KR101402649B1 - Cloth seal - Google Patents

Abstract

The present invention relates to a cloth seal which can be easily applied to an high-temperature/high-pressure apparatus, such as a gas turbine generating the power, by realizing a structurally stabilized sealing structure with a simple configuration, in addition to preventing the damage in the apparatus and preventing the decrease in efficiency. The cloth seal includes a support plate (31) having a flat plate portion (34) and support portions (35) bent up and down at both sides of the plate portion (34); and an upper sealer (32) and a lower sealer (33) of a panel or bar shape which are respectively coupled to the upper surface and the lower surface of the support plate (31). The upper sealer (32) and the lower sealer (33) are pressed by a knit member (36) made by knitting a wire to form a closed loop with no joint or cut portion when seen from a cross section.

Description

Cloth seal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cloth seal, and more particularly, to a cloth seal capable of realizing a structurally stable sealing structure by a simple structure.

Generally, in an apparatus in which a gaseous fuel is burned at a high temperature and a high pressure, such as a gas turbine for electric power generation, a sealing member made of a metal or a fiber material having excellent heat resistance is used so that it is not melted or deformed due to high temperature. A conventional cloth seal will be described with reference to the drawings.

As shown in FIG. 1, a sealing member 12 is formed on both sides of a support plate 11 to define a predetermined thickness. The support plate 11 has a flat surface And the support member 14 is formed at both ends of the plate member 13 so as to protrude upward and downward. The sealing member 12 has a plurality of mesh members 15 forming a certain area, , And the mesh member 15 is formed by weaving a wire made of steel.

However, such a cloth seal 10 has a cut surface 16 at its edge portion as it is cut into a certain area in order to form the sealing member 12 by the mesh member 15, The pressing force of the cut surface 16 is not strong due to the less pressing force of the edge portion of the mesh member 15 as compared with the center portion, so that the end of the cut wire occurs over time.

Therefore, when the conventional cloth seal 10 is used in a device such as a gas turbine for power generation where a high temperature and a high pressure are generated therein, the end of the wire is put into a flame which is burned at a high temperature and a high pressure inside the turbine There is a disadvantage that it may cause a failure of the device or reduce the efficiency of the device.

2, a single mesh member 15 is coupled to the upper surface and the lower surface of the support plate 11, respectively, and a cut surface (not shown) of the mesh member 15 The cutting face 16 is partially exposed at the longitudinal end portion of the cloth seal 10 so that the wire 16 is folded in a state where the wire 16 is folded to cover the support plate 11. In this case, The ending of the end is not completely solved.

Conventionally, the support portion 14 is formed integrally with the plate portion 13 in order to support both sides of the sealing member 12. The conventional support portion 14 is protruded to be positioned below the plate portion 13 And an upper bent portion 18 that is bent upward from the lower bent portion 17 and horizontally extended in a state of being separated from the plate portion 13 is formed.

However, such a conventional support plate 11 can easily support both sides of the sealing member 12 corresponding to the lower bent portion 17, but in the case of the upper bent portion 18 Even in the case of the sealing member 12 coupled to the plate portion 13 by spot welding or the like due to the formation of the gap 19 corresponding to both sides of the sealing member 12 separated from the plate portion 13, There is a disadvantage that the sealing member 12 may be partly separated from the plate portion 13 and pushed into the gap 19 depending on the environment (such as when a high temperature or high pressure is generated or an excessive pressure acts) It is.

Korean Registered Patent Publication (No. 10-0815428) 2008. 03. 14.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a gas turbine for electric power generation, And it is an object of the present invention to provide a cloth seal which can prevent damage to the apparatus and deterioration of efficiency.

According to a feature of the present invention, a support plate 31 composed of a plate portion 34 formed flat and a support portion 35 bent upward and downward on both sides of the plate portion 34;

And an upper seal 32 and a lower seal 33 in the form of a panel or a bar, respectively, coupled to the upper and lower surfaces of the support plate 31;

The upper sealer 32 and the lower sealer 33 are press-contacted with a knitting member 36 made by weaving wires so as to form a closed loop shape without a joint or a cut portion in a cross-sectional shape.

According to another aspect of the present invention, the support portion 35 includes an upper support wall 37 extended to support both side surfaces of the upper sealer 32, and a lower support wall 37 extending to support both side surfaces of the lower sealer 33. [ (38). ≪ / RTI >

As described above, according to the present invention, by forming the upper seal 32 and the lower seal 33 by the closed loop type knitted member 36, the cross-sectional shape of the upper seal 32 and the lower seal 33 It is possible to prevent the ends of the wire from being loosened or cut even when used in an apparatus in which high temperature and high pressure are applied due to no joint or cut portion formed therein, have.

The upper support wall 37 and the lower support wall 38 are formed on both sides of the support plate 31 to support both side surfaces of the upper seal 32 and the lower seal 33, The coupling force between the upper sealer 32 and the lower sealer 33 is reduced on the support plate 31 according to the environment, thereby preventing the squeezing or swinging of the upper sealer 32 and the lower sealer 33, thereby firmly supporting the correct position.

1 is a cross-sectional view of a conventional example
2 is a cross-sectional view showing another conventional example
3 is a perspective view showing an embodiment of the present invention.
4 is a cross-sectional view according to one embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, description will be made with reference to the accompanying drawings.

3 and 4 show a preferred embodiment of the present invention. As shown in FIGS. 3 and 4, the cloth seal 30 of the present invention is formed in a bar shape whose overall shape is shorter in the width direction with respect to the longitudinal direction. The upper and lower surfaces of the support plate 31 The upper sealer 32 and the lower sealer 33, which form a certain thickness, are combined.

The support plate 31 includes a plate portion 34 formed to be flat and having a predetermined length and width and a support portion 35 extending vertically and bent at both sides of the plate portion 34 so as to be integrally formed It is made of steel.

The upper sealer 32 and the lower sealer 33 are formed by pressing a knitted member 36 made of a steel wire to form a panel or a bar and joining the plate 34 to the plate 34 by spot welding or the like, The knitting member 36 is formed by knitting a wire by knitting or the like so as to form a closed loop shape in which a joint or a cut portion is not formed in a cross sectional shape. The knitting member 36 is press- The upper and lower seals 32 and 33 are formed in a bar or panel shape corresponding to the sectional area of the support 35 and forming a thickness corresponding to the height of the upper or lower portion of the support 35, Respectively.

The support portion 35 of the support plate 31 is integrally bent on the plate portion 34 and is preferably downwardly bent so as to support both side surfaces of the lower sealer 33, And is bent downward from the upper side of the plate portion 34 so as to support both side surfaces of the upper sealer 32 at the end portions thereof.

The supporting portion 35 includes upper support walls 37 extending in the longitudinal direction on both sides of the upper portion of the plate portion 34 so as to correspond to the width of the upper sealer 32, 34 extending in the longitudinal direction on both sides of the lower portion of the bottom wall 38. [

According to the present invention, since the upper seal 32 and the lower seal 33 are fabricated by the closed loop type knitting member 36, the seam and the cut portion 33 are formed on the end faces of the upper seal 32 and the lower seal 33, It is possible to prevent the end of the wire of the knitting member 36 from being loosened or a part of the end of the wire to be cut and inserted into the apparatus in a device in which a high temperature and high pressure such as a gas turbine acts as in the prior art.

The upper support wall 37 and the lower support wall 38 are formed on both sides of the support plate 31 so that the upper seal wall 32 and the lower seal wall 32 can be separated by the upper support wall 37 and the lower wall support wall 38, This is because the coupling force of the plate portion 34 of the support plate 31 is lowered depending on the environment of use or use for a long period of time so that the upper and lower sealers 32, 33 or the like and prevents a swinging phenomenon from occurring, so that it is possible to firmly support the correct position.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (2)

A support plate 31 composed of a plate portion 34 formed flat and a support portion 35 bent upward and downward on both sides of the plate portion 34;
An upper seal 32 formed in a panel or bar shape by flatly pressing the knitted member 36 without a joint or a cut portion by knitting a wire into a sleeve shape so as to be coupled to the upper surface and the lower surface of the support plate 31, And a lower sealer (33);
The supporting part 35 includes an upper support wall 37 extended to support both side surfaces of the upper seal 32 and a lower wall 38 extending to support both side surfaces of the lower seal 33. Closse seals. delete

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