KR101506189B1 - An insulated gasket for high temperature and pressure having sealing pad - Google Patents

Abstract

The present invention relates to a high-temperature and high-pressure insulation gasket with a sealing sheet, which comprises: a stainless disc having glass reinforced epoxy (GRE)-made insulation support plates attached to both surfaces thereof; a primary sealing member with a polytetrafluoroethylene (PTEF)-made shell having a reinforced spring mounted therein; and a secondary sealing member with a metal disc processed concentrically and having a mica sheet as a high-temperature inorganic sheet. The high-temperature and high-pressure insulation gasket according to the present invention is capable of preventing a secondary damage due to the loss of a fluid in case of fire by having the primary sealing member, and is capable of having a sealing performance and an insulating performance at a high temperature by having the secondary sealing member to complement weakness that the sealing performance of the primary sealing member is deteriorated by thermal deformation caused in the primary sealing member by the high temperature, thereby widely applying the high-temperature and high-pressure insulation gasket to various fields such as a valve bonnet, a tube flange, a heat exchanger or a pressure vessel.

Description

[0001] The present invention relates to an insulating gasket for a high-temperature and high-pressure high-pressure gasket,

The present invention relates to an insulating gasket for high-temperature and high-pressure mounting with a sealing sheet, and more particularly to a gasket comprising a stainless steel base plate having an insulating support plate of GRE (Glass Reinforced Epox) material attached on both sides thereof, a shell of PTFE (Polytetrafluoroethylene) And a secondary sealing member having a mica sheet as a high-temperature inorganic material sheet on a metal plate processed in a concentric manner, which is excellent in sealing performance and insulation performance at high temperatures To a sealing sheet-mounted high-temperature high-pressure insulating gasket.

Generally, a gasket is interposed between two stationary pipes to block the leakage of the fluid to the gap between the pipes. The gasket is interposed between two connecting parts where a fluid such as a valve or a pipe is transported, And has a sealing function for preventing foreign matter from entering from the outside.

The gasket having the above-described structure is assembled between flanges for connecting a valve or a pipe, compresses the volume of the gasket by a compressive force applied in the axial direction, and functions to cut off the flanges from the outside. At this time, Or pipes and the like, and is brought into contact with the outside air, and is accompanied by thermal deformation due to heat shrinkage or thermal expansion due to a considerable temperature difference between the temperature of the fluid and the outside air. The gasket is provided with a high temperature High pressure and over-tightening pressure of the flange cause various deformations and damages, resulting in deterioration of the sealability.

In order to solve the above problems, the present applicant has developed a high-temperature high-pressure insulating gasket having a structure as disclosed in Patent Document 1 and applied for a patent. The insulating gasket for high- A metal planar outer ring 30 configured to center and maintain a shape of a gasket and a concentric circle as shown in the figure, and an outer race 30 formed integrally on the inner side of the metal plane outer ring 30, A second metal serrated body 21 having serrated irregularities formed so as to respectively form a rounded convex surface, and an upper and lower inorganic laminated body 21 made of mica and bonded to the upper and lower surfaces of the second metal serrated body 21, Sheet 10, 11, and more particularly to a gasket for high-temperature and high-pressure insulation which is formed of sheets 10, 11, There is a risk that the sealing circle will break.

2 and 3 in Patent Document 2, there is provided a sealing apparatus for use between a connecting portion of a fluid pipe functioning as a fluid passage, comprising: a sealing member having opposing surfaces and having an opening for allowing a fluid to pass therethrough; A dielectric material layer disposed on at least one surface of said opposite surfaces; an inner groove and an outer groove formed on at least one surface of said opposite surfaces, at least one of which penetrates said dielectric material layer, Which are completely enclosed about the opening and are used between the connection of the fluid pipe including the primary seal member disposed in the inner groove and the secondary seal member disposed within the outer groove and the compression limiter However, when a high temperature is applied, a thermal change of the metal part There is a risk that the sealing circle due to the expansion caused by the expansion may be damaged.

Patent Document 1: Korean Patent Laid-Open Publication No. 10-2013-0067176 (insulating gasket for high temperature and high pressure) Patent Document 2: U.S. Published Patent Application No. 2011/0266755 (Insulation Gasket, System, and Manufacturing Method)

Disclosure of the Invention The present invention has been conceived in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a stainless steel substrate having a glass reinforced Epox (GRE) insulating support plate on both sides thereof and a stainless steel shell having a polytetrafluoroethylene A primary sealing member having a spring-loaded structure and a secondary sealing member having a metal sheet, which is a high-temperature inorganic sheet, attached to a metal substrate processed in a concentric manner, and having excellent sealing performance and insulation performance at high temperatures It is an object of the present invention to provide a high-temperature and high-pressure insulating gasket for mounting a sealing sheet.

According to an aspect of the present invention, there is provided a plasma display panel comprising: a planar annular metal plate having an opening; And an insulating support plate of an organic / inorganic composite material attached to both side surfaces of the planar annular metal plate, wherein an inner groove and an outer groove are respectively formed on both side surfaces of the planar annular metal plate to which the insulating support plate is attached, A primary sealing member disposed; And a secondary sealing member disposed in the outer groove, are provided in the sealing gasket, respectively.

In addition, the organic / inorganic composite material is a GRE (Glass Reinforced Epoxy) material, and the primary sealing member has a structure in which a reinforcing spring is mounted inside a shell of a PTFE material, A structure in which a camp profile sealing member is disposed on an inner surface and an inorganic material sheet is attached to an outer surface of the cam profile sealing member. The inorganic material sheet can be used up to a temperature of 1000 ° C Mica sheet of mica filler material. The above-mentioned cam profile sealing member is a high-temperature metal material, specifically, Stainless Steel 347, Inconel 825, and the like. The cam profile sealing member is characterized in that a serrated irregular surface having mountains and valleys on its surface in contact with the sheet of inorganic filler (STARPITE Filler) is provided.

According to the present invention configured as described above, the present invention is characterized in that a stainless steel base plate having an insulating support plate of GRE (Glass Reinforced Epox) material attached on both surfaces thereof, a primary sealing member of a structure in which a reinforcement spring is mounted inside a PTFE shell, This is a high-temperature, high-pressure insulation gasket with a secondary seal member structure with a mica sheet, which is a high-temperature inorganic material sheet, on a metal plate processed into a phase, and a secondary seal member In order to prevent damage and to compensate for the disadvantages of sealing failure due to thermal deformation of the primary sealing member due to high temperature, a secondary sealing member with a mica sheet, which is a high temperature inorganic sheet, is attached to a concentric metal plate Because it has sealing performance and insulation performance at high temperature, it can be widely applied to various fields such as valve bonnet, flange flange, heat exchanger or pressure vessel. There are advantages.

1 is a cross-sectional view showing a part of a conventional insulating gasket for high-temperature and high-
2 is a perspective view showing another conventional insulating gasket for high temperature and high pressure,
3 is a cross-sectional view showing the entire surface of the insulating gasket for high temperature and high pressure of FIG. 2,
Fig. 4 is an enlarged cross-sectional view of primary and secondary sealing members disposed in the high-temperature high-pressure insulating gasket groove of Fig. 3; Fig.
5 is a cross-sectional view showing an entire surface of a high-temperature high-pressure insulating gasket according to the present invention,
Fig. 6 is a cross-sectional view showing a state before the sealing member is disposed in the inner groove and the outer groove in part A of Fig. 5;
7 is a cross-sectional view showing a state in which a sealing member is disposed in an inner groove and an outer groove in part A of FIG. 5;

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

The present invention relates to a sealing sheet-mounted high-temperature high-pressure insulating gasket which can be used for a part requiring insulation in a line where a high-pressure fluid is used, and is mounted in a section where a flange of different material is connected to prevent electrical corrosion. Glass Reinforced Epoxy) It is possible to seal even at low sealing pressure by attaching the primary sealing member of PTFE shell with reinforcement spring inside the material. Especially when fire occurs, A secondary sealing member capable of maintaining the sealing property by the exposure is further supplemented.

Hereinafter, the present invention will be described more specifically with reference to the accompanying drawings.

5 and 6, according to one embodiment of the present invention, the planar annular metal plate 20 having the opening 10 formed thereon and the oil- And an insulating support plate 30 of an inorganic composite material.

At this time, the flat annular metal plate 20 is configured to center and maintain the shape of the gasket and the concentric circle as shown in FIG. 5, and supports the gasket for use at high pressure (Max ASME Class 2500) It plays a role.

The insulating support plate 30 of the organic / inorganic composite material attached to both side surfaces of the planar annular metal plate 20 is made of GRE (Glass Reinforced Epoxy) material, so that it has a high insulation property and can prevent leakage due to excessive tightening pressure And acts to prevent interference and deformation by external fluids or inflows.

The GRE (Glass Reinforced Epoxy) material used in the present invention is preferably a material of LI-1 G10 or G11 of NEMA (National Electrical Manufacturers Association) You can choose to use the appropriate GRE (Glass Reinforced Epoxy) material as needed.

Further, the insulating support plate 30 is positioned between the planar annular metal plate and the flange, and completely serves to complement the incomplete contact surface between the planar annular metal plate 20 and the flange during a sealing stress of the flange (not shown) And is configured to block the contact damage of the flange by the insulating support plate 30 when the metal hardness of the flange is smaller than the hardness of the metal of the planar annular metal plate 20 and the overheating stress.

The planar annular metal plate to which the insulating support plate 30 is attached forms inner grooves 40 and outer grooves 50 on both sides for disposing the sealing members as shown in FIGS. 5 to 7, respectively.

6 is a cross-sectional view showing a state before the sealing member is disposed in the inner groove and the outer groove in the portion A of Fig. 5, and Fig. 7 is a cross-sectional view of the sealing member in the inner groove and the outer groove in the portion A in Fig. Fig.

The inner groove 40 is formed at a position where the inner insulating support plate 31 is located and the primary seal member disposed in the inner groove 40 is provided with a reinforcing spring 62 inside a PTFE shell 61. [ .

The primary sealing member minimizes the deformation due to the cold flow phenomenon of the existing PTFE product by installing the reinforcing spring ring inside the shell of the PTFE (Polytetrafluoroethylene) material, Stable sealing is possible even when changing the sealing pressure due to the loosening of the bolt or the bolt.

The outer grooves 50 are formed between the inner insulative support plate 31 and the outer insulative support plate 32 and the secondary seal members disposed in the outer grooves 50 are formed by sealing Sealing The secondary sealing means is a secondary sealing means for compensating for the performance failure. The structure is such that a sealing member of a cam profile 71 is disposed on the inner surface of the outer groove 50, and the cam profile 71) A structure in which the high-temperature inorganic sheet 72 is attached to the outer surface of the sealing member.

Therefore, the portion subjected to serration by the structure of the secondary sealing portion allows the bolt load to be concentrated on a narrow area for tight sealing even at a low sealing stress, It has high resistance against breakage of the body during cold flow and clamping pressure, and it is also robust to provide stability even during installation and handling of a large size. Especially, The material sheet 72 functions to secure the sealing stability and insulation at high temperature by applying a mica sheet manufactured using a mica filler which can be used up to a temperature of 1000 캜.

In addition, it is preferable that the sealing member of the cam profile (71) is selected from stainless steel 347 or Inconel 825 as a high-temperature metal material. The inorganic material sheet 72, which is in contact with the inorganic sheet 72, is formed in the shape of a sawtooth-shaped concavo-convex surface having mountains and valleys formed thereon. Even in low seating stress of the flange which fastens the valve or pipe, the load of the fastening bolt can be concentrated on the mountain part of the tooth to realize perfect sealing.

Therefore, the insulating gasket for high-temperature and high-pressure according to the present invention has a function of complementing the clearance due to rapid thermal deformation such as thermal shrinkage or thermal expansion due to abrupt thermal change, It has the advantage that the durability against over seating stress or heat deformation is remarkably improved, and it is featured that it can be manufactured and installed in a large size.

7, the reinforcing spring insertion hole 63 is an insertion hole formed for inserting the reinforcing spring 62 into the shell 61 of the PTFE material.

Although the sealing gasket for high temperature and high pressure according to the present invention has been described above as described above, it is merely an example of the present invention, and various changes and modifications can be made without departing from the technical idea of the present invention. To be understood by one of ordinary skill in the art.

10: opening 20: flat annular metal plate
30: Insulation support plate
31: inner insulation supporting plate 32: outer insulation supporting plate
40: inner groove 50: outer groove
61: shell of PTFE material 62: reinforcing spring
63: Reinforcement spring insertion hole
71: cam profile 72: inorganic material sheet

Claims (7)

A flat annular metal plate on which an opening is formed;
And an insulating support plate of GRE (Glass Reinforced Epoxy) material, which is an inorganic or organic composite material attached to both side surfaces of the planar annular metal plate,
Wherein the planar annular metal plate having the insulating support plate is formed with inner grooves and outer grooves on both sides thereof,
A primary sealing member disposed in the inner groove;
And a secondary sealing member disposed in the outer groove,
The primary sealing member It is a structure with reinforcing spring inside the PTFE shell.
Wherein the secondary sealing member has a structure in which a cam profile sealing member is disposed on the inner surface of the outer groove and a mica sheet of inorganic material is attached to the outer surface of the cam profile sealing member Sealing gasket for high temperature and high pressure.
delete delete delete delete The method according to claim 1,
Wherein said cam profile sealing member is selected from Stainless Steel 347 or Inconel 825 as a metal material.
The method according to claim 6,
Wherein said cam profile sealing member is provided with a serrated irregular surface having mountains and valleys on its surface in contact with the mica sheet which is an inorganic material sheet.

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