KR102239332B1 - Gasket for sealing - Google Patents

Abstract

A sealing gasket interposed between a first member having a gasket mounting groove formed thereon and a second member coupled to the first member and mounted in the gasket mounting groove is disclosed. The disclosed sealing gasket is a gasket that extends to form a closed curve and has a first end in close contact with the bottom surface of the gasket mounting groove, a second end in close contact with the second member, and an inner circumferential surface and an outer circumferential surface between the first end and the second end. Protruding from the inner and outer circumferential surfaces of the main body, the gasket main body, and a plurality of inclination suppression protrusions spaced apart from each other along the length direction of the gasket main body, and a plurality of inclination suppression protrusions, so that each of the plurality of inclination suppression protrusions is in close contact with the inner surface of the pair of gasket mounting grooves. And a plurality of protruding detachment inhibiting protrusions. When the gasket body is not inclined in the gasket mounting groove and is erected, a plurality of escape suppression protrusions are in close contact with the pair of inner surfaces of the gasket mounting groove, but the plurality of inclination suppression protrusions and the first and second ends of the gasket body are It does not adhere closely. Even if the gasket body is inclined within the gasket mounting groove, a plurality of inclination suppressing protrusions and a plurality of disengagement suppressing protrusions are in close contact with the pair of inner surfaces of the gasket mounting groove, but the first and second ends of the gasket body are not in close contact. .

Description

Gasket for sealing

The present invention relates to a sealing gasket that seals so that fluid does not leak between a pair of facing members.

The sealing gasket is formed of a rubber material, for example, the pair of the pair of members to prevent fluid from leaking between a pair of members facing, such as a base and a cover. Is interposed between the members of. 1 is a cross-sectional view showing a state in which a conventional sealing gasket is interposed between two members in close contact with each other.

Referring to FIG. 1, a conventional sealing gasket 10 is interposed between the base 2 constituting the housing 1 and the cover 8, so that fluid flows through the gap between the base 2 and the cover 8. It is a member that seals so as not to leak. The sealing gasket 10 is fitted into a gasket mounting groove 4 formed on the upper side of the base 2 facing the lower side of the cover 8. The sealing gasket 10 is formed of a rubber material. 1, the sealing gasket 10 in the state before the cover 8 and the base 2 are closely coupled, the height in the direction parallel to the Z axis is the depth of the gasket mounting groove 4 It is larger than (DG), and the cross-sectional center line CL11 is vertically erected parallel to the Z axis. However, the cover 8 and the base 2 contact the lower side 9 of the cover 8 and the upper side 3 of the base 2 with the sealing gasket 10 fitted into the gasket mounting groove 10. When) is combined, the sealing gasket 10 is compressed and easily inclined in the gasket mounting groove 4 as shown by the solid line in FIG. 1.

As described above, when the cross-sectional center line CL12 of the sealing gasket 10 is compressed in the gasket mounting groove 4 while inclined with respect to the vertical line, that is, the Z-axis, the sealing gasket 10 is vertically erected and the gasket mounting groove (4) Compared to the case where it is compressed within, the elastic adhesion of the sealing gasket 10 that presses the inner surface (5, 6, 7, 9) defining the gasket mounting groove 4 is lowered, and thus the sealing gasket The sealing performance of (10) is deteriorated. In particular, when the direction in which the cross-sectional center line of the sealing gasket 10 is inclined is changed in the opposite direction along the longitudinal direction of the sealing gasket 10, in other words, the sealing gasket 10 is twisted at a specific point in its length direction. In the case of (twisting), sealing performance is greatly deteriorated at the twisted point, and sealing failure may occur.

Registered Patent Publication No. 10-1243598

The present invention provides a sealing gasket in which inclination is suppressed in the gasket mounting groove and sealing performance is improved.

The present invention provides a sealing gasket that does not come out of the gasket mounting groove and escape from the gasket mounting groove despite an unintended external force if the sealing gasket is fitted in the gasket mounting groove even if a member having a gasket mounting groove and a mating member are not coupled.

The present invention provides a sealing gasket interposed between a first member having a gasket mounting groove and a second member coupled to the first member and mounted on the gasket mounting groove, which extends to form a closed curve, and the gasket A first end in close contact with the bottom surface of the mounting groove, a second end in close contact with the second member, a gasket body having an inner circumferential surface and an outer circumferential surface between the first end and the second end, and at the inner and outer circumferential surfaces of the gasket body A plurality of inclination suppression protrusions that are protruding and are spaced apart from each other along the length direction of the gasket body, and a plurality of disengagement suppression protruding from each of the plurality of inclination suppressing protrusions to closely contact the inner surface of the pair of the gasket mounting groove When a protrusion is provided and the gasket body is erected without inclining in the gasket mounting groove, the plurality of detachment suppressing protrusions are in close contact with the pair of inner surfaces of the gasket mounting groove, but the plurality of inclination suppressing protrusions and the The first end and the second end of the gasket body are not in close contact, and even if the gasket body is inclined in the gasket mounting groove, the plurality of inclination suppressing protrusions and a plurality of detachments are provided on the inner surface of the pair of the gasket mounting groove. A sealing gasket is provided in which the restraining protrusion is in close contact, but the first end and the second end of the gasket body are not in close contact.

When the sealing gasket is not compressed, the longitudinal cross-sectional shape of the inclination inhibiting protrusion is the first and second inclined lines inclined in opposite directions to be closer as they protrude from the inner and outer circumferential surfaces of the gasket body, and the inside of the gasket mounting groove. It may have a shape including a first end line parallel to the side surface.

When the sealing gasket is not compressed, the first and second inclined lines are connected without being stepped from the longitudinal section outlines of the first and second ends, and may be inclined by 30 to 60° with respect to the cross-sectional center line of the sealing gasket. have.

When the sealing gasket is not compressed, the longitudinal cross-sectional shape of the detachment inhibiting protrusion is stepped from the first end line, and the third and fourth inclined in opposite directions to become closer as they protrude from the inner and outer circumferential surfaces of the gasket body. It may have a shape including an inclined line and a second end line that protrudes from the inner and outer circumferential surfaces of the gasket body more than the first end line and is parallel to the inner side of the gasket mounting groove.

When the sealing gasket is not compressed, a height from the end of the first end of the gasket body to the highest point of the release suppression protrusion may be smaller than the depth of the gasket mounting groove.

The sealing gasket of the present invention includes an inclination suppressing protrusion and a separation suppressing protrusion protruding from the inner and outer circumferential surfaces of the gasket body so that the sealing gasket is inserted and compressed in a state that is upright in the gasket mounting groove. Even when pressure is applied so that the sealing gasket is inclined in the gasket mounting groove, the inclination inhibiting protrusion is in close contact with the inner surfaces of the pair of the gasket mounting groove, so that the first and second ends of the gasket body become inclined within the pair of inner surfaces. It prevents excessive tilting of the sealing gasket so that it adheres to the side. Accordingly, the sealing performance is improved, and the sealing failure is prevented.

The sealing gasket of the present invention further includes not only the inclination inhibiting protrusion but also the departure inhibiting protrusion, so that the area in contact with the inner surface of the pair of gasket mounting grooves is smaller than the case where only the inclination inhibiting protrusion is provided. Accordingly, when the sealing gasket is inserted into the gasket mounting groove, but the member having the gasket mounting groove and the mating member are not coupled, a so-called spring back phenomenon due to the elastic force of the sealing gasket does not occur. In other words, even if the member in which the gasket mounting groove is formed and the mating member are not coupled, the sealing gasket is not removed from the gasket mounting groove despite an unintended external force applied to the sealing gasket. Therefore, the operation of joining the pair of members through the sealing gasket is facilitated, the working time is shortened, and loss of the sealing gasket can be prevented.

1 is a cross-sectional view illustrating a state in which a sealing gasket according to a conventional example is interposed between two members facing each other.
2 and 3 are cross-sectional views of a sealing gasket according to an embodiment of the present invention, and FIG. 2 is a view showing a state before a first member and a second member are coupled, and FIG. 3 is a first member and a second member. It is a view showing a state after is combined.
4 is a cross-sectional view of FIG. 3 taken along IV-IV.

Hereinafter, a sealing gasket according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Terms used in the present specification are terms used to properly express preferred embodiments of the present invention, which may vary depending on the intention of a user or operator or customs in the field to which the present invention belongs. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

2 and 3 are cross-sectional views of a sealing gasket according to an embodiment of the present invention, and FIG. 2 is a view showing a state before a first member and a second member are coupled, and FIG. 3 is a first member and a second member. It is a view showing a state after being combined, and FIG. 4 is a cross-sectional view showing FIG. 3 cut according to IV-IV. Referring to Figures 2 to 4 together, the sealing gasket 20 of the present invention is interposed between the first and second members (2, 8) facing and coupled to the first and second members (2, 8). Seal the fluid so that it does not leak through the gaps therebetween. The first and second members 2 and 8 may be, for example, a base 2 and a cover 8 constituting a housing 1.

The cover 8 may be in close contact with the base 2 so that the cover 8 covers and covers the base 2. When the base 2 and the cover 8 are in close contact, the upper side 3 of the base 2 and the lower side 9 of the cover 8 face each other. A gasket mounting groove 4 into which the sealing gasket 20 is inserted and seated is provided on the upper side 3 of the base 2. The gasket mounting groove 4 has a bottom surface 5 that is stepped from the upper side surface 3 and is parallel to the upper side surface 3, and one side and the other side in the width direction of the bottom surface 5 and the upper side ( 3) is defined by an inner surface 6 on the inner circumferential side and an inner side 7 on the outer circumferential side that are bently connected.

The gasket mounting groove 4 extends along a closed curve on a plane orthogonal to the Z axis, that is, a plane parallel to the XY plane. The closed curve of the gasket mounting groove 4 may be, for example, a circular shape, or a polygonal shape such as a square shape or a hexagonal shape in which the corners are gently curved. The depth (DG) and width (WG) of the gasket mounting groove 4 are not changed along the closed curve path of the gasket mounting groove 4 and are constant. The sealing gasket 20 is mounted in the gasket mounting groove 4.

The sealing gasket 20 is formed of a rubber material, a gasket body 21 integrally formed, a plurality of inner circumferential side tilt suppression protrusions 30 and a plurality of inner circumferential side departure suppression protrusions 40, and a plurality of outer circumferential side An inclination suppressing protrusion 35 and a plurality of disengagement suppressing protrusions 45 on the outer circumferential side are provided. The gasket body 21 extends in a closed curve along a path in which the gasket mounting groove 4 extends.

When the base 2 and the cover 8 are coupled, the gasket main body 21 has a first end 22 and a cover that are in close contact with the base 2, specifically the bottom surface 5 of the gasket mounting groove 4. 8), specifically, the second end 24 in close contact with the lower side 9 of the cover 8, and the inner circumferential surface 26 and the outer circumferential surface provided between the first end 22 and the second end 24 It has (28). The inner circumferential surface 26 is a side facing the inner space defined by the closed curve shape of the gasket body 21, and the outer circumferential surface 28 is a side facing the outer space defined by the closed curved shape of the gasket body 21.

When the sealing gasket 20 is not elastically compressed, the width (WB) of the gasket body 21 is at least 1/2 of the width (WG) of the gasket mounting groove 4 and the width (WG) of the gasket mounting groove 4 ) Is less than. The longitudinal sectional shape of the gasket body 21 defined by the first end 22, the second end 24, the inner circumferential surface 26, and the outer circumferential surface 28 may be, for example, an oval shape.

A plurality of inner circumferential side tilt suppression protrusions 30 protrude from the inner circumferential surface 26 of the gasket body 21, and a plurality of outer circumferential side tilt suppression protrusions 35 protrude from the outer circumferential surface 28 of the gasket body 21 do. As shown in FIG. 4, the plurality of inner circumferential side inclination suppression protrusions 30 and the plurality of outer circumferential side inclination suppression protrusions 35 are spaced apart from each other along the length direction of the gasket body 21. Preferably, the distance between the centers of the adjacent pair of inclination inhibiting protrusions 30 and 35 along the length direction of the gasket body 21 may be 10 to 15 mm.

The plurality of inner circumferential side disengagement inhibiting protrusions 40 protrude from the respective inner circumferential side inclination suppressing protrusions 30 so as to be in close contact with the inner circumferential side inner surface 6 of the gasket mounting groove 4. One inner circumferential side departure suppression protrusion 40 protrudes from one inner circumferential side inclination suppression protrusion 30, so that the number of the inner circumferential side disengagement suppression protrusions 40 is the same as the number of the inner circumferential side inclination suppression protrusions 30 .

The plurality of outer circumferential side disengagement suppression protrusions 45 protrude from each of the outer circumferential side inclination suppression protrusions 35 so as to be in close contact with the outer circumferential side inner surface 7 of the gasket mounting groove 4. One outer circumferential side departure suppression protrusion 45 protrudes from one outer circumferential side inclination suppression protrusion 35, so that the number of the outer circumferential side disengagement suppression protrusions 45 is the same as the number of the outer circumferential side inclination suppression protrusions 35 .

When the sealing gasket 20 is not compressed, the longitudinal cross-sectional shape of the inclination inhibiting protrusion 30 on the inner circumferential surface side is the first of the inner circumferential side inclined in the opposite direction to be closer as it protrudes from the inner circumferential surface 26 of the gasket body 20. And a second inclined line 31 and 32 on the inner circumferential surface, and a first end line 33 on the inner circumferential side parallel to the inner circumferential side inner surface 6, that is, a substantially trapezoidal shape. Likewise, when the sealing gasket 20 is not compressed, the longitudinal cross-sectional shape of the inclination suppressing protrusion 35 on the outer circumferential surface side is inclined in the opposite direction so that the protruding from the outer circumferential surface 28 of the gasket body 20 becomes closer. It has a substantially trapezoidal shape including first and second inclined lines 36 and 37 and a first end line 38 on the outer circumferential side parallel to the inner side 7 on the outer circumferential side.

As shown in FIG. 2, when the sealing gasket 20 is not compressed, the first inclined lines 31 and 36 on the inner circumferential side and the outer circumferential side are connected without being stepped from the longitudinal outline of the first end 22. In addition, the virtual extension line DL1 of the first inclined lines 31 and 36 on the inner circumferential side and the outer circumferential side is at an angle of 30 to 60° with respect to the cross-sectional center line CL2 of the sealing gasket 20 parallel to the Z-axis (AN1). ) Inclined. That is, the inner and outer circumferential first inclined lines 31 and 36 are inclined at an angle of 30 to 60° AN1 with respect to the cross-sectional center line CL2.

In addition, the second inclined lines 32 and 37 on the inner and outer circumferential sides are connected so as not to be stepped from the outline of the longitudinal section of the second end 24. In addition, the virtual extension line DL2 of the second inclined lines 32 and 37 on the inner circumferential side and the outer circumferential side is at an angle of 30 to 60° with respect to the cross-sectional center line CL2 of the sealing gasket 20 parallel to the Z-axis (AN2). ) Inclined. That is, the second inclined lines 32 and 37 on the inner circumferential side and the outer circumferential side are inclined at an angle of 30 to 60° AN2 with respect to the cross-sectional center line CL2.

When the sealing gasket 20 is not compressed, the longitudinal cross-sectional shape of the inner circumferential side separation suppression protrusion 40 protrudes stepwise from the first end line 33 on the inner circumferential side, and from the inner circumferential surface 26 of the gasket body 21 The third and fourth inclined lines 41 and 42 on the inner circumferential side inclined in opposite directions to be closer to each other as they protrude, and the inner circumferential surface 26 of the gasket body 21 is more than the first end line 33 on the inner circumferential side. It protrudes and has a substantially trapezoidal shape including a second end line 43 on the inner circumferential side parallel to the inner circumferential side 6 of the gasket mounting groove 4. Likewise, when the sealing gasket 20 is not compressed, the longitudinal cross-sectional shape of the disengagement suppression protrusion 45 on the outer circumferential surface side protrudes stepwise from the first end line 38 on the outer circumferential surface side, and the outer circumferential surface 28 of the gasket body 21 ), the outer circumferential surface 28 of the gasket body 21 than the outer circumferential side third and fourth inclined lines 46 and 47 inclined in opposite directions to be closer to each other as they protrude from the outer circumferential side, and the outer circumferential surface 28 of the gasket body 21 It has a substantially trapezoidal shape including a second end line 48 on the outer peripheral surface side parallel to the outer peripheral surface side inner surface 7 of the gasket mounting groove 4 and further protruding from the gasket mounting groove 4.

When inserting and seating the sealing gasket 20 in the gasket mounting groove 4, the gasket body 21 is aligned with the gasket mounting groove 4 and pushed in. The separation restraining protrusions 40 and 45 are pushed together into the gasket mounting groove 4. In the gasket mounting groove (4), the end of the first end (22) is in close contact with the bottom surface (5), and a plurality of departure suppression protrusions (40, 45) are provided on the inner and outer circumferential inner surfaces (6, 7). While in close contact with the sealing gasket 20, the cross-sectional center line CL2 is erected upright parallel to the Z axis.

In this state, when the cover 8 is coupled to the base 2 so that the lower side 9 of the cover 8 is in close contact with the upper side 3 of the base 2, the gasket body ( 21) is kept upright without tilting within the gasket mounting groove 4. At this time, the plurality of inner and outer circumferential side separation suppression protrusions 40 and 45 are in close contact with the inner and outer circumferential side inner surfaces 6 and 7. However, the plurality of inner and outer circumferential side inclination suppression protrusions (30, 35) and the first end (22) and second end (24) are in close contact with the inner and outer circumferential side inner surfaces (6, 7) It doesn't work. The first end 22 and the second end 24 are in close contact with the bottom surface 5 and the lower surface 9 of the cover 8.

On the other hand, when an asymmetrical load is applied based on the cross-sectional center line CL2 when the cover 8 is coupled to the base 2, the gasket body 21 may be slightly inclined within the gasket mounting groove 4 have. However, when the gasket body 21 is inclined, that is, even when the cross-sectional center line CL2 is inclined with respect to the Z-axis, the inner and outer circumferential sides are inclined to the inner and outer circumferential inner surfaces 6 and 7 The load suppression protrusions (30, 35) and the inner and outer circumferential side release suppression protrusions (40, 45) are in close contact, but the first end (22) and the second end (24) are on the inner and outer circumferential sides ( 6, 7) is not in close contact with the bottom surface (5) and the lower surface (9) of the cover (8) is kept in close contact.

When the cross-sectional center line CL2 is rotated clockwise and inclined based on FIG. 2, the lower part of the inner circumferential side tilt suppression protrusion 30 located under the inner circumferential side departure suppression protrusion 40 is the inner circumferential surface The upper part of the outer circumferential side inclination suppression protrusion 35, which is in close contact with the side inner side 6 and located above the outer circumferential side separation suppression protrusion 45, is in close contact with the outer circumferential side inner side 7, and the sealing gasket 20 ) Prevents tilting at a larger angle.

On the contrary, when the cross-sectional center line CL2 rotates in a counterclockwise direction and inclined with reference to FIG. 2, the lower portion of the outer circumferential side tilt suppression protrusion 35 located under the outer circumferential side departure suppression protrusion 45 is the outer circumferential surface. The upper part of the inner circumferential side tilt suppression protrusion 30 which is in close contact with the inner circumferential side and is located above the inner circumferential side departure suppression protrusion 40 is in close contact with the inner circumferential side inner surface 6, and the sealing gasket 20 ) Prevents tilting at a larger angle. As a result, even if the sealing gasket 20 is slightly inclined within the gasket mounting groove 4, the first end 22 and the second end 24 are the bottom surface 5 and the lower side of the cover 8 It adheres firmly to (9) and maintains excellent sealing performance.

As shown in Fig. 2, when the sealing gasket 20 is not compressed, the detachment inhibiting protrusions 40 and 45 at the end of the first end 22 of the gasket body 21, that is, at the lower end of the gasket body 21 The height (HN) to the highest point of is smaller than the depth (DG) of the gasket mounting groove (4).

Contrary to that shown in Fig. 2, if the height HN is greater than or equal to the depth DG of the gasket mounting groove 4, the sealing gasket 20 and the inner surfaces 6 and 7 of the gasket mounting groove 4 ), the area of frictional contact in the direction parallel to the Z-axis is too large, and the second end faces 43 and 48 of the separation suppression protrusions 40 and 45 are mounted with a gasket on the upper side 3 side of the base 2 It hangs over the entrance of the groove (4). Therefore, when the sealing gasket 20 is fitted into the gasket insertion groove 4, but the cover 8 is not coupled to the base 2, the base 2 is transported or overturned. When vibration is applied, the sealing gasket 20 can easily come out of the gasket mounting groove 4.

The sealing gasket 20 described above is tilted protruding from the inner circumferential surface 26 and the outer circumferential surface 28 of the gasket body 21 so that the sealing gasket 20 is inserted and compressed in an upright position in the gasket mounting groove 4. It includes the load suppression protrusions (30, 35) and the departure suppression protrusions (40, 45). Even when pressure is applied so that the sealing gasket 20 is inclined in the gasket mounting groove 4, the inclination inhibiting protrusions 30 and 35 are formed on the inner and outer circumferential inner surfaces 6 of the gasket mounting groove 4 The sealing gasket 20 is excessively inclined so that the first and second ends 22 and 24 of the gasket body 21 are in close contact with the inner and outer circumferential inner surfaces 6 and 7 while being in close contact with the gasket body 21. It prevents you from losing. Accordingly, the sealing performance is improved, and the sealing failure is prevented.

The sealing gasket 20 further includes not only the inclination inhibiting protrusions 30 and 35, but also the departure inhibiting protrusions 40, 45, so that the inner circumferential side of the gasket mounting groove 4 and the The area in contact with the inner surfaces 6 and 7 on the outer circumferential side is small. Accordingly, when the sealing gasket 20 is fitted in the gasket mounting groove 4 but the member 2 on which the gasket mounting groove 4 is formed and the mating member 8 are not coupled, the sealing gasket 20 There is no so-called spring back phenomenon due to elastic force. In other words, even if the member 2 in which the gasket mounting groove 4 is formed and the mating member 8 are not coupled, the sealing gasket 20 is not a gasket despite an unintended external force applied to the sealing gasket 20. It escapes from the mounting groove 4 and does not come off. Therefore, the operation of joining the pair of members 2 and 8 through the sealing gasket 20 becomes easy, the operation time is shortened, and the loss of the sealing gasket 20 can be prevented.

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

2, 8: first, second member 4: gasket mounting groove
20: sealing gasket 21: gasket body
22, 24: first, second end 26, 28: inner circumferential surface, outer circumferential surface
30, 35: tilt suppression protrusion 40, 45: departure suppression protrusion

Claims (5)

A sealing gasket interposed between a first member having a gasket mounting groove and a second member coupled to the first member and mounted in the gasket mounting groove,
A gasket body extending to form a closed curve and having a first end in close contact with the bottom surface of the gasket mounting groove, a second end in close contact with the second member, and an inner circumferential surface and an outer circumferential surface between the first and second ends; A plurality of inclination inhibiting protrusions protruding from the inner and outer circumferential surfaces of the gasket body and spaced apart from each other along a longitudinal direction of the gasket body; And a plurality of detachment suppression protrusions protruding from each of the plurality of inclination suppression protrusions so as to be in close contact with the pair of inner surfaces of the gasket mounting groove,
When the gasket body is erected without inclining in the gasket mounting groove, the plurality of departure suppression protrusions are in close contact with the pair of inner surfaces of the gasket mounting groove, but the plurality of inclination suppression protrusions and the first of the gasket body The end and the second end are not in close contact,
Even if the gasket body is inclined within the gasket mounting groove, the plurality of inclination inhibiting protrusions and the plurality of departure inhibiting protrusions are in close contact with the pair of inner surfaces of the gasket mounting groove, but the first end and the second end of the gasket body The ends are not tight,
When the sealing gasket is not compressed, the longitudinal cross-sectional shape of the inclined protrusion is the first and second inclined lines inclined in opposite directions to be closer as they protrude from the inner and outer circumferential surfaces of the gasket body, and the inside of the gasket mounting groove. It is a shape including a first end line parallel to the side,
When the sealing gasket is not compressed, the first and second inclined lines are not stepped from the longitudinal outlines of the first and second ends, and are inclined by 30 to 60° with respect to the cross-sectional center line of the sealing gasket. Sealing gasket characterized by. delete delete The method of claim 1,
When the sealing gasket is not compressed, the longitudinal cross-sectional shape of the detachment inhibiting protrusion is stepped from the first end line, and the third and fourth inclined in opposite directions to be closer as they protrude from the inner and outer circumferential surfaces of the gasket body. A sealing gasket having a shape including an inclined line and a second end line that protrudes from an inner circumferential surface and an outer circumferential surface of the gasket body than from the first end line and is parallel to an inner surface of the gasket mounting groove. The method of claim 1,
When the sealing gasket is not compressed, a height from the end of the first end of the gasket body to the highest point of the release inhibiting protrusion is smaller than the depth of the gasket mounting groove.

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