KR102089483B1 - Jig for heat-treating seal ring - Google Patents

Abstract

Disclosed is a jig for heat treatment of a seal ring in which a plurality of seal rings to be heat treated is loaded. The disclosed seal ring heat treatment jig is a pipe disposed inside the outer barrel so that a plurality of seal rings are stacked in multiple layers between the inner circumferential surface and the outer circumferential surface of the outer barrel to form a sealing ring loading space. It has a shaped inner barrel and an upper cap and a lower cap closing the upper and lower sides of the seal ring loading space. Inside the upper cap and the lower cap is provided with a heat insulating material to suppress heat transfer across the upper cap and the lower cap in the thickness direction.

Description

Jig for heat-treating seal ring

The present invention relates to a jig used in the manufacturing process of a seal ring used in a transmission of a vehicle, and more particularly, to a jig used to heat-treat the seal ring.

Sealing rings are used to prevent leakage of hydraulic oil in devices using hydraulics such as automatic transmissions and continuously variable transmissions in vehicles. For example, a rotating shaft is inserted into a shaft insertion hole formed in an automatic transmission housing, and a seal ring is interposed between the outer peripheral surface of the rotating shaft and the shaft insertion hole to prevent leakage of hydraulic oil. This will prevent hydraulic loss. The seal ring is made of synthetic resin such as polyetheretherketone (PEEK) resin, polyimide resin, polyester resin, and polytetrafluoroethylene (PTFE) resin, and is formed by injection molding, and then heat treated to improve physical properties after injection molding.

1 is a longitudinal sectional view of a jig for heat treatment of a conventional seal ring. Referring to Figure 1, the conventional seal ring heat treatment jig 10 is a plurality of seal rings (1) in a heat treatment device (not shown), also called an oven (not shown) when heat treatment and the plurality of seal rings ( 1) This is a jig loaded and supported. The seal ring heat treatment jig 10 includes a pipe-shaped outer barrel 13 and an inner barrel 15, an annular stopper ring 17, A cap 18 and a base 11 are provided. The size of the inner diameter of the outer barrel 13 is larger than the size of the outer diameter of the inner barrel 15. The outer circumferential surface of the stopper ring 17 is press-fitted to the inner circumferential surface of the upper end of the outer barrel 13, and the outer circumferential surface of the upper end 16 of the inner barrel 15 is crimped and fixed to the stopper ring 17. A plurality of seal rings 1 are stacked in a vertical direction in a space between the inner peripheral surface of the outer barrel 13 and the outer peripheral surface of the inner barrel 15. The cap 18 closes the lower opening of the space in which the plurality of seal rings 1 are loaded. The base 11 is fitted to the cap 18 and is supported on a shelf (not shown) inserted into the heat treatment apparatus.

Looking at the assembly of the seal ring heat treatment jig 10 and the loading process of the plurality of seal rings 1, the stopper ring 17 is press-fit fixed to the outer barrel 13, the inner side to the stopper ring 17 After the upper end 16 of the barrel 15 is squeezed and fixed, the outer barrel 13, the inner barrel 15, and the stopper ring 17 assembled with the stopper ring 17 facing down are turned upside down. . Then, a plurality of seal rings 1 are loaded into the space through an opening that is opened to the upper side of the space where the seal rings 1 are loaded. Then, the opening of the space in which the seal ring 1 is loaded is closed by the cap 18, and the base 11 is fitted into the concave groove of the cap 18. Then, the base 11 and the cap 18 are turned upside down again for the sealing ring heat treatment jig 10 so as to face down, and the sealing ring heat treatment jig 10 is placed on a shelf (not shown) of the heat treatment apparatus. Stand up and place the shelf inside the heat treatment device to heat it.

By the way, the conventional sealing ring heat treatment jig 10 is formed on the upper side, that is, the stopper ring 17 has a hole (hole) 19 is opened, hot air is the base inside the hole 19 A flow rising from (11) toward the stopper ring (17) is formed. Due to this, a temperature deviation occurs between the upper and lower positions and a difference occurs in the speed of temperature change, and the deviation in the physical properties and dimensions of the sealing ring 1 is large depending on the position loaded in the jig 10 for sealing heat treatment. There is a problem in that the quality and dimensions of the ring 1 are not uniform and defects are increased.

Republic of Korea Patent Publication No. 10-2013-0135379

The present invention provides a jig for heat treatment of a seal ring in which a plurality of seal rings are mounted to heat-treat the seal ring, and temperature and pressure are maintained uniformly regardless of the height at which the seal ring is mounted.

The present invention is a jig (jig) on which a plurality of seal rings to be subjected to heat treatment is loaded, an outer barrel in the shape of a pipe, between the inner circumferential surface of the outer barrel and its outer circumferential surface The inner ring of the pipe-shaped inner barrel disposed inside the outer barrel and the upper and lower sides of the sealing ring loading space are closed so that a sealing ring loading space in which the sealing rings of the stacking are stacked in multiple layers is formed. Seal ring is provided with an upper cap (upper cap) and a lower cap (lower cap), the inside of the upper cap and the lower cap is provided with a heat insulating material to suppress heat transfer across the upper cap and the lower cap in the thickness direction Provide a jig for heat treatment.

The insulating material is made of a PTFE resin (polytetrafluoroethylene resin), the planar area of the insulating material may be larger than the area of a circle defined by the inner diameter of the inner barrel.

The upper cap has an annular projection protruding downward, and the lower cap has an annular projection protruding upward, and among the multiple seal rings loaded in the seal ring loading space, the seal ring loaded on the top and bottom layers is a dummy seal. It is a dummy seal ring, and when the upper and lower sides of the seal ring loading space are closed with the upper and lower caps, the annular projections of the upper and lower caps can contact and press the dummy seal rings of the top and bottom layers in contact. have.

Upper and lower female screw patterns are formed on the inner circumferential surfaces of the upper and lower sides of the outer barrel, and male screw patterns that fit into the upper female screw patterns are formed on the outer circumferential surfaces of the upper cap, , On the outer circumferential surface of the lower cap, a male screw pattern meshing with the lower female screw pattern is formed, and the pressure applied to the dummy sealing rings of the top and bottom layers according to the rotation angles of the top and bottom caps relative to the outer barrel. This can be changed.

The jig for heat treatment of the sealing of the present invention may have symmetrical shapes on the upper side and the lower side with respect to a virtual center plane that cuts an intermediate point in the longitudinal direction of the outer barrel.

The jig for heat treatment of the sealing of the present invention is composed of four members and is easy to assemble and disassemble, thereby improving the working speed of the sealing heat treatment.

The jig for heat treatment of the sealing ring of the present invention is provided with an insulating material on the upper cap and the lower cap, so that heat emission and inflow are suppressed in the longitudinal direction of the outer barrel and the inner barrel. Therefore, the quality and dimensions of the plurality of seal rings, which are loaded and heat-treated on the jig for sealing ring heat treatment, are maintained uniformly, and the defect rate is reduced.

According to the jig for heat treatment of the seal ring according to the embodiment of the present invention in the symmetrical shape up and down, the heat treatment device, that is, the heat treatment device is placed on the shelf in the oven ignoring the top and bottom, and heat treatment is performed. In the case of proceeding, or even when the heat treatment is performed while lying on the shelf, a good heat treatment effect can be obtained. Therefore, the heat treatment operation is easy and the speed is also high. In addition, the production cost is reduced because the upper cap and the lower cap can be shared.

1 is a longitudinal sectional view of a jig for heat treatment of a conventional seal ring.
2 is a perspective view of a jig for heat treatment of a seal ring according to an embodiment of the present invention.
3 and 4 are cross-sectional views of FIG. 2 taken along line III-III.

Hereinafter, a jig for heat treatment of a seal ring according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Terminology used in the present specification are terms used to properly express a preferred embodiment of the present invention, which may vary according to a user's or operator's intention or customs in the field to which the present invention pertains. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

2 is a perspective view of a jig for heat treatment of a seal according to an embodiment of the present invention, and FIGS. 3 and 4 are cross-sectional views of FIG. 2 taken along line III-III. Referring to Figures 2 and 3 together, the sealing ring heat treatment jig 30 according to an embodiment of the present invention, the heat treatment is performed when a plurality of sealing rings (1) in a heat treatment device (not shown) and heat treatment A jig on which a plurality of seal rings 1 to be loaded are supported and supported, an outer barrel 31, an inner barrel 34, an upper cap 40, and a lower cap ( lower cap) (50).

The outer barrel 31 and the inner barrel 34 are pipe-shaped members, and the inner diameter ID1 of the outer barrel 31 is the outer diameter OD1 of the inner barrel 34. Greater than The inner barrel 34 is disposed inside the outer barrel 31, and the inner barrel 34 and the outer barrel 31 are disposed on the longitudinal axis CL of the jig 30 for sealing heat treatment. In other words, the outer barrel 31 is arranged to surround the inner barrel 34. Due to this, a seal ring loading space 39 is formed between the outer circumferential surface of the inner barrel 34 and the inner circumferential surface of the outer barrel 31 in which a plurality of seal rings 1 and 3 are stacked in multiple layers. Then, the upper and lower sides of the seal ring loading space 39 and the upper and lower sides of the inner barrel inner space 36 defined by the inner circumferential surface of the inner barrel 34 are opened.

The upper cap 40 closes the opened upper side of the seal ring loading space 39 and the inner barrel inner space 36, and the lower cap 50 has the sealing ring loading space 39 and the inner barrel inner space ( 36) is closed. Upper female screw patterns 32 and lower female screw patterns 33 are formed on inner circumferential surfaces of the upper and lower ends of the outer barrel 31. A male screw pattern 42 fitted to the upper female screw pattern 32 is formed on the outer circumferential surface of the upper cap 40, and a male screw fitted to the lower female screw pattern 33 is formed on the outer circumferential surface of the lower cap 50. The pattern 52 is formed.

A cap flange 41 is formed on the upper side of the male screw pattern 42 of the upper cap 40 so that the diameter of the male screw pattern 42 is stepped larger than the diameter of the male screw pattern 42, and the male screw pattern 42 is formed. An annular projection 43 protruding downward is formed at the lower side of the. A cap flange 51 having a diameter that is stepped more than the diameter of the male screw pattern 52 is formed on the lower side of the male screw pattern 52 of the lower cap 50, and upward on the upper side of the male screw pattern 52. The protruding annular projection 53 is formed.

Inside the upper cap 40 and the lower cap 50 is provided with a heat insulating material 54 to suppress heat transfer across the upper cap 40 and the lower cap 50 in the thickness direction, that is, in a direction parallel to the Z axis. do. The insulating material is a disk-shaped member having a constant thickness, and may be made of, for example, a polytetrafluoroethylene resin. The heat insulating material 54 is disposed on the axis CL of the jig 30 for sealing heat treatment, like the inner barrel 34 and the outer barrel 31, and the flat area of the heat insulating material 54 is the inner barrel 34 It is larger than the area of the circle defined by the inner diameter (ID2). When words, in consideration of the diameter (RD) of a heat insulating material 54 is a plane area of the heat insulating material 54 is π (RD) ^2/4. Area of a circle (circle) which is defined by the inner diameter (ID2) of the inner barrel 34 is the area of the cross section of the inner space (36) inside the barrel, which is π (ID2) ^2/4.

The material of the outer barrel 31, the inner barrel 34, and the material of the upper cap 40 and the lower cap 50 other than the insulating material 54 may be metal, such as stainless steel. You can. 2 and 3, the upper and lower shapes are symmetrical with respect to the imaginary center plane CP cutting the middle point of the outer barrel 31 in the longitudinal direction of the seal ring heat treatment fixture 30. do.

Hereinafter, a process of assembling the seal ring heat treatment jig 30 and loading a plurality of seal rings 1 and 3 on the seal ring heat treatment jig 30 will be described. First, the opened lower side of the outer barrel 31 is closed with the lower cap 50, so that the male screw pattern 52 of the lower cap 50 is engaged with the lower female screw pattern 33 of the outer barrel 31. The lower cap 50 is rotated relative to the outer barrel 31. When the cap flange 51 of the lower cap 50 is in close contact with the lower end of the outer barrel 31, the outer barrel 31 and the lower cap 50 are firmly combined.

Next, the inner barrel 34 is inserted into the inner side of the outer barrel 31 so that the lower end of the inner barrel 34 fits inside the annular projection 53 of the lower cap 50. As a result, a seal ring loading space 39 having an open top is formed between the inner peripheral surface of the outer barrel 31 and the outer peripheral surface of the inner barrel 34. Next, a plurality of seal rings 1 and 3 are stacked in multiple layers in the seal ring loading space 39. Among the seal rings (1, 3) stacked in the multi-layer, the seal ring (3) stacked on the lowermost layer and the uppermost layer is a dummy seal ring, and a seal ring (1) interposed between the dummy seal rings (3) ) Is an actual seal ring taken out from an injection molding mold (not shown). The actual seal ring is a seal ring that is completed when heat treated in a state loaded on the seal ring heat treatment jig 30, and is, for example, a seal ring manufactured for use in devices such as automatic transmissions and continuously variable transmissions in vehicles. The actual seal ring 1 is made of synthetic resin such as polyetheretherketone (PEEK) resin, polyimide resin, polyester resin, and polytetrafluoroethylene (PTFE) resin. The dummy seal ring 3 is a seal ring manufactured for the purpose of helping heat treatment of the actual seal ring 1, not for use in the device of the vehicle. The dummy seal ring 3 is sufficient if it is formed in a shape similar to the actual seal ring 1 and is not necessarily formed in the same shape as the actual seal ring 1. In addition, the material of the dummy seal ring 3 does not necessarily have to be the same material as the material of the actual seal ring 1, and may be formed of synthetic resin of similar properties.

After loading a plurality of seal rings 1 and 3, the upper cap 40 is coupled to the outer barrel 31 so that the open upper side of the seal ring loading space 39 and the inner barrel inner space 36 is closed. do. Specifically, the upper cap 40 is rotated relative to the outer barrel 31 so that the male screw pattern 42 of the upper cap 40 is meshed with the upper female screw pattern 32 of the outer barrel 31. When the cap flange 41 of the upper cap 40 is in close contact with the upper end of the outer barrel 31, the outer barrel 31 and the upper cap 40 are firmly combined.

When the jig 30 for sealing ring heat treatment is assembled as described above, the annular projection 43 of the upper cap 40 contacts and presses the dummy seal ring 3 of the uppermost layer, and the annular projection of the lower cap 50 ( 53) presses the dummy seal ring 3 of the lowest layer in contact. The plurality of actual seal rings 1 interposed between the top and bottom dummy seal rings 3 are pressed by the pair of dummy seal rings 3. Since the pressing force of the annular projections 43 and 53 is buffered through a pair of dummy seal rings 3 and indirectly transferred to a plurality of actual seal rings 1, the pressure applied to the plurality of actual seal rings 1 The silver position is almost constant, with no significant difference depending on the stacked height. Therefore, dimensional unevenness or excessive shape deformation between the plurality of actual seal rings 1 due to pressure difference during heat treatment is prevented, and the product defect rate is reduced.

Meanwhile, the cap flanges 41 and 51 and the outer barrel 31 of the upper cap 40 and the lower cap 50 according to the rotation angles of the upper cap 40 and the lower cap 50 relative to the outer barrel 31 ) May be changed between the top and bottom of the bottom, and the pressure applied to the dummy seal ring 3 of the top and bottom layers may be changed. Through this, it is possible to adjust the pressure applied to the plurality of actual seal rings (1) interposed between the top and bottom dummy seal ring (3).

The seal ring heat treatment jig 30 assembled with a plurality of seal rings 1 and 3 loaded is supported on a shelf (not shown) of the heat treatment device, the shelf is inserted into the heat treatment device, and the heat treatment device The internal temperature rises and heat treatment proceeds. Sealing heat treatment jig 30 is the inner barrel inner space 36 is closed without being opened up and down by the upper cap 40 and the lower cap 50, so that the heated air is the inner barrel inner space 36 The heat convection rising from the outside is discharged to the outside of the jig 30 for sealing heat treatment.

In addition, the heat insulating material 54 provided on the upper cap 40 and the lower cap 50 suppresses heat transfer in the thickness direction of the upper cap 40 and the lower cap 50, that is, in a direction parallel to the Z axis. . In addition, the top and bottom layer dummy seal rings 3 are pressed against the annular projections 43 and 53 of the upper cap 40 and the lower cap 50 formed of a metal material, resulting in the annular projections 43 and 53. Although it may be greatly affected by heat conduction, a plurality of seal rings 1 are not in contact with the upper cap 40 and the lower cap 50 and are in close contact with the dummy seal ring 3 formed of synthetic resin material to conduct heat. Is not greatly affected by Therefore, during the heat treatment, the temperature change of the plurality of actual seal rings 1 and the amount of heat supplied to the plurality of actual seal rings 1 are large depending on the position of the plurality of actual seal rings 1, that is, the stacked height. It is almost constant without difference. Therefore, the number of actual seal rings 1 loaded and heat-treated on the seal ring heat treatment jig 30 is maintained in uniform quality and dimensions, and the defect rate is reduced.

The jig 30 for sealing heat treatment is composed of four members and is easy to assemble and disassemble, thereby improving the working speed of the sealing heat treatment. In addition, the jig 30 for heat treatment of the sealing ring has a symmetrical shape as described above, so that the upper cap 40 and the lower cap 50 can be shared, thereby reducing production cost. In addition, the heat treatment of the seal ring 1 is good even when the heat treatment is performed by placing the jig 30 for sealing ring heat treatment on the shelf in the heat treatment device while ignoring the top and bottom, or even when lying on the shelf and performing heat treatment. You can get the effect. Therefore, the heat treatment operation is easy and the speed is also high.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and other equivalent embodiments are possible therefrom. Therefore, the true protection scope of the present invention should be defined only by the appended claims.

1: seal ring 3: dummy seal ring
30: jig for sealing ring heat treatment 31: outer barrel
34: inner barrel 39: seal ring loading space
40, 50: upper cap, lower cap 54: insulation

Claims (5)

As a jig (jig) is loaded with a number of seal rings (ring) to be performed heat treatment,
A pipe-shaped outer barrel; A pipe-shaped inner barrel disposed inside the outer barrel so that a seal ring loading space in which the plurality of seal rings are stacked in multiple layers is formed between the inner circumferential surface of the outer barrel and its outer circumferential surface. ; And an upper cap and a lower cap closing the upper and lower sides of the seal ring loading space.
Inside the upper cap and the lower cap is provided with a heat insulating material to suppress heat transfer across the upper cap and the lower cap in the thickness direction,
The upper cap has an annular projection protruding downward, and the lower cap has an annular projection protruding upward,
Among the plurality of seal rings stacked in the seal ring loading space, the seal rings stacked on the top and bottom layers are dummy seal rings.
When the upper and lower caps of the seal ring loading space are closed with the upper cap and the lower cap, the annular projections of the upper cap and the lower cap contact and press the dummy seal rings of the top and bottom layers in contact with each other. . According to claim 1,
The insulating material is made of PTFE resin (polytetrafluoroethylene resin),
The planar area of the heat insulating material is larger than the area of a circle defined by the inner diameter of the inner barrel. delete According to claim 1,
Upper and lower female screw patterns are formed on the inner circumferential surfaces of the top and bottom of the outer barrel,
A male screw pattern fitted to the upper female screw pattern is formed on the outer circumferential surface of the upper cap, and a male screw pattern fitted to the lower female screw pattern is formed on the outer circumferential surface of the lower cap,
Jig for sealing ring heat treatment, characterized in that the pressure applied to the dummy seal ring of the top and bottom layers is changed according to the rotation angles of the upper cap and the lower cap with respect to the outer barrel. According to claim 1,
Jig for sealing heat treatment, characterized in that the shape of the upper side and the lower side is symmetrical with respect to the imaginary center plane cutting the intermediate point in the longitudinal direction of the outer barrel.

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