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US1295614A - Machine for rolling rings. - Google Patents

Machine for rolling rings. Download PDF

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Publication number
US1295614A
US1295614A US15501?17A US1295614DA US1295614A US 1295614 A US1295614 A US 1295614A US 1295614D A US1295614D A US 1295614DA US 1295614 A US1295614 A US 1295614A
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Prior art keywords
frame
roll
ring
rolls
shaft
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Expired - Lifetime
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US15501?17A
Inventor
William Scrimgeour
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S-K MANUFACTURING Co
S K Manufacturing Co
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S K Manufacturing Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D17/00Forming single grooves in sheet metal or tubular or hollow articles
    • B21D17/04Forming single grooves in sheet metal or tubular or hollow articles by rolling

Definitions

  • ' urtlzer relates to "the means i I supporti mg the rolls Wheretorsional st; ns on the roll-shaft are taken care oi: as: to means for counteracting ii'ansve so bending strains and insuring exact piiruilo on of the rolls.
  • My invention further relates to means for preventing lon il'noiml movement of the rolls... to the provision oi. suitable fixed and movable ui lo rolls. to insure theprmluction oi a wvtevt ring; to theprovision of adequate means for supporting and moving the movable roll; to tho construct on of the rolls thcumolvesi; to the prov sion of adjusting means or stop or lien-1' wining the awn-oi of k semi inn.
  • Figure 1 is a view in elevation
  • Fig. 2 is an end view from the left in 3 Fig. 1;
  • F lg. 4 a vertical transverse section on the line ieit, 1;
  • Fig. 5 a vertical longitudinal section on the line Fig. 4.;
  • the shattS which forms the outer roll or carries a separate roll is mounted in a %ii t able frame 9 normally above the roll 6 so that, the distance between the rolls may be varied as the thickness of the material pressed hetween them fliminishes.
  • the shiftahle frame 9 which forms a material part of my invention, comprises a cross-web 10 carrying journal-boxes 11 and 5 12, respectively, at its ends.
  • the journalboxes have cylindrical surfaces to slide along; the walls of curved openings 13 and 14, in the upright frames 1' and 2.
  • the frames 1 and 2 are formed with flanges i and 16., respectively;
  • the journal-boxes 1 and 12 are preferably made iii separate pieces and attached to the cross-web 10 in any suitable manner. as by bolts 17. it is thus seen that the frame 9 and with it, shaft 8, can be shified toward and away from the shaft 6 for the purpose above specified.
  • the cross-web is designed as tively brace the shaft or roll. 8 against bending stress.
  • l have provided adjustable stops.
  • bolts 15 and 16 as best shown in These bolts extend from the unilerside offlanges l4 upwardly through the bem'ingliloclrs 7, i of the roller 6. Normally, they are at their upper cud Hush with the upper face of these boaring-blocks. llhen it desired, however, to space the rolls 6 and 8 for a greater thick ness of the hoop. the bolts are advanced so that they protrude above the surf.
  • the bolts are provided with a smooth portion 13 and a. s :IcW iillI'QtHlPil pol'ijlflllx il adapted to engage a scrmv-tln'czu'l in the flanges 14-.
  • a lock-nut 17" is prorii. al for each bolt to secure the bolts in adjusted position.
  • the lever 18 is preferably mounted on shaft 19 by means of a. divided hearing, as clearly shown in dotted lines in Fig. 4, so that the lever can be attached and detached without disturbing other parts of the apparatus.
  • the shaft .19 is supported at its ends in the upright end portions 1 and of the frame in such a manner that the wear is taken. up principally by hearing caps 93" and 9.1. For this purpose the in a 21 and 2).. a'sis seen in Figs. 2 and '3. cml'srace the nutjor part of the lower bearing the wear becomes excessive, i re ilacecl by to eii'ec- 23 of the frame,
  • 1e frame presents at its left-hand edge (see Fig. 2) a, substantially vertical wall.
  • This wall is shaped to form three half bearings 23, 24: and The other half for these hearings is provided in the form of detachable caps 26, 27 and 28 (see Fig. 6).
  • bearings are identical on each of the upright end portions 1 and 2 and accommodate shaft-s 29, 30 and 31.
  • Slmft 29 carries a fly-wheel pulley 32 for a belt :lrixc and a pinion 33. This pinlmi, meshes with a gear 34 on shaft 30, see Fig.
  • gears 35 and 36' On shaft 30 are two pinions 35 and 36' to transmit the power from shaft 30 to shaft through gears 37 and 38. Gears 3 ⁇ and 38 in turn mesh with gear-teeth 39 and 4:0, respectively, on shaft 6, as best shown in Fi 4 and 5.
  • the gear-teeth 39 out directly into the is an important feature, since it reduces the distance between the shafts or rolls 6 and 8 to a minimum and thus makes it possible to roll exceedingly thin rings between the rolls proper. It is of course possible to reduce the distance between the rolling surfaces to any small amount desired by providin rollers larger in diameter than rolls 6 and 8, but I have found that the increase of the rollers in diameter is not desirable. since they have a tenrlenov. due to their high circumferential speed, to tear and dis-- rupt the fibers and texture of the material of the ring.
  • I elaimt 1 In it ring-rolling machine, the combination of :1 frame, rolls ext ding from one side thereof, one of said runs rotatable in fixed. bearings, the othee roll. mounted to melt about u shaft on said frame, journals for the ti tltbott'd end of each roll, means for positively driving both 1' ls, and means for applying pressure to the 2 ':lr;i.n;r roll.
  • said rolls having pinions formed in their bodies, and driving gears engaging said pinions.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Casting Or Compression Moulding Of Plastics Or The Like (AREA)

Description

W. SCRIMGECIUR.
RINGS.
MACHINE FOR ROLLING APPLICATION FILED MAR.
Paten'te Efib. 25, 1919.
6 SHEETS-SHEEI 1.
W. SCRWIGEOUR.
MACHINE FOR ROLLING RINGS.
APPLICATION HLED MAR. 15, 1912.
1,295,614. Patented Feb. 25, 1919.
B SHEETS-SHEEI' 2;
331mm Java Hamil;
attorney W. SCRIMGEOUR.
MACHINE FOR ROLLING RINGS.
APPLICATION man MAR. i5. 1912.
Patented Feb. 25, 1919.
6 SHEETS-SHEET 3.
. Q grme'nfoz W. SCRIMGEOUR. MACHINE FOR ROLLING RINGS. APPLICATION FILED II AR. s. IQII.
I Z, 9 m W4 m TO w: 2m 3 .m
UL. I A d w Laws H Imb w M I W. SCFHMGEOUR.
MACHINE FOR ROLLING RINGS. APPLICATION FILED T1l.-'\R.l51 11H. 1 295 614 Patented Feb. 2;), 1919,
a swans-saw 5 attorney W. SCRIMGEOUR.
MACHINE FOR ROLLING RINGS.
APPLICATION man MAR.15, 1911.
1,295 ,61%. lgltgented Feb. 25, 1919.
6 SHEETSSHEE'| 6.
PATENT ossion.
i l l'd-llfl ilklli SCRZMGIEOUR, Q33 "Q JEHIKGTON, DISTRICT OF COLUMBIA, ASSIGNGE TD ESQK. fil'ZhHUEAGTUE-ING COMPAZE" CF HUNTINGTON, WEST VIRGINIA.
EVHHIJHIEE F01}. ROLLING RINGS.
Specification of Letters Patent.
Patented Feb. 25, i919a sgylicetion tiled March 15, 1917. Serial Ho. 155,013.
To at? "i 20m it "In my concern Te it known that l. W. 1
cnwamon. I apparatus for rollrings, silent-tires or other metal hoops, the wherein the Work operated een an inner and an outenroller. the object of my invention to provide an apparatus of he character clesoribecl that combines comps less simplioity of strucinre and operation anii great eiliciency; I
i i r object of my invention lo sneli i i wing the blank and reefl. hoop that the machine meehanism he in con- ?E my invention to time for the min. To carry provisions for lost hentling stress s can brought to bear 07. ring to'lae rolleai, and have "aiding means "for-the hoop or ring to hold it in "a singleplaneof rotation. As the ring time prevented fl-om wahbling or lateral shitting substantially thi oughout its 2 no oat rotat on, a larger {force can be aprolling operation lllfl and the to? "ucoll to a minimum. 1
' urtlzer relates to "the means i I supporti mg the rolls Wheretorsional st; ns on the roll-shaft are taken care oi: as: to means for counteracting ii'ansve so bending strains and insuring exact piiruilo on of the rolls.
My invention further relates to means for preventing lon il'noiml movement of the rolls... to the provision oi. suitable fixed and movable ui lo rolls. to insure theprmluction oi a wvtevt ring; to theprovision of adequate means for supporting and moving the movable roll; to tho construct on of the rolls thcumolvesi; to the prov sion of adjusting means or stop or lien-1' wining the awn-oi of k semi inn.
aceessto the rollers for the'roller system; and. a
relative movement of the rolls, and to other features of construction anti arrangement which Will more definitely appear from the following description and claims.
In the appended drawings. which represent a preferred embodiment of invention,'
Figure 1 is a view in elevation;
Fig. 2 is an end view from the left in 3 Fig. 1;
F lg. 4 a vertical transverse section on the line ieit, 1;
Fig. 5 a vertical longitudinal section on the line Fig. 4.;
6 a vertical transverse section through an end view from the right in roll and is turned. about an axis which is fixed relatively to the frame.
The shattS which forms the outer roll or carries a separate roll is mounted in a %ii t able frame 9 normally above the roll 6 so that, the distance between the rolls may be varied as the thickness of the material pressed hetween them fliminishes.
The shiftahle frame 9, which forms a material part of my invention, comprises a cross-web 10 carrying journal-boxes 11 and 5 12, respectively, at its ends. The journalboxes have cylindrical surfaces to slide along; the walls of curved openings 13 and 14, in the upright frames 1' and 2. To form. an extended guide for these journal-boxes, the frames 1 and 2 are formed with flanges i and 16., respectively; The journal-boxes 1 and 12 are preferably made iii separate pieces and attached to the cross-web 10 in any suitable manner. as by bolts 17. it is thus seen that the frame 9 and with it, shaft 8, can be shified toward and away from the shaft 6 for the purpose above specified.
The cross-web is designed as tively brace the shaft or roll. 8 against bending stress. To properly limit the space be tween rolls 6 and 8 and thus determine the thickness of the ring to be pressed, l have provided adjustable stops. As a convenient means for that purpose I have shown bolts 15 and 16, as best shown in These bolts extend from the unilerside offlanges l4 upwardly through the bem'ingliloclrs 7, i of the roller 6. Normally, they are at their upper cud Hush with the upper face of these boaring-blocks. llhen it desired, however, to space the rolls 6 and 8 for a greater thick ness of the hoop. the bolts are advanced so that they protrude above the surf. cc of the bearing blocks 7', 7. a required amount. For the purpose of adjustment the bolts are provided with a smooth portion 13 and a. s :IcW iillI'QtHlPil pol'ijlflllx il adapted to engage a scrmv-tln'czu'l in the flanges 14-. A lock-nut 17" is prorii. al for each bolt to secure the bolts in adjusted position. These stops are importa at, as by their proper adj ustmcnt. the pressure rolling of the blank is stopped just at such time as the outer periphery of the finished ring, IOOQas shown in Fig. 6, comes into engagement with the guide rolls. Dis tortion of the ring is thus prevented and the production of a perfect ring insured.
While any suitable mechanism may be resorted to for operating the journalcarrying frame 9, I have shown as a? preferred fern-i of such mechanism a lever 18 fulcrumiui on a shaft 19,--whicl1 will be more particularly referred to bclow,--said lever haying a short arm 20 connected to the crosswch 10 and its longer arm connect-mi to a source of pressure This source of pressure is pnxferalily a hydraulic engine. but its spccil'l form in immaterial and does not form a. part of my in-- vention. It has the fimction of t shaft 8 towzird the shaft 6 and supplying the power necessary for the rolling procc It is understood that there are means, as customacv. for relcasuiu;- the pressure at will. This feature is not illustrated, since it is well understood. The lever 18 is preferably mounted on shaft 19 by means of a. divided hearing, as clearly shown in dotted lines in Fig. 4, so that the lever can be attached and detached without disturbing other parts of the apparatus.
The shaft .19 is supported at its ends in the upright end portions 1 and of the frame in such a manner that the wear is taken. up principally by hearing caps 93" and 9.1. For this purpose the in a 21 and 2).. a'sis seen in Figs. 2 and '3. cml'srace the nutjor part of the lower bearing the wear becomes excessive, i re ilacecl by to eii'ec- 23 of the frame,
iln-ough gears a new cap with little expense, while the frame itself is little affected. The caps are held in position by bolts 19 and by arms 22" which are in. turn clam )ed in a bifurcation as by olts 90. This form of mountinq makes it possible to take out shaft 19, wien desired, and to give access to tl interior of the machine for purpose of repair. I
For the power transmission for turning the shafts (l and 8 and thermvith the rolls.
have designed a simple set of gears and the particular arrangement-forms an. im port-ant part of my invention.
1e frame presents at its left-hand edge (see Fig. 2) a, substantially vertical wall. This wall is shaped to form three half bearings 23, 24: and The other half for these hearings is provided in the form of detachable caps 26, 27 and 28 (see Fig. 6). bearings are identical on each of the upright end portions 1 and 2 and accommodate shaft- s 29, 30 and 31.
Slmft 29 carries a fly-wheel pulley 32 for a belt :lrixc and a pinion 33. This pinlmi, meshes with a gear 34 on shaft 30, see Fig.
1-. On shaft 30 are two pinions 35 and 36' to transmit the power from shaft 30 to shaft through gears 37 and 38. Gears 3} and 38 in turn mesh with gear-teeth 39 and 4:0, respectively, on shaft 6, as best shown in Fi 4 and 5.
The gear-teeth 39 out directly into the is an important feature, since it reduces the distance between the shafts or rolls 6 and 8 to a minimum and thus makes it possible to roll exceedingly thin rings between the rolls proper. It is of course possible to reduce the distance between the rolling surfaces to any small amount desired by providin rollers larger in diameter than rolls 6 and 8, but I have found that the increase of the rollers in diameter is not desirable. since they have a tenrlenov. due to their high circumferential speed, to tear and dis-- rupt the fibers and texture of the material of the ring. I have avoided i'lis iliiiii-ulty by reducing the distance between the aha-Firs or rolls to the smallest possible amount From shaft 31 the power is also transmitted to shaft 8 through a gear 41 at the end of shaft 31 which projects outside the frame port-ion l, the gear 41 meshing with a gear keyed to shaft 19 (see Fig. 3) and 43 and 44 on shaft 19 cugaging gear teeth 45 and 46, respectively. on sl'iaft'8. It will be noted that these gears +15, 46 are located close to the bearings, and that the bearings are relatively long, so that transver:.-1e and torsional strains are counter noted. The location of the cars 45, 4.6 in the shaft. enables the shafts to be made very strong and of substantially the same the sha or amiable-aim in ill qn'odueet-l on the ed eter. There very little tendency for lateral or side-Wise metal-flew. thott-he Width of the ring remains substun ully the some. Any slight irregnlmiifies whit-h tend 'to he s or the rings are how-- ever prevented by the 1. that the ring us it is rolled is kept with its unis purullel to the axis of the rolls, beeuusr of .ihe faret that its edges bear against; the plates (5:5 and 70, which also prevent any sidewise Web tiling of the ring being rolled. llhe massive structure of the standard and the support 2-, together with the mnple bearings afforded for both ends, and pmrtieuhn'ly the outer ends of each of the rollers insure he pro duction of a substuutially perfect ring with its inner and outer faces in puredelism.
It will be notel'l that the upper roll 51 is slightly larger in diameter than the loud-n. roll 52 end. this feature purp at zulopted, it?? it has been foun that it slightly greater eircumfertmti:rl L l of the outer i or pressure roll (muses more ell'ectire and uniform distribution of the metal.
It "will also be noted that in my muehme the press-n1 1s applied to the outside roll and this is done for the reason that'I have found in practice. that a greatly superior resul t is obtained by this arm.s'igemem'.
' While I have Sl'lOWIl a machine adapted for rolling u plain. or pm'ellehsided ring, it is obvious that many other forms may be rolled, by suitable changes in configuration of the rolls. Exumples'of sueh forms are shown in Figs. 1-11.
It is understtmd that the uppurutus, 1 shown and described, muly he modified in various Ways Within the scope of my chums.
I elaimt 1. In it ring-rolling machine, the combination of :1 frame, rolls ext ding from one side thereof, one of said runs rotatable in fixed. bearings, the othee roll. mounted to melt about u shaft on said frame, journals for the ti tltbott'd end of each roll, means for positively driving both 1' ls, and means for applying pressure to the 2 ':lr;i.n;r roll.
In it ringqolling nntehir the worldnotion of frrsune, rolls effenum from one side thereof,one of suicluiolls r tuble in fixed bearings. the other roll nnnmted to rock about 5t shaft on said frame, jrmrnrtls for the outboard end of each roll, one of said. journals being movable, memisfor posi tirely' drivingboth rolls, trod menus for applying; pressure to the rocking roll,
In it ring-rolling l'mlehine, :2 frame, nv roll mormted on a rocking support carried by the frame, said roll having one end eittem'ling beyond 1d. frame, it lirrings i said support for each end of the rollv and an intel-mediate beurin in projmtlty to the working end of l A roll,
In n. ring-w oiling uuurhine, u frame, it roll mounted on. rocking; support uwried by the frame, said roll having one end ex tending beyond said frame, hearings in suid support for each end of the roll a nd an mtermediate bearing in proxirmty to the Working end of the roll, guide surfaces on the intermediate and inbomrd bearings, and corresponding guide surfaces in the frame,
In :L ring-rolling mnehil'ie, :1 frmne, a roll mounted on a rocking support, at shaft on which said support is mounted, and means for removing said shaft lzitruntlll from said frame com prising caps 21, arms 22, and means for clumping said arms to the frame.
6. In a ring rolling nun-hints, a freme, a movable supporteurried by said frame, journals on said support, a roll. journaled at each.
end in said journals and guide rolls mounted shaft on which said support. is carried, nv
pinion on said shaft, and u gear on said roll in mesh with said pinion.
S. In a ring rolling n'luchine, :1 frame, 2.1v rocking support carried by said frame, journals in said support, :1v roll journaled at each end in said journals, a shaft on which said support curried, gears on slxnft and. 'pjmons on said roll in proxmutv fro smd journ uls.
9. In it rolling-mill, a frame a pair of respectively fixed and movable rolls mounted.
in said frame and having- Working ends extending beyond said frame, said rolls having pinions formed in their bodies, and driving gears engaging said pinions.
10. In a rolling mill, at frmne having standards at each end, a. fixed roll ournuled in suidstandurds, a movable roll journnled in u support carried by said frame, means for moving the movable roll toward the fixed roll, and cooperating means on said standards, said rolls and said support preventing lateral shifting of the rolls.
11. In a ring-rolling mill, :1 frmne, u fixed roll journaled in. said. frame and having one end extending therefrom, an extension of said frame having a fixed and a rrtovaible standard, a, journal in said movable standard for the end of said roll, and means our ried by the fixed standard for moving the movable standard toward and from the frame.
12. In a ring-rolling mill, a. frame, 3 fixed roll journaled in said frame and how in one end extending therefrom, an ext-en sum of said frame having it fixed and u movubl standard, a, journal in said movable frame for the end of said roll, guide rods secured to the fixed standard and frame and ioa passing through the movable stznulurd, and
means carried by the fixed standard for oi an upright frame, a roll turning in fixed roll iiionut-ml on moving said stzmdard-into and out of sup- 'projeoting at one side of the frame.
K above the fixed roll and having a. gaortion ing ;.==pu oetl from the frame encladapted to form by the with the outer faoo'of the moving the movable standard toward and tion of 11 52111110, mo mils nmunier en the from the frame. frame and having poi'tiom pro'jy-ting ut- 18. In a ring-ro1ling mill, a frame, a fixed one side oi: the trvme. u strewn-ail elem roll jouriutled in said frame and having one spzwml from the ironic and. having end extending therefrom, an extension oi? temh-(l surl'zu-v timing the frame, a said frame having a liXGrlMXl-u movable went and, tmmr forming with: chem standard, '21v journal in said movable frame tor the ring, mile for the end of said roll, guide IO'IlS secured element and t to the fixed steiidarol and frame and pussshop-9 of ing through the movable standard, guide 2U. lu
rolls on said guide rods in proximity to the tion oi? we 1 :1 --,1b fvd't l {,4 g nv. ii U116, rm meluis ouuu y 1e me e we 111D h. ei'tl for mo'vn'ig the movable standard to-- mg at HG i ward and from the frame. means for 1%. In a ring-rolling 111111, the combination port tGWflhi 2t bearings thereon and having a portion proportion pregecti jeetiiig at one side of the frame, a. standard in prom may t1 spaced from the frame and normally supfirst roll, m5 roller porting the free encl of the roll, means tor port torxletei'nziu' 21. 111 e riug-roih A porting petition, and a movable roll on the time? :1 frame, 1; roll fuming in Excel frame substantially (so-extensive with and ings thereou mill having a portion prej eetabove the fixed. roll and, having a portion ing in" one sit oi? th t mid ineune for nifori'ling a 15. In a ring-rolling mill, the eombinw tion of. an upright frame, a roll turning in fixed bearings thereon and having a portion projecting at one side of the frame, u stand :u-rl spaced from the frame and normally supporting the. free encl of the roll, means for moving said. stenderfi into out}. out of structural o supportin position, a, movable roll on the and normally frame sufistantially coextensive with anrl the first rolh projecting at one side of the frame, and and rel means for shifting the movable roll with the in respect to the fixed roll. mentiom 16. In a ring-rolling mill, the combine; the shape i e ring. tion of :1 frame, two rolls mounteii on the In a, rim rolling 1" frame and having portions projecting at one and lower the side of the frame, and ar s'truotural element ring; forzi'iecl,
hime guitle surjournalecl. faces for the ring. I i said support o 1?. In ering-roilingni ,the'oombination roll, emi of a frame, two rolls mou'ritecl oiigjthe frameriecl end having portions projecting atone side I said the frame, a structural element spaced the from the frameyantl having an extended surface facing the frame, element and, tion of a frame'fo'rming a chamber acting es a guide frame and for the-ring; one
18. In a ring-rolling mill, the combinespeoecl from tion of'a frame, two rolls mounted on the porting: he frame and having portions projecting at eler one sitleoi the frame, a structural element spaced from the heme, and normally supporting the tree ehel of one of the rolls, said element and rame being edeptecljto term a guide chalmher for the ring, means for moving the element into encl out of supporting position. I
19. In ering-rolling mill, the combine .1 1!: .32 u or one oi tlm ire having fran'le, a support and means for Shifting roll, and a mom Me shuldmkd 1 the support; from above toward and away from the fixed r011, an upper r011 mounted in said movable support and having an end nrajecting beyond the frame to coi'ipemte with the fixed r011, an outboard bearing carried by said support for said movable mving :1 bear ing' for the out bmln? and of the fixed r011, 1110mm for applying prussenlre in Elm mcw- 10 3144* NHL mean for rm i n'ocating H10 shawl Md, and 112mm; fm: driving both mils.
In a I nfii'x; my signature,
GREEK IG- E 0 UR
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2607245A (en) * 1945-03-23 1952-08-19 Sk Wellman Co Method and apparatus for shaping bimetallic blanks
US2610532A (en) * 1947-09-27 1952-09-16 Heppenstall Co Ring rolling mill
US6473981B2 (en) 2001-02-13 2002-11-05 Victaulic Company Of America Diameter indicator for use with groove forming tools
US20030226387A1 (en) * 2002-04-16 2003-12-11 Dole Douglas R. Orbiting roller groover for pipe
US20050178179A1 (en) * 2004-02-12 2005-08-18 Victaulic Company Of America Power or manually operated pipe grooving tool

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2607245A (en) * 1945-03-23 1952-08-19 Sk Wellman Co Method and apparatus for shaping bimetallic blanks
US2610532A (en) * 1947-09-27 1952-09-16 Heppenstall Co Ring rolling mill
US6473981B2 (en) 2001-02-13 2002-11-05 Victaulic Company Of America Diameter indicator for use with groove forming tools
US20030226387A1 (en) * 2002-04-16 2003-12-11 Dole Douglas R. Orbiting roller groover for pipe
US6935152B2 (en) 2002-04-16 2005-08-30 Victaulic Company Of America Orbiting roller groover for pipe
US20050178179A1 (en) * 2004-02-12 2005-08-18 Victaulic Company Of America Power or manually operated pipe grooving tool
US6993949B2 (en) 2004-02-12 2006-02-07 Victaulic Company Power or manually operated pipe grooving tool

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