KR101885831B1 - Gasket apparatus for self sealing - Google Patents

Abstract

The present invention relates to a gasket type gasket device, which comprises a gasket portion provided between flanges, a support portion provided inwardly of the inner peripheral portion of the gasket portion, and a gasket portion extending outwardly from the inner peripheral portion of the gasket portion, And a sealing portion formed to be bent with respect to the support portion when the flange is brought into contact with the flange. Accordingly, the present invention provides an effect of increasing the close contact area between the flange and the gasket portion and the sealing portion by increasing the tightness between the flange and the flange by the gasket portion and the sealing portion, .

Description

[0001] GASKET APPARATUS FOR SELF SEALING [0002]

The present invention relates to a sealing gasket device, and more particularly, to a sealing gasket device applied to a flange used for connecting a pipe and a pipe.

Generally, when connecting pipes, they are connected using various connection methods using welding, coupling, and flange. Particularly, in the case of the flange connection method, by applying a pressing force through bolts or the like to both directions, the pipe is connected through the contact between the flanges to prevent the outflow of the material flowing in the pipe.

However, due to the nature of the flange made of metal, if the precise manufacture and the precise installation work are not carried out, the leakage of the internal material occurs after the installation. To prevent this, a gasket is used to improve the airtightness between the flanges.

 In general, the gasket is mounted horizontally to the flange direction of the pipe. However, the pressure causing the outflow of the internal material to the pipe acts in the vertical direction of the wall of the pipe, that is, in the lateral direction of the flange, which causes leakage of the internal material, even though the gasket is installed between the flanges of the pipe.

Since the structural characteristics of the flange are weaker than that of the pipe itself, the flange is deformed by external force due to vibration or impact after installation. In this case, the pressure at the flange connection portion becomes uneven, there was.

Particularly, there is a problem that excessive effort is required for the installation and maintenance of the gasket because the fastening force of the bolt is uneven in the whole direction, or when the gasket is installed with eccentricity, leakage or leakage occurs.

Korean Registration Practice No. 20-0436750 (October 01, 2007) Korean Patent No. 10-0996519 (November 24, 2010) Korean Utility Model Publication No. 20-2008-0005671 (November 26, 2008)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sealing type gasket device capable of increasing a sealing area between a flange, a gasket part and a sealing part to improve airtightness between both flanges, And the like.

Another object of the present invention is to provide a sealing gasket device that facilitates bending of a sealing portion when engaging both flanges and facilitates contact between the sealing portion and the flange.

Another object of the present invention is to provide a gasket type gasket device which is capable of increasing the airtightness between both flanges and the gasket portion by flattening the folded seal portion with the gasket portion when the flanges and the gasket portion are in close contact with each other.

Another object of the present invention is to provide a gasket type gasket device capable of maintaining the airtightness by increasing the pressing force between the sealing portion and the flange even when a high pressure is generated inside the pipe.

According to an aspect of the present invention, there is provided a gasket comprising: a gasket part (10) provided between both flanges; A support portion 20 installed inwardly in an inner peripheral portion of the gasket portion 10; And a sealing part 30 installed outwardly from the inner circumferential part of the gasket part 10 and formed to extend from one end of the supporting part 20 and to be bent with respect to the supporting part 20 when the flange is in contact with the flange, .

And a space portion 40 formed between the support portion 20 and the seal portion 30 to provide a space for bending the seal portion 30 when the seal portion 30 is folded.

The sealing portion 30 of the present invention is characterized in that it is composed of a sealing member partially cut out from the gasket portion 10 so as to flatten the sealing portion of the gasket portion 10 at the time of bending.

The sealing member of the present invention is characterized in that it is tightly adhered to both the crimped portion and the inner circumferential portion of both flanges.

As described above, according to the present invention, the close contact area between the flange and the gasket portion and the sealing portion is increased by closely contacting the flange with the gasket portion and the sealing portion, thereby improving airtightness between both flanges, Provides an effect.

Further, by providing the space portion formed between the support portion and the seal portion so as to provide the bending space at the bending of the seal portion, it is possible to facilitate the bending of the seal portion during the engagement of both flanges, thereby facilitating the contact between the seal portion and the flange to provide.

In addition, since the seal portion is partially cut off from the gasket portion so as to be flattened with the close contact portion of the gasket portion at the time of bending of the seal portion, the folded seal portion is flattened with the gasket portion when both the flange and the gasket portion are in close contact, thereby increasing the airtightness between the both flange and the gasket portion And provides an effect that can be achieved.

Further, since the sealing portion is closely attached to the sidewalls of the pressing portions and the inner circumferential portions of the flanges at the time of bending, even when a high pressure is generated in the inside of the pipe, the sealing force between the sealing portion and the flange is increased to maintain airtightness.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a configuration diagram showing a flange engagement state using a sealing gasket device according to an embodiment of the present invention; Fig.
2 is an exploded view showing a disassembled state of a flange using a sealing gasket device according to an embodiment of the present invention;
3 is a schematic view showing a sealing gasket device according to an embodiment of the present invention;
4 is an enlarged view of a gasket type gasket device according to an embodiment of the present invention;
5 to 7 are diagrams showing an operation state of a gasket device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a configuration view showing a state of engagement of a flange using a sealing gasket device according to an embodiment of the present invention, FIG. 2 is an exploded view showing a disassembly state of a flange using a sealing gasket device according to an embodiment of the present invention 4 is an enlarged view of a gasket type gasket device according to an embodiment of the present invention, and Figs. 5 to 7 are enlarged views of the gasket type gasket device according to one embodiment of the present invention. Fig. Fig. 8 is a configuration diagram showing an operating state of a gasket device according to an embodiment; Fig.

1 to 5, the sealing type gasket device according to the present embodiment includes a gasket portion 10, a supporting portion 20, a sealing portion 30, and a space portion 40, Is inserted between the first flange (110) and the second flange (120) and fastened and fixed by the coupling piece (130).

The gasket portion 10 is a gasket provided between the flanges of both the first flange 110 and the second flange 120. The gasket portion 10 is a gasket provided between the first flange 110 and the second flange 120, Or a hermetic member formed in a disc shape.

The gasket portion 10 is inserted between the first pressing portion 111 of the first flange 110 and the pressing portion 121 of the second flange 120 so as to improve the airtightness therebetween.

As the material of the gasket portion 10, it is preferable to use a metal gasket for high-temperature steam or gas, and a non-metallic gasket for low temperature. Especially, PTFE (Expanded Poly Tetra Fluoro Ethylene) It is widely used as a gasket material for preventing leakage between flanges, and it is also possible to use materials having excellent airtightness such as rubber or soft resin.

The support portion 20 is a support member formed inwardly inwardly of the inner peripheral portion of the gasket portion 10 and is disposed upwardly and downwardly around the inner peripheral portion of the gasket portion 10 and is supported on the inner periphery of the gasket portion 10 Thereby forming a wall.

The sealing portion 30 is a sealing member which is formed outwardly on the inner peripheral portion of the gasket portion 10 and is formed to extend on one end of the supporting portion 20 and is bent to be bent with respect to the supporting portion 20 when the flange is in contact with both flanges And a sealing member partially cut out from the gasket portion 10 so as to be flattened with the close contact portion of the gasket portion 10 when the sealing portion 30 is bent.

Such a sealing member is disposed between the first pressed portion 111 and the first inner peripheral portion 112 of the first flange 110 and the second pressed portion 121 and the second inner peripheral portion 122 of the second flange 120, So that the airtightness between them can be improved.

The space portion 40 is a space member formed between the support portion 20 and the seal portion 30 and is a space member between the first compressed portion 111 of the first flange 110 and the second compressed portion of the second flange 120 The sealing portion 30 is provided with a bending space in which the sealing portion 30 is bent when the sealing portion 121 is in close contact with the engagement piece 130. [

The space portion 40 is formed such that the outwardly facing surface thereof is inclined so that the sealing portion 30 is easily bent inward by the first flange 110 and the second flange 120, .

Therefore, when the gasket portion is installed, a slight protrusion is provided on the portion of the gasket portion that enters the inside of the pipe so that the gasket portion can directly correspond to the direction in which the internal pressure is applied. Since the protrusion is triangular- The end portion of the triangular-shaped gasket having the hollow interior due to the pressure applied to the gasket at the front end of the flange is depressed toward the outside of the gasket when the bolt is fastened. At this time, As shown in FIG.

That is, the projecting portion of the gasket closely adhered to the inner wall of the flange moves in the same direction as the pressure in the inside of the pipe, and as the pressure inside the pipe becomes stronger, the protruding portion of the gasket closely contacts the inside of the pipe.

Hereinafter, the operating state of the gasket type gasket device of this embodiment will be described in detail with reference to Figs. 5 to 7. Fig.

The gasket portion 10 is inserted between the first flange 110 and the second flange 120 and the coupling piece 130 is inserted into the coupling hole as shown in FIG. It is preferable that the first inner circumferential portion 112 of the first flange 110 and the second inner circumferential portion 122 of the second flange 120 align with the inner circumferential portion of the gasket portion 10 at the same time.

6, the bolts and nuts of the engaging pieces 130 are fastened and fixed by inserting the gasket portion 10 between the first flange 110 and the second flange 120, The gasket portion 10 is pressed and adhered between the first compressed portion 111 of the first flange 110 and the second compressed portion 121 of the second flange 120.

7, the first squeezed portion 111 and the sidewalls of the first inner circumferential portion 112 of the first flange 110 and the second squeezed portion 121 of the second flange 120 The sealing portion 30 is brought into close contact with the side wall of the second inner circumferential portion 122 so that the sealing portion 30 is bent toward the support portion 20 to reduce the space of the space portion 40 therebetween.

The first and second compression portions between the first flange 110 and the second flange 120 are brought into close contact with each other by the gasket portion 10 and the first and second compression regions between the first flange 110 and the second flange 120 The side walls of the first and second inner circumferential portions are brought into close contact with each other by the sealing portion 30, and the airtightness performance therebetween is improved.

As described above, according to the present invention, the close contact area between the flange and the gasket portion and the sealing portion can be increased by closely contacting the flange with the gasket portion and the sealing portion, thereby improving airtightness between both flanges, Provides an effect.

Further, by providing the space portion formed between the support portion and the seal portion so as to provide the bending space at the bending of the seal portion, it is possible to facilitate the bending of the seal portion during the engagement of both flanges, thereby facilitating the contact between the seal portion and the flange to provide.

In addition, since the seal portion is partially cut off from the gasket portion so as to be flattened with the close contact portion of the gasket portion at the time of bending of the seal portion, the folded seal portion is flattened with the gasket portion when both the flange and the gasket portion are in close contact, thereby increasing the airtightness between the both flange and the gasket portion And provides an effect that can be achieved.

Further, since the sealing portion is closely attached to the sidewalls of the pressing portions and the inner circumferential portions of the flanges at the time of bending, even when a high pressure is generated in the inside of the pipe, the sealing force between the sealing portion and the flange is increased to maintain airtightness.

The present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Therefore, the above embodiments are merely illustrative in all respects and should not be construed as limiting.

10: gasket part 20: support part
30: sealing part 40:

Claims (4)

A gasket portion (10) provided between both flanges;
A support portion 20 installed on an inward surface of the inner peripheral portion of the gasket portion 10 to support contact with the inner peripheral portion of both flanges through which the inner material flows; And
A sealing portion 30 which is formed on the outward surface of the inner circumferential portion of the gasket portion 10 and is formed to extend from one end of the support portion 20 so as to be bent with respect to the support portion 20 when the flange is brought into contact with the flange; Including,
Wherein the sealing portion (30) is tightly adhered both to the pressed portion between the flanges and the inner peripheral portion of both flanges through which the inner material flows. The method according to claim 1,
Further comprising a space (40) formed between the support part (20) and the seal part (30) to provide a bending space when the seal part (30) is folded. The method according to claim 1,
Wherein the sealing portion (30) is made of a sealing member partially cut off from the gasket portion (10) so as to be flattened with a close contact portion of the gasket portion (10) at the time of bending. delete

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