US2589503A - Method and machine for winding electrical resistance units - Google Patents
Method and machine for winding electrical resistance units Download PDFInfo
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- US2589503A US2589503A US743539A US74353947A US2589503A US 2589503 A US2589503 A US 2589503A US 743539 A US743539 A US 743539A US 74353947 A US74353947 A US 74353947A US 2589503 A US2589503 A US 2589503A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01C—RESISTORS
- H01C17/00—Apparatus or processes specially adapted for manufacturing resistors
- H01C17/04—Apparatus or processes specially adapted for manufacturing resistors adapted for winding the resistive element
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49002—Electrical device making
- Y10T29/49082—Resistor making
Definitions
- the invention relates generally to wire winding and more particularly to the winding of electric resistance elements commonly used, for example, in electric toasters.
- Such a heating element comprises a flat substantially non-rigid insulating sheet having a resistance wire wound thereon.
- a heating unit may comprise a pair of such elements arranged edge to edge and held in alignment by relatively
- the resistance wire is wound separately over successive sheets before the rigid strips are assembled to the sheets.
- One object of the invention is to provide a I method and a, machine for winding the wire on a sheet with uniform tension.
- Another object is to provide a method and a machine for winding a resistance wire continuously and successively and with uniform tension on a pair of sheets arranged end to end so that they may be turned to side to side position to form a finished unit as described above.
- Another object is to wind heating elements of the kind described more rapidly than heretofore and particularly to efiect rapid and accurate winding by inexperienced operators.
- Another object is to produce a heating element having a substantially uniformly tensioned resistance wire wound about a sheet of insulating material and more particularly to produce a heating unit comprising a pair of such elements with continuous, successive windings.
- the method comprises clamping two sheets of insulating material end to end between a pair of .rotatably mounted relatively rigid plates and securing an end of the wire so that the wire winds on the sheets and plates when the sheets and plates are rotated.
- the wire is guided lengthwise .oi the sheetsandplates as it winds thereon.
- the 1 sheets are slid endwise from between the plates and then are rotated relative tooone another in theplane of the sheets until their side edges are adjacent one another.
- the sheets are held in this position by assembling a rigid member to the ends of the sheets.
- the ends of the wire are laced through apertures in one of the sheets providedfor that purpose.
- the machine for windingthe elements com-- 2 prises a pair of relatively stiff plates adaptedgto clamp between them end to end thesheets'to be wound with the side edgesof the sheets'project- 'ing' beyond the'sideTedges ofthe fplates.
- a table moves lengthwise of the plates and tensions and guides the wire ;as f it winds on the plates and sheets.
- a screw-type cam determines 'movementof. the table lengthwise of the sheets and'platesto effect desired lateral spacing of the wire on Ithe'sheets.
- One end of the plates is separableand collapsible to edect separation of the wound sheetsjfromjthe' plates.
- Figure 1 is a plan view of a winding machine constructed according to the invention.
- Figure 2 is a front view thereof.
- Figure 3 is transverse vertical section taken approximately on the line 33' of Figure 2.
- Figure 4 is an end vi-ewo'f th'emachinetaken in the direction of the' arrow '4 in Figure 2 and sho s th'epositionsof the various parts .Whenthe machine is stopped.
- FIG. 5 i a detail view similar to. Figure 4 withportionsbrolien away and showing the positions of various "parts when the machine is being
- Figure 6 is a detail plan view of a wire feed table and plate clamping structure as shown in Fi re drawn to'ienlar e d scale.
- Figure 8 is a detail longitudinal sectibn "taken approximately onthe line 8 -8: of Figure "7 and shows the manner in which the feed tablellengages the. guiding cam.
- Figurev 9 is a jdetail longitudinal sectionrof th'e'ri'ght hand end of the machine "taken approximately on line 9990f Figure. 4 and drawn to enlarged s'c'al'eand shows adevice'for "automatic'ally stopping the machine when the Winding operation i'scompleted.
- Figure 10 is a'detail transverse verticalpsec- .tion across the clamping plates takenja'ppro'ximatel on the me [0-40 of Figure 1 anddrawn to enlarged scale.
- Figure If is a .detail longitudinal vertical section lengthwise of. the clampingplates t'aken approximately on, the line. ll- -il 1 and drawnto enlargedjscale.
- Figure 12 shows the wound sheets as they appear when being advertoved from the 'nmachi'ne.
- Figure 14 shows a detail of the wire between the sheets of the finished product.
- the machine comprises a frame I mounting pairs of aligned spaced bearings 2, 2a, 3, 3a.
- a main shaft 4- journalled in the bearings 2, 2a mounts an elongated screw-type cam 5 and gears 6, 6a which mesh with associated gears I, la keyed to stub shafts 8, 8a. journalled in bearings 3, 3a, respectively.
- a pair of elongated plates 9, 9a ofiset relative to each other transversely of their length, are supported between stub shafts 8, So for rotation therewith.
- a plate holder II is pivoted at Ma to a forked end of stub shaft 8.
- Plate 9 is attached rigidly at one end to plate holder II and plate 9a is pivoted at one end to plate holder II to swing edgewise relative to plate 9.
- the opposite ends of plates 9, 9a are received in a springclamp I2 mounted on stub shaft 8a.
- Plates 9, 9a are adapted to receive between them a pair of mica sheets I 0, Illa positioned end to end and on which a resistance wire A I isto be wound.
- the sheets are secured between plates 9, 9a by an end of sheet I0 abutting member II, by a spring clip 43 through aligned apertures in the sheets and plates, and by a pin I2a on spring clamp I2 through aligned apertures in sheet Illa and the plates.
- the overall width of the plates is narrower than the width of the sheets so that wire A winds on the edges of the sheets.
- Plates 9, 9a and cam 5 are rotated by a motor I3 provided with an elongated shaft M in frictional engagement with a drive wheel I5 pinned to shaft 4.
- the end of shaft I4 is movable laterally into and out of engagement with drive wheel I5 by an arm I5 journalling the end of shaft I4 and pivoted to the side of farme I by a screw IGa.
- a brake shoe I7, movable into and out of engagement with drive wheel I5, is pivoted to a bracket I8 mounted on arm I5 and extending substantially at right angles thereto.
- a tension spring I9 attached to arm I6 and to frame I, normally urges shaft I4 out of engagement with drive wheel I5 and urges brake shoe I'I into engagement with drive wheel I5.
- a foot pedal 20, pivoted to frame I, is connected by an elongated spring 2I to arm I6.
- arm I6 pivots against the tension of spring I9 and movesshaft I4 into engagement with drive wheel I5 and moves brake shoe I! out of engagement with drive wheel I5.
- Foot pedal 21! is urged upwardly by a spring 22 attached pedal 23 and to frame I.
- An upright 23 extends through a slot in frame I and is attached to an arm 24 pivoted to the frame by screw IBa. Arm 24 is connected through a link 25 to foot pedal 23.
- foot pedal 20 When foot pedal 20 is depressed manually against the tension of springs 22 and IS, an aperture 2! in lever 23 receives a pin 26 on an upstanding bracket 29 on frame I and holds the pedal in depressed position.
- a spring 28 urges lever 23 against pin 26.
- a wire table is mounted on a shaft 30a rigid with brackets 29, 29a on frame I.
- Table 30 has a pair of forwardly extending jaws 3Ia, 3Ib mounted for pivotal movement relative to one another and urged toward one another and into engagement with cam 5 by a spring 301).
- a notched element 32 on lower jaw 3Ib engages the raised screw-like portions of cam 5 and table 30 is moved lengthwise of plates 9, 911 towards drive wheel I5 as the cam and plates rotate.
- wire guide as is attached to upper jaw and and guides the wire as it is wound on the plates.
- a friction device 35 ( Figures 6 and '7) on table 30.
- the device comprises a roller 35 grooved to receive the wire and journalled on a pin 31 on a rearwardly extending bracket 38 on table 35.
- a flanged roller 39 engages the wire received in grooved roller 36 and is journalled on a rod 43 threaded at one end into the rear of table 30 and extending through bracket 38.
- a spring 4I attached to rod All and to table 35 urges the rollers together into tight engagement with the wire.
- the wire is fed to the machine from a reel 55 ( Figures 1 and 3) mounted on a shaft 5I journalled in a bearing 52 on rearwardly extending brackets 53 of frame I.
- the wire is unwound from the reel by a friction device 54 similar to device 35 described above and comprising a pair of rollers 55, 55 receiving the wire between them.
- Roller 55 is pinned to a shaft 550. J'ournalled in uprights 51 on brackets 53.
- a pulley 58 is pinned to shaft 56a and is driven by shaft 4 through an adjustable variable speed pulley 59 and a" belt 50.
- Roller 55 rotates on an arm El pivoted to upright 51 and is urged into engagement with the wire by a spring 62.
- Roller 53 may be moved manually out of engagement with roller 55 to thread the wire between the rollers by a handle 63 rigid with arm 6I.
- the wire is threaded through a guide 53 and hangs loosely in a loop 55 before entering friction device 35.
- the plates preferably are swung about pivot IIa to the dotted line position of Figure 1 and are flexed apart.
- a pair of mica sheets ID, Illa. are inserted end to end between the plates, and the plates and sheets are swung to the solid line position of Figure 1 and are secured as described above.
- the table 30 may be returned to its original starting position into engagement with a stop I3 on shaft 30a by pulling arm 34 forwardly to tilt lower jaw 3Ib and move element 32 out of engagement with cam 5.
- Plates 8, 8a are removed from spring clamp I 2 and may be swung on pivot lid to the broken line position of Figure 1 and plate 9a may be moved on its pivot to the angular relation with plate 9 indicated in Figure 12 so their overall width tapers toward the free end of the plates to facilitate sliding the sheet and windings lengthwise from the plates.
- the wound sheets appear substantially as shown in Figure 12. After the sheets are removed, they are rotated relative to one another in the plane of the sheets until their side edges IOb are adjacent one another.
- an elongated flat carrier including a pair of relatively rigid plates adapted to mount the sheets of insulating material end to end therebetween, a member extending through apertures in said plates and in the adjacent ends of said sheets, to secure said sheets on said carrier, a wire feeder at one side of the carrier, means to rotate said carrier about its ends to wind the wire over the side of the carrier and opposite edges of the sheets, and means to move said feeder lengthwise of said carrier automatically as said carrier rotates.
- a pair of rotating stub shafts axially aligned and spaced from each other, an elongated flat carrier extending between said shafts and rotatable therewith and adapted to mount a pair of thin fiat sheets of insulating material arranged end to end lengthwise of the carrier, a readily detachable member holding the sheets against movement relative to the carrier, a wire feeder at one side of the carrier, means to move said feeder from end to end of the carrier as the carrier is rotated to wind wire from the feeder in a flat helix about the carrier and about the edges of the sheets thereon, said means being constructed and arranged to cause the winding to skip said member, said carrier being readily detached from one of said stub shafts and movable out of alignment therewith to permit removal of said sheets and windings as a unit from the carrier over the detached end of the carrier.
- the method of producing an electric heater unit including a pair of flat sheets having a continuous resistance wire wound thereon comprising placing the sheets end to end between a pair of relatively rigid plates, rotating the plates and sheets to wind the wire on the plates and sheets, guiding the wire lengthwise of the plates and sheets as it winds thereon from the end of one sheet to the remote end of the other sheet, severing the wire near the terminus of its winding, removing the wound sheets from the plates, rotating the sheets relative to one another in the plane of the sheets until two of their side edges are adjacent one another and the two ends of the wire are adjacent each other, and lacing both ends of the wire through apertures in one of the sheets, and securing a substantially rigid member to the edges of the plates to hold them in side edge to side edge position.
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- Microelectronics & Electronic Packaging (AREA)
- Coil Winding Methods And Apparatuses (AREA)
Description
March 18,1952 P. J. MOCULLOUGH METHOD AND MACHINE FOR WINDING ELECTRICAL RESISTANCE UNITS 4 sheets-sheet 1 Filed April 24, 1947 PAUL J. MCCULLOUGH March 18, 1952 P. J. MGCULLOUGH 2,589,503
METHOD AND MACHINE FOR WINDING ELECTRICAL RESISTANCE UNITS 4 Sheets-Sheet 2 Filed April 24, 1947 T- w w, v
l I 24 M a I/ i U N 4 T IE I Q) c m I L NJ 7 r 1 O L: l a): I Q l 3 I at: ll i u L Q INVENTORI PAUL J. MCCULLOUGH BY @4 17 M ATTORNEY.
March 18, 1952 P. J. MCCULLOUGH 2,589,503
METHOD AND MACHINE FOR WINDING ELECTRICAL RESISTANCE UNITS Filed April 24, 1947 4 Sheets-Sheet 3 INVENTORI PAUL J. MCCULLOUGH ATTORNEY.
March 18, 1952 P. J. MGCULLOUGH 2,589,503
METHOD AND MACHINE FOR WINDING ELECTRICAL RESISTANCE UNITS Filed April 24, 1947 4 Sheets-Sheet 4 I II I n FIG. 6 fl FIG. 7.
INVENT OR PAUL J. MCCULLOUGH ATTORNEY- I rigid strips applied to their ends.
Patented Mar. 18, 1952 METHOD AND MACHINE FOR WINDING ELECTRICAL RESISTANCE UNITS Paul J. McCullough, St. Louis, MO., assignor, by 'mesn'e assignments, to The Toastswell Company,.lncorporated, St. Louis, Mo., a corp oration of Missouri Application April 24, 1947 ,erial No. 743,539 4 Claims. (01. 29 1 55 .5)
Y The invention relates generally to wire winding and more particularly to the winding of electric resistance elements commonly used, for example, in electric toasters.
Such a heating element comprises a flat substantially non-rigid insulating sheet having a resistance wire wound thereon. A heating unit may comprise a pair of such elements arranged edge to edge and held in alignment by relatively Preferably the resistance wire is wound separately over successive sheets before the rigid strips are assembled to the sheets.
Heretofore, it has been the ractice to wind the heating elements by hand. This operation consumes considerable time and it requires skill to tension the wire on the sheets uniformly by'hand so that the wire will not sag when heated.
One object of the invention is to provide a I method and a, machine for winding the wire on a sheet with uniform tension.
Another object is to provide a method and a machine for winding a resistance wire continuously and successively and with uniform tension on a pair of sheets arranged end to end so that they may be turned to side to side position to form a finished unit as described above.
Another obiect is to wind heating elements of the kind described more rapidly than heretofore and particularly to efiect rapid and accurate winding by inexperienced operators.
Another object is to produce a heating element having a substantially uniformly tensioned resistance wire wound about a sheet of insulating material and more particularly to produce a heating unit comprising a pair of such elements with continuous, successive windings.
Other objects will be'apparent to those skilled in the art from the following description and accompanying drawings.
The method comprises clamping two sheets of insulating material end to end between a pair of .rotatably mounted relatively rigid plates and securing an end of the wire so that the wire winds on the sheets and plates when the sheets and plates are rotated. The wire is guided lengthwise .oi the sheetsandplates as it winds thereon. The 1 sheets are slid endwise from between the plates and then are rotated relative tooone another in theplane of the sheets until their side edges are adjacent one another. The sheets are held in this position by assembling a rigid member to the ends of the sheets. The ends of the wire are laced through apertures in one of the sheets providedfor that purpose.
The machine for windingthe elements com-- 2 prises a pair of relatively stiff plates adaptedgto clamp between them end to end thesheets'to be wound with the side edgesof the sheets'project- 'ing' beyond the'sideTedges ofthe fplates. The
plates are rotated to wind the wire on the sheets and plates." A table moves lengthwise of the plates and tensions and guides the wire ;as f it winds on the plates and sheets. A screw-type cam determines 'movementof. the table lengthwise of the sheets and'platesto effect desired lateral spacing of the wire on Ithe'sheets. One end of the plates is separableand collapsible to edect separation of the wound sheetsjfromjthe' plates.
In the drawings: Figure 1 is a plan view of a winding machine constructed according to the invention.
Figure 2 is a front view thereof. Figure 3 is transverse vertical section taken approximately on the line 33' of Figure 2.
Figure 4is an end vi-ewo'f th'emachinetaken in the direction of the' arrow '4 in Figure 2 and sho s th'epositionsof the various parts .Whenthe machine is stopped.
5 i"; a detail view similar to. Figure 4 withportionsbrolien away and showing the positions of various "parts when the machine is being Figure 6 is a detail plan view of a wire feed table and plate clamping structure as shown in Fi re drawn to'ienlar e d scale.
Figure 'Iis a detail'transver'se vertical section taken approximately on the line 1-"! "of Figure'fi.
Figure 8 is a detail longitudinal sectibn "taken approximately onthe line 8 -8: of Figure "7 and shows the manner in which the feed tablellengages the. guiding cam.
Figurev 9 is a jdetail longitudinal sectionrof th'e'ri'ght hand end of the machine "taken approximately on line 9990f Figure. 4 and drawn to enlarged s'c'al'eand shows adevice'for "automatic'ally stopping the machine when the Winding operation i'scompleted.
,Figure 10 is a'detail transverse verticalpsec- .tion across the clamping plates takenja'ppro'ximatel on the me [0-40 of Figure 1 anddrawn to enlarged scale.
Figure If is a .detail longitudinal vertical section lengthwise of. the clampingplates t'aken approximately on, the line. ll- -il 1 and drawnto enlargedjscale.
Figure 12 shows the wound sheets as they appear when beingfremoved from the 'nmachi'ne.
'Figure 13 shows 'anjassembled heater,- nt,
Figure 14 shows a detail of the wire between the sheets of the finished product.
The machine comprises a frame I mounting pairs of aligned spaced bearings 2, 2a, 3, 3a. A main shaft 4- journalled in the bearings 2, 2a mounts an elongated screw-type cam 5 and gears 6, 6a which mesh with associated gears I, la keyed to stub shafts 8, 8a. journalled in bearings 3, 3a, respectively.
A pair of elongated plates 9, 9a ofiset relative to each other transversely of their length, are supported between stub shafts 8, So for rotation therewith. A plate holder II is pivoted at Ma to a forked end of stub shaft 8. Plate 9 is attached rigidly at one end to plate holder II and plate 9a is pivoted at one end to plate holder II to swing edgewise relative to plate 9. The opposite ends of plates 9, 9a are received in a springclamp I2 mounted on stub shaft 8a.
Plates 9, 9a are adapted to receive between them a pair of mica sheets I 0, Illa positioned end to end and on which a resistance wire A I isto be wound. The sheets are secured between plates 9, 9a by an end of sheet I0 abutting member II, by a spring clip 43 through aligned apertures in the sheets and plates, and by a pin I2a on spring clamp I2 through aligned apertures in sheet Illa and the plates. The overall width of the plates is narrower than the width of the sheets so that wire A winds on the edges of the sheets.
Plates 9, 9a and cam 5 are rotated by a motor I3 provided with an elongated shaft M in frictional engagement with a drive wheel I5 pinned to shaft 4. The end of shaft I4 is movable laterally into and out of engagement with drive wheel I5 by an arm I5 journalling the end of shaft I4 and pivoted to the side of farme I by a screw IGa. A brake shoe I7, movable into and out of engagement with drive wheel I5, is pivoted to a bracket I8 mounted on arm I5 and extending substantially at right angles thereto. A tension spring I9, attached to arm I6 and to frame I, normally urges shaft I4 out of engagement with drive wheel I5 and urges brake shoe I'I into engagement with drive wheel I5. A foot pedal 20, pivoted to frame I, is connected by an elongated spring 2I to arm I6. When the pedal is depressed manually, arm I6 pivots against the tension of spring I9 and movesshaft I4 into engagement with drive wheel I5 and moves brake shoe I! out of engagement with drive wheel I5. Foot pedal 21! is urged upwardly by a spring 22 attached pedal 23 and to frame I.
An upright 23 extends through a slot in frame I and is attached to an arm 24 pivoted to the frame by screw IBa. Arm 24 is connected through a link 25 to foot pedal 23. When foot pedal 20 is depressed manually against the tension of springs 22 and IS, an aperture 2! in lever 23 receives a pin 26 on an upstanding bracket 29 on frame I and holds the pedal in depressed position. A spring 28 urges lever 23 against pin 26.
A wire table is mounted on a shaft 30a rigid with brackets 29, 29a on frame I. Table 30 has a pair of forwardly extending jaws 3Ia, 3Ib mounted for pivotal movement relative to one another and urged toward one another and into engagement with cam 5 by a spring 301). A notched element 32 on lower jaw 3Ib engages the raised screw-like portions of cam 5 and table 30 is moved lengthwise of plates 9, 911 towards drive wheel I5 as the cam and plates rotate. A
wire guide as is attached to upper jaw and and guides the wire as it is wound on the plates.
When table 30 moves to the end of plates 9, 9a adjacent drive wheel I5 at the end of a winding operation, the machine is stopped automatically by an arm 34 on table 30 which engages upright 23 and moves it laterally out of engagement with pin 26 against the tension of spring 28, whereupon spring I9 pivots lever I6 and moves drive shaft I4 out of engagement with drive wheel I5 and brake shoe I'I into engagement therewith. Foot pedal 20 is moved to its uppermost position by spring 22 and lever 23 is moved downwardly so notch 21 is out of registry with pin 26.
As the wire is wound on the sheets and plates, it is tensioned uniformly by a friction device 35 (Figures 6 and '7) on table 30. The device comprises a roller 35 grooved to receive the wire and journalled on a pin 31 on a rearwardly extending bracket 38 on table 35. A flanged roller 39 engages the wire received in grooved roller 36 and is journalled on a rod 43 threaded at one end into the rear of table 30 and extending through bracket 38. A spring 4I attached to rod All and to table 35 urges the rollers together into tight engagement with the wire.
The wire is fed to the machine from a reel 55 (Figures 1 and 3) mounted on a shaft 5I journalled in a bearing 52 on rearwardly extending brackets 53 of frame I. The wire is unwound from the reel by a friction device 54 similar to device 35 described above and comprising a pair of rollers 55, 55 receiving the wire between them. Roller 55 is pinned to a shaft 550. J'ournalled in uprights 51 on brackets 53. A pulley 58 is pinned to shaft 56a and is driven by shaft 4 through an adjustable variable speed pulley 59 and a" belt 50. Roller 55 rotates on an arm El pivoted to upright 51 and is urged into engagement with the wire by a spring 62. Roller 53 may be moved manually out of engagement with roller 55 to thread the wire between the rollers by a handle 63 rigid with arm 6I. The wire is threaded through a guide 53 and hangs loosely in a loop 55 before entering friction device 35.
To start a winding operation, the plates preferably are swung about pivot IIa to the dotted line position of Figure 1 and are flexed apart. A pair of mica sheets ID, Illa. are inserted end to end between the plates, and the plates and sheets are swung to the solid line position of Figure 1 and are secured as described above.
The end of wire A is secured toa clip I2 on spring clamp I2. Foot pedal 20 is depressed sufficiently to move upright 23 upwardly until aperture 21 receives pin 26 and brake shoe II moves out of engagement with drive wheel I5 and drive shaft I4 moves into engagement with drive wheel I5, whereupon plates 9, 9a and sheets I0, Illa rotate. The wire is unwound from reel 53 by friction device 54 and is pulled through guide 33 and friction device 35 as it winds on the sheets and plates. Cam 5 moves table 3!] lengthwise of the sheets and plates to guide the wire as it winds on the sheets and plates. When the last turn is being wound, arm 34 engages upright 23 and moves it laterally out of engagement with pin 25, whereupon the machine is stopped automatically as described above. After the machine stops, the operator cuts the wire between the edge of sheet 90. and guide 33. The table 30 may be returned to its original starting position into engagement with a stop I3 on shaft 30a by pulling arm 34 forwardly to tilt lower jaw 3Ib and move element 32 out of engagement with cam 5. Plates 8, 8a are removed from spring clamp I 2 and may be swung on pivot lid to the broken line position of Figure 1 and plate 9a may be moved on its pivot to the angular relation with plate 9 indicated in Figure 12 so their overall width tapers toward the free end of the plates to facilitate sliding the sheet and windings lengthwise from the plates. The wound sheets appear substantially as shown in Figure 12. After the sheets are removed, they are rotated relative to one another in the plane of the sheets until their side edges IOb are adjacent one another. This results in 180 twist in the portion of the wire A intermediate sheets and Ilia (Figure 14). The free ends of the wire are laced through apertures M on sheet I011 and a pair of rigid members 75 are installed over the edges of the sheets to hold the 7 sheets in assembled relation.
The details of the construction may be varied substantially without departing from the spirit of the invention and the exclusiveuse of those modifications coming within the scope of the claims is contemplated.
What is claimed is: V
1. In a machine for winding an electrical resistance unit including a pair of thin flat sheets of insulating material and a wire wound thereon, an elongated flat carrier including a pair of relatively rigid plates adapted to mount the sheets of insulating material end to end therebetween, a member extending through apertures in said plates and in the adjacent ends of said sheets, to secure said sheets on said carrier, a wire feeder at one side of the carrier, means to rotate said carrier about its ends to wind the wire over the side of the carrier and opposite edges of the sheets, and means to move said feeder lengthwise of said carrier automatically as said carrier rotates.
2. In a machine for winding an electrical resistance unit, a pair of rotating stub shafts axially aligned and spaced from each other, an elongated flat carrier extending between said shafts and rotatable therewith and adapted to mount a pair of thin fiat sheets of insulating material arranged end to end lengthwise of the carrier, a readily detachable member holding the sheets against movement relative to the carrier, a wire feeder at one side of the carrier, means to move said feeder from end to end of the carrier as the carrier is rotated to wind wire from the feeder in a flat helix about the carrier and about the edges of the sheets thereon, said means being constructed and arranged to cause the winding to skip said member, said carrier being readily detached from one of said stub shafts and movable out of alignment therewith to permit removal of said sheets and windings as a unit from the carrier over the detached end of the carrier.
3. The method of producing an electric heater unit including a pair of flat sheets having a continuous resistance wire wound thereon, c0mprising placing the sheets end to end between a pair of relatively rigid plates, securing an end of the wire relative to one end of one of said sheets, rotating the plates and sheets to wind the Wire on the plates and sheets, guiding the wire lengthwise of the plates and sheets as it winds thereon from the end of one sheet to the remote end of the other sheet. severing the wire near the terminus of its winding, removing the wound sheets from the plates, and rotating the sheets relative to one another in theplane of the sheets until two of their side edges are adjacent one another and the two ends of the wire are adjacent each other.
4. The method of producing an electric heater unit including a pair of flat sheets having a continuous resistance wire wound thereon, comprising placing the sheets end to end between a pair of relatively rigid plates, rotating the plates and sheets to wind the wire on the plates and sheets, guiding the wire lengthwise of the plates and sheets as it winds thereon from the end of one sheet to the remote end of the other sheet, severing the wire near the terminus of its winding, removing the wound sheets from the plates, rotating the sheets relative to one another in the plane of the sheets until two of their side edges are adjacent one another and the two ends of the wire are adjacent each other, and lacing both ends of the wire through apertures in one of the sheets, and securing a substantially rigid member to the edges of the plates to hold them in side edge to side edge position.
PAUL J. MCCULLOUGH;
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENT Number Name Date 498,128 Loveman et al May 23, 1893 786,049 Naylor Mar. 28, 1905 1,045,530 Dinsmoor Nov. 26, 1912 1,176,819 Dinsmoor Mar. 28, 1916 1,703,005 Hewitt Feb. 19, 1929 1,931,009 Phelps et al. Oct. 17, 1933 2,061,516 Frese Nov. 17, 1936 2,187,267 Galligan Jan. 16, 1940 2,194,848 Collins Mar. 26, 1940 2,382,451 Stastney Aug. 14, 1945 FOREIGN PATENTS Number Country Date 30,285 Great Britain Dec. 28, 1909
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US743539A US2589503A (en) | 1947-04-24 | 1947-04-24 | Method and machine for winding electrical resistance units |
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US743539A US2589503A (en) | 1947-04-24 | 1947-04-24 | Method and machine for winding electrical resistance units |
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Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2726820A (en) * | 1951-12-06 | 1955-12-13 | Mcgraw Electric Co | Winding machine |
US2726819A (en) * | 1950-09-20 | 1955-12-13 | Mcgraw Electric Co | Winding method and machine |
US2800929A (en) * | 1953-11-16 | 1957-07-30 | Avco Mfg Corp | Process for making grids |
US2860220A (en) * | 1955-01-03 | 1958-11-11 | Keeler Ralph Paul | Resistor comprising wire helically wound on pliant tape and method of preparing same |
US3021874A (en) * | 1958-06-25 | 1962-02-20 | Halm Instrument Co | Coil winding means |
US3048341A (en) * | 1958-10-13 | 1962-08-07 | Helmut A Frcyholdt | Machine for winding wire or the like |
US3137924A (en) * | 1959-09-04 | 1964-06-23 | Olin Mathieson | Method of making electric heaters |
US3166103A (en) * | 1961-07-20 | 1965-01-19 | Rca Corp | Grid manufacturing apparatus |
US3954546A (en) * | 1973-09-06 | 1976-05-04 | Jenaer Glaswerk Schott & Gen. | Apparatus for the manufacture of optical-fiber bundles |
US4037072A (en) * | 1975-12-22 | 1977-07-19 | E-Systems, Inc. | Apparatus for fabricating resistors |
US4372499A (en) * | 1979-10-15 | 1983-02-08 | Baechinger Peter | Process and apparatus for preparing fabric patterns |
US4943334A (en) * | 1986-09-15 | 1990-07-24 | Compositech Ltd. | Method for making reinforced plastic laminates for use in the production of circuit boards |
US5037691A (en) * | 1986-09-15 | 1991-08-06 | Compositech, Ltd. | Reinforced plastic laminates for use in the production of printed circuit boards and process for making such laminates and resulting products |
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US498128A (en) * | 1893-05-23 | C loth-meas u ring machine | ||
US786049A (en) * | 1904-09-16 | 1905-03-28 | Edwin Charles Naylor | Hand-operated winding apparatus. |
GB190930285A (en) * | 1909-12-28 | 1910-12-22 | John Henry Milward Hobley | Improvements in or relating to Machines for Winding Worsted, Cotton, Cord, Braid, Yarn and the like upon Cards, Bobbins or equivalent Articles. |
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US1176819A (en) * | 1915-11-17 | 1916-03-28 | George W Dinsmoor | Cloth-board winder. |
US1703005A (en) * | 1928-01-05 | 1929-02-19 | Frank W Hewitt | Electric heating pad and fabric |
US1931009A (en) * | 1930-11-19 | 1933-10-17 | Delco Remy Corp | Winding machine |
US2061516A (en) * | 1935-11-20 | 1936-11-17 | Monitor Controller Co | Method of making edgewise wound resistance coils |
US2187267A (en) * | 1939-02-27 | 1940-01-16 | Knapp Monarch Co | Heating element winding machine |
US2194848A (en) * | 1938-03-21 | 1940-03-26 | Knapp Monarch Co | Heating unit for electric appliances |
US2382451A (en) * | 1944-08-08 | 1945-08-14 | Western Electric Co | Core winding apparatus |
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Publication number | Priority date | Publication date | Assignee | Title |
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US498128A (en) * | 1893-05-23 | C loth-meas u ring machine | ||
US786049A (en) * | 1904-09-16 | 1905-03-28 | Edwin Charles Naylor | Hand-operated winding apparatus. |
GB190930285A (en) * | 1909-12-28 | 1910-12-22 | John Henry Milward Hobley | Improvements in or relating to Machines for Winding Worsted, Cotton, Cord, Braid, Yarn and the like upon Cards, Bobbins or equivalent Articles. |
US1045530A (en) * | 1912-01-23 | 1912-11-26 | George W Dinsmoor | Cloth-board holder. |
US1176819A (en) * | 1915-11-17 | 1916-03-28 | George W Dinsmoor | Cloth-board winder. |
US1703005A (en) * | 1928-01-05 | 1929-02-19 | Frank W Hewitt | Electric heating pad and fabric |
US1931009A (en) * | 1930-11-19 | 1933-10-17 | Delco Remy Corp | Winding machine |
US2061516A (en) * | 1935-11-20 | 1936-11-17 | Monitor Controller Co | Method of making edgewise wound resistance coils |
US2194848A (en) * | 1938-03-21 | 1940-03-26 | Knapp Monarch Co | Heating unit for electric appliances |
US2187267A (en) * | 1939-02-27 | 1940-01-16 | Knapp Monarch Co | Heating element winding machine |
US2382451A (en) * | 1944-08-08 | 1945-08-14 | Western Electric Co | Core winding apparatus |
Cited By (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2726819A (en) * | 1950-09-20 | 1955-12-13 | Mcgraw Electric Co | Winding method and machine |
US2726820A (en) * | 1951-12-06 | 1955-12-13 | Mcgraw Electric Co | Winding machine |
US2800929A (en) * | 1953-11-16 | 1957-07-30 | Avco Mfg Corp | Process for making grids |
US2860220A (en) * | 1955-01-03 | 1958-11-11 | Keeler Ralph Paul | Resistor comprising wire helically wound on pliant tape and method of preparing same |
US3021874A (en) * | 1958-06-25 | 1962-02-20 | Halm Instrument Co | Coil winding means |
US3048341A (en) * | 1958-10-13 | 1962-08-07 | Helmut A Frcyholdt | Machine for winding wire or the like |
US3137924A (en) * | 1959-09-04 | 1964-06-23 | Olin Mathieson | Method of making electric heaters |
US3166103A (en) * | 1961-07-20 | 1965-01-19 | Rca Corp | Grid manufacturing apparatus |
US3954546A (en) * | 1973-09-06 | 1976-05-04 | Jenaer Glaswerk Schott & Gen. | Apparatus for the manufacture of optical-fiber bundles |
US4037072A (en) * | 1975-12-22 | 1977-07-19 | E-Systems, Inc. | Apparatus for fabricating resistors |
US4372499A (en) * | 1979-10-15 | 1983-02-08 | Baechinger Peter | Process and apparatus for preparing fabric patterns |
US4943334A (en) * | 1986-09-15 | 1990-07-24 | Compositech Ltd. | Method for making reinforced plastic laminates for use in the production of circuit boards |
US5037691A (en) * | 1986-09-15 | 1991-08-06 | Compositech, Ltd. | Reinforced plastic laminates for use in the production of printed circuit boards and process for making such laminates and resulting products |
US5376326A (en) * | 1986-09-15 | 1994-12-27 | Compositech Ltd. | Methods for making multilayer printed circuit boards |
US5478421A (en) * | 1986-09-15 | 1995-12-26 | Compositech Ltd. | Method for making composite structures by filament winding |
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