US870237A - Wire-coiling machine. - Google Patents

Wire-coiling machine. Download PDF

Info

Publication number
US870237A
US870237A US30047806A US1906300478A US870237A US 870237 A US870237 A US 870237A US 30047806 A US30047806 A US 30047806A US 1906300478 A US1906300478 A US 1906300478A US 870237 A US870237 A US 870237A
Authority
US
United States
Prior art keywords
spindle
coil
wire
sleeve
pulley
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
US30047806A
Inventor
Robert L Horsley
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
WORTH WIRE WORKS
Original Assignee
WORTH WIRE WORKS
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by WORTH WIRE WORKS filed Critical WORTH WIRE WORKS
Priority to US30047806A priority Critical patent/US870237A/en
Application granted granted Critical
Publication of US870237A publication Critical patent/US870237A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F3/00Coiling wire into particular forms
    • B21F3/02Coiling wire into particular forms helically
    • B21F3/04Coiling wire into particular forms helically externally on a mandrel or the like

Definitions

  • My invention relates to a machine for manufacturing coils of wire, and the object is to provide machines which will be efiicient and inexpensive and easily operated.
  • Figure 1 is a plan view of the machine.
  • Fig. 2 is a side elevation of the same.
  • Fig. 3 is a side elevation of the starting guide.
  • the mechanism is mounted on a suitable base 1.
  • the machine is provided with an axially shiftable nee dle 2 which is carried by a screw shaft 3 which is provided with a bearing 4 through which the shaft freely moves.
  • the screw shaft 3 moves axially by means of a threaded sleeve 5 which is rigidly mounted in a bearing 6 and the sleeve may be adjusted and held at clifferent adjustments by a set screw 7.
  • the needle 2 moves freely through a sleeve 8 which is secured in a bearing 9.
  • the bearings 4, G, and 9 are all secured to the base 1.
  • the sleeve 8 is secured in the bearing 9 by a set screw 10.
  • the sleeve 8 also serves as a start ing guide for the wire to determine the flight of the coil.
  • the means for feeding and starting the wire to form the coil are fully shown in Fig. 1.
  • the needle or spindle 2 carries the coil of wire.
  • the sleeve 8 by reason of the cut-out 11 directs the wire as it is coming to the spindle, givingthe wire the proper direction before it actually reaches the spindle and will thus aid in giving the coil' the proper flight or pitch. 40
  • the sleeve 8 performs another function hereinafter ex plained.
  • the sleeve 8 is made adjustable for varying the flight of the coil.
  • the blade 12 completes the starting of a coil. It prevents the coil from spreading as each portion of wire is making the first turn about 4-5 the spindle or needle 2, or as each portion of wire is being bent around the spindle or needle.
  • the guide 12 is mounted in the bearing 9 by means of a screw bolt 13 and is held on the screw bolt between a washer or collar 14 and a nut 15.
  • the blade or guide 12 may be 50 turned by hand when the wire is to be started around the spindle 2.
  • the wire 16 comes from a suitable spool and passes through a guide 17 which is adjustably mounted in the bearing 9.
  • the wire is then bent down on the spindle between the sleeve 8 and the guide 12 and on around 'the spindle, passing on the outside of the guide 12 when it starts down around the spindle the second time.
  • the wire is bent several times about the spindle and then secured in the slot 18 in the end of the spindle. After the coil is well started the part wound on by hand must be cut off so that the coil will pass on off the end of the spindle.
  • the shaft 3 is rotated by the pulley wheel 19 and is moved for winding the wire on the spindle 2 by the screw portion of the shaft which turns in the threaded sleeve 5.
  • the spindle thus travels for drawing and bending the wire on the spindle.
  • the spi die is made to travel any convenient distance by rotating in the proper direction.
  • the spindle is then drawn back through the coil by rotating the spindle in the opposite direction.
  • the pulley wheel 19 is driven by the belt 20 for forming the coil, but is driven in the opposite direction by a pulley 21 which is driven by a belt 22 for drawing the spindle back through the coil to let the coil off the spindle.
  • the belt 22 may be a small cord and is never shifted from the pulley 21 but slides on the pulley when the spindle is being driven forward for forming coil.
  • the shifter 24 is mounted in an adjustable bearing 26 and the shifter can thus be varied to change the time of the shifting of the belt 20 and the shifter is adjustable vertically in the bearing 26 and may be held at different adjustments by a set screw 27.
  • the bearing 26 has slots 28 therein and is secured to the base 1 by bolts 29 which are provided with suitable nuts.
  • the spindle 2 is adapted to grip the coil of wire for forming more coil and to release the coil at the moment the spindle is to 'be drawn back through the coil to let the coil off of the spindle.
  • the spindle has large portion 2 and a small portion 30 and the large portion tapers to the small portion.
  • the sleeve 11 will prevent the displacement of the wire to be fed to the spindle so that the wire is always in position to be fed to the spindle at the moment when the spindle commences to turn in the direction to form more coil. It will be understood that when the spindle 2 is turned for making more coil it will be turning in the direction of the twist of the coil and the coil will grip the spindle, and that when the spindle is turned to be withdrawn from a portion of the coil it will be turning in the opposite direction to the twist of the coil and the coil will not grip the spindle; These operations are made positive by making the spindle smaller at a short distance from the end.
  • the wire coil is formed on the small portion of the spindle, and when Having fully described my invention, what I claim as new and desire to secure by Letters Patent, is,
  • a wire coiling machine comprising a spindle, a sleeve bearing for said spindle, combined means' for rotating said spindle and for reciprocating the same in said sleeve, said sleeve having an angularcut-out for directing the wire to be fed to said spindle, and an adjusting guide blade cooperating with said sleeve for determining the flight of the coil of the wire.
  • t wire coiling machine having a spindle, a sleeve bearing for said spindle, means for rotating said spindle and for reciprocating the same in said hearing, and means for directing wire to said spindle and for determining the flight of the coil of the wire, said spindle having a large portion for gripping the wire coil and a smaller portion whereo'n the coil is formed.
  • a wire coiling machine having a spindle, means for feeding wire to said spindle, means for rotating and axially inovingsaid spindle to form wire coil, means for rotating and axially moving said spindle in the opposite direction to withdraw said spindle from portions of said coil whereby said coil is fed from said spindle, and means for regu lating the flight of the coil.
  • a wire coiling machine having a rotatable and axially movable spindle, means for guiding wire to said spindle, means for regulating the flight of coils to be formed on said spindle,'suitable bearings for said spindle, gearing for driving said spindle for formingwire coil, shifting means for releasing said gearing, means for varying the time for said shifting means to release said gearing, and gearing for rotating said spindle for feeding off wire coil from said spindle.
  • a wire coiling machine having a rotatable and axially movable spindle, means for guiding wire to said spindle, suitable hearings for said spindle, a spindle carrier, a forward driving pulley rigidly mounted on said carrier, an idler mounted on said carrier, a belt for driving said pulley, a shifter for shifting said belt from said pulley' to said idler and from said idler to said pulley, means for setting said shifter at different longitudinal and vertical adjustments, and a backward driving pulley rigidly mounted on said carrier.

Landscapes

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

Description

R. L. HORSLEY.
PATENTED NOV.. 5, 1907.
WIRE BOILING MACHINE.
APPLICATION FILED r113. 10. 1906.
Iill o d nnnnnnmnnn rinrrnn srn'rns ATENT orrron.
ROBERT L. HOR-SLEY, OF FORT WORTH, TEXAS, ASSIGNOR TO WORTH WIRE WORKS, A COR- PORATION OF TEXAS.
WIRE-COILING MACHINE.
Specification of Letters Patent.
Patented Nov. 5, 1907.
Application filed February 10, 1906. Serial No. 300.478.
To all whom it may concern:
Be it known that I, ROBERT L. HoRsLEY, a citizen of the United States, residing at Fort Worth, Texas, have invented a new and Improved Wire-Coiling Machine,
of which the following is a specification.
My invention relates to a machine for manufacturing coils of wire, and the object is to provide machines which will be efiicient and inexpensive and easily operated.
Other objects and advantages will be fully explained in the following description and the invention will be more particularly pointed out in the claims.
Reference is had to the accompanying drawings which form a part of this application and specification.
Figure 1 is a plan view of the machine. Fig. 2 is a side elevation of the same. Fig. 3 is a side elevation of the starting guide.
Similar characters of reference are used to indicate the same parts throughout the several views.
The mechanism is mounted on a suitable base 1. The machine is provided with an axially shiftable nee dle 2 which is carried by a screw shaft 3 which is provided with a bearing 4 through which the shaft freely moves. The screw shaft 3 moves axially by means of a threaded sleeve 5 which is rigidly mounted in a bearing 6 and the sleeve may be adjusted and held at clifferent adjustments by a set screw 7. The needle 2 moves freely through a sleeve 8 which is secured in a bearing 9. The bearings 4, G, and 9 are all secured to the base 1. The sleeve 8 is secured in the bearing 9 by a set screw 10. The sleeve 8 also serves as a start ing guide for the wire to determine the flight of the coil. The means for feeding and starting the wire to form the coil are fully shown in Fig. 1.
The needle or spindle 2 carries the coil of wire. The sleeve 8 by reason of the cut-out 11 directs the wire as it is coming to the spindle, givingthe wire the proper direction before it actually reaches the spindle and will thus aid in giving the coil' the proper flight or pitch. 40 The sleeve 8 performs another function hereinafter ex plained. The sleeve 8 is made adjustable for varying the flight of the coil. The blade 12 completes the starting of a coil. It prevents the coil from spreading as each portion of wire is making the first turn about 4-5 the spindle or needle 2, or as each portion of wire is being bent around the spindle or needle. The guide 12 is mounted in the bearing 9 by means of a screw bolt 13 and is held on the screw bolt between a washer or collar 14 and a nut 15. The blade or guide 12 may be 50 turned by hand when the wire is to be started around the spindle 2.
To commence making a coil, the wire 16 comes from a suitable spool and passes through a guide 17 which is adjustably mounted in the bearing 9. The wire is then bent down on the spindle between the sleeve 8 and the guide 12 and on around 'the spindle, passing on the outside of the guide 12 when it starts down around the spindle the second time. The wire is bent several times about the spindle and then secured in the slot 18 in the end of the spindle. After the coil is well started the part wound on by hand must be cut off so that the coil will pass on off the end of the spindle. The shaft 3 is rotated by the pulley wheel 19 and is moved for winding the wire on the spindle 2 by the screw portion of the shaft which turns in the threaded sleeve 5. The spindle thus travels for drawing and bending the wire on the spindle. The spi die is made to travel any convenient distance by rotating in the proper direction. The spindle is then drawn back through the coil by rotating the spindle in the opposite direction. The pulley wheel 19 is driven by the belt 20 for forming the coil, but is driven in the opposite direction by a pulley 21 which is driven by a belt 22 for drawing the spindle back through the coil to let the coil off the spindle. When the spindle is to be withdrawn from the coil the belt 20 is shifted to a loose pulley 23. This shifting of the belt 20 is accomplished automatically by a shifter 24 which is set so that when the spindle is fed to carry the coil forward the determined distance, one of the pins 25 on the shifter will shift the belt 20 to the loose pulley 23. The belt 22 will commence to turn the spindle in the opposite direction by reason of the spindle being rigid in the shaft 3. When the spindle has been drawn backward over the distance it has gone forward the other pin 25 shifts the belt 20 back on the pulley 19 and the spindle commences at once to form more wire coil. .The machine thus operates automatically when once started. It requires very little power to turn the spindle backwards. For this reason the belt 22 may be a small cord and is never shifted from the pulley 21 but slides on the pulley when the spindle is being driven forward for forming coil. The shifter 24 is mounted in an adjustable bearing 26 and the shifter can thus be varied to change the time of the shifting of the belt 20 and the shifter is adjustable vertically in the bearing 26 and may be held at different adjustments by a set screw 27. The bearing 26 has slots 28 therein and is secured to the base 1 by bolts 29 which are provided with suitable nuts. The spindle 2 is adapted to grip the coil of wire for forming more coil and to release the coil at the moment the spindle is to 'be drawn back through the coil to let the coil off of the spindle. The spindle has large portion 2 and a small portion 30 and the large portion tapers to the small portion. When the spindle is turned in the direction to feed the coil forward and form the coil the coil will engage the large portion of the spindle, but when the spindle is rotated in the opposite direction the coil will release the spindle and the spindle will move back through the coil.
The sleeve 11 will prevent the displacement of the wire to be fed to the spindle so that the wire is always in position to be fed to the spindle at the moment when the spindle commences to turn in the direction to form more coil. It will be understood that when the spindle 2 is turned for making more coil it will be turning in the direction of the twist of the coil and the coil will grip the spindle, and that when the spindle is turned to be withdrawn from a portion of the coil it will be turning in the opposite direction to the twist of the coil and the coil will not grip the spindle; These operations are made positive by making the spindle smaller at a short distance from the end. The wire coil is formed on the small portion of the spindle, and when Having fully described my invention, what I claim as new and desire to secure by Letters Patent, is,
1. A wire coiling machine comprising a spindle, a sleeve bearing for said spindle, combined means' for rotating said spindle and for reciprocating the same in said sleeve, said sleeve having an angularcut-out for directing the wire to be fed to said spindle, and an adjusting guide blade cooperating with said sleeve for determining the flight of the coil of the wire.
2. t wire coiling machine having a spindle, a sleeve bearing for said spindle, means for rotating said spindle and for reciprocating the same in said hearing, and means for directing wire to said spindle and for determining the flight of the coil of the wire, said spindle having a large portion for gripping the wire coil and a smaller portion whereo'n the coil is formed.
A wire coiling machine having a spindle, means for feeding wire to said spindle, means for rotating and axially inovingsaid spindle to form wire coil, means for rotating and axially moving said spindle in the opposite direction to withdraw said spindle from portions of said coil whereby said coil is fed from said spindle, and means for regu lating the flight of the coil.
4. A wire coiling; machine having a rotatable and axially movable spindle, means for guiding wire to said spindle, means for regulating the flight of coils to be formed on said spindle,'suitable bearings for said spindle, gearing for driving said spindle for formingwire coil, shifting means for releasing said gearing, means for varying the time for said shifting means to release said gearing, and gearing for rotating said spindle for feeding off wire coil from said spindle. I
5v A wire coiling machine having a rotatable and axially movable spindle, means for guiding wire to said spindle, suitable hearings for said spindle, a spindle carrier, a forward driving pulley rigidly mounted on said carrier, an idler mounted on said carrier, a belt for driving said pulley, a shifter for shifting said belt from said pulley' to said idler and from said idler to said pulley, means for setting said shifter at different longitudinal and vertical adjustments, and a backward driving pulley rigidly mounted on said carrier.
and the coil of wire being fed from the small portion to the large portion.
In testimony whereof, I set my hand in the presence of two witnesses, this 20th day of January, 1906.
' ROBERT L. HORSLEY.
Witnesses A. L. JACKSON, S. M. FRY.
US30047806A 1906-02-10 1906-02-10 Wire-coiling machine. Expired - Lifetime US870237A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US30047806A US870237A (en) 1906-02-10 1906-02-10 Wire-coiling machine.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US30047806A US870237A (en) 1906-02-10 1906-02-10 Wire-coiling machine.

Publications (1)

Publication Number Publication Date
US870237A true US870237A (en) 1907-11-05

Family

ID=2938684

Family Applications (1)

Application Number Title Priority Date Filing Date
US30047806A Expired - Lifetime US870237A (en) 1906-02-10 1906-02-10 Wire-coiling machine.

Country Status (1)

Country Link
US (1) US870237A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2704103A (en) * 1949-06-28 1955-03-15 Micafil Ag Method of and apparatus for manufacturing coreless banked multilayer coils
US2868268A (en) * 1954-02-04 1959-01-13 Coulter & Mckenzie Machine Co Coil-forming machine with generator controlled spindle positioning means

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2704103A (en) * 1949-06-28 1955-03-15 Micafil Ag Method of and apparatus for manufacturing coreless banked multilayer coils
US2868268A (en) * 1954-02-04 1959-01-13 Coulter & Mckenzie Machine Co Coil-forming machine with generator controlled spindle positioning means

Similar Documents

Publication Publication Date Title
GB1396047A (en) Winding machine for producing coil springs
US870237A (en) Wire-coiling machine.
US1810227A (en) Drive for screw machines and the like
US145136A (en) Improvement in machines for making double-pointed screws for knobs
US3265276A (en) Apparatus for making heat exchanger conduits with a wire coil helically wound thereon
US1368297A (en) Spring-winding machine
US379393A (en) harvey
US2131147A (en) Cop winding machine
US861608A (en) Coiling-machine.
US2391969A (en) Apparatus for producing cage grids
US1453431A (en) Coiling machine
US2169351A (en) Machine tool feed controlling means
US642281A (en) Thread-winder.
US1057008A (en) Automatic magnet-winding machine.
US578097A (en) Thread-feeding device for sewing-machines
US870767A (en) Spooling-machine.
US1463834A (en) Winding machine
US684946A (en) Wire drawing and spooling machine.
US1922146A (en) Thread feeding mechanism
US1188720A (en) Coil-winding machine.
US2280883A (en) Production of rubber threads
US1172475A (en) Bobbin-winding machine.
US1995227A (en) Coil winding machine
US818463A (en) Wire-coiling machine.
US921425A (en) Machine for making wire coils.