JP2014122409A - Deformation correcting device for ring-shaped workpiece - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a deformation correction device for a ring-shaped workpiece capable of effectively correcting the deformation caused by heat treatment of a ring-shaped workpiece such as a bearing ring at high precision.SOLUTION: The device comprises: a pressure roller 11 contacted with the outer circumferential face 14a of a ring-shaped workpiece 14 mounted on a mounting stand 15 and applying pressing force F1 to the ring-shaped workpiece 14; a pair of driving rollers 12a, 12b respectively arranged in line symmetry to a vertical line X elongating along the pressing direction of the pressing roller 11 and contacted with the outer circumferential face 14a of the ring-shaped workpiece 14; an a correction assistant roller 13 arranged between a pair of the driving rollers 12a, 12b on the side of being confronted with the pressure roller 11 via the ring-shaped workpiece 14. The correction angle α formed by line segments L1, L2 respectively connecting a contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and contact points P2, P3 between a pair of the driving rollers 12a, 12b and the ring-shaped workpiece 14 is 15° to 40°.

Description

  The present invention relates to a ring-shaped workpiece deformation correction device, and more particularly, to a ring-shaped workpiece deformation correction device that can correct, for example, deformation caused when heat-treating a ring-shaped workpiece such as a bearing race.

  In recent years, when manufacturing a ring-shaped workpiece such as a bearing race, it is desired to reduce heat treatment deformation in the heat treatment process in order to achieve cost reduction in a subsequent process (polishing process). Conventionally, a so-called quenching deformation correction method for a ring-shaped workpiece by press quench, in which a dedicated restraining jig is inserted on the inner and outer diameter sides of a steel ring-shaped workpiece with martensitic transformation to suppress deformation. And an apparatus are known (see Patent Document 1). Also, the outer diameter surface of the ring-shaped workpiece is supported at three points of a pair of receiving rollers and a pressure roller, and is rotated while being pressed by the pressure roller to correct the deformation. A deformation correction device is disclosed (see Patent Document 2).

Japanese Patent No. 3586888 JP 2009-84610 A

  By the way, the press quench described in Patent Document 1 is a technique for suppressing deformation by inserting a dedicated restraining jig, so that dimensional stability and mechanical accuracy are good, so that the grinding allowance can be greatly reduced. On the other hand, a dedicated restraining jig is required for each ring-shaped workpiece having different inner and outer diameter dimensions, and there is a problem that initial costs and running costs increase.

  Further, the deformation correction by rolling quench described in Patent Document 2, as shown in FIG. 7, a pair of receiving rollers 102 arranged in contact with the outer peripheral surface of the ring-shaped workpiece 104 deformed into a substantially elliptic shape by quenching, The ring-shaped workpiece 104 is supported at three points with the pressure roller 101 arranged to be movable in the radial direction so as to face the pair of receiving rollers 102 and immersed in the quenching oil. The pressure roller 101 applies a correction force while rotating the ring to correct the deformation of the ring-shaped workpiece 104. In particular, when the ring-shaped workpiece 104 is immersed in the quenching oil at the start of quenching, a rapid temperature drop occurs, and at that time, a considerable change occurs. Therefore, a load is applied to the ring-shaped workpiece 104 after immersion to correct it. . In FIG. 7, the deformation is exaggerated for easy understanding. In this case, since the interval between the pair of receiving rollers 102 can be easily changed, it is possible to cope with various outer diameter sizes, but the correction force is weak compared with the press quench, and the dimensional stability and deformation correction amount are reduced. However, there was room for improvement.

  In the deformation correction of the ring-shaped workpiece 104 by rolling quench, the volume of the steel is increased by quenching (cooling), so that the workpiece diameter is increased, and the position of the pressure roller 101 moves backward while vibrating back and forth. Then, as shown in FIG. 8, as the correction time elapses, the difference between the major axis and the minor axis of the ring-shaped workpiece 104, that is, the amount of movement of the pressure roller 101 in the load direction (radial direction) (of the pair of drive rollers 102). The position is fixed) becomes gradually smaller (ΔD1 → ΔD2), and the deformation of the ring-shaped workpiece 104 is corrected.

  9 uses a ring-shaped workpiece 104 having an outer diameter of 200 mm and a height of 70 mm, a contact point P1 between the pressure roller 101 and the ring-shaped workpiece 104, and a contact point P2 between the pair of receiving rollers 102 and the ring-shaped workpiece 104. , P3, the roundness when the correction angle α (see FIG. 7) formed by the line segments L1 and L2 is changed in the range of 15 ° to 60 ° and corrected.

  As can be seen from FIG. 9, the correction angle α is a factor that greatly affects the correction, and the range of the correction angle α with good roundness is about 15 ° to 40 °. On the other hand, in the range where the correction angle α is less than 15 °, the support of the ring-shaped workpiece 104 by the three points of the pressure roller 101 and the pair of receiving rollers 102 is not stable, so the roundness is considered to be lowered. Specifically, when the pressure roller 101 is displaced back and forth following the deformation (elliptical shape) of the ring-shaped workpiece 104 and rotates from the short diameter portion to the long diameter portion, the component force of the load acting on the contact point Is different between the longest diameter portion and the shortest diameter portion, the force is distributed in the outer circumferential direction, and the ring-shaped workpiece 104 is detached from the three contact points.

  Further, when the pressure applied by the pressure roller 101 is constant, the correction force acting on the ring-shaped workpiece 104 increases as the pitch A between the pair of receiving rollers 102 decreases, that is, as the correction angle α decreases. Conversely, when the pitch A between the pair of receiving rollers 102 is increased, that is, when the correction angle α is increased, the correction force acting on the ring-shaped workpiece 104 is weakened.

  FIG. 10 is a graph showing the relationship between the roundness by converting the pitch A between the pair of receiving rollers 102 into a straightening force. It can be seen that there is little correction effect even in areas where the intensity is high. The reason why the roundness is bad in the region where the correction force is strong is considered to be that the ring-shaped workpiece 104 buckles if the correction force is too strong. From the above, it can be seen that in order to obtain good roundness, it is necessary to set an appropriate correction angle and correction force.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a ring-shaped workpiece deformation correction apparatus capable of accurately and effectively correcting deformation caused by heat treatment of a ring-shaped workpiece such as a bearing race. Is to provide.

The above object of the present invention can be achieved by the following constitution.
(1) A first roller that contacts the outer peripheral surface of the ring-shaped workpiece placed on the mounting table and applies a pressing force to the ring-shaped workpiece, and an imaginary line extending along the pressing direction of the first roller And a pair of second rollers that are arranged in line symmetry with each other and come into contact with the outer peripheral surface of the ring-shaped workpiece, and one of the first roller and the second roller rotationally drives the ring-shaped workpiece, and the first roller Is a deformation correction device for a ring-shaped workpiece that corrects the deformation of the ring-shaped workpiece by applying a pressing force to the ring-shaped workpiece, and is a pair of first and second rollers on the side facing the first roller via the ring-shaped workpiece. A line connecting the contact point between the first roller and the ring-shaped workpiece and the contact point between the pair of second rollers and the ring-shaped workpiece, respectively. The angle to make is 1 An apparatus for correcting deformation of a ring-shaped workpiece, characterized in that the angle is 5 to 40 degrees.
(2) The ring-shaped workpiece deformation correction device according to (1), wherein the pair of second rollers rotationally drive the ring-shaped workpiece.
(3) The deformation correction device for a ring-shaped workpiece according to (1) or (2), wherein the third roller further rotates the ring-shaped workpiece.
(4) The third roller includes a pair of third rollers arranged symmetrically with respect to the imaginary line, the contact point between the first roller and the ring-shaped workpiece, and the pair of third roller and the ring-shaped workpiece. The line segment connecting each contact point is equally divided into the angle formed by the virtual line and the line segment connecting the contact point between the first roller and the ring-shaped workpiece and the contact point between the second roller and the ring-shaped workpiece. The ring-shaped workpiece deformation correction device according to any one of (1) to (3).
(5) The deformation correction device for a ring-shaped workpiece according to any one of (1) to (4), wherein the third roller can change the magnitude of the deformation correction force applied to the ring-shaped workpiece. .

  According to the deformation correction device for a ring-shaped workpiece of the present invention, the apparatus further includes at least one third roller disposed between the pair of second rollers on the side facing the first roller via the ring-shaped workpiece. The angle between the contact point between the first roller and the ring-shaped workpiece and the line connecting the contact point between the pair of second roller and the ring-shaped workpiece is 15 ° to 40 °. It is possible to correct deformation with a good correction angle with good roundness while stably supporting the ring-shaped workpiece at at least four points, and accurately correct deformation due to heat treatment of ring-shaped workpiece such as bearing races Can do.

  Further, since the pair of second rollers rotationally drive the ring-shaped workpiece, even if the frictional force accompanying the pressing force of the first roller is large, the second roller can overcome the frictional force and stably rotate the ring-shaped workpiece. it can.

  Further, since the third roller further rotationally drives the ring-shaped workpiece, the ring-shaped workpiece can be rotated more stably.

  Further, the third roller is composed of a pair of third rollers arranged symmetrically with respect to the imaginary line, and the contact point between the first roller and the ring-shaped workpiece and the pair of third rollers and the ring-shaped workpiece. The line segment connecting each contact point equally divides the angle formed by the virtual line and the line segment connecting the contact point between the first roller and the ring-shaped workpiece and the contact point between the second roller and the ring-shaped workpiece. The pressing force of the first roller can be distributed to each roller in contact with the ring-shaped workpiece, and the deformation of the ring-shaped workpiece can be corrected effectively and accurately.

  In addition, since the third roller can change the magnitude of the deformation correction force applied to the ring-shaped workpiece, the deformation correction force can be adjusted according to the amount of deformation of the ring-shaped workpiece, and the ring-shaped workpiece effectively. Workpiece deformation can be corrected.

(A) is a top view which shows schematic structure of the deformation correction apparatus of the ring-shaped workpiece | work of 1st Embodiment which concerns on this invention, (b) is a side view. It is a flowchart which shows the procedure which corrects a deformation | transformation with the deformation correction apparatus of the ring-shaped workpiece | work shown in FIG. It is a graph which shows the relationship between the correction angle and roundness of the ring-shaped workpiece which carried out deformation correction by the deformation correction apparatus of the ring-shaped workpiece shown in FIG. It is a flowchart which shows the other procedure which corrects a deformation | transformation with the deformation correction apparatus of the ring-shaped workpiece | work shown in FIG. It is a schematic structure top view which shows the deformation correction apparatus of the ring-shaped workpiece | work of the modification of 1st Embodiment. (A) is a top view which shows schematic structure of the deformation correction apparatus of the ring-shaped workpiece of 2nd Embodiment which concerns on this invention, (b) is deformation-corrected by the deformation correction apparatus of the ring-shaped workpiece shown to Fig.6 (a). It is a flowchart which shows a procedure. It is a schematic diagram of the ring-shaped workpiece | work corrected by the conventional deformation correction apparatus. It is a graph which shows the correction time of the ring-shaped workpiece | work which is deformed by the deformation correction apparatus shown in FIG. It is a graph which shows the relationship between the correction angle and roundness of the ring-shaped workpiece | work which is deformed by the deformation correction apparatus shown in FIG. It is a graph which shows the relationship between the correction force by which the deformation correction apparatus shown in FIG.

  Hereinafter, each embodiment of a deformation correction device for a ring-shaped workpiece according to the present invention will be described in detail with reference to the drawings.

(First embodiment)
FIG. 1 is a schematic configuration diagram illustrating a ring-shaped workpiece deformation correcting apparatus according to a first embodiment. The deformation correction device 10 for a ring-shaped workpiece is in contact with a mounting table 15 on which a ring-shaped workpiece 14 such as a bearing raceway is mounted and an outer peripheral surface 14 a of the ring-shaped workpiece 14, and applies a pressing force to the ring-shaped workpiece 14. A pair of drive rollers 12a and 12b, which are second rollers respectively disposed symmetrically with respect to a virtual line X extending along the pressing direction of the pressure roller 11, And a correction assisting roller 13 that is a third roller disposed between the pair of drive rollers 12 a and 12 b so as to face the pressure roller 11.

  The mounting table 15 includes a plurality of rollers 15a arranged in parallel, and supports the ring-shaped workpiece 14 mounted thereon in a movable manner. The mounting table 15 is raised and lowered as a set together with the rollers 11, 12a, 12b, and 13, and a movable mechanism and a rotating mechanism described later. When the mounting table 15 is in the raised position, the rollers 11, 12a, 12b, and 13 are further retracted upward or sideward, and the ring-shaped workpiece 14 is conveyed. Then, after the work is carried in, the mounting table 15 is lowered and immersed in the oil tank 20 (see FIG. 1B).

The pressure roller 11 is disposed so as to be able to advance and retreat in a direction along the imaginary line X by a movable mechanism (not shown), and a pressing position that contacts the outer peripheral surface 14a of the ring-shaped workpiece 14 and a standby state separated from the ring-shaped workpiece 14. It can move between positions. The pressure roller 11 presses the ring-shaped workpiece 14 with the pressing force F1 in the direction along the virtual line X at the pressing position.
Further, the pressure roller 11 is retracted further upward than the height at the time of pressing the ring-shaped workpiece 14 when the mounting table 15 is arranged at the raised position and the ring-shaped workpiece 14 is loaded. Retracted to the side (standby position).

  The pair of drive rollers 12 a and 12 b are driven to rotate by a rotation mechanism (not shown), and come into contact with the outer peripheral surface 14 a of the ring-shaped workpiece 14 placed on the mounting table 15 to rotationally drive the ring-shaped workpiece 14.

  Further, a line segment L1 connecting the contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and the contact point P2 between the one drive roller 12a and the ring-shaped workpiece 14, the pressure roller 11 and the ring-shaped workpiece 14 The correction angle α between the contact point P1 and the line segment L2 connecting the other drive roller 12b and the contact point P3 of the ring-shaped workpiece 14 is set in the range of 15 ° to 40 °.

The correction assisting roller 13 is disposed on an imaginary line X extending along the pressing direction of the pressure roller 11. The correction assisting roller 13 is also arranged so as to be able to advance and retreat in a direction along the imaginary line X by a movable mechanism (not shown). It can move between positions. The correction assisting roller 13 presses the ring-shaped workpiece 14 with the pressing force F2 in the direction opposite to the pressing force F1 along the virtual line X at the pressing position.
As with the pressure roller 11, the correction assisting roller 13 is also retracted further upward than the height when the ring-shaped workpiece 14 is pressed when the mounting table 15 is disposed at the raised position. Or retracted to the side (standby position).

  Therefore, the line segment L1 connecting the contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and the contact point P2 between the one drive roller 12a and the ring-shaped workpiece 14, the contact point P1, and the correction assisting roller 13 are connected. And the contact point P4 between the contact point P1, the other driving roller 12b, and the ring-shaped workpiece 14, and the angle θ1 formed with the line segment L3 on the imaginary line X that connects the contact point P4 with the ring-shaped workpiece 14. And the angle θ2 formed by the line segment L2 and the line segment L3 are set to be equal.

  The driving source of the movable mechanism that moves the pressure roller 11 and the correction assisting roller 13 between the pressing position and the standby position and applies the pressing forces F1 and F2 to the ring-shaped workpiece 14 is compressed air, hydraulic pressure, or the like. Is exemplified, but is not particularly limited. Moreover, it is preferable that the pressing forces F1 and F2 of the pressure roller 11 and the correction assisting roller 13 can be changed according to the deformation amount of the ring-shaped workpiece 14. As a result, when the deformation amount is large, large pressing forces F1 and F2 are applied, and as the deformation amount decreases, the pressing forces F1 and F2 are decreased to efficiently correct the deformation.

  The deformation correction of the ring-shaped workpiece 14 by the ring-shaped workpiece deformation correction apparatus 10 will be described based on the flowchart of the deformation correction procedure shown in FIG. First, in a state where the rollers 11, 12a, 12b, and 13 are retracted, the ring-shaped workpiece 14 that has been heated and conveyed to a predetermined quenching temperature is mounted on the mounting table 15 (step S1), and the ring-shaped work is performed. The work 14 is immersed in the quenching oil in the oil tank 20 together with the mounting table 15 to start quenching (step S2).

  Next, the pair of drive rollers 12a and 12b that are in contact with the outer peripheral surface 14a of the ring-shaped work 14 are rotated (step S3), the pressure roller 11 is advanced to the pressing position (step S4), and the ring is driven to rotate. The work 14 is pressed with the pressing force F1. As a result, the deformation is corrected while supporting the ring-shaped workpiece 14 at the three points of the pressure roller 11 and the pair of drive rollers 12a and 12b (step S5).

  After correcting a large deformation by correcting deformation at three points, the correction assisting roller 13 is moved forward and brought into contact with the ring-shaped workpiece 14, and then the ring-shaped workpiece 14 is pressed with the pressing force F2 (step S6) and pressed. The deformation is corrected while supporting the ring-shaped workpiece 14 at the four points of the roller 11, the pair of driving rollers 12a and 12b, and the correction assisting roller 13 (step S7). Then, the ring-shaped workpiece 14 whose deformation has been corrected is taken out of the oil tank 20 by raising the mounting table 15, retracted from the rollers 11, 12 a, 12 b, 13, discharged from the mounting table 15, and transferred to the next process. (Step S8).

  Note that the correction procedure may be changed as long as it does not affect the quality such as the roundness of the ring-shaped workpiece 14, for example, after the pressure roller 11 has been advanced as shown in FIG. 4 (step S4). Then, the correction assisting roller 13 is advanced (step S6), and correction by four points may be directly performed without performing correction by three points. In this case, the pressure roller 11 and the correction assisting roller 13 may be advanced simultaneously.

  FIG. 3 is a graph showing the result of correcting the deformation of the ring-shaped workpiece 14 by the above-described deformation correction apparatus 10 and the correction procedure shown in FIG. 2, and is good if the correction angle α is in the range of 15 ° to 40 °. It can be seen that roundness can be obtained. This is because when the correction angle α is in the range of 15 ° to 40 °, the ring-shaped workpiece 14 is stably supported and an appropriate correction force is applied. The correction angle α of less than 15 degrees has not been verified due to the equipment structure of the example.

  As described above, according to the ring-shaped workpiece deformation correction device 10 of the present embodiment, on the side facing the pressure roller 11 with the ring-shaped workpiece 14 interposed between the pair of drive rollers 12a and 12b. The correction auxiliary roller 13 is further provided, and the contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and the lines P2 and P3 between the pair of drive rollers 12a and 12b and the ring-shaped workpiece 14 are respectively connected. Since the correction angle α formed by the minutes L1 and L2 is 15 ° to 40 °, the deformation is corrected while stably supporting the ring-shaped workpiece 14 at the three points of the pressure roller 11 and the pair of drive rollers 12a and 12b. The deformation due to the heat treatment of the ring-shaped workpiece 14 can be corrected with high accuracy.

  Further, since the pair of driving rollers 12a and 12b rotationally drive the ring-shaped workpiece 14, the frictional force between the rollers 11, 12a, 12b and 13 and the ring-shaped workpiece 14 due to the pressing force F1 of the pressure roller 11 Even if becomes larger, the ring-shaped workpiece 14 can be reliably rotated by overcoming this frictional force.

  Moreover, since the correction | amendment auxiliary roller 13 can change the magnitude | size of the deformation correction force given to the ring-shaped workpiece | work 14, it can adjust a deformation correction force according to the deformation amount of the ring-shaped workpiece | work 14, and is effective. In addition, the deformation of the ring-shaped workpiece 14 can be corrected.

  As a modification of the present embodiment, as shown in FIG. 5, in addition to the pair of drive rollers 12 a and 12 b, the correction assisting roller 13 may further drive the ring-shaped workpiece 14 to rotate. That is, the correction assisting roller 13 is driven by a rotation mechanism (not shown) to contact the outer peripheral surface 14a of the ring-shaped workpiece 14 while rotating, and the ring-shaped workpiece 14 is pressed with the pressing force F2 while rotating to correct the deformation. .

  Accordingly, the rotation assisting force of the ring-shaped workpiece 14 is increased by bringing the correction assisting roller 13 into contact with the outer peripheral surface 14a of the ring-shaped workpiece 14 while rotating, and each roller 11 accompanying the pressing force F1 of the pressure roller 11 is increased. , 12a, 12b, 13 and the ring-shaped workpiece 14, even if the frictional force between them is large, the ring-shaped workpiece 14 is smoothly rotated. Thereby, a deformation | transformation can be corrected accurately.

(Second Embodiment)
Next, with reference to FIG. 6 (a) and FIG.6 (b), the deformation correction apparatus of the ring-shaped workpiece | work which concerns on 2nd Embodiment of this invention is demonstrated. In the deformation correction device 10 for a ring-shaped workpiece according to the present embodiment, a pair of correction auxiliary rollers 13a and 13b are disposed between the pair of drive rollers 12a and 12b. Since other configurations are the same as those of the first embodiment, the same or equivalent parts are denoted by the same reference numerals, and description thereof is omitted or simplified.

  The ring-shaped workpiece deformation correction device 10 connects the contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and the contact points P5 and P6 between the pair of auxiliary correction rollers 13a and 13b and the ring-shaped workpiece 14. The segments L4 and L5 are the line segments L1 and L2 that connect the contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and the contact points P2 and P3 between the pair of drive rollers 12a and 12b and the ring-shaped workpiece 14, respectively. A pair of correction assisting rollers 13a and 13b are arranged so as to equally divide the angle β formed with the line X.

  Also in this embodiment, the pressure roller 11 and the line segment L1 connecting the contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and the contact point P2 between one drive roller 12a and the ring-shaped workpiece 14 are also shown. The correction angle α between the contact point P1 between the ring-shaped workpiece 14 and the line segment L2 connecting the contact point P3 between the other driving roller 12b and the ring-shaped workpiece 14 is set in the range of 15 ° to 40 °. Yes.

  Therefore, a line segment L1 connecting the contact point P1 between the pressure roller 11 and the ring-shaped workpiece 14 and the contact point P2 between the one drive roller 12a and the ring-shaped workpiece 14, and the contact point P1 and one of the correction aids. The angle θ1 ′ formed by the line segment L4 connecting the contact point P5 between the roller 13a and the ring-shaped workpiece 14, the angle θ2 ′ formed by the line segment L2 and the virtual line X, the virtual line X, and the contact An angle θ3 ′ formed by a line segment L5 connecting the point P1 and the contact point P6 between the other correction assisting roller 13b and the ring-shaped workpiece 14, the line segment L5, the contact point P1, and the other drive roller The angles θ4 ′ formed by the line segment L2 connecting 12b and the contact point P3 of the ring-shaped workpiece 14 are set to be equal to each other (θ1 ′ = θ2 ′ = θ3 ′ = θ4 ′).

  As in the modification of the first embodiment, the deformation correction device 10 of the present embodiment rotates the pair of correction auxiliary rollers 13a and 13b and cooperates with the pair of drive rollers 12a and 12b to form a ring shape. The work 14 may be further rotationally driven.

  Such deformation correction of the ring-shaped workpiece 14 by the ring-shaped workpiece deformation correction apparatus 10 is also corrected based on the flowchart of the deformation correction procedure shown in FIG. That is, in step S6, the pair of correction reinforcing rollers 13a and 13b are advanced, the ring-shaped workpiece 14 is pressed with the pressing force F2, and the pressure roller 11, the pair of drive rollers 12a and 12b, and the pair of correction assists. The deformation of the ring-shaped workpiece 14 is corrected at the five points of the rollers 13a and 13b (step S7 ').

As described above, according to the ring-shaped workpiece deformation correction device 10 of the present embodiment, the pair of auxiliary correction rollers 13a and 13b are arranged symmetrically with respect to the virtual line X, and Line segments L4 and L5 connecting the contact point P1 with the ring-shaped workpiece 14 and the contact points P5 and P6 between the pair of correction assisting rollers 13a and 13b and the ring-shaped workpiece 14 are the pressure roller 11 and the ring-shaped workpiece 14. In order to equally divide the angle β between the line segment L1, L2 connecting the contact point P1, the contact points P2, P3 of the pair of drive rollers 12a, 12b and the ring-shaped workpiece 14 and the virtual line X, pressurization is performed. The pressing force F1 of the roller 11 can be distributed to each of the rollers 12a, 12b, 13a, and 13b in contact with the ring-shaped workpiece 14, and the deformation of the ring-shaped workpiece 14 can be corrected effectively and accurately. That.
About another structure and an effect, it is the same as that of the said 1st Embodiment.

In addition, this invention is not limited to each embodiment and modification which were mentioned above, A deformation | transformation, improvement, etc. are possible suitably.
For example, in the above embodiment, the pressure roller 11 is not rotated, and the ring-shaped workpiece 14 is rotationally driven by the pair of drive rollers 12a and 12b. However, the present invention is not limited to this, and the pressure roller 11 is rotated. Then, the ring-shaped workpiece 14 may be driven to rotate. However, in order to increase the driving force for rotating the workpiece, it is preferable to rotate the pair of driving rollers 12a and 12b rather than rotating only the pressure roller 11. In addition, rather than providing a rotating mechanism for the pressure roller 11 having a movable mechanism, the equipment cost can be reduced by providing the movable mechanism and the rotating mechanism separately for the pressure roller 11 and the driving rollers 12a and 12b. In addition, it is preferable.

10 Deformation Correction Device 11 Pressure Roller (First Roller)
12a, 12b Driving roller (second roller)
13, 13a, 13b Correction auxiliary roller (third roller)
14 Ring-shaped workpiece 14a Outer peripheral surface 15 Mounting tables L1, L2 Line segments L3, L4, L5 connecting the contact points between the first roller and the ring-shaped workpiece and the contact points between the second roller and the ring-shaped workpiece. Line segment P1 connecting the contact point with the ring-shaped workpiece and the contact point between the third roller and the ring-shaped workpiece P1 contact point P2 between the first roller and the ring-shaped workpiece, P3 contact point P4 between the second roller and the ring-shaped workpiece, P5, P6 Contact point X between the third roller and the ring-shaped workpiece Virtual line α Correction angle (angle)
β The angle formed between the contact point between the first roller and the ring-shaped workpiece, the line segment connecting the contact point between the second roller and the ring-shaped workpiece, and the virtual line

Claims (5)

A first roller that contacts an outer peripheral surface of the ring-shaped workpiece placed on the mounting table and applies a pressing force to the ring-shaped workpiece;
A pair of second rollers arranged symmetrically with respect to an imaginary line extending along the pressing direction of the first roller and in contact with the outer peripheral surface of the ring-shaped workpiece;
With
Either one of the first roller and the second roller rotationally drives the ring-shaped workpiece, and the first roller corrects the deformation of the ring-shaped workpiece by applying a pressing force to the ring-shaped workpiece. A deformation correction device for a ring-shaped workpiece,
At least one third roller disposed between the pair of second rollers on the side facing the first roller via the ring-shaped workpiece;
An angle formed by a line segment connecting the contact point between the first roller and the ring-shaped workpiece and the contact point between the pair of second rollers and the ring-shaped workpiece is 15 ° to 40 °. Deformation correction device for ring-shaped workpieces.   The ring-shaped workpiece deformation correction device according to claim 1, wherein the pair of second rollers rotationally drive the ring-shaped workpiece.   The ring-shaped workpiece deformation correction device according to claim 1, wherein the third roller further rotationally drives the ring-shaped workpiece. The third roller is composed of a pair of third rollers arranged in line symmetry with respect to the virtual line,
A line segment connecting a contact point between the first roller and the ring-shaped workpiece and a contact point between the pair of third rollers and the ring-shaped workpiece is a contact point between the first roller and the ring-shaped workpiece. The ring according to any one of claims 1 to 3, wherein an angle formed by a line segment connecting the contact points between the second roller and the ring-shaped workpiece and the virtual line is equally divided. -Shaped workpiece deformation correction device. The deformation correction device for a ring-shaped workpiece according to any one of claims 1 to 4, wherein the third roller is capable of changing a magnitude of a deformation correction force applied to the ring-shaped workpiece.

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