US2334886A - Machine for straightening, sizing, and polishing tubes and rods - Google Patents
Machine for straightening, sizing, and polishing tubes and rods Download PDFInfo
- Publication number
- US2334886A US2334886A US384068A US38406841A US2334886A US 2334886 A US2334886 A US 2334886A US 384068 A US384068 A US 384068A US 38406841 A US38406841 A US 38406841A US 2334886 A US2334886 A US 2334886A
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- roll
- machine
- carriage
- rolls
- pedestal
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21C—MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
- B21C37/00—Manufacture of metal sheets, bars, wire, tubes or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape
- B21C37/06—Manufacture 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
- B21C37/30—Finishing tubes, e.g. sizing, burnishing
Definitions
- This invention relates to machines of the kind wherein round stock, such as tubes, rods, shafts and the like, is drawn between and. straightened, sized and polished by laterally spaced,
- the principal object of the present invention is to devise a machine of the above type that will overcome all of the disadvantages herebefore referred to, that will provide for rotating the work rolls at the same speed and that will provide for simplicity and cheapness of construction and compactness of design.
- the invention consists in the machine and in the construction, combinations and arrangements of parts hereinafter described and claimed.
- Fig. 1 is a plan view of a machine embodying my invention, i
- Fig. 2 is an end elevation of said machine
- Fig. 3 is a, central vertical longitudinal section through said machine on the line 3-3 in Fig. 1,
- Fig. 4 is a vertical transverse section through said machine on the lin-e 4-4 of Fig. 1,
- Fig. 5 is a plan view illustrating a machine of modified construction
- Fig. 6 is an end elevation of the machine shown in Fig. 5, V
- Fig. '7 - is an end elevation of another ma- 'chine of modified form
- Fig. 8 is a view looking at the opposite en of the machine shown in Fig. 7, and
- Fig. 9 is a vertical transverse section through said machine between the work rolls thereof, showing one of the work rolls, the driving means therefor and the means for adjusting the angularity thereof in elevation.
- the machine shown in Figs. 1 to 4, inclusive, of the accompanying drawings comprises a bed I having a pedestal 2 at the rear end thereof, a carriage 3 slidable on said bed and having a pedestal 4, and a central longitudinal feed screw 5 for moving said carriage longitudinally ofsaid bed toward and from the pedestal 2.
- the carriage feed screw 5 is threaded through an upstanding lug 6 at the forward end of the bed I.
- the screw 5 is manually rotated by a hand wheel 'I at the forward end thereof and the rear end of said screw has a rotary but non-axial sliding connection with the forward end of said carriage, said connection comprising an upstanding lug 8 on the car- ⁇ riage I, a hole through said lug for said screw,
- the roll supporting plate I1 is rigidly clamped ilatwise to the front face of the pedestal 2 by a nut I9 on the end of the pivot stud I8 and by bolts 20, each of which extends through an arcuate slot 2l formed in said pedestal concentric with said pivot stud and through a hole formed in said supporting plate in alinement with said slot.
- .1 may be rotatably adjusted about the axis of its pivot stud I8 to vary the angularity of the roll I3 carried by said plate.
- the means for turning said plate about its rotary axis preferably comprises a pinion 22 that intermeshes with an arcuate rack 23 located at the perimeter of said plate concentric with said axis.
- the pinion 22 is rotatably supported on a horizontal stud 24 that projects rearwardly from the roll supporting plate l1 across the top of the pedestal 2.
- the pinion has a hand wheel 25 rigid therewith and is held on the stud 24 by means of a nut 26 that is threaded on the outer end of said stud.
- the work roll I3 is driven by means of an electric motor 21 that is bolted to the roll supporting face of the rotary plate I1 with its armature shaft 28 secured to one end of said roll i in axial alinement therewith by means of a suitable coupling 29.
- the cylindrical work roll I4 is supported on the pedestal 4 of the carriage 3 and is driven and angularly adjusted in the same manner as the concave work roll I4.
- the cylindrical roll I4 has reduced end portions journaled in the bearings I6a provided therefor on a supporting plate
- the plate I1a is held in position on the pedestal 4 by means of a nut
- the plate Ila is rotated about its pivotal axis by means of a pinion 22a journaled on a stud 24a fixed to said plate; and said pinion meshes with an arcuate rack 23a on the pedestal 4 and has a hand wheel 25a rigid therewith and is held on said stud by a nut 26a.
- the work roll I4 is driven by an electric motor 21a that is bolted to the roll supporting plate
- the hand wheel 1 may be operated to slide the carriage 3 along the bed I and thus move the cylindrical roll I4 carried by said carriage toward or from the concave roll I3 to thereby vary the spacing of said rolls for stock of different diameters.
- the rolls I3 and .I4 are then set at the proper working angle to the stock by manipulating the hand wheels 25 and 25a, after which said rolls are locked in the desired position of angular adjustment by means of the nuts I9 and I9a and the nuts 20 and 20a.
- 1a, respectively, are long enough to permit the desired angular adjustment of the rolls.
- a also permit the straight roll I4 to be placed in a horizontal position so that it can be reground or dressed in place with a portable grinding device; and the arcuate slots 2
- Ample space for the grinding device is provided by adjusting the cylindrical roll I4 away from the concave roll I3.
- Each work roll and the driving motor therefor are mounted for joint pivotal movement as a unit about the pivotal axis of the supporting plate therefor, whereby said roll and motor are in the same relative position in lall positions of angular adjustment of said roll and the roll is driven at a uniform angular velocity in all positions of such adjustment.
- Both work rolls may also be driven at the same constant speed by matched speed induction type alternating current motors, by direct current variable speed motors with their iield windings in series for simultaneous speed regulation, by variable speed alternating current motors wherein the speed regulation is arranged to keep the two motors in synchronism, or by synchronous alternating current motors for obtaining' absolute synchronism at constant speed.
- Figs. 5 and 6 illustrate a modification which is similar to the construction hereinbefore described except for the arrangement for adjusting the carriage 3 and the arrangement for turning the roll supporting plates I1 and I1a on their pivotal axes.
- the modified carriage operating mechanism comprises a horizontal screw. 30 that is threaded through a lug 3
- the front end of the screw 30 has a hand wheel 32 threaded thereon adapted to bear against the front face of the lug 3
- the carriage is a horizontal screw. 30 that is threaded through a lug 3
- the front end of the screw 30 has a hand wheel 32 threaded thereon adapted to bear against the front face of the lug 3
- the carriage
- the modtired arrangement for turning each of the roll supporting plates I1 and I1a on its pivotal axis comprises a link having an upper section 35 pivoted at its upper end to pedestal 2 or 4 and a lower section 36 pivoted at its lower end to the bed I or carriage 3 with its upper end slidable in an axial socket provided therefor in the lower end of said upper section.
- 'Ihe lower link section 36 has a hand wheel 31 threaded thereon adapted to abut endwise against the lower end of the upper link section 35.
- 1b is pivotally secured to the carriage 3b in the manner hereinbefore described and is rotated on its axis to vary the working angle of the roll by means of a horizontal screw 31 that is disposed transversely of said axis and is threaded through a block 38 that is supported on horizontal pivots 39 in a bracket 40 iixed to the underside of said carriage.
- the outer end of the screw 31 has an operating handle -4I rigid therewith, and the inner end of said screw has a sleeve nut 42 threaded thereon that is connected by horizontal pivots 43 to a bracket 44 xed to the bottom of the roll supporting plate.
- the screw 31 when rotated, causes the sleeve 42 to travel axially thereof and thus rotate the, supporting plate
- the motor 2lb for. driving the roll I4a is mounted above said roll on the supporting plate Ilb therefor; and the armature shaft 28h of said motor is connected to the roll by means of an endless sprocket chain 45.
- This arrangement reduces the overall width of theV machine and thus adapts the machine for installation wherein the floor space is limited.
- a machine of the kind described including a frame, comprising two rotary work rolls inclined oppositely to each other, a single support for each of said rolls, a member mounting each 5 support on said frame, the rolls lying in spaced parallel vertical planes and adapted to receive round stock therebetween, separate electric motors for driving the respective .rolls mounted on said supports, each roll and driving motor therewith their axes rigidly aflixed in the same plane, the rolls and motors being so coupled that each roll is driven with uniform angular velocity, said supports' being'mounted in said machine for independent rotary movement through a wide angle about a common horizontal axis disposed at right angles to and intersecting the rotary axes of said rolls, separate means for turning each support on its axis, the member mounting one of said supports and its turning means being mounted on said machine for bodily adjustment horizontally towards and away from the other support, and linear guide means on said machine engaging last mentioned member and extending parallel to the axis' of rotation of said supports, whereby to maintain the rotary axes of said rolls
- each support on its axis including a rack on the adjacent support and a pinion journaled on the adjacent member.
- the separate means for turning said one support comprising a telescopic link having a section pivoted to said member, another section pivoted to said support, and a memberthreaded on one of saidsections in end-wise abutting relation to the other section.
Description
Nov. 23, 1943. w, slEGERlsT 2,334,886
MACHINE FOR STRAIGHTENING, SIZING, AND POLISHING TUBES AND ROD Filed Mach 19., 1941 4 Sheets-Sheet 1 Nav. 23, 1943. w. slEGERlST MACHINE FOR STRAIGHTENING, SIZING, AND POLISHING TUBES AND RODS Filed ,March 19, 1941 4 Sheets-Sheet 2 MACHINE FOR STRAIGHTENING, sIzING, AND PoLIsHING TUBES AND RODS No'v. 23, 1943.
. 4 Sheets-Sheet 3 Filed March '19, 1941 Nov. 23, 1943. w. slEGERls'r 2,334,886
MACHINE FOR STRAIGHTENING, SIZING'; AND POLISHING TUBES AND RODS 4 Sheets-Sheet 4 Filed March 19, 1941 lll/ Patented Nov. 23, 1943 MACHINE FOR STRAIGHTENING, SIZING, AND POLISHING TUBES AND RODS Walter Siegerist, UnlversityCity, Mo.
Application March 19,1941, Serial No. 384,068
Claims. (Cl. 8013) This invention relates to machines of the kind wherein round stock, such as tubes, rods, shafts and the like, is drawn between and. straightened, sized and polished by laterally spaced,
power-driven workv rolls that are disposed at an angle to each other and are adjustable to vary the angularity and spacing thereof for stock of different diameters. Such adjustments have heretoforev required the use Vof universal joint connections between the work rolls and the driving shafts therefor. Practical objections to this type of work roll drive are that it causes a. variation in the angular velocity of the work roll during each single revolution thereof, which is objectionable in polishing and sizing operations; it requires the machine to be operated at a low speed and thus limits the output thereof; it limits the adjustments for changing the work angle and the spacing of the work rolls and thus requires machines of diierent sizes to cover a wide range of stock diameters; and it requires removal of the work rolls from the machine when the rolls require dressing or regrinding.
The principal object of the present invention is to devise a machine of the above type that will overcome all of the disadvantages herebefore referred to, that will provide for rotating the work rolls at the same speed and that will provide for simplicity and cheapness of construction and compactness of design.
The invention consists in the machine and in the construction, combinations and arrangements of parts hereinafter described and claimed.
In the accompanying drawings, which form part of this specification and wherein like symbols refer to like parts wherever they occur.
Fig. 1 is a plan view of a machine embodying my invention, i
Fig. 2 is an end elevation of said machine,
Fig. 3 is a, central vertical longitudinal section through said machine on the line 3-3 in Fig. 1,
Fig. 4 is a vertical transverse section through said machine on the lin-e 4-4 of Fig. 1,
Fig. 5 is a plan view illustrating a machine of modified construction,
Fig. 6 is an end elevation of the machine shown in Fig. 5, V
Fig. '7 -is an end elevation of another ma- 'chine of modified form,
Fig. 8 is a view looking at the opposite en of the machine shown in Fig. 7, and
Fig. 9 is a vertical transverse section through said machine between the work rolls thereof, showing one of the work rolls, the driving means therefor and the means for adjusting the angularity thereof in elevation.
The machine shown in Figs. 1 to 4, inclusive, of the accompanying drawings, comprises a bed I having a pedestal 2 at the rear end thereof, a carriage 3 slidable on said bed and having a pedestal 4, and a central longitudinal feed screw 5 for moving said carriage longitudinally ofsaid bed toward and from the pedestal 2. As shown in thedrawings, the carriage feed screw 5 is threaded through an upstanding lug 6 at the forward end of the bed I. The screw 5 is manually rotated by a hand wheel 'I at the forward end thereof and the rear end of said screw has a rotary but non-axial sliding connection with the forward end of said carriage, said connection comprising an upstanding lug 8 on the car- `riage I, a hole through said lug for said screw,
a head 9 `on said screw disposed in abutting relation to the rear face of said lug, and a thrust collar I0 pinned on said screw in abutting relation to the front face of said lug. -The carriage 3 is locked to the bed I in its desired position of sliding movement thereon by means of lock screws II on each side thereof. Each of these lock screws extends downwardly through a vertical opening provided therefor in the carriage that has -its lower end threaded into a vertical opening provided thereforin a clamping block I2 that is disposed between the side of the bed. I and the overhanging side flange 3a of said carriage and has a beveled inner side face adapted to bear against a correspondingly beveled side face of said bed.
Disposed crosswise of the machine between the -pedestal 2 on the bed I and the pedestal 4 on the carriage 3 are two laterally spaced, oppositely inclined power-driven work rolls I3 and I4 be tween which the round stock or work piece I5 is straightened, sized and polished. In accordance with common practice, the work roll*A I3 is longitudinally concave, while the other work roll I4 The work roll I3 has reduced end portionsthat are journaledA in spaced outstanding bearings I6 provided therefor on the exposed face offa vertically disposed plate I'I whose opposite face seats against the front face of the pedestal 2 of the bed I and has an outstanding stud I8 rotatably supported in a horizontal opening or bearing provided therefor in said pedestal. The roll supporting plate I1 is rigidly clamped ilatwise to the front face of the pedestal 2 by a nut I9 on the end of the pivot stud I8 and by bolts 20, each of which extends through an arcuate slot 2l formed in said pedestal concentric with said pivot stud and through a hole formed in said supporting plate in alinement with said slot.
When the nut I9 and bolts 20 are loosened, the roll supporting plate |.1 may be rotatably adjusted about the axis of its pivot stud I8 to vary the angularity of the roll I3 carried by said plate. The means for turning said plate about its rotary axis preferably comprises a pinion 22 that intermeshes with an arcuate rack 23 located at the perimeter of said plate concentric with said axis. The pinion 22 is rotatably supported on a horizontal stud 24 that projects rearwardly from the roll supporting plate l1 across the top of the pedestal 2. The pinion has a hand wheel 25 rigid therewith and is held on the stud 24 by means of a nut 26 that is threaded on the outer end of said stud. The work roll I3 is driven by means of an electric motor 21 that is bolted to the roll supporting face of the rotary plate I1 with its armature shaft 28 secured to one end of said roll i in axial alinement therewith by means of a suitable coupling 29.
The cylindrical work roll I4 is supported on the pedestal 4 of the carriage 3 and is driven and angularly adjusted in the same manner as the concave work roll I4. Thus, the cylindrical roll I4 has reduced end portions journaled in the bearings I6a provided therefor on a supporting plate |1a having a pivot stud |8a iournaled in a horizontal bearing provided therefor in the pedestal 4 of the carriage 3. The plate I1a is held in position on the pedestal 4 by means of a nut |9a on the pivot stud Ia of said plate and by means oi bolts 20a that pass through arcuate slots 2|a in said pedestal. The plate Ila, is rotated about its pivotal axis by means of a pinion 22a journaled on a stud 24a fixed to said plate; and said pinion meshes with an arcuate rack 23a on the pedestal 4 and has a hand wheel 25a rigid therewith and is held on said stud by a nut 26a. The work roll I4 is driven by an electric motor 21a that is bolted to the roll supporting plate |1a with its armature shaft 28a disposed in axial alinement with the roll axis and secured to one end of the roll by means of a suitable coupling 29a. As shown in the drawings, the electric motor 21 is secured to one end of the concave roll I3 while the electric motor 21a is secured to the other end of the cylindrical roll I4, whereby the two rolls are driven in opposite directions.
By the arrangement described, the hand wheel 1 may be operated to slide the carriage 3 along the bed I and thus move the cylindrical roll I4 carried by said carriage toward or from the concave roll I3 to thereby vary the spacing of said rolls for stock of different diameters. .The rolls I3 and .I4 are then set at the proper working angle to the stock by manipulating the hand wheels 25 and 25a, after which said rolls are locked in the desired position of angular adjustment by means of the nuts I9 and I9a and the nuts 20 and 20a. The arcuate slots 2| and 2Ia in the roll supporting plates I1 and |1a, respectively, are long enough to permit the desired angular adjustment of the rolls. The arcuate slots 2|a also permit the straight roll I4 to be placed in a horizontal position so that it can be reground or dressed in place with a portable grinding device; and the arcuate slots 2| permit the concave roll I3 to be placed in a vertical position for regrinding or dressing with the same portable grinding device. Ample space for the grinding device is provided by adjusting the cylindrical roll I4 away from the concave roll I3. Each work roll and the driving motor therefor are mounted for joint pivotal movement as a unit about the pivotal axis of the supporting plate therefor, whereby said roll and motor are in the same relative position in lall positions of angular adjustment of said roll and the roll is driven at a uniform angular velocity in all positions of such adjustment. Both work rolls may also be driven at the same constant speed by matched speed induction type alternating current motors, by direct current variable speed motors with their iield windings in series for simultaneous speed regulation, by variable speed alternating current motors wherein the speed regulation is arranged to keep the two motors in synchronism, or by synchronous alternating current motors for obtaining' absolute synchronism at constant speed.
Figs. 5 and 6 illustrate a modification which is similar to the construction hereinbefore described except for the arrangement for adjusting the carriage 3 and the arrangement for turning the roll supporting plates I1 and I1a on their pivotal axes. The modified carriage operating mechanism comprises a horizontal screw. 30 that is threaded through a lug 3| on the bed I and has its rear end secured to the front end of the carriage 3. The front end of the screw 30 has a hand wheel 32 threaded thereon adapted to bear against the front face of the lug 3| and force said -screw and the carriage 3 to move forwardly along the bed I. The carriage. 3 is moved rearwardly by two hand wheels 33, each of which is threaded on a horizontal rod 34 having one end xed to the pedestal 2 of the bed I and the other end slidably supported in horizontal openings provided therefor in the pedestal 4 of the carriage 3. The hand wheels 33 bear against the front face of the pedestal 4 of the carriage 3 and, when rotated in the proper direction, force said carriage rearwardly in the direction of the pedestal 2 of the bed I. The modiiled arrangement for turning each of the roll supporting plates I1 and I1a on its pivotal axis comprises a link having an upper section 35 pivoted at its upper end to pedestal 2 or 4 and a lower section 36 pivoted at its lower end to the bed I or carriage 3 with its upper end slidable in an axial socket provided therefor in the lower end of said upper section. 'Ihe lower link section 36 has a hand wheel 31 threaded thereon adapted to abut endwise against the lower end of the upper link section 35. By this arrangement, the link is lengthened orshortened by turning the hand wheel 31, thereby causing the roll supporting plate controlled thereby to rotate on its pivotal axis.
In the modication shown in Figs. 7, 8 and 9, tle motor and roll supporting plate |1b is pivotally secured to the carriage 3b in the manner hereinbefore described and is rotated on its axis to vary the working angle of the roll by means of a horizontal screw 31 that is disposed transversely of said axis and is threaded through a block 38 that is supported on horizontal pivots 39 in a bracket 40 iixed to the underside of said carriage. The outer end of the screw 31 has an operating handle -4I rigid therewith, and the inner end of said screw has a sleeve nut 42 threaded thereon that is connected by horizontal pivots 43 to a bracket 44 xed to the bottom of the roll supporting plate. By this arrangement, the screw 31, when rotated, causes the sleeve 42 to travel axially thereof and thus rotate the, supporting plate |1b on its supporting stud |8b to change the angular position of the work roll Ida. carried by said plate. A similar arrangement, not shown, is employed for adjusting the angular position of the other work roll of the machine. In the modification shown in A Figs. 7, 8 and 9, the motor 2lb for. driving the roll I4a is mounted above said roll on the supporting plate Ilb therefor; and the armature shaft 28h of said motor is connected to the roll by means of an endless sprocket chain 45. This arrangement reduces the overall width of theV machine and thus adapts the machine for installation wherein the floor space is limited.
` f Obvously, modifications may be made without departing from the invention. Therefore, I do not'wishto be limited to the precise construction separate electric motors for driving the respecy, tive rolls, a single support for one of said rolls and the driving motor therefor, a single support for the other roll and its driving motor, said supports being mounted in said machine for independent rotary movement through a Wide angle about a common horizontal axis disposed at right angles to and intersecting the rotary axes of said rolls, separate means for turning each support on its axis, the turning means for one of said supports including a, shaft disposed at 'right angles to the pivotal axis of said support, a bearing for said shaft mounted for pivotal movement on an axis disposed transverse to said shaft,' a sleeve nut threaded on said shaft and -pivoted to said support on an axis crosswise of said shaft, and means for bodily adjusting said last mentioned support and the turning means therefor towards and away from the other support.
2. A machine of the kind described including a frame, comprising two rotary work rolls inclined oppositely to each other, a single support for each of said rolls, a member mounting each 5 support on said frame, the rolls lying in spaced parallel vertical planes and adapted to receive round stock therebetween, separate electric motors for driving the respective .rolls mounted on said supports, each roll and driving motor therewith their axes rigidly aflixed in the same plane, the rolls and motors being so coupled that each roll is driven with uniform angular velocity, said supports' being'mounted in said machine for independent rotary movement through a wide angle about a common horizontal axis disposed at right angles to and intersecting the rotary axes of said rolls, separate means for turning each support on its axis, the member mounting one of said supports and its turning means being mounted on said machine for bodily adjustment horizontally towards and away from the other support, and linear guide means on said machine engaging last mentioned member and extending parallel to the axis' of rotation of said supports, whereby to maintain the rotary axes of said rolls in parallel planes.
3. The combination claimed in claim 2, the member mounting the other'of said supports,
being rigidly axedon said machine.
4. 'I'he combination claimed in claim 2, the
separate means for turning each support on its axis including a rack on the adjacent support and a pinion journaled on the adjacent member.
5. The combination claimed in claim 2, the separate means for turning said one support comprising a telescopic link having a section pivoted to said member, another section pivoted to said support, and a memberthreaded on one of saidsections in end-wise abutting relation to the other section.
, WALTER SIEGERIST.
for being mounted -on their respective supports'-
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US384068A US2334886A (en) | 1941-03-19 | 1941-03-19 | Machine for straightening, sizing, and polishing tubes and rods |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US384068A US2334886A (en) | 1941-03-19 | 1941-03-19 | Machine for straightening, sizing, and polishing tubes and rods |
Publications (1)
Publication Number | Publication Date |
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US2334886A true US2334886A (en) | 1943-11-23 |
Family
ID=23515904
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US384068A Expired - Lifetime US2334886A (en) | 1941-03-19 | 1941-03-19 | Machine for straightening, sizing, and polishing tubes and rods |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2762295A (en) * | 1950-11-01 | 1956-09-11 | Carding Spec Canada | Distribution of pressure between a pair of pressure rollers |
US3047046A (en) * | 1958-03-10 | 1962-07-31 | Einar W Nilsson | Cross-roll straightener |
US3187536A (en) * | 1961-11-20 | 1965-06-08 | Pritchett Engineering & Machin | Rotary straightener |
US3604236A (en) * | 1968-08-30 | 1971-09-14 | Gulf & Western Ind Prod Co | Cross roll adjusting and locking means |
US3706215A (en) * | 1971-02-19 | 1972-12-19 | Herbert D Horton | Rotary pipe straightener |
US20170203347A1 (en) * | 2016-01-15 | 2017-07-20 | Braner Usa, Inc. | Torque balancing roll forming machine |
-
1941
- 1941-03-19 US US384068A patent/US2334886A/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2762295A (en) * | 1950-11-01 | 1956-09-11 | Carding Spec Canada | Distribution of pressure between a pair of pressure rollers |
US3047046A (en) * | 1958-03-10 | 1962-07-31 | Einar W Nilsson | Cross-roll straightener |
US3187536A (en) * | 1961-11-20 | 1965-06-08 | Pritchett Engineering & Machin | Rotary straightener |
US3604236A (en) * | 1968-08-30 | 1971-09-14 | Gulf & Western Ind Prod Co | Cross roll adjusting and locking means |
US3706215A (en) * | 1971-02-19 | 1972-12-19 | Herbert D Horton | Rotary pipe straightener |
US20170203347A1 (en) * | 2016-01-15 | 2017-07-20 | Braner Usa, Inc. | Torque balancing roll forming machine |
US10160017B2 (en) * | 2016-01-15 | 2018-12-25 | Braner Usa, Inc. | Torque balancing roll forming machine |
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