a Weight connected With said brake to operate the same, a detent normally engaging said Weight to remove its influence from the brake, and means for tripping said detent, substantially as described.
13. In an instrument-winding machine, the combination with a rotating pulley or shaft adapted to rotate a core upon which Wire is to be Wound, of a friction-brake adapted to engage the same, a Weighted lever q, a lever p6 connecting said Weighted lever With said friction-brake, a detent s iiXed upon said pulley, a lever s adapted to be brought into engagement With said detent by the lever c y, a detent r adapted to normally remove the :influence of said lever from brake p and lever p6, and means for tripping detent r, substantially as described.
14. In an instrument-Winding machine, the combination of a spindle adapted to rot-ate a core upon which Wire is to be Wound, said spindle or an extension thereof being provided With threads, a carriage provided With threads which engage the threaded portion of said spindle, whereby said carriage is caused to travel, and means actuated by said car riage for stopping the rotation of said spindle, substantially as and for the purpose described.
15. In an instrum ent-Winding machine the combination of a spindle adapted to rotate a core upon which wire is to be Wound, said spindle or an extension thereof being provided With threads, a carriage provided With threads Which engage the threaded portion of said spindle whereby said carriage is caused to travel, means actuated by said carriage for stopping the :rotation of said spindle, and a collar z provided upon said spindle to adjust the length of the travel of said spindle, substantially as described.
16. In an instrument-Winding machine the combination of a spindle adapted to rotate a core upon Which Wire is to be Wound, said spindle being provided With threads, a carriage provided with threads Which engage the threaded portion of said spindle whereby said carriage is caused to travel, brake mechanism for stopping the rotation of said spindle,
a Weight adapted to actuate'said mechanism,
and a detent Which normally engages said Weight to remove the iniiuence thereof from said lever mechanism, said carriage beingr adapted to release said detent from its engagement With said Weight, substantially as and for the purpose described.
In Witness whereof I hereunto subscribe my name this 17th day of September, A. D. 1896.
AUGUST J. OEIIRING..
Vitnesses: I
GEORGE L. CRAGG, JNO. W. SINoLAIR.
US598273D oehrina Expired - Lifetime US598273A (en)

Publications (1)

Publication Number Publication Date
US598273A true US598273A (en) 1898-02-01

Family

ID=2666916

Family Applications (1)

Application Number Title Priority Date Filing Date
US598273D Expired - Lifetime US598273A (en) oehrina

Country Status (1)

Country Link
US (1) US598273A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2599875A (en) * 1946-01-17 1952-06-10 Midland Dynamo Company Ltd Armature winding machine
US2873924A (en) * 1954-01-04 1959-02-17 Friden Inc Coil winding method and apparatus
US20020056083A1 (en) * 2000-03-29 2002-05-09 Istvan Anthony F. System and method for picture-in-browser scaling

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2599875A (en) * 1946-01-17 1952-06-10 Midland Dynamo Company Ltd Armature winding machine
US2873924A (en) * 1954-01-04 1959-02-17 Friden Inc Coil winding method and apparatus
US20020056083A1 (en) * 2000-03-29 2002-05-09 Istvan Anthony F. System and method for picture-in-browser scaling

Similar Documents

Publication Publication Date Title
US598273A (en) oehrina
US1407033A (en) Field-winding machine
US1702475A (en) Coil-winding machine
US2861601A (en) Coil winding machine
US2296959A (en) Winding machine
US4625500A (en) Machine for applying a band around a package
US2367086A (en) Means for taping armature coils
US2116409A (en) Winding machine
US3480219A (en) Machine for winding cord-like members into hank form
US709179A (en) Machine for winding drum-armatures.
US3251562A (en) Apparatus for producing strand packages of uniform length
US1667070A (en) Armature-winding machine
US1227659A (en) Wire-coiling apparatus.
US2284115A (en) Armature winding machine
US1515309A (en) Wire-winding machine
US2605973A (en) Direct driven winding machine and bobbin mounting means
US3353762A (en) Wire-feeding and tensioning apparatus
US1047844A (en) Winding-machine.
US1650558A (en) Machine and method for positioning armature windings
US1067235A (en) Winding-machine.
US3602446A (en) Apparatus for producing bundles of optical fibers
US3217991A (en) Layer winding machine for very fine wires
US1184262A (en) Controlling mechanism for alternating-machines.
US425990A (en) Electric machine for covering wire
US1541969A (en) Winding machine