KR20210003399A - Gasket for sealing - Google Patents

Abstract

Disclosed is a sealing gasket, which is made of a rubber material and interposed between a pair of members. The disclosed sealing gasket comprises: an upper end unit elastically and closely attached to one between the pair of members; and a lower end unit elastically and closely attached to another one between the pair of members. Each of cross-sectional shapes of the upper end unit and the lower end unit has a wave form where peaks and troughs are alternately positioned, and the number of the peaks is one more than the number of the troughs. Width of the upper end unit and width of the lower end unit are smaller than width of an intermediate unit positioned between the upper end unit and the lower end unit.

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, to prevent fluid from leaking between the base constituting the housing and the pair of members facing each other, such as a cover. Is interposed between the members of. 1 is a cross-sectional view of a sealing gasket according to a conventional example, and FIG. 2 is a cross-sectional view illustrating a state in which the sealing gasket of FIG. 1 is interposed between two facing members.

1 and 2, the conventional sealing gasket 10 is interposed between the base 2 constituting the housing 1 and the cover 8, so that the gap between the base 2 and the cover 8 It is a member that seals the furnace so that fluid does not 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. The sealing gasket 10 has a height (HT1) in the direction parallel to the Z-axis and a width (WM1) in the direction orthogonal to the Z-axis, and follows a closed curve on a plane perpendicular to the Z-axis, that is, a plane parallel to the XY plane. It extends and continues.

As shown in Figure 1, the sealing gasket 10 in the state before the cover 8 and the base 2 are coupled has its own height HT1 greater than the depth DG of the gasket mounting groove 4, The virtual cross-sectional center line CL11 connecting the upper end 11 and the lower end 12 of the sealing gasket 10 is parallel to the Z axis. Meanwhile, the cover 8 and the base 2 are in contact with the lower side 9 of the cover 8 and the upper side 3 of the base 2 with the sealing gasket 10 inserted into the gasket mounting groove 10. When) is combined, the sealing gasket 10 is compressed, but the sealing gasket 10 is inclined in the gasket mounting groove 4 as shown by the solid line in FIG. 2.

Incidentally, the cross-sectional center line CL12 connecting the upper end 11 and the lower end 12 is inclined with respect to the Z-axis, so that the lower end 12 of the sealing gasket 10 and its periphery become the gasket mounting groove 4 The other side (7) and the cover (8) are in close contact with the bottom surface (5) and one side (6) defining the gasket, and the upper end (11) of the sealing gasket (10) and its periphery define the gasket mounting groove (4) ) In close contact with the lower side (9).

In this way, 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 cross-sectional center line of the sealing gasket 10 is parallel to the Z axis. Compared to the case where it is compressed in the gasket mounting groove 4 in a state, the elastic adhesion of the sealing gasket 10 that presses the inner surfaces 5, 6, 7, 9 defining the gasket mounting groove 4 is lowered. , As a result, the sealing performance of the sealing gasket 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.

Republic of Korea Patent Publication No. 10-1243598

The present invention provides a sealing gasket in which sealing performance is improved and sealing failure is prevented by being elastically compressed without inclining in the gasket mounting groove.

The present invention is a sealing gasket interposed between a pair of members, formed of a rubber material, and includes an upper end portion elastically adhered to one of the pair of members, and a lower end portion elastically adhered to the other one of the pair of members. And, the cross-sectional shape of the upper part and the cross-sectional shape of the lower part are wave shapes in which peaks and troughs are alternately located, and the number of the floors is one more than the number of valleys. It has a shape, and the width of the upper end and the width of the lower end provide a sealing gasket that is smaller than the width of the middle part positioned between the upper end and the lower end.

A gasket mounting groove in which the sealing gasket is inserted and seated is formed in one member of the pair of members, and a virtual cross-sectional center line connecting the center of the upper end and the center of the lower end in the cross-sectional shape of the sealing gasket Silver, the cross-sectional center line when the pair of members are coupled may not be inclined with respect to the cross-sectional center line before the pair of members are coupled.

In the cross-sectional shape of the sealing gasket, a height between the upper end and the lower end may be greater than a width of the middle part.

The cross-sectional shape of the upper part and the lower part may have a shape having a pair of floors and one valley located between the pair of floors, respectively.

In the sealing gasket of the present invention, the upper end portion and the lower end portion have a wavy cross-sectional shape, and are elastically compressed without inclining in the gasket mounting groove. Accordingly, the sealing performance is improved, and a sealing failure in which fluid leaks between the pair of members in close contact is prevented.

1 is a cross-sectional view of a sealing gasket according to a conventional example, and FIG. 2 is a cross-sectional view illustrating a state in which the sealing gasket of FIG. 1 is interposed between two facing members.
3 is a cross-sectional view of a sealing gasket according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view showing a state in which the sealing gasket of FIG. 3 is interposed between two facing members.

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 according to the intention of a user or operator or customs in the field to which the present invention belongs. Accordingly, definitions of these terms should be made based on the contents throughout the present specification.

3 is a cross-sectional view of a sealing gasket according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view illustrating a state in which the sealing gasket of FIG. 3 is interposed between two facing members. 3 and 4, the sealing gasket 20 of the present invention is interposed between the pair of members 2 and 8 so that the fluid does not leak through the gap between the pair of members 2 and 8. Seal it. The pair of members 2 and 8 may be, for example, the base 2 and the cover 8 constituting the 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 of the bottom surface 5 in the width direction of the upper side ( 3) It is limited by one inner surface 6 and the other side inner surface 7 connected to be bent. 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, and continues. The closed curve of the gasket mounting groove 4 may be a bower belt or a ring. The width (WG) and depth (DG) 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 inserted and seated in the gasket mounting groove 4. The sealing gasket 20 is formed of a rubber material. The sealing gasket 20 is inserted and seated in the gasket mounting groove 4 so that the gasket mounting groove 4 extends in a closed curve along the extended path. The closed curve of the sealing gasket 20 may be, for example, a ring.

The upper end 21 and the lower end 25 of the sealing gasket 20 have a wave shape in which peaks 22 and 26 and troughs 23 and 27 are alternately positioned, respectively. Has. The floor 22 of the upper part 21 refers to a point protruding the highest from the outline of the upper part 21 to the upper side, that is, parallel to the positive (+) direction of the Z axis, and the valley of the upper part 21 (23) denotes a point deeply dug downward from the outline of the upper part 21. The ridge 26 of the lower end 25 refers to the point that most protrudes downward from the outline of the lower end 25, that is, parallel to the negative Z-axis direction, and the valley 27 of the lower end 25 is It refers to a point deeply dug upward from the outline of the lower part 25. For example, the wave shape may be a sine wave.

In the cross-sectional shape of the upper end portion 21 and the lower end portion 25 of the sealing gasket 20, the number of ridges 22 and 26 is one more than the number of valleys 23 and 27, respectively. In the embodiment of Figure 3, the cross-sectional shape of the upper portion 21 and the lower portion 25, respectively, a pair of ridges (22, 26), and one valley located between the pair of ridges (22, 26) ( 23, 27). However, the pair of ridges 22 and 26 and one ridge 23 and 27 are only exemplary, and unlike this, the upper and lower ends of the sealing gasket of the present invention may have three ridges and two ridges. have.

An inner circumferential surface 28 and an outer circumferential surface 29 of the sealing gasket 20 are provided between the upper end 21 and the lower end 25 of the sealing gasket 20. The width WT21 of the upper end 21 and the width WB21 of the lower end 25 are smaller than the width WM21 of the middle part positioned between the upper end 21 and the lower end 25. The width WM21 of the middle portion becomes the maximum width of the sealing gasket 20. The cross-sectional shape of the sealing gasket 20 is both a vertically symmetrical shape and a horizontally symmetrical shape.

As shown in Fig. 3, a state in which the sealing gasket 20 is inserted and seated in the gasket mounting groove 4 and the cover 8 is not coupled to the base 2, that is, the sealing gasket 20 is elastically compressed. In the unused state, the height HT21 between the upper end 21 and the lower end 25 of the sealing gasket 20 is larger than the maximum width WM21 of the sealing gasket 20. The height between the upper part 21 and the lower part 25 becomes the height of the sealing gasket 20.

The height (HT21) of the sealing gasket 20 is greater than the depth (DG) of the gasket mounting groove 4, and the maximum width (WM21) of the sealing gasket 20 is the width (WG) of the gasket mounting groove (4) Less than In addition, a imaginary cross-sectional center line CL2 connecting the center of the upper end 21 and the lower end 25 of the sealing gasket 20 is parallel to the Z axis.

Meanwhile, the cover 8 and the base 2 are in close contact with the lower side 9 of the cover 8 and the upper side 3 of the base 2 with the sealing gasket 20 fitted into the gasket mounting groove 4. ), the upper end 21 of the sealing gasket 20 is in elastic contact with the lower side 9 of the cover 8, and the lower end 25 of the sealing gasket 20 is at the bottom of the gasket mounting groove 4 It elastically adheres to the surface (5). Specifically, the pair of floors 22 of the upper end 21 are in close contact with the lower side 9 of the cover 8, and one valley 23 between the pair of floors 22 is the lower side of the cover ( It does not adhere closely to 9). In addition, a pair of floors 26 of the lower part 25 are in close contact with the bottom surface 5 of the gasket mounting groove 4, and one valley 27 between the pair of floors 26 is the floor surface. It does not adhere to (5).

Accordingly, the cross-sectional shape of the sealing gasket 20 is not inclined before and after the base 2 and the cover 8 are coupled, and maintains a state that is erected parallel to the Z axis. In addition, as shown in FIG. 4, the center and the lower end 25 of the upper end 21 of the sealing gasket 20 in a state in which the cover 8 is in close contact with the base 2 so that the sealing gasket 20 is elastically compressed. The imaginary cross-sectional center line (CL2) connecting the center of the is parallel to the Z axis, like the cross-sectional center line (CL2) in a state where the cover 8 is not in close contact with the base 2 and the sealing gasket 20 is not elastically compressed. Do.

As the sealing gasket 20 is compressed in a direction parallel to the Z axis, the height HT22 of the sealing gasket 20 is reduced compared to the height before elastic compression (HT21) (see FIG. 3), and thus the gasket mounting groove 4 It becomes equal to the height (DG) of In addition, due to the balloon effect of the reduction of the height HT22 of the sealing gasket 20, the maximum width WM22 of the sealing gasket 20 is enlarged compared to the maximum width WM21 (see Fig. 3) before elastic compression, so that the gasket is mounted. It becomes equal to the width WG of the groove 4. That is, the inner circumferential surface 28 and the outer circumferential surface 29 of the sealing gasket 20 are in elastic contact with the inner surface 6 of one side and the inner surface 7 of the other side of the gasket mounting groove 4.

When the sealing gasket 20 according to the embodiment of the present invention described above is interposed between the base 2 and the cover 8 as shown in FIG. 4 and elastically compressed, the cross-sectional center line CL2 is not inclined. . Accordingly, the elastic adhesion force of the upper end 21 to press the cover 8 and the elastic contact force of the lower end 25 to press the base 2 are uniformly and strongly distributed without being reduced or unevenly distributed. Also, the sealing gasket 20 is not twisted at a specific point along its longitudinal direction. Accordingly, the sealing performance is improved, and a sealing failure in which fluid leaks between the pair of members 2 and 8 in close contact is prevented. In addition, when the sealing gasket 20 shown in FIGS. 3 and 4 is elastically compressed, the inner circumferential surface 28 and the outer circumferential surface 29 are one inner surface 6 and the other inner surface 7 of the gasket mounting groove 4 Because it is in close elasticity to, the sealing performance is further improved, and inclination of the sealing gasket 20 is prevented more reliably.

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 other equivalent embodiments are possible therefrom. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

4: gasket mounting groove 20: sealing gasket
21: upper part 22: floor
23: Goal 25: Bottom
26: floor 27: goal

Claims (4)

In the sealing gasket formed of a rubber material interposed between a pair of members,
And an upper end portion elastically in close contact with one of the pair of members, and a lower end portion elastically in close contact with the other one of the pair of members,
The cross-sectional shape of the upper part and the cross-sectional shape of the lower part are wave shapes in which peaks and troughs are alternately located, and the number of floors is one more than the number of valleys. ,
A sealing gasket, characterized in that the width of the upper part and the width of the lower part are smaller than the width of the middle part positioned between the upper part and the lower part. The method of claim 1,
In one member of the pair of members, a gasket mounting groove into which the sealing gasket is inserted and seated is formed,
In the cross-sectional shape of the sealing gasket, the imaginary cross-sectional center line connecting the center of the upper end and the center of the lower end is the cross-sectional center line when the pair of members are coupled to the cross-sectional center line before the pair of members are coupled Sealing gasket, characterized in that not inclined against. The method of claim 2,
A sealing gasket, characterized in that the height between the upper end and the lower end in the cross-sectional shape of the sealing gasket is greater than the width of the middle part. The method of claim 1,
The cross-sectional shape of the upper and lower ends, respectively, has a shape having a pair of floors and one valley located between the pair of floors.

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