JP2003013135A - Slit type cooling jacket - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize an induction hardening which does not cause irregularity even without a replacing work, when the type of axial-shaped workpieces, change. SOLUTION: This cooling jacket is provided with a body 100A provided with a body-side open hole 131A, and a cover 200A to be coupled with the body 100A provided with a cover-side open hole 231A, which corresponds to the body-side open hole 131A. The main body 100A has a body-side bottom 130A provided with the body-side open hole 131A, a body-side external wall part 110A extended from the outer circumferential edge part of the body-side bottom 130A, and a body-side inner wall part 120A extended from the inner circumferential edge part of the body-side bottom 130A, and the cover 200A has a cover-side bottom 230A provided with a cover-side open hole 231A, a cover-side external wall part 210A extended from the outer circumferential edge part of the cover-side bottom 230A, and a cover-side inner wall 220A extended from the inner circumferential edge part of the cover-side bottom 230A, and a slit-shaped nozzle 310A is formed between the body-side inner wall 120A and the cover-side inner wall 220A, when the main body 100A is coupled with the cover 200A.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a slit type cooling jacket used for induction hardening of a shaft-shaped work such as a ball screw.

[0002]

2. Description of the Related Art For example, when induction hardening is applied to a ball screw which is an axial work, a semi-open saddle type induction heating coil and a coil moving mechanism for moving the induction heating coil along the ball screw. An induction hardening apparatus having a work rotating mechanism that rotates a ball screw about an axis and a cooling jacket that injects a cooling liquid to a portion heated by an induction heating coil is used.

The cooling jacket is attached to the upstream side of the induction heating coil, and moves along the ball screw as the induction heating coil moves. The cooling jacket includes a substantially ring-shaped outer wall portion, a substantially ring-shaped inner wall portion having a smaller diameter than the outer wall portion and located inside the outer wall portion,
It is a combination of a pair of bottom portions connecting both wall portions. In addition, a plurality of injection holes for injecting the cooling liquid are opened in the inner wall portion. In this cooling jacket, a ball screw is penetrated inside the inner wall portion so that the inner wall portion faces the ball screw. Therefore, the cooling liquid supplied to the space surrounded by the outer wall portion, the inner wall portion, and the pair of bottom portions is jetted from the jet hole toward the hole screw.

[0004]

However, the above-mentioned conventional cooling jacket has the following problems.
The injection amount of the cooling liquid must be adjusted according to the depth of the hardened layer to be formed on the axial work such as a ball screw and the size and shape of the axial work, but the size of the injection hole formed in the cooling jacket. Since the number cannot be changed, it is necessary to replace the cooling jacket itself. That is, it was necessary to remove the cooling jacket from the cooling liquid supply path and replace the cooling jacket every time the type of the shaft-shaped work changed. Further, in the conventional cooling jacket, since the cooling liquid injected from the injection holes is, as it were, point-wise injected onto the axial work, uneven induction hardening may occur.

The present invention was devised in view of the above circumstances, and does not require replacement work even if the type of the shaft-like work is changed, and it is a slit type which can realize uniform induction hardening. It is intended to provide a cooling jacket.

[0006]

A slit type cooling jacket according to the present invention is provided with a substantially ring-shaped main body having a main body side through hole at the center and a lid side through hole corresponding to the through hole. A main body side bottom portion having a main body side through hole, and a main body side extending from an outer peripheral edge portion of the main body side bottom portion. An outer wall portion and a main body side inner wall portion extending from an inner peripheral edge portion of the main body side bottom portion are provided, and the lid body includes a lid body side bottom portion having a lid body side through hole, and the lid body side bottom portion. Has a lid-side outer wall extending from an outer peripheral edge of the lid and a lid-side inner wall extending from an inner peripheral edge of the lid-side bottom, and when the lid is connected to the main body, A slit is formed between the inner wall portion and the lid-side inner wall portion.

Further, in another slit type cooling jacket according to the present invention, a substantially ring-shaped main body having a main body side through hole formed at the center and a substantially ring-shaped main body side through hole corresponding to the through hole. And a substantially ring-shaped intermediate body having a main body-side through hole opened in the center, and the main body and the lid body are slit-type cooling jackets connected via the intermediate body. The main body has a main body side bottom portion having a main body side through hole, a main body side outer wall portion extending from an outer peripheral edge portion of the main body side bottom portion, and an inner peripheral edge portion of the main body side bottom portion. And a lid-side bottom portion having a lid-side through hole, a lid-side outer wall portion extending from an outer peripheral edge portion of the lid-side bottom portion, A lid-side inner wall portion extending from an inner peripheral edge portion of the lid-side bottom portion, Body, and an intermediate side bottom intermediate side through holes are opened, from the outer peripheral edge portion of the intermediate body side bottom 2
The intermediate body side outer wall portion extending in the two directions, and the intermediate body side inner wall portion extending in two directions from the inner peripheral edge portion of the intermediate body side bottom portion, and the main body and the lid body via the intermediate body. When connected, slits are formed between the main body side inner wall portion and the intermediate body side inner wall portion and between the lid body side inner wall portion and the intermediate body side inner wall portion.

Further, another slit type cooling jacket according to the present invention comprises a substantially ring-shaped main body and a substantially ring-shaped lid body connected to the main body, wherein the main body has a substantially ring-shaped body. A main body side outer wall portion, a main body side inner wall portion that is smaller in diameter than the main body side outer wall portion and is provided inside the main body side outer wall portion, and a plurality of cut portions provided in the main body side inner wall portion,
The main body side outer wall part and the main body side inner wall part have a main body side bottom part that connects the main body side bottom part, and the lid body part has a substantially ring-shaped lid body side outer wall part and a smaller diameter than the lid body side outer wall part. It has a lid-side inner wall portion provided inside the outer wall portion, and a lid-side bottom portion that connects the lid-side outer wall portion and the lid-side inner wall portion,
A male screw portion is provided on either one of the outer peripheral surface of the main body side outer wall portion and the outer peripheral surface of the lid body side inner wall portion, and either of the inner peripheral surface of the main body side inner wall portion or the inner peripheral surface of the lid body side outer wall portion. A female screw portion corresponding to the male screw portion is formed on one side, and when the main body and the lid are fastened with the male screw portion and the female screw portion, the main body side inner wall portion and the lid body side inner wall portion overlap each other. As a result, a part of the cut portion is closed, and the degree of closure of the cut portion changes depending on the degree of fastening of the male screw portion and the female screw portion.

[0009]

1 is a schematic sectional view of a slit type cooling jacket according to a first embodiment of the present invention, FIG.
Is a schematic sectional view of a slit type cooling jacket according to a second embodiment of the present invention, FIG. 3 is a schematic sectional view of a slit type cooling jacket according to a third embodiment of the present invention, and FIG. Schematic exploded perspective view of a slit type cooling jacket according to a fourth embodiment of the invention, FIG. 5 is a schematic sectional view of a slit type cooling jacket according to a fourth embodiment of the invention, and FIG. 7 is a schematic sectional view of a slit type cooling jacket according to a fourth embodiment of the present invention, FIG. 7 is a schematic sectional view of a slit type cooling jacket according to a fifth embodiment of the present invention, and FIG. It is a schematic sectional drawing of the slit type cooling jacket which concerns on 6th Embodiment.

As shown in FIG. 1, the slit type cooling jacket A according to the first embodiment of the present invention has a substantially ring shape having a main body side through hole 131A through which a shaft-shaped work W penetrates in the center. Main body 100A and the main body side through hole 131
A lid-side through hole 231A corresponding to A and through which the shaft-shaped workpiece W penetrates is opened, and has a substantially ring-shaped lid 200A connected to the main body 100A.

The main body 100A has a substantially ring-shaped main body side bottom portion 130A in which a main body side through hole 131A through which the shaft-like work W penetrates is formed, and an outer peripheral edge portion of the main body side bottom portion 130A extends in the orthogonal direction. The main body side outer wall portion 110A,
The main body side bottom portion 130A is integrally formed with the main body side inner wall portion 120A extending in the orthogonal direction from the inner peripheral edge portion.

The main body side bottom portion 130A is provided with a cooling liquid supply hole 132A for receiving the cooling liquid supply from a cooling liquid supply path (not shown).

The main body side outer wall portion 110A has a main body side male screw 111A formed at the tip of the outer peripheral surface. The main body side male screw 111A is screwed into a lid body side female screw 211A of a lid body 200A described later.

The main body side inner wall portion 120A is parallel to the main body side outer wall portion 110A. The height dimension H1A of the main body side inner wall portion 120A is set to be smaller than the height dimension H2A of the main body side outer wall portion 110A. Further, at the edge portion of the main body side inner wall portion 120A, that is, at the tip, the main body side protruding edge portion 1 that protrudes outward
21A is formed. This main body side protruding edge 121A
Not only protrudes outward, but also curves toward the main body side through hole 131A.

On the other hand, the lid 200A has a substantially ring-shaped bottom 230A having a lid-side through hole 231A.
And a lid-side outer wall portion 210A extending in a direction orthogonal to the outer peripheral edge portion of the lid-side bottom portion 230A, and a lid body-side inner wall portion 220A extending in a direction orthogonal to the inner peripheral edge portion of the lid-side bottom portion 230A. And are integrally formed.

The lid-side bottom portion 230A is formed in substantially the same shape as the main body-side bottom portion 130A. A rectifying member 240A that is parallel to the lid-side inner wall portion 220A and the lid-side outer wall portion 210A is projectingly provided on the lid-side bottom portion 230A. The rectifying member 240A is for calming the turbulent flow of the supplied cooling liquid, and has a plurality of openings 24.
1A is open. The height dimension H3A of the rectifying member 240A is the height dimension H4 of the lid-side inner wall portion 220A.
A, it is set to be larger than the height dimension H5A of the lid-side outer wall portion 210A.

The lid-side outer wall portion 210A has a lid-side female screw 211A formed at the tip of the inner peripheral surface. The lid side female screw 211A is screwed with the main body side male screw 111A. That is, the main body side male screw 111A and the lid body side female screw 211A are screwed to each other, so that the main body 10
OA and lid 200A are combined.

The lid-side inner wall portion 220A is parallel to the lid-side outer wall portion 210A. The height dimension H4A of the lid side inner wall portion 220A is set to be larger than the height dimension H5A of the lid side outer wall portion 210A. At the edge portion of the lid-side inner wall portion 220A, that is, at the tip, the lid-side protruding edge portion 221A that projects outwardly.
Are formed. The lid-side protruding edge portion 221A not only protrudes outward, but is bent toward the body-side through hole 131A side in a state of being combined with the body 100A.

When the cover body 200A is combined with the main body 100A, that is, when the main body side male screw 111A is screwed with the main body side female screw 211A, the main body side bottom portion 130A, the main body side outer wall portion 110A and the main body side inner wall of the main body 100A. Part 1
A space K surrounded by 20A, a lid-side bottom portion 230A of the lid body 200A, a lid-side outer wall portion 210A, and a lid-side inner wall portion 220A is formed. Moreover, this space K
Is the main body side protruding edge portion 121A and the lid side protruding edge portion 22.
1A and a nozzle 310A having a slit-shaped opening 311A formed to communicate with the outside. Therefore, the cooling liquid supplied to the space K is
It will be injected to the outside via 10A.

This nozzle 310A has a protruding edge portion 1 on the main body side.
21A and the lid-side protruding edge portion 221A face the main body-side bottom portion 130A of the main body 100A, so that an induction heating coil (not shown) for performing induction heating is provided on the lid 200A side. Since the cooling liquid is not jetted toward the induction heating coil, it also has an effect of contributing to efficient heating.

Main body side male screw 111A and lid side female screw 21
An O-ring 500A is interposed between the 1A and 1A so that the cooling liquid does not leak to the outside.

A slit-shaped opening 3 of the nozzle 310A
11A is a main body side male screw 111A and a lid side female screw 211.
It changes linearly by changing the screwed state with A. That is, in this slit type cooling jacket A,
By changing the screwing state of the main body side male screw 111A and the lid body side female screw 211A, the injection amount of the cooling liquid can be linearly changed.

However, this slit type cooling jacket A
In the above, the height dimension H3A of the rectifying member 240A is the height dimension H4A of the lid-side inner wall portion 220A, and the lid body-side outer wall portion 2 is
Since it is set to be larger than the height dimension H5A of 10A, the main body side male screw 111A and the lid body side female screw 211 only until the flow regulating member 240A contacts the main body side bottom portion 130A.
A cannot be screwed. Therefore, the rectifying member 2
With 40A in contact with the main body side bottom portion 130A, the dimensions of each part are set so that the opening 311A of the nozzle 310A formed by the main body side protruding edge portion 121A and the lid side protruding edge portion 221A is minimized.

A shaft-shaped work W such as a ball screw penetrates a through hole 300A composed of a main body side through hole 131A and a lid side through hole 231A. Slit type cooling jacket A
A portion heated by an induction heating coil (not shown) provided on the more downstream side is induction-hardened by being cooled by the cooling liquid jetted from the nozzle 310A when passing through the through hole 300A. To be done. When adjusting the quenching depth of the quenching layer to be formed on the shaft-shaped work W,
By changing the screwed state of the main body 100A and the lid body 200A, that is, the combined state, the nozzle 31
This is performed by adjusting the injection amount of the cooling liquid by changing the size of the 0A opening 311A.

Next, a slit type cooling jacket B according to a second embodiment of the present invention will be described with reference to FIG. The slit type cooling jacket B according to the second embodiment differs from the slit type cooling jacket A described above in the presence of the intermediate body 400B.

The slit type cooling jacket B according to the second embodiment of the present invention has a substantially ring-shaped main body 100B having a main body side through hole 131B formed in the center and a lid corresponding to the main body side through hole 131B. It has a substantially ring-shaped lid body 200B in which a body side through hole 231B is opened and a substantially ring-shaped intermediate body 400B in which a body side through hole 431B is opened in the center, and the body 100B and the lid body 200B. And are connected via the intermediate body 400B.

The main body 100B and the lid 2 used for the slit type cooling jacket B according to the second embodiment of the present invention.
00B is substantially the same as the main body 100A and the lid body 200A used for the slit type cooling jacket A according to the first embodiment, and thus detailed description thereof will be omitted.

An intermediate member 400B having a construction peculiar to the slit type cooling jacket B according to the second embodiment of the present invention.
Is a substantially ring-shaped intermediate body side bottom portion 430B in which an intermediate body side through hole 431B is opened, intermediate body side outer wall portions 410B1 and 410B2 extending in two directions orthogonal to the outer peripheral edge portion of the intermediate body side bottom portion 430B, and Intermediate side bottom 430
It has intermediate body side inner wall portions 420B1 and 420B2 extending in two directions orthogonal to the inner peripheral edge portion of B.

The intermediate body side bottom portion 430B is provided with a cooling liquid supply hole 432B for receiving the supply of the cooling liquid from a cooling liquid supply path (not shown). Specifically, the cooling liquid supply hole 432B is the cooling liquid supply hole 132 of the main body 100B.
It is for guiding the cooling liquid supplied to the space K1 via B to the space K2.

The rectifying member 440B is provided on the intermediate body side bottom portion 430B. This straightening member 4
40B is a main body side bottom portion 130B of the main body 100B, a main body side outer wall portion 110B and a main body side inner wall portion 120B, and an intermediate body 4.
00B intermediate body side bottom portion 430B, intermediate body side outer wall portion 410
It faces a space K1 surrounded by B and the intermediate body side inner wall portion 420B. The rectifying member 440B is for calming the turbulent flow of the supplied cooling liquid, and has a plurality of openings 441B. Such rectifying member 44
The height dimension H1B of 0B is one of the intermediate body side inner wall portions 420.
It is set to be larger than the height dimension H2B of B1 and the height dimension H3B of the intermediate body side outer wall portion 410B1.

The intermediate body side outer wall portions 410B1 and 410B
2 is orthogonal to the outer peripheral edge portion of the intermediate body side bottom portion 430B 2
It has been extended in the direction. That is, one intermediate body side outer wall portion 410B1 is combined with the main body side outer wall portion 110B, and the other intermediate body side outer wall portion 410B2 is combined with the lid body side outer wall portion 210B.

The tip of one of the intermediate body side outer wall portions 410B1,
That is, the intermediate body side female screw 411B1 is formed on the inner peripheral surface of the edge portion. The intermediate body side female screw 411B1 is a portion to which the main body side male screw 111B is screwed. An intermediate body side external thread 411B2 is formed on the tip of the other intermediate body side outer wall portion 410B2, that is, on the inner peripheral surface of the edge portion.
The intermediate body side male screw 411B2 is the lid body side female screw 211.
This is a portion where B is screwed.

The intermediate body wall portions 420B1, 42B are also provided.
0B2 extends in two orthogonal directions from the inner peripheral edge of the intermediate body-side bottom portion 430B. That is, one intermediate body side inner wall portion 420B1 is the main body side inner wall portion 120B, and the other intermediate body side inner wall portion 420B2 is the lid body side inner wall portion 220B.
Can be combined with each.

These two intermediate body side inner wall portions 420B
1, 420B2 are the outer wall portions 410B1, 4 of the intermediate body.
It is parallel to 10B2. One intermediate body side inner wall portion 4
The height dimension H2B of 20B1 is larger than the height dimension H3B of the one intermediate body side outer wall portion 410B1, and the height dimension H4B of the other intermediate body side inner wall portion 420B2 is the height dimension of the other intermediate body side outer wall portion 410B2. It is set larger than H5B. Such an intermediate body side inner wall portion 420
At the edge portions of B1 and 420B2, that is, at the tips, intermediate body side protruding edge portions 421B1 and 421B protruding outwardly.
2 are formed respectively. This intermediate body side protruding edge portion 4
21B1 and 421B2 not only protrude outward, but are curved toward the main body side through hole 131B side in a state of being combined with the main body 100B.

When the intermediate body 400B is combined with the main body 100B, that is, when the intermediate body side female screw 411B1 is screwed into the main body side male screw 111B, the main body side bottom portion 130B, the main body side outer wall portion 110B, and the main body side inner wall of the main body 100B. Portion 120B and the intermediate body side bottom portion 4 of the intermediate body 400B.
A space K1 surrounded by 30B, the intermediate body side outer wall portion 410B1 and the intermediate body side inner wall portion 420B1 is formed.
Moreover, the space K1 communicates with the outside by the nozzle 310B having the slit-shaped opening 311B formed by the main body side protruding edge portion 121B and the intermediate body side protruding edge portion 421B1. Therefore, the cooling liquid supplied to the space K1 is ejected to the outside through the nozzle 310B.

When the lid body 200B is combined with the intermediate body 400B in which the main body 100B is combined, that is, the intermediate body side male screw 411B2 is combined with the lid body side female screw 21.
When 1B is screwed, the intermediate body side bottom portion 4 of the intermediate body 400B
30B, an intermediate body side outer wall portion 410B2, an intermediate body side inner wall portion 420B1, and a lid body side bottom portion 230 of the lid body 200B.
B, a space K2 surrounded by the lid-side outer wall portion 210B and the lid-side inner wall portion 220B is formed. Moreover, the space K2 communicates with the outside by the nozzle 320B having the slit-shaped opening 321B formed by the intermediate body side protruding edge portion 421B2 and the lid body side protruding edge portion 221B. Therefore, the cooling liquid supplied to the space K2 (the cooling liquid once supplied to the space K1) is jetted to the outside through the nozzle 320.

Main body side male screw 111B and intermediate body side female screw 4
An O-ring 500B is interposed between 11B1 and between the intermediate body side male screw 411B2 and the lid body side female screw 211B so that the cooling liquid does not leak to the outside.

The slit-shaped openings 311B and 321B of the nozzles 310B and 320B are formed on the body side male screw 111B.
Is changed linearly by changing the screwed state of the intermediate female screw 411B1 and the screwed state of the intermediate male screw 411B2 and the lid female screw 211B. That is, in this slit type cooling jacket B, the main body side male screw 111B
And changing the screwing state of the intermediate body side female screw 411B1 and the intermediate body side male screw 411B2 and the lid body side female screw 211B.
By changing the screwing state with the, the injection amount of the cooling liquid can be linearly changed.

However, this slit type cooling jacket B
In, the height dimension H1B of the flow regulating member 440B of the intermediate body 400B is the height dimension H of the intermediate body side inner wall portion 420B1.
2B, the height dimension H3B of the intermediate body side outer wall portion 410B1 is set larger, and the height dimension H6B of the flow regulating member 240B of the lid body 200B is the lid body side inner wall portion 22.
Since it is set to be larger than the height dimension H7B of 0B and the height dimension H8B of the lid-side outer wall portion 210B, the intermediate body 4
00B of the main body side male screw 1 until the rectifying member 440B of 00B contacts the main body side bottom portion 130B and the rectifying member 240B of the lid body 200B contacts the intermediate body side bottom portion 430B.
The screwing of 11B and the intermediate body side female screw 411B1 and the screwing of the intermediate body side male screw 411B2 and the lid body side female screw 211B cannot be advanced.

Therefore, the straightening member 440 of the intermediate body 400B
With B in contact with the main body side bottom portion 130B, the dimensions of each portion are set so that the opening 311B of the nozzle 310B formed by the main body side protruding edge portion 121B and the intermediate body side protruding edge portion 421B1 is minimized. Further, in a state in which the rectifying member 240B of the lid body 200B is in contact with the intermediate body side bottom portion 430B, the opening 321B of the nozzle 320B formed by the intermediate body side projecting edge portion 421B2 and the lid body side projecting edge portion 221B is minimized. Set the dimensions.

A shaft-shaped work W such as a ball screw penetrates a through hole 300B formed by a main body side through hole 131B, a lid side through hole 231B and an intermediate side through hole 431B. A portion heated by an induction heating coil (not shown) provided on the downstream side of the slit type cooling jacket B passes through the through hole 300B and has two nozzles 310.
Induction hardening is performed by being cooled by the cooling liquid injected from B and 320B. Particularly, in the slit type cooling jacket B according to the second embodiment of the present invention, 2
Since there are two nozzles 310B and 320B, it is possible to adjust the cooling amount and the injection amount over a wider range.

When adjusting the quenching depth of the quenching layer to be formed on the shaft-shaped work W, the main body 100B and the intermediate body 400B are screwed together, the intermediate body 400B and the lid body 200.
This is performed by changing the size of the openings 311B and 321B of the two nozzles 310B and 320B by changing the screwed state with B, that is, the combined state, to adjust the injection amount of the cooling liquid. In this case, the nozzle 310B configured by the main body 100B and the intermediate body 400B and the nozzle 320B configured by the intermediate body 400B and the lid body 200B can independently and independently adjust the injection amount of the cooling liquid. There is.

Next, a slit type cooling jacket C according to a third embodiment of the present invention will be described. The slit type cooling jacket C according to the third embodiment of the present invention is different from the slit type cooling jacket B according to the second embodiment described above in that a plurality of ( This is the point that it has two intermediate bodies 400C1 and 400C2.

Thus, the intermediates 400C1 and 400C2
By using a plurality of cooling elements, it is possible to cool a wider range of the shaft-shaped work W, and it is possible to further widen the range of cooling adjustment.

Other points, that is, the main body 100C, the lid 2
For 00C etc., slit type cooling jackets A, B
The detailed description is omitted because it is substantially the same.

In the above-described first embodiment, the main body side male screw 111A is provided on the main body 100A, and the lid body side female screw 211A is provided on the lid body 200A. However, the male screw and the female screw are reversed. May be. This is the same in the second and third embodiments.

Next, a slit type cooling jacket D according to a fourth embodiment of the present invention will be described with reference to FIGS.

The slit type cooling jacket D according to the fourth embodiment of the present invention, as shown in FIG. 4 and the like, has a substantially ring-shaped main body 100D and a substantially ring-shaped lid connected to the main body 100D. And a body 200D.

The main body 100 has a substantially ring-shaped main body side outer wall portion 110D, a main body side inner wall portion 120D having a smaller diameter than the main body side outer wall portion 110D and provided inside the main body side outer wall portion 110D, and the main body side inner wall portion 120D. A plurality of cutouts 121D provided in the portion 120D, and a main body side bottom portion 130D that connects the main body side outer wall portion 110D and the main body side inner wall portion 120D.
And have.

The main body side outer wall portion 110D is formed by connecting end portions of strip-shaped metal plate members into a substantially ring shape, and a main body side male screw 111D is formed at one end of the outer peripheral surface. . A cooling liquid supply passage 140D for supplying a cooling liquid is connected to the main body side outer wall portion 110D at a portion where the main body side male screw 111D is not formed.

Further, the main body side inner wall portion 120D is formed in a substantially ring shape by connecting end portions of strip-shaped metal plate members. Moreover, the main body side inner wall portion 120 has a diameter larger than the outer diameter of the shaft-shaped work W to be induction-heated.
Further, the diameter is smaller than that of the main body side inner wall portion 110D.

A plurality of cutouts 121D are formed at regular intervals on the main body side inner wall 120D. The notch 121D has one end of the main body side inner wall portion 120D and the main body side male screw 1 when connected to the main body side outer wall portion 110D.
It is formed by cutting from the same side as the side on which 11D is formed.

The width dimension of the strip-shaped metal plate material forming the main body side outer wall portion 110D and the width dimension of the strip-shaped metal plate material forming the main body side inner wall portion 120D are set to be substantially equal to each other.

The main body side bottom portion 130D connecting the main body side outer wall portion 110D and the main body side inner wall portion 120D is a substantially donut-shaped metal plate material, and the outer diameter is the same as the outer diameter of the main body side outer wall portion 110D. The inner diameter is set equal to the inner diameter of the main body side inner wall portion 120D.

On the other hand, the lid body 200D includes a substantially ring-shaped lid body side outer wall portion 210D, a lid body side inner wall portion 220D having a diameter smaller than that of the lid body side outer wall portion 210D, and the lid body side inner wall portion 220D. It has a lid side bottom 230D that connects the lid side outer wall 210D and the lid side inner wall 220D.

The lid-side outer wall portion 210D is formed by connecting end portions of strip-shaped metal plate members into a substantially ring shape, and has a lid-side female screw 211 formed at one end of the inner peripheral surface. There is. The lid side female screw 211D is used for the main body 10
It is adapted to be screwed into the male body side male screw 111D of 0. That is, the lid-side outer wall portion 210D is formed to be larger in diameter than the main body-side outer wall portion 110D by the thickness dimension of the metal plate material forming the lid-side outer wall portion 210D.

The lid-side inner wall portion 220D is formed in a substantially ring shape by connecting end portions of strip-shaped metal plate members. Moreover, the lid-side inner wall portion 220D is
The diameter is larger than the outer diameter of the shaft-shaped workpiece W to be induction-heated and smaller than the lid-side outer wall portion 210D. Further, the lid-side inner wall portion 220D is formed to have a diameter smaller than that of the main body-side inner wall portion 120D by the thickness dimension of the metal plate material forming the lid-side inner wall portion 220D. Therefore, when the lid body 200D is connected to the main body 100D, the lid body-side inner wall portion 220D enters the inside of the main body-side inner wall portion 120D.

Further, the lid-side bottom portion 230D connecting the lid-side outer wall portion 210D and the lid-side inner wall portion 220D is a substantially donut-shaped metal plate material, and its outer diameter is the same as the outer diameter of the lid-side outer wall portion 210D. The inner diameter is set equal to the inner diameter of the lid-side inner wall portion 220D.

An O-ring (not shown) for connecting the main body side outer wall portion 110D and the lid body side outer wall portion 210D in a watertight manner is provided between the main body side inner wall portion 120D and the lid body side inner wall portion. An O-ring (not shown) is interposed between 220D and 220D so as to connect them in a watertight manner.

When the main body 100D and the lid 200D are connected to each other, that is, when the main body side male screw 111D of the main body 100D is screwed to the lid side female screw 211D of the lid 200D,
Main body side outer wall portion 110D, main body side inner wall portion 120D, main body side bottom portion 130D, lid side outer wall portion 210D, lid side inner wall portion 2
The space K surrounded by 20D and the lid-side bottom portion 230D (see FIG. 5).
And FIG. 6) are formed. The cooling liquid supply path 14
OD will open into this space. Therefore, the cooling liquid is supplied to the space K through the cooling liquid supply path 140D, and the lid-side inner wall portion 220D of the cutout portion 121D.
The shaft-like work W inside from the part not blocked by
Is jetted toward.

Further, depending on how the main body side male screw 111D is screwed into the lid side female screw 211D, the degree of closure of the notch 121D formed in the main body side inner wall portion 120D changes. That is, as shown in FIG. 6, if the screw engagement is shallow, the degree of blockage of the notch 121D is small, so the degree of opening of the notch 121D is large, and as shown in FIG. Since the degree of blockage of the cut portion 121D is large, the degree of opening of the cut portion 121D is small.

Therefore, the body side male screw 11 of the body 100D is
The amount of the cooling liquid ejected from the slit formed by the cut portion 121D can be adjusted by the screwing state of the 1D lid body 200D with the lid side female screw 211D.

Therefore, when the hardened layer to be formed is shallow, as shown in FIG. 6, the opening degree of the notch 121D is increased to increase the injection amount of the cooling liquid, and the hardened layer to be formed is deep. In this case, as shown in FIG. 5, the opening degree of the cutout portion 121D is reduced to reduce the injection amount of the cooling liquid. With this configuration, the injection amount of the cooling liquid can be adjusted even if the same slit type cooling jacket is used.

In the fourth embodiment described above, the main body side male screw 111D is formed on the main body 100D and the lid body side female screw 211D is formed on the lid body 200D. However, as shown in FIG. Body side female screw to body 100E,
The lid side male screw is formed on the lid body 200D, and the lid body 2 is formed.
The lid-side outer wall portion 210E of 00E may enter the inside of the body-side outer wall portion 110E of the body 100D.

Further, in the above-described fourth embodiment, the lid-side inner wall portion 220 is supposed to enter the inside of the main body-side inner wall portion 120. However, as shown in FIG. It is also possible to configure so that 120F enters the inside of the lid-side inner wall portion 220F.

[0066]

The slit type cooling jacket according to the present invention has a substantially ring-shaped main body having a main body side through hole at the center and a lid side through hole corresponding to the main body side through hole. A main body side bottom portion in which a main body side through hole is formed, and a main body side outer wall portion extending from an outer peripheral edge portion of the main body side bottom portion. And a main body side inner wall portion extending from an inner peripheral edge portion of the main body side bottom portion, and the lid body has a lid body side bottom portion having a lid body side through hole and an outer side of the lid body side bottom portion. It has a lid-side outer wall portion extending from the peripheral edge portion and a lid-side inner wall portion extending from the inner peripheral edge portion of the lid-side bottom portion, and when the lid body is connected to the main body, the main body-side inner wall portion A slit is formed between the cover and the inner wall portion on the lid side.

Therefore, with this slit type cooling jacket, the cooling liquid jetted from the slits is not jetted pointwise onto the axial work but is jetted seamlessly as if it were a water curtain. It is possible to realize induction quenching without any damage.

Further, in order to face a space surrounded by the main body side bottom portion, the main body side outer wall portion and the main body side inner wall portion of the main body, and the lid body side bottom portion of the lid body, the lid body side outer wall portion and the lid body side inner wall portion, Since the rectifying member is provided on at least one of the main body and the lid, the cooling liquid is jetted in a rectified state rather than in a turbulent flow, so that more uniform induction hardening is possible.

Further, a main body side male screw or a main body side female screw is provided on the main body side outer wall portion of the main body, and a lid which is screwed to the main body side male screw or the main body side female screw is attached to the lid body side outer wall portion of the lid body. Since the body-side female screw and the lid-side male screw are respectively formed, the injection amount of the cooling liquid from the slit type cooling jacket can be linearly changed by changing the screwing condition. Therefore, even if the shaft-shaped work is changed, it is only necessary to adjust the screwing condition, and it is not necessary to replace it with a new cooling jacket.

A body-side protruding edge portion projecting outward is provided at an edge portion of the body-side inner wall portion of the body, and a lid protruding outward is provided at an edge portion of the lid-side inner wall portion of the lid body. Body-side protruding edge portions are respectively formed, and a nozzle having a slit-shaped opening is formed by both protruding edge portions.

For this reason, the jetted cooling liquid is jetted smoothly without a break like a water curtain, so that induction quenching with more uniformity can be realized.

Further, another slit type cooling jacket according to the present invention is provided with a substantially ring-shaped main body having a main body side through hole formed in the center and a lid side through hole corresponding to the main body side through hole. A slit-type cooling jacket, which includes a substantially ring-shaped lid body and a substantially ring-shaped intermediate body having a body-side through hole formed in the center, and the body and the lid body being connected via the intermediate body. The main body includes a main body side bottom portion having a main body side through hole, a main body side outer wall portion extending from an outer peripheral edge portion of the main body side bottom portion, and an inner peripheral edge portion of the main body side bottom portion. It has a main body side inner wall portion that has been taken out, the lid body, the lid body side bottom portion in which the lid body side through hole is opened, and the lid body side outer wall portion extended from the outer peripheral edge portion of the lid body side bottom portion. ,
It has a lid side inner wall portion extending from the inner peripheral edge portion of the lid side bottom portion, the intermediate body is an intermediate body side bottom portion in which an intermediate body side through hole is opened, and an outer peripheral edge portion of the intermediate body side bottom portion. Has an intermediate body side outer wall portion extending in two directions and an intermediate body side inner wall portion extending in two directions from an inner peripheral edge portion of the intermediate body side bottom portion. When they are connected via a slit, a slit is formed between the main body side inner wall portion and the intermediate body side inner wall portion and between the lid body side inner wall portion and the intermediate body side inner wall portion.

According to such a slit type cooling jacket, it is possible to inject the cooling liquid from two locations. Further, it becomes possible to independently adjust the injection amount of each cooling liquid.

In addition, having a plurality of the intermediates has the effect that the cooling liquid can be sprayed from three or more parts. The point that it becomes possible to independently adjust the injection amount of each cooling liquid is the same as that described above.

Still another slit type cooling jacket according to the present invention comprises a substantially ring-shaped main body and a substantially ring-shaped lid body connected to the main body, wherein the main body is substantially ring-shaped. A main body side outer wall portion, a main body side inner wall portion that is smaller in diameter than the main body side outer wall portion and is provided inside the main body side outer wall portion, and a plurality of cut portions provided in the main body side inner wall portion,
The main body side outer wall part and the main body side inner wall part have a main body side bottom part that connects the main body side bottom part, and the lid body part has a substantially ring-shaped lid body side outer wall part and a smaller diameter than the lid body side outer wall part. It has a lid-side inner wall portion provided inside the outer wall portion, and a lid-side bottom portion that connects the lid-side outer wall portion and the lid-side inner wall portion,
A male screw portion is provided on either one of the outer peripheral surface of the main body side outer wall portion and the outer peripheral surface of the lid body side inner wall portion, and either of the inner peripheral surface of the main body side inner wall portion or the inner peripheral surface of the lid body side outer wall portion. A female screw portion corresponding to the male screw portion is formed on one side, and when the main body and the lid are fastened with the male screw portion and the female screw portion, the main body side inner wall portion and the lid body side inner wall portion overlap each other. As a result, a part of the cut portion is closed, and the degree of closure of the cut portion changes depending on the degree of fastening of the male screw portion and the female screw portion.

Therefore, with this slit type cooling jacket, the degree of blockage of the notch changes depending on the degree of connection between the main body and the lid, that is, the degree of fastening the male screw portion and the female screw portion. Therefore, it is possible to adjust the injection amount of the cooling liquid from the cut portion by changing the degree of connection between the main body and the lid. Therefore, even when the injection amount of the cooling liquid has to be adjusted according to the depth of the hardened layer to be formed on the shaft-shaped work such as a ball screw or the size and shape of the shaft-shaped work, the cooling jacket itself is replaced. Without this, it is possible to easily adjust the injection amount of the cooling liquid to the optimum amount.

[Brief description of drawings]

FIG. 1 is a schematic sectional view of a slit type cooling jacket according to a first embodiment of the present invention.

FIG. 2 is a schematic sectional view of a slit type cooling jacket according to a second embodiment of the present invention.

FIG. 3 is a schematic sectional view of a slit type cooling jacket according to a third embodiment of the present invention.

FIG. 4 is a schematic exploded perspective view of a slit type cooling jacket according to a fourth embodiment of the present invention.

FIG. 5 is a schematic sectional view of a slit type cooling jacket according to a fourth embodiment of the present invention.

FIG. 6 is a schematic sectional view of a slit type cooling jacket according to a fourth embodiment of the present invention.

FIG. 7 is a schematic sectional view of a slit type cooling jacket according to a fifth embodiment of the present invention.

FIG. 8 is a schematic sectional view of a slit type cooling jacket according to a sixth embodiment of the present invention.

[Explanation of symbols]

100A body 110A Main body side outer wall 111A Main body side male screw 200A lid 210A Lid side outer wall 211A Female screw on the lid side

Claims (10)

[Claims] 1. A substantially ring-shaped lid body having a body-side through hole at the center and a lid-side through hole corresponding to the body-side through hole, and being connected to the body. The main body includes a main body side bottom portion having a main body side through hole, a main body side outer wall portion extending from an outer peripheral edge portion of the main body side bottom portion, and an inner peripheral edge of the main body side bottom portion. The main body side inner wall portion extended from the portion, the lid body,
A lid-side bottom portion having a lid-side through hole, a lid-side outer wall portion extending from an outer peripheral edge portion of the lid-side bottom portion, and a lid body-side inner wall portion extending from an inner peripheral edge portion of the lid-side bottom portion. A slit-type cooling jacket, characterized in that when the lid is connected to the body, a slit is formed between the body-side inner wall portion and the lid-side inner wall portion. 2. A space surrounded by a main body side bottom portion, a main body side outer wall portion and a main body side inner wall portion of the main body, and a lid body side bottom portion, a lid body side outer wall portion and a lid body side inner wall portion of the lid body so as to face the space. The slit type cooling jacket according to claim 1, wherein a rectifying member is provided on at least one of the main body and the lid. 3. A main body side male screw or a main body side female screw is attached to the main body side outer wall portion of the main body, and a lid which is screwed to the main body side male screw or the main body side female screw is attached to the lid body side outer wall portion of the lid body. The slit-type cooling jacket according to claim 1 or 2, wherein a body-side female screw or a lid-side male screw is formed, respectively. 4. A main body-side protruding edge portion that projects outward at an edge portion of a main body-side inner wall portion of the main body, and a lid that projects outward at an edge portion of the lid-side inner wall portion of the lid body. The slit-type cooling jacket according to claim 1, 2 or 3, wherein each of the body-side projecting edges is formed and a nozzle having a slit-shaped opening is formed by both projecting edges. 5. A substantially ring-shaped main body having a main body side through hole formed in the center, a substantially ring-shaped lid body having a lid side through hole corresponding to the main body side through hole, and a main body side in the center. And a substantially ring-shaped intermediate body having a through hole opened,
In a slit type cooling jacket in which the main body and the lid are connected via an intermediate body, the main body extends from a main body side bottom portion having a main body side through hole and an outer peripheral edge portion of the main body side bottom portion. A main body side outer wall portion, and a main body side inner wall portion extending from an inner peripheral edge portion of the main body side bottom portion,
The lid is a lid-side bottom portion in which a lid-side through hole is opened,
The lid-side outer wall extending from the outer peripheral edge of the lid-side bottom, and the lid-side inner wall extending from the inner peripheral edge of the lid-side bottom, the intermediate, the intermediate side An intermediate body-side bottom portion having a through hole, an intermediate body-side outer wall portion extending in two directions from an outer peripheral edge portion of the intermediate body-side bottom portion, and an intermediate portion extending in two directions from an inner peripheral edge portion of the intermediate body-side bottom portion. When the main body and the lid body are connected to each other via the intermediate body, the body side inner wall section and the intermediate body side inner wall section and the lid body side inner wall section and the intermediate body side inner wall section are formed. A slit type cooling jacket characterized in that a slit is formed in the. 6. A space surrounded by a main body side bottom portion, a main body side outer wall portion, and a main body side inner wall portion of the main body, and an intermediate body side bottom portion, a lid body side outer wall portion, and a lid body side inner wall portion of the intermediate body so as to face the space. A rectifying member is provided in at least one of the main body and the intermediate body, the intermediate body side bottom portion of the intermediate body, the intermediate body side outer wall portion and the intermediate body side inner wall portion, the lid body side bottom portion of the lid body, the lid body side outer wall portion, and The slit type cooling jacket according to claim 5, wherein a rectifying member is provided on at least one of the intermediate body and the lid body so as to face a space surrounded by the lid side inner wall portion. 7. A body side male screw or a body side female screw is attached to the body side outer wall portion of the body, and an intermediate body is screwed to the body side male screw or the body side female screw to the intermediate body side outer wall portion of the intermediate body. A body-side female screw or a lid-side male screw is formed on the lid-side outer wall portion of the lid, and a lid-side male screw or a body-side female screw that is screwed with the intermediate-body female screw or the intermediate-body male screw is formed, respectively. The slit type cooling jacket according to claim 5 or 6, characterized in that. 8. A body-side protruding edge portion projecting outward at an edge portion of a body-side inner wall portion of the body, and an intermediate portion projecting outward at an edge portion of an intermediate body-side inner wall portion of the intermediate body. The body-side protruding edge portion is formed at the edge portion of the lid-side inner wall portion of the lid body, the lid-side protruding edge portion protruding outward, respectively, the body-side protruding edge portion and the intermediate body-side protruding edge portion. The slit-type cooling jacket according to claim 5, 6 or 7, wherein a nozzle having a slit-shaped opening is formed by the intermediate body side protruding edge portion and the lid body side protruding edge portion. 9. The slit type cooling jacket according to claim 5, wherein the intermediate body has a plurality of the intermediate bodies. 10. A substantially ring-shaped main body and a substantially ring-shaped lid connected to the main body, wherein the main body has a substantially ring-shaped main body side outer wall portion and the main body side outer wall portion. A main body side inner wall portion provided with a smaller diameter inside the main body side outer wall portion, and a plurality of cut portions provided in the main body side inner wall portion,
The main body side outer wall part and the main body side inner wall part have a main body side bottom part that connects the main body side bottom part, and the lid body part has a substantially ring-shaped lid body side outer wall part and a smaller diameter than the lid body side outer wall part. It has a lid-side inner wall portion provided inside the outer wall portion, and a lid-side bottom portion that connects the lid-side outer wall portion and the lid-side inner wall portion,
A male screw portion is provided on either one of the outer peripheral surface of the main body side outer wall portion and the outer peripheral surface of the lid body side inner wall portion, and either of the inner peripheral surface of the main body side inner wall portion or the inner peripheral surface of the lid body side outer wall portion. A female screw portion corresponding to the male screw portion is formed on one side, and when the main body and the lid are fastened with the male screw portion and the female screw portion, the main body side inner wall portion and the lid body side inner wall portion overlap each other. As a result, a part of the cut portion is closed, and the degree of closure of the cut portion changes depending on the degree of fastening of the male screw portion and the female screw portion.