US2398172A - Winding of spiral fins - Google Patents

Winding of spiral fins Download PDF

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US2398172A
US2398172A US535041A US53504144A US2398172A US 2398172 A US2398172 A US 2398172A US 535041 A US535041 A US 535041A US 53504144 A US53504144 A US 53504144A US 2398172 A US2398172 A US 2398172A
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discs
ribbon
faces
disc
adjacent
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US535041A
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Bruegger Ernest
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Griscom Russell Co
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Griscom Russell Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C37/00Manufacture of metal sheets, bars, wire, tubes or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape
    • B21C37/06Manufacture of metal sheets, bars, wire, tubes or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape of tubes or metal hoses; Combined procedures for making tubes, e.g. for making multi-wall tubes
    • B21C37/15Making tubes of special shape; Making tube fittings
    • B21C37/22Making finned or ribbed tubes by fixing strip or like material to tubes
    • B21C37/26Making finned or ribbed tubes by fixing strip or like material to tubes helically-ribbed tubes
    • 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
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S72/00Metal deforming
    • Y10S72/701Preventing distortion

Definitions

  • This invention relates to the winding of a metallic strip or ribbon into a helical coil such as is employed to form the fin of a finned tube -for use in heat. exchangers and like apparatus.
  • the present invention has for its object the provision of improved and simplified mechanism the adjacent faces of the discsat an angle to each other and in contact or, substantial contact a at one point of their peripheries and spaced apart for continuously bending a straight metallic rib- .bon edgewise into a fiat helical coil.
  • the improved mechanism is'particularly advantageous in the coiling of relatively wide ribbons of relatively thin gauge metal.
  • Other objects of the invention include the provision of mechanism for producing fiat helical ribbon coils of any length; for producing helical coils without buckling or wrinkling the ribbon; and for producing coils having uniform spacing and diameter of successive convolutions.
  • Fig. l is a sectional plan view of mechanism embodying the invention, taken along line Ii of Fig. 2 and viewed in the direction of the arrows;
  • Fig. 2 is an end elevation of the mechanism of Fig. 1;"
  • Fig. 3 is a side elevation of the mechanism
  • Fig. 4 is a sectional view taken along the line H of Fig. 1 and viewed in the direction of the arrows: and r Fig. 5 is a perspective view of a flat helical coil of edgewise wound ribbon produced by the illustrated mechanism.
  • the illustrated embodiment of my improved coil winding mechanism includes generally two coil forming discs 5 and 8 of unequal diameter mounted to rotate about adjacent but angularly disposed axes with play 01' the shaft 1 in the bushing 9 is prevented v by any suitable means, here illustrated as the nuts I! and I 3 fixed to the shaft I and engaging opposite ends of the bushing 9. It should be understood that ball or roller bearings may be substituted for the journal bearing disclosed.
  • the outer forming disc 6 has an annular marginal recess I 4 on its inner face.
  • the marginal face It of the recess H is preferably ground and hardened.
  • the inner forming disc 5 has a central circular-recess I! in which a ground and hardened shoulder ring I 5 is secured, forming an annular marginal hardened face l8, terminating in the shoulder formed by the ring IS.
  • inner disc 5 has a large central opening I9 and is fixed to or formed integral with a cylindrical ring 20 which is journaled to rotate in a circular opening in the support 2
  • the inner forming disc 5 is of larger diameter than the outer disc 6. This difierence in diameter is preferably slightly more than the radial depth from the periphery of the-disc 6 to the shoulder of the ring l5 as shown in Fig. l.
  • the axes of rotation of the forming discs 5 and 6 are closely adjacent each other but disposed with a small angle therebetween so that the adjacent oppositely disposed faces of the discs are angularly disposed.
  • the relative disposition of the discs 5 and 6 is such that their peripheries are aligned and their adjacent marginal end faces 16 and 18 are parallel and closely adjacent each other at and near one point, generally indicated at 24 in Fig. 2; whereas these faces are more widely spaced and the peripheries of the discs 5 and 6 are eccentric and so out of alignment elsewhere.
  • the shoulder of the ring l5 on the inner disc 5 extends close to the face l6 of the outer disc 6 at and adjacent the point 24 but is axially spaced from that face at and adjacent a diametrically opposite point as shown in Fig. 1.
  • the disposition of the discs is such that at their closest point, the space between the the outer peripheral edge of the outer disc as it approaches a point substantially diametrically opposite the point 2
  • the coil of ribbon thus advances axially away from the plate 3 in the form generally illustrated in Fig. 5.
  • shaft I carries a gear 28 engaged by a pinion 2I which may be driven by any suitable source of power.
  • An idler wheel 33 is rotatably mounted on a shaft journaled in the support 2I adjacent the discs 3 and 3 on an'axis parallel to the rotational axis of the disc 5.
  • the wheel 33 has a peripheral slot 34 therein of slightly greater width than the thickness of the ribbon 23 to be wound.
  • the periphery of the idler wheel 33 contacts the periphery of the disc 5 close to but in advance of.
  • the wheel 33 is substantially in contact with the periphery of the disc 3.
  • the slot 34 in the wheel 33 is aligned with the space between the faces I8 and it of the discs 5 and 6, and as shown in Fig. 1 this slot together with the space between the disc faces I3 and I6 forms an opening through which the ribbon 23 Passes.
  • a ribbon guide 33 is fixed to the support 2
  • the ribbon slot 35 of the guide is aligned with the space between the disc faces I3 and I8 and the slot 34 of the wheel 33.
  • a ribbon 23 of any suitable ferrous or non-ferrous metal or alloy is fed through the guide 30 and the forming discs 3 and 8 are simultaneously rotated in the direction of the arrow in Fig. 2.
  • the ribbon 23 enters the space between the disc faces I3 and I3 at a point where these faces approach their most closely adjacent point 24.
  • the slotted idler wheel keeps the outer portion of the ribbon 23 from buckling or wrinkling.
  • the pinch of the ribbon 23 between the faces I6 and I3 causes the inner edge of the ribbon to hug the shoulder formed by the ring I5, thus avoiding any outward pressure of the outer edge of the ribbon against thebottom of the slot 34 in the wheel 33.
  • the diameter of the shoulder on the ring I5 is the same as the desired inside diameter of the helical coil of ribbon being formed. Since the inner portion of the ribbon is tightly compressed between the disc faces I8 and I8 while the bending takes place, wrinkling of the ribbon along or adjacent its inner edge due to edgewise bending is avoided. As the ribbon 23 passes beyond the point 24, the faces I3 and I3 move out of contact therewith and the coiled ribbon finally moves over I claim:
  • a pair of circular forming members each having oppositely disposed adjacent flat end faces, one of said members having a larger diameter than the other, means for mounting said members to rotate about adjacent axes disposed at an angle to each other with their end faces in peripheral alignment and closely adjacent each other at one point of the circumference of said members and spaced more widely apart and radially displaced over the rest of the circumference thereof, means for simultaneously rotating said members, means for guiding a metallic ribbon between the end faces of said members at a point where such faces approach said closely adjacent point and a rotatable wheel having a slotted peripheral edge adjacent'the peripheries of said forming members for guiding a portion of the width of such a ribbon that extends beyond the peripheries of said forming members where the ribbon enters the space between the end faces of said forming members.
  • a pair of circular forming discs of different diameter having oppositely disposed adjacent marginal end faces, said face on the larger of said discs terminating in a circular shoulder
  • a pair of circular forming discs of different diameter having oppositely disposed adjacent marginal and faces of equal radial width, said face on the larger of said discs terminating in a circular shoulder
  • means for mounting said discs to rotate about closely adjacent axes disposed at a small angle to each other with their marginal and faces in peripheral alignment and closely adjacent each other at one point of the circumference of said discs and spaced more widely apart and radially displaced over the rest of the circumference thereof means for rotating said discs In unison, means for guiding a portion of the width of a straight metallic ribbon between the'marginal end faces of said discs and into edg'ewise contact with said circular shoulder at a point where such faces approach said closely adjacent polnt whereby the ribbon is gripped between said faces and bent around said shoulder as said discs rotate, and a rotatable wheel having a slotted peripheral edge adjacent the peripheries of said discs for guiding the
  • a pair of circular forming discs having. oppositely disposed adjacent marginal end faces of equal radial width, said face on one of said discs terminating in a. circular shoulder, means for mounting said discs to rotate about closely adjacent axes disposed at a small angle to each other with said marginal end faces closely adjacent each other and said shoulder closely adjacent the opposite face at and adjacent one point of the circumference of said discs, and said faces spaced more widely apart over the rest of the circumference thereof, means for rotating said discs in the same direction at substantially the same angular velocity, means for guiding a straight metallic ribbon between said marginal end faces of said discs and into edgewise contact with said circular shoulder at a point where said faces approach said closely adjacent point, and a rotatable wheel having a slotted peripheral edge adjacent the peripheries of said discs for guiding a portion of the width of such a ribbon which extends beyond the peripherie of said discs where the ribbon enters the
  • a pair of circular forming discs of different diameter having oppositely disposed adjacent marginal end faces, said face on the larger of said discs terminating in a circular shoulder
  • a rotatably mounted first forming disc having a marginal end face and a central opening
  • a rotatably mounted shaft extending through the central opening of said first disc and disposed closely adjacent but at an angleto the axis of rotation of said first disc
  • a second forming disc of smaller diameter than said first disc fixed to said shaft adjacent said first disc and having a marginal end face adjacent and disposed at an angle to the marginal end face of said first disc, the peripheral edges of said discs being aligned substantially at the point where said marginal end faces are most closely adjacent each other
  • a driving connection between said shaft and said first disc for causing said discs to rotate in unison
  • said discs being disposed at a small angle to each other and being substantially peripherally aligned at the pointwhere their marginal end faces are most closely adjacent each other, means for mounting said-discs to rotate in unison about adjacent anguiarly disposed axes and means for guiding a metallic ribbon between the marginal end faces of said discs adjacent the point where said faces are most closely adjacent each other.

Description

April 9, 1946. E. BRUEGGER 2,398,172
WINDING OF SPIRAL FINS Filed May 11, 1944 INVENTOR EfiNEST 'BRUEGGER 2 QMMM 'M: ATTORNEYS Patented Apr. 9, 1946 wmnma or srmnr. ms
Ernest-Bruegel, Maasillon, Ohio, assignor to The Grlscom-Bnssell Company, New York, N. Y., a
corporation of Delaware Application May 11, 1944, Serial-No. 535.041
8 Claims.
This invention relates to the winding of a metallic strip or ribbon into a helical coil such as is employed to form the fin of a finned tube -for use in heat. exchangers and like apparatus.
In the fabrication of finned tubing of the type having a radially extending helical heat transferring fin thereon, it is customary and desirable to form the fin by winding a continuous straight strip or ribbon of metal into a flat helical coil which is subsequently secured along its inner edge to the surface of the tube. The winding of the ribbon into the helical coil involves bending the ribbon edgewise, and apparatus for so coiling relatively narrow ribbon of relatively heavy gauge metal is disclosed for example in United States Patent No. 1,878,233. Such apparatus is'somewhat complicated, and is not entirely suitable for forming a fiat helical coil from a relatively wide metallic ribbon of relatively thin gauge.
The present invention has for its object the provision of improved and simplified mechanism the adjacent faces of the discsat an angle to each other and in contact or, substantial contact a at one point of their peripheries and spaced apart for continuously bending a straight metallic rib- .bon edgewise into a fiat helical coil. Although applicable to ribbons of various size, the improved mechanism is'particularly advantageous in the coiling of relatively wide ribbons of relatively thin gauge metal. Other objects of the invention include the provision of mechanism for producing fiat helical ribbon coils of any length; for producing helical coils without buckling or wrinkling the ribbon; and for producing coils having uniform spacing and diameter of successive convolutions.
The invention will be described in connection with a typical embodiment thereof which is illustrated in the accompanying drawing.
In the drawing:
Fig. l is a sectional plan view of mechanism embodying the invention, taken along line Ii of Fig. 2 and viewed in the direction of the arrows;
Fig. 2 is an end elevation of the mechanism of Fig. 1;"
Fig. 3 is a side elevation of the mechanism;
Fig. 4 is a sectional view taken along the line H of Fig. 1 and viewed in the direction of the arrows: and r Fig. 5 is a perspective view of a flat helical coil of edgewise wound ribbon produced by the illustrated mechanism.
Referring to the drawing, the illustrated embodiment of my improved coil winding mechanism includes generally two coil forming discs 5 and 8 of unequal diameter mounted to rotate about adjacent but angularly disposed axes with play 01' the shaft 1 in the bushing 9 is prevented v by any suitable means, here illustrated as the nuts I! and I 3 fixed to the shaft I and engaging opposite ends of the bushing 9. It should be understood that ball or roller bearings may be substituted for the journal bearing disclosed.
The outer forming disc 6 has an annular marginal recess I 4 on its inner face. The marginal face It of the recess H is preferably ground and hardened. The inner forming disc 5 has a central circular-recess I! in which a ground and hardened shoulder ring I 5 is secured, forming an annular marginal hardened face l8, terminating in the shoulder formed by the ring IS. The
inner disc 5 has a large central opening I9 and is fixed to or formed integral with a cylindrical ring 20 which is journaled to rotate in a circular opening in the support 2| fixed to the baseil. Axial play of the ring 20 in the support 2| is prevented by engagement of the disc 5 with one end of the support and engagement of a nut 22 fixed to the ring 20 with the opposite end of the support.
The inner forming disc 5 is of larger diameter than the outer disc 6. This difierence in diameter is preferably slightly more than the radial depth from the periphery of the-disc 6 to the shoulder of the ring l5 as shown in Fig. l.
The axes of rotation of the forming discs 5 and 6 are closely adjacent each other but disposed with a small angle therebetween so that the adjacent oppositely disposed faces of the discs are angularly disposed. The relative disposition of the discs 5 and 6 is such that their peripheries are aligned and their adjacent marginal end faces 16 and 18 are parallel and closely adjacent each other at and near one point, generally indicated at 24 in Fig. 2; whereas these faces are more widely spaced and the peripheries of the discs 5 and 6 are eccentric and so out of alignment elsewhere. The shoulder of the ring l5 on the inner disc 5 extends close to the face l6 of the outer disc 6 at and adjacent the point 24 but is axially spaced from that face at and adjacent a diametrically opposite point as shown in Fig. 1. The disposition of the discs is such that at their closest point, the space between the the outer peripheral edge of the outer disc as it approaches a point substantially diametrically opposite the point 2|, as shown in Fig. 1. The coil of ribbon thus advances axially away from the plate 3 in the form generally illustrated in Fig. 5.
shaft I carries a gear 28 engaged by a pinion 2I which may be driven by any suitable source of power. A driving finger 23, secured at one end to the shaft I by suitable means such as welding, extends radially from the shaft and engages a slot 23 in the rearward edge of the ring (Figs. 1 and 4). With this arrangement, the discs 3 and 3 are simultaneously rotated at the same angular velocity, despite the angle between their axes.
An idler wheel 33 is rotatably mounted on a shaft journaled in the support 2I adjacent the discs 3 and 3 on an'axis parallel to the rotational axis of the disc 5. The wheel 33 has a peripheral slot 34 therein of slightly greater width than the thickness of the ribbon 23 to be wound. The periphery of the idler wheel 33 contacts the periphery of the disc 5 close to but in advance of.
the point 24 where the discs 3 and 3 are most closely adjacent each other. The wheel 33 is substantially in contact with the periphery of the disc 3. The slot 34 in the wheel 33 is aligned with the space between the faces I8 and it of the discs 5 and 6, and as shown in Fig. 1 this slot together with the space between the disc faces I3 and I6 forms an opening through which the ribbon 23 Passes.
A ribbon guide 33 is fixed to the support 2| by a bracket 3| and has a tapered point 32 extending between the discs 8 and 3- and the slotted idler wheel 33. The ribbon slot 35 of the guide is aligned with the space between the disc faces I3 and I8 and the slot 34 of the wheel 33.
In the operation of the disclosed embodiment of my invention, a ribbon 23 of any suitable ferrous or non-ferrous metal or alloy is fed through the guide 30 and the forming discs 3 and 8 are simultaneously rotated in the direction of the arrow in Fig. 2. The ribbon 23 enters the space between the disc faces I3 and I3 at a point where these faces approach their most closely adjacent point 24. The slotted idler wheel keeps the outer portion of the ribbon 23 from buckling or wrinkling. As the ribbon 23 approaches the point 24, it is firmly pinched between the disc faces I 6 and I 3, and at and adjacent this point it is bent edgewise about the, circular shoulder of the ring I 5 of the disc 5 as shown in Fig. 2, and thereby continuously formed into a flat helical coil. The pinch of the ribbon 23 between the faces I6 and I3 causes the inner edge of the ribbon to hug the shoulder formed by the ring I5, thus avoiding any outward pressure of the outer edge of the ribbon against thebottom of the slot 34 in the wheel 33. The diameter of the shoulder on the ring I5 is the same as the desired inside diameter of the helical coil of ribbon being formed. Since the inner portion of the ribbon is tightly compressed between the disc faces I8 and I8 while the bending takes place, wrinkling of the ribbon along or adjacent its inner edge due to edgewise bending is avoided. As the ribbon 23 passes beyond the point 24, the faces I3 and I3 move out of contact therewith and the coiled ribbon finally moves over I claim:
1. In mechanism for winding a metallic ribbon into a flat helical coil, in combination, a pair of circular forming members each having oppositely disposed adjacent flat end faces, one of said members having a larger diameter than the other, means for mounting said members to rotate about adjacent axes disposed at an angle to each other with their end faces in peripheral alignment and closely adjacent each other at one point of the circumference of said members and spaced more widely apart and radially displaced over the rest of the circumference thereof, means for simultaneously rotating said members, means for guiding a metallic ribbon between the end faces of said members at a point where such faces approach said closely adjacent point and a rotatable wheel having a slotted peripheral edge adjacent'the peripheries of said forming members for guiding a portion of the width of such a ribbon that extends beyond the peripheries of said forming members where the ribbon enters the space between the end faces of said forming members.
2. In mechanism for winding a metallic ribbon into a flat helical coil, in combination, a pair of circular forming discs of different diameter having oppositely disposed adjacent marginal end faces, said face on the larger of said discs terminating in a circular shoulder, means for mounting said discs to rotate about closely adjacent axes disposed at a small angle to each other with their marginal end faces in peripheral alignment and closely adjacent each other at one point of the circumference of said discs and spaced more widely apart'and radially displaced over the rest of the circumference thereof, means for rotating said discs in unison, means for guiding a portion of the width of a straight metallic ribbon between the marginal end faces of said discs and into edgewise contact with said circular shoulder at a point where such faces approach said closely adjacent point whereby the ribbon is gripped between said faces and bent around said shoulder as said discs rotate, and means for guiding the portion of the width of said ribbon extending beyond said marginal end faces where said ribbon r enters the space between said faces.
3. In mechanism for winding a metallic ribbon into a fiat helical coil, in combination, a pair of circular forming discs of different diameter having oppositely disposed adjacent marginal and faces of equal radial width, said face on the larger of said discs terminating in a circular shoulder, means for mounting said discs to rotate about closely adjacent axes disposed at a small angle to each other with their marginal and faces in peripheral alignment and closely adjacent each other at one point of the circumference of said discs and spaced more widely apart and radially displaced over the rest of the circumference thereof, means for rotating said discs In unison, means for guiding a portion of the width of a straight metallic ribbon between the'marginal end faces of said discs and into edg'ewise contact with said circular shoulder at a point where such faces approach said closely adjacent polnt whereby the ribbon is gripped between said faces and bent around said shoulder as said discs rotate, and a rotatable wheel having a slotted peripheral edge adjacent the peripheries of said discs for guiding the portion of the width of said ribbon extending beyond said marginal end faces of said discs where said ribbon enters the space between said faces.
4. In mechanism for winding a metallic ribbon into a fiat helical coil, in combination, a pair of circular forming discs having. oppositely disposed adjacent marginal end faces of equal radial width, said face on one of said discs terminating in a. circular shoulder, means for mounting said discs to rotate about closely adjacent axes disposed at a small angle to each other with said marginal end faces closely adjacent each other and said shoulder closely adjacent the opposite face at and adjacent one point of the circumference of said discs, and said faces spaced more widely apart over the rest of the circumference thereof, means for rotating said discs in the same direction at substantially the same angular velocity, means for guiding a straight metallic ribbon between said marginal end faces of said discs and into edgewise contact with said circular shoulder at a point where said faces approach said closely adjacent point, and a rotatable wheel having a slotted peripheral edge adjacent the peripheries of said discs for guiding a portion of the width of such a ribbon which extends beyond the peripherie of said discs where the ribbon enters the space between the marginal end faces of said discs whereby the ribbon is gripped between said faces, bent around said shoulder and released from said faces as said discs rotate.
5. In mechanism for winding a metallic ribbon into a flat helical coil, in combination, a pair of circular forming discs of different diameter having oppositely disposed adjacent marginal end faces, said face on the larger of said discs terminating in a circular shoulder, means for mounting said discs to rotate about closely adjacent axes disposed at a small angle to each other with said marginal end faces in peripheral alignment and closely adjacent each other and said shoulder substantially contacting said face of said smaller disc at and adjacent one point of the circumference of said discs, and said faces spaced more widely apart and radially displaced over the rest of the circumference thereof, means for rotating said discs in unison, means for guiding a straight metallic ribbon between said marginal end faces of said discs and into edgewise contact with said circular shoulder at a point where said faces approach said closely adjacent point, and rotatable means adjacent the peripheries of said into a fiat helical coil, in combination, a rotatably mounted first forming disc having an end face and a central opening, a rotatably mounted shaft extending through the central opening of said first disc and disposed closely adjacent but at an angle to the axis of rotation of said first disc, a second forming disc fixed to said shaft adjacent said first disc and having an end face adjacent and disposed at an angle to the end face of said i first disc, a driving connection between said shaft and said first disc for causing said discs to rotate in unison, and means for guiding a metallic ribbon between said end faces of said discs.
7. In mechanism'for winding a metallic ribbon into a fiat helical coil, in combination, a rotatably mounted first forming disc having a marginal end face and a central opening, a rotatably mounted shaft extending through the central opening of said first disc and disposed closely adjacent but at an angleto the axis of rotation of said first disc, a second forming disc of smaller diameter than said first disc fixed to said shaft adjacent said first disc and having a marginal end face adjacent and disposed at an angle to the marginal end face of said first disc, the peripheral edges of said discs being aligned substantially at the point where said marginal end faces are most closely adjacent each other, a driving connection between said shaft and said first disc for causing said discs to rotate in unison, and means for guiding a metallic ribbon between the marginal end faces of said discs adjacent the point where they are most closely adjacent each other.
8. In mechanism for winding a metallic ribbon into a fiat helical coil, in combination, two forming discs of different diameter having oppositely,
disposed adjacent marginal end faces, said discs being disposed at a small angle to each other and being substantially peripherally aligned at the pointwhere their marginal end faces are most closely adjacent each other, means for mounting said-discs to rotate in unison about adjacent anguiarly disposed axes and means for guiding a metallic ribbon between the marginal end faces of said discs adjacent the point where said faces are most closely adjacent each other.
ERNEST BRUEGGER.
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437500A (en) * 1944-09-08 1948-03-09 Griscom Russell Co Apparatus for bending metal strips edgewise in making helical fins
US2918962A (en) * 1953-11-16 1959-12-29 Marley Co Machine for producing finned tubing
US3138191A (en) * 1961-03-06 1964-06-23 Kolk Mfg Co Inc Metal rolling machine
US3152629A (en) * 1961-05-09 1964-10-13 Gen Electric Apparatus and method for helically winding strip material
US3452569A (en) * 1966-06-14 1969-07-01 Nippon Denso Co Helical strip forming and takeup means for the electric stator core
US3464101A (en) * 1967-03-30 1969-09-02 Gen Electric Method and apparatus for helically winding strip material

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2437500A (en) * 1944-09-08 1948-03-09 Griscom Russell Co Apparatus for bending metal strips edgewise in making helical fins
US2918962A (en) * 1953-11-16 1959-12-29 Marley Co Machine for producing finned tubing
US3138191A (en) * 1961-03-06 1964-06-23 Kolk Mfg Co Inc Metal rolling machine
US3152629A (en) * 1961-05-09 1964-10-13 Gen Electric Apparatus and method for helically winding strip material
US3452569A (en) * 1966-06-14 1969-07-01 Nippon Denso Co Helical strip forming and takeup means for the electric stator core
US3464101A (en) * 1967-03-30 1969-09-02 Gen Electric Method and apparatus for helically winding strip material

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