US2761336A - Apparatus for finning metal tubes - Google Patents

Apparatus for finning metal tubes Download PDF

Info

Publication number: US2761336A
Authority: US; United States
Prior art keywords: tube; rolls; mandrel; finning; reducing
Prior art date: 1955-06-29
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

US518746A

Inventor

Raymond H Greene

John M Keyes

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.)

Calumet and Hecla Inc

Original Assignee

Calumet and Hecla Inc

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.)

1955-06-29

Filing date

1955-06-29

Publication date

1956-09-04

1955-06-29 Application filed by Calumet and Hecla Inc filed Critical Calumet and Hecla Inc

1955-06-29 Priority to US518746A priority Critical patent/US2761336A/en

1956-06-28 Priority to ES0229538A priority patent/ES229538A1/en

1956-09-04 Application granted granted Critical

1956-09-04 Publication of US2761336A publication Critical patent/US2761336A/en

1973-09-04 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

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Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21C—MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES, PROFILES OR LIKE SEMI-MANUFACTURED PRODUCTS OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
- B21C37/00—Manufacture of metal sheets, rods, wire, tubes, profiles or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape
- B21C37/06—Manufacture of metal sheets, rods, wire, tubes, profiles 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
- B21C37/15—Making tubes of special shape; Making tube fittings
- B21C37/20—Making helical or similar guides in or on tubes without removing material, e.g. by drawing same over mandrels, by pushing same through dies ; Making tubes with angled walls, ribbed tubes or tubes with decorated walls
- B21C37/207—Making helical or similar guides in or on tubes without removing material, e.g. by drawing same over mandrels, by pushing same through dies ; Making tubes with angled walls, ribbed tubes or tubes with decorated walls with helical guides
- 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
- Y10T29/4935—Heat exchanger or boiler making
- Y10T29/49377—Tube with heat transfer means
- Y10T29/49378—Finned tube
- Y10T29/49382—Helically finned

Definitions

the present invention relates to apparatus for finning metal tubes.
It is an object of the present invention to provide apparatus for making finned tubes which comprises a floating mandrel adapted to be positioned within the tube having a relatively large and a relatively small end portion interconnected by a conical portion, a set of reducing rolls adapted to engage the tube in the zone of the conical portion of the mandrel, and a set of rolls adapted to produce a helical fin on the tube by extrusion engaging the surface of the tube in the zone of the relatively small diameter end portion thereof.
Figure 1 is a fragmentary longitudinal view of a tube in the process of reduction and having fins formed there on by extrusion.
Figure 2 is an end view of the structure shown in Figure 1 as viewed from the right thereof.
the present invention includes apparatus for producing a helical fin on metal tubing by extrusion as more fully set forth in Hill Patent 2,508,517 or 2,562,785.
Hill Patent 2,508,517 or 2,562,785. disclose the formation of a helically extending fin by an operation in which the material of the fin is extruded radially outwardly from the material of the tube. Reference is made to these prior patents for a more complete description of the details and operation of the finning rolls.
the finning rolls are shown at 10, three such rolls being illustrated as comprising a single set in the drawing.
the operation may in a proper case be carried out with a single roll or preferably, with two forming rolls disposed at diametrically opposite sides of the tube.
Each of the rolls includes a plurality of annular fin forming rib portions 12 which conveniently may be the peripheral edge portion of separate discs assembled together by suitable clamping means such for example as the nut 14 threaded on the end of the roll supporting and driving arbor 16.
the tube which is first reduced in diameter and thereafter provided with extruded fins in a second operation which further reduces itsinternal diameter is illustrated at T.
Located within the tube is a floating mandrel 29 having a relatively large cylindrical end portion 22, a relatively small cylindrical end portion 24, and a conical portion '26 intermediate the larger and smaller end portions.
the diameter of the larger end portion 22 of the floating mandrel is slightly smaller than the internal 2,761,336 Patented Sept. 4, 1956 FQC diameter of the tube T as it is supplied to the reducing and finning apparatus.
the small end portion 24 of the floating mandrel has a diameter equal to the required internal diameter of the completely reduced and finned tube.
a plurality of reducing rolls 30 each of which as illustrated comprises a conical reducing portion 32 and a cylindrical portion 34.
the rolls 30 are clamped by suitable means such as the nut 36 on the threaded end of a supporting and driving arbor 38.
the conical portion 32 of the reducing rolls is disposed radially opposite and in conformity to the conical portion 26 of the floating mandrel.
the conical portion 32 is so shaped and the reducing rolls 30 are so located that the internal diameter of the tube T in the zone where it is being reduced, as indicated at 40, is smaller than the diameter of the large end portion 22 of the mandrel. Accordingly, the inclined conical surface 49 of the tube T prevents travel of the floating mandrel 20 longitudinally of the tube and at the same time provides a support for the relatively small end portion 24 in the zone of operation of the finning rolls 10.
the finning rolls 10 are inclined at an appropriate angle so as to be substantially conjugate to the helical fin extruded on the exterior surface of the tube.
Means are provided for effecting relative rotation between the sets of rolls and the tube about the longitudinal axis of the tube, and the inclined relationship of the fin forming rib portions 12 is effective to insure axial advance of the tube T at the'required rate as the helical fin is extruded from its exterior surface.
the required relative rotation may be produced by rotating the rolls 10 about their axes while the tube is rotated thereby and simultaneously advanced axially.
the reducing roll operates to reduce the diameter of the tube T to desired dimensions and in addition, serves as means for securing or retaining the floating mandrel 20 in the position required for its proper cooperation with the forming rolls 10.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphcry of the tube in a. zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, said reducing. rolls being uniformly spaced around the circumference of the tube, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, said reducing rolls being three in number and uniformly spaced around the circumference of the tube, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for efiecting relative rotation between the tube and said rolls.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin, said finning rolls being spaced uniformly around the circumference of
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of the periphery of the tube in stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging the periphery of the tube in a zone opposite the conical portion of said mandrel-and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin, in number and space
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape ofa helical fin.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls en gaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposedat an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin, said finning rolls being spaced uniformly around the circumference of the tube.
Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality'of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fln, said finning rolls being three in number and spaced uniformly around the circumference of the tube.

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Engineering & Computer Science (AREA)
Mechanical Engineering (AREA)
Shaping Of Tube Ends By Bending Or Straightening (AREA)

Description

Sept. 4, 1956 R EENE ETAL 2,761,336

APPARATUS FOR FINNING METAL TUBES Filed June 29, 1955 FIGJ.

Fl G. 2.

INVENTORS RAYMON D H. GREENE CD A W'MTORNEYS United States 2,761,336 APPARATUS FOR FINNHNG IVIETAL TUBES Raymond H. Greene, Detroit, and John M. Keyes, Northville, Mich, assignors to Calumet & Hecla, Inc., Calumet, Mich., a corporation of Michigan Application June 29, 1955, Serial No. 518,746

Claims. (Cl. 80-13) The present invention relates to apparatus for finning metal tubes.

It is an object of the present invention to provide apparatus for making finned tubes which comprises a floating mandrel adapted to be positioned within the tube having a relatively large and a relatively small end portion interconnected by a conical portion, a set of reducing rolls adapted to engage the tube in the zone of the conical portion of the mandrel, and a set of rolls adapted to produce a helical fin on the tube by extrusion engaging the surface of the tube in the zone of the relatively small diameter end portion thereof.

It is a further object of the present invention to provide apparatus as described in the preceding paragraph in which the reducing rolls are provided with their axes parallel to the tube axis and have conically shaped reduced portions disposed in conformity to the conical portion of the mandrel.

It is a further object of the present invention to provide the apparatus as described in the foregoing in which the reducing rolls and finning rolls are each uniformly spaced around the tube to produce balanced forces thereon.

Other objects and features of the invention will become apparent as the description proceeds, especially when taken in conjunction with the accompanying drawings, wherein:

Figure 1 is a fragmentary longitudinal view of a tube in the process of reduction and having fins formed there on by extrusion.

Figure 2 is an end view of the structure shown in Figure 1 as viewed from the right thereof.

The present invention includes apparatus for producing a helical fin on metal tubing by extrusion as more fully set forth in Hill Patent 2,508,517 or 2,562,785. These prior patents disclose the formation of a helically extending fin by an operation in which the material of the fin is extruded radially outwardly from the material of the tube. Reference is made to these prior patents for a more complete description of the details and operation of the finning rolls.

In the present case the finning rolls are shown at 10, three such rolls being illustrated as comprising a single set in the drawing. However, the operation may in a proper case be carried out with a single roll or preferably, with two forming rolls disposed at diametrically opposite sides of the tube.

Each of the rolls includes a plurality of annular fin forming rib portions 12 which conveniently may be the peripheral edge portion of separate discs assembled together by suitable clamping means such for example as the nut 14 threaded on the end of the roll supporting and driving arbor 16.

The tube which is first reduced in diameter and thereafter provided with extruded fins in a second operation which further reduces itsinternal diameter is illustrated at T. Located within the tube is a floating mandrel 29 having a relatively large cylindrical end portion 22, a relatively small cylindrical end portion 24, and a conical portion '26 intermediate the larger and smaller end portions. The diameter of the larger end portion 22 of the floating mandrel is slightly smaller than the internal 2,761,336 Patented Sept. 4, 1956 FQC diameter of the tube T as it is supplied to the reducing and finning apparatus. The small end portion 24 of the floating mandrel has a diameter equal to the required internal diameter of the completely reduced and finned tube.

Associated with the floating mandrel and the tube T are a plurality of reducing rolls 30 each of which as illustrated comprises a conical reducing portion 32 and a cylindrical portion 34. The rolls 30 are clamped by suitable means such as the nut 36 on the threaded end of a supporting and driving arbor 38.

As best seen in Figure l, the conical portion 32 of the reducing rolls is disposed radially opposite and in conformity to the conical portion 26 of the floating mandrel. The conical portion 32 is so shaped and the reducing rolls 30 are so located that the internal diameter of the tube T in the zone where it is being reduced, as indicated at 40, is smaller than the diameter of the large end portion 22 of the mandrel. Accordingly, the inclined conical surface 49 of the tube T prevents travel of the floating mandrel 20 longitudinally of the tube and at the same time provides a support for the relatively small end portion 24 in the zone of operation of the finning rolls 10.

As is well understood in the art, the finning rolls 10 are inclined at an appropriate angle so as to be substantially conjugate to the helical fin extruded on the exterior surface of the tube. Means are provided for effecting relative rotation between the sets of rolls and the tube about the longitudinal axis of the tube, and the inclined relationship of the fin forming rib portions 12 is effective to insure axial advance of the tube T at the'required rate as the helical fin is extruded from its exterior surface. Conveniently, and as more fully described in the Hill patents referred to, the required relative rotation may be produced by rotating the rolls 10 about their axes while the tube is rotated thereby and simultaneously advanced axially.

With the present apparatus the reducing roll operates to reduce the diameter of the tube T to desired dimensions and in addition, serves as means for securing or retaining the floating mandrel 20 in the position required for its proper cooperation with the forming rolls 10.

The drawings and the foregoing'specification constitute a description of the improved apparatus for finning metal tubes in such full, clear, concise and exact terms as to enable any person skilled in the art to practice the invention, the scope of which'is indicated by the appended claims.

Vi hat we claim as our invention is:

1. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls.

2. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphcry of the tube in a. zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, said reducing. rolls being uniformly spaced around the circumference of the tube, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls.

3. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, said reducing rolls being three in number and uniformly spaced around the circumference of the tube, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls. i

4. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for efiecting relative rotation between the tube and said rolls.

5. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin.

6. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin, said finning rolls being spaced uniformly around the circumference of the tube.

7. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of the periphery of the tube in stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls having their axes parallel to the tube axis and having conically shaped reducing portions engaging the periphery of the tube in a zone opposite the conical portion of said mandrel-and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin, in number and spaced uniformly around the circumference of the tube.

8. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape ofa helical fin.

9. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality of finning rolls en gaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposedat an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fin, said finning rolls being spaced uniformly around the circumference of the tube.

10. Apparatus for extruding fins on metal tubes by a rolling operation which comprises a floating mandrel located within a tube, said mandrel having end portions of stepped diameter connected by an intermediate conical portion, a plurality of reducing rolls engaging the periphery of the tube in a zone opposite the conical portion of said mandrel and adapted to reduce the internal diameter of the tube to a value less than the diameter of the large end of said mandrel, a plurality'of finning rolls engaging the periphery of the tube after reduction by said reducing rolls and in a zone opposite the small end of said mandrel, and means for effecting relative rotation between the tube and said rolls, said finning rolls each comprising a plurality of discs and being disposed at an angle to the axis of the tube so as to extrude material therefrom in the shape of a helical fln, said finning rolls being three in number and spaced uniformly around the circumference of the tube.

References Cited in the file of this patent UNITED STATES PATENTS 1,865,575 Locke July 5, 1932 2,164,724 Severin July 4, 1939 2,429,491 Schuler -Oct. 21, 1947 said finning rolls being three-

US518746A 1955-06-29 1955-06-29 Apparatus for finning metal tubes Expired - Lifetime US2761336A (en)

Priority Applications (2)

Application Number	Priority Date	Filing Date	Title
US518746A US2761336A (en)	1955-06-29	1955-06-29	Apparatus for finning metal tubes
ES0229538A ES229538A1 (en)	1955-06-29	1956-06-28	Apparatus for finning metal tubes

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
US518746A US2761336A (en)	1955-06-29	1955-06-29	Apparatus for finning metal tubes

Publications (1)

Publication Number	Publication Date
US2761336A true US2761336A (en)	1956-09-04

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Application Number	Title	Priority Date	Filing Date
US518746A Expired - Lifetime US2761336A (en)	1955-06-29	1955-06-29	Apparatus for finning metal tubes

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US (1)	US2761336A (en)
ES (1)	ES229538A1 (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US3166099A (en) *	1960-05-06	1965-01-19	Du Pont	Thermoplastic pipe
US3174319A (en) *	1962-01-05	1965-03-23	Nihon Kentetsu Company Ltd	Method and apparatus for manufacturing integrally finned tubing
US3187537A (en) *	1961-12-11	1965-06-08	Calumet & Hecla	Floating rotation mandrel for finning
US3317951A (en) *	1963-10-03	1967-05-09	Alimentaire G A S A Soc Gen	Tube drawing apparatus
US4915166A (en) *	1983-08-04	1990-04-10	Wolverine Tube, Inc.	Titanium heat exchange tubes
US5810670A (en) *	1995-08-08	1998-09-22	Tsuda Kogyo Kabushiki Kaisha	Method of manufacturing connector bolt
US20120131975A1 (en) *	2002-01-17	2012-05-31	Johan Massee	Method and forming machine for manufacturing a product having various diameters

Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US1865575A (en) *	1928-11-30	1932-07-05	Wolverine Tube Company	Apparatus for manufacturing integral finned tubing
US2164724A (en) *	1936-07-25	1939-07-04	Severin Jose	Rolling mill for enlarging hollow bodies
US2429491A (en) *	1944-10-02	1947-10-21	Calumet And Heela Cons Copper	Apparatus for forming annular fins on tubing

1955
- 1955-06-29 US US518746A patent/US2761336A/en not_active Expired - Lifetime
1956
- 1956-06-28 ES ES0229538A patent/ES229538A1/en not_active Expired

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US1865575A (en) *	1928-11-30	1932-07-05	Wolverine Tube Company	Apparatus for manufacturing integral finned tubing
US2164724A (en) *	1936-07-25	1939-07-04	Severin Jose	Rolling mill for enlarging hollow bodies
US2429491A (en) *	1944-10-02	1947-10-21	Calumet And Heela Cons Copper	Apparatus for forming annular fins on tubing

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US3166099A (en) *	1960-05-06	1965-01-19	Du Pont	Thermoplastic pipe
US3187537A (en) *	1961-12-11	1965-06-08	Calumet & Hecla	Floating rotation mandrel for finning
US3174319A (en) *	1962-01-05	1965-03-23	Nihon Kentetsu Company Ltd	Method and apparatus for manufacturing integrally finned tubing
US3317951A (en) *	1963-10-03	1967-05-09	Alimentaire G A S A Soc Gen	Tube drawing apparatus
US4915166A (en) *	1983-08-04	1990-04-10	Wolverine Tube, Inc.	Titanium heat exchange tubes
US5810670A (en) *	1995-08-08	1998-09-22	Tsuda Kogyo Kabushiki Kaisha	Method of manufacturing connector bolt
US20120131975A1 (en) *	2002-01-17	2012-05-31	Johan Massee	Method and forming machine for manufacturing a product having various diameters
US8539805B2 (en) *	2002-01-17	2013-09-24	Johan Massee	Method and forming machine for manufacturing a product having various diameters

Also Published As

Publication number	Publication date
ES229538A1 (en)	1956-10-01

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