KR101518838B1 - Conductive gasket for pipeline and lining checking method using the same - Google Patents

Abstract

The present invention relates to a gasket installed in a connecting part of a pipeline to convey fluids such as various chemicals for giving tightness to the connecting part between the pipes (10), and more specifically, to a gasket which is shaped by mixing fine levigated carbon black to a fluororesin-based synthetic resin such as PTFE (PolyTetra Fluoro Ethylene) or PFA (PerFluoroAlkoxy), etc. to shape a ring (21) equipped with a through-hole (22) and a protrusion (25) at the center part and a peripheral part respectively, configured to check damage to a lining (15) by installing the gasket in a connection part of the pipes (10) on an inner circumferential surface or a connecting part on which the lining (15) is laminated and through a measurement of insulation resistance by connecting a megger (45) to the gasket and the pipes (10). Through the present invention, conductivity can be given to the gasket in a state that original function of the gasket for piping is maintained to the maximum, and by adopting such a gasket according to the present invention, in ordinary times, risk factor such as static electricity, etc. which can occur according to the operation of metal piping can be reduced by connecting a ground wire (35) and when checking the piping, damage to the lining (35) can be checked quickly, simply and correctly.

Description

TECHNICAL FIELD [0001] The present invention relates to a gasket for a pipe, and a method of checking a lining using the gasket.

The present invention relates to a gasket which is provided at a connection portion of a pipe for feeding a fluid such as various chemical agents and gives airtightness to a connection portion between the pipes 10. The gasket has a through hole 22 And the projecting portion 25 are formed by mixing carbon powder of fine powder form with a fluororesin synthetic resin such as PTFE (PolyTetra Fluoro Ethylene) or PFA (Perfluoro Alkoxy) The gasket is attached to the joining portion of the tube 10 having the lining 15 laminated on the inner circumferential surface and the joining surface and the megger 45 is connected to the gasket and the tube 10 to provide an insulation resistance Thereby measuring whether the lining 15 is damaged or not.

A fluid treatment facility such as a chemical medicine handling facility or the like is essentially constituted by piping for feeding fluid, and this piping is constructed by connecting a plurality of unit tubes 10.

A flange 11 as an enlarged plate is formed at the end of the tubular body 10 and a tubular body 10 is connected to the tubular body 10 by fastening the bolts 19 between the flanges 11 A gasket serving as a flexible ring 21 is inserted between the flanges 11 of the tubular bodies 10 to be connected to secure the airtightness of the connection portion. 1159146.

Conventional piping gaskets including the patent No. 1159146 have been focused on securing the elasticity and durability of the gasket and have a limitation in that they can not have separate functions other than the function of securing the airtightness of the piping connection portion.

Accordingly, in the present invention, a gasket, which is basically an insulator, is imparted to the gasket due to elasticity of the material such as rubber or synthetic resin, and the protrusion 25 protruding outside the pipe connection portion is formed in the gasket, The grounding line 35 is connected to the pipe 25 so as to reduce the risk of static electricity or the like which may be generated by the flow of the fluid in the pipe. When the piping is inspected, the protrusion 25 and the megger 45 ) To measure the insulation resistance between the gasket of the present invention and the piping, which is isolated by the inner coating lining 15, so that the damage of the lining 15 can be checked.

The conductive gasket is installed in a case junction portion or an internal circuit mounting portion of various electrical and electronic products. Such a conventional conductive gasket is made of a metal mesh or the like embedded in rubber or synthetic resin, The gasket is installed mainly for the purpose of electromagnetic shielding, and has a fundamental difference in characteristics and function from the gasket for piping.

Such a conductive gasket is formed by embedding a metal wire such as a mesh in the gasket. Since the inherent elasticity of the rubber or synthetic resin material is severely damaged, it can not exhibit the desired airtightness when applied in a pipe, There is a serious problem that the conventional conductive gasket can not be used for piping because the metallic wire embedded by the fluid in the pipe is corroded and the function of the gasket is lost early.

SUMMARY OF THE INVENTION The present invention has been developed in view of the above-described problems, and it is an object of the present invention to provide an annular gasket provided at a connecting portion between tubes 10 constituting a piping, wherein the gasket comprises a flange 21 having a through- And a protrusion 25 protruding outward is formed in the annulus 21. The end of the protrusion 25 is exposed to the outside of the connection part between the tubes 10 and the annulus 21 is made of fluororesin synthetic resin and fine powder Wherein a plurality of through holes 23 are drilled in the annular groove 21 of the gasket and an outer diameter of the through hole 23 is formed in the through hole 23, And a bolt 19 which is fastened to the connecting portion between the tubes 10 is inserted into the insulating ring 27 so that the gap between the gasket and the bolt 19 And the electrically insulated state is maintained.

In the method for inspecting the lining 15 using the gasket for piping, the lining 15 of an insulating material is coated on the inside of the tubular body 10 and the surface of the joint portion, and the protrusions 25, A megger 45 is connected to the tubular body 10 to measure the insulation resistance between the body 21 and the tubular body 10 electrically insulated by the insulating lining 15 to determine whether the lining 15 is damaged And inspecting the lining using the gasket for piping.

By applying the gasket of the present invention to the pipe connecting portion, the gasket is normally connected to the gasket by the grounding line 35 ), Thereby reducing the risk of static electricity or the like which may be generated due to the operation of the metal piping. When the piping is inspected, the insulation resistance between the gasket and the piping body 10 is measured, It is possible to quickly, easily, and accurately detect whether or not the damper 15 is damaged.

Particularly, in imparting conductivity to gaskets that are basically non-conductive, the conventional technique of embedding metal wire or the like is dispensed with, and carbon black in the form of fine powder is mixed to form the gasket, thereby ensuring the maximum elasticity, corrosion resistance and durability of the gasket It is possible to exhibit excellent conductivity.

In addition, since insulation resistance measurement of the lining 15 using the gasket of the present invention can be easily carried out even in a normal operating state of the pipeline, unlike conventional visual inspection or hydraulic test, piping closure due to piping inspection and operation It is unnecessary to stop the operation, and thus the maintenance convenience can be improved remarkably.

1 is a perspective view of a piping connection portion in which a gasket of the present invention is installed;
2 is a partial cutaway exploded perspective view of a piping connection portion provided with the gasket of the present invention.
3 is a view for explaining a lining checking method according to the present invention
Figure 4 is a representative cross-sectional view of the use state of the present invention
5 is an exploded perspective view of an embodiment of a gasket according to the present invention,

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A detailed configuration and an operation method of the present invention will be described with reference to the accompanying drawings.

First, FIG. 1 shows an external view of a pipe connecting portion provided with a gasket of the present invention. As shown in FIG. 1, the gasket of the present invention is installed in the connecting portion between the tubes 10 constituting the pipe in the same manner as a conventional gasket.

2, which is an exploded perspective view of the gasket of the present invention and the pipe body 10, the gasket of the present invention is a ring-shaped gasket which is provided at the connecting portion between the tubes 10 constituting the piping, A protrusion 25 protruding outward is formed on the outer circumference of the annular body 21 and a distal end of the protrusion 25 is connected to a tube body 10) to the outside of the connection part.

2 shows a state in which the gasket of the present invention is applied to the connecting portion between the tubes 10 of the bolt 19 fastening flange 11 bonding method. As shown in the figure, the flange 11 A plurality of bolt fasteners are drilled to fasten the flanges 11 of the both side tubes 10 to each other. The flanges 11 of the gasket of the present invention also have the same number, the same number of The through hole 23 is pierced and the bolt 19 inserted into the fastening hole of the flange 11 of the one side tube 10 passes through the through hole 23 in the inside of the flange 11, (11).

In the gasket ring 21 of the present invention, the fluororesin-based synthetic resin and the powdery carbon black are mixed and molded so that the conductivity of the gasket can be maintained while maintaining the elasticity of the gasket.

As the fluororesin-based synthetic resin for molding the present invention ring 21, it is preferable to use PTFE (PolyTetra Fluoro Ethylene) or PFA (PerfluoroAlkoxy) having corrosion resistance, chemical resistance and moldability.

The protrusions 25 formed on the gasket ring 21 of the present invention are exposed to the outside of the connecting portion between the tubes 10, that is, the flange 11 as described above. Normally, the protrusions 25, 35, it is possible to eliminate a dangerous factor such as static electricity which may be generated in accordance with the conveyance of the fluid in the piping, thereby obtaining a considerable advantage in ensuring safety in piping operation of the flammable or volatile fluid.

In particular, unlike the conventional method of directly grounding the metal tube 10, the grounding of the gasket of the present invention is advantageous in that the conductive gasket electrically isolated from the tubular body 10 but electrically connected to the inner fluid is independently grounded, It is possible to secure safety and the effect can be doubled if the grounding of the metallic tube 10 and the grounding of the projection 25 of the present invention gasket ring 21 are applied together.

The conductive gasket of the present invention can be utilized not only for the grounding function of the pipe during normal operation but also for the inspection of the lining 15 coated on the inside of the pipe body 10 and the surface of the joint portion at the time of piping inspection performed periodically .

A conventional industrial piping is constructed with a lining 15 made of synthetic resin covering a joint portion such as an inner circumferential surface of a tubular body 10 constituting a piping and a surface of a flange 11 for the purpose of corrosion protection. Damage to the lining 15 due to rupture or peeling may occur during long-term use of the lining 15 or during internal or external impact.

Damage to the lining 15 may severely impair the durability of the pipe 10, as well as the life and function of the entire piping system. Therefore, the presence or absence of the lining 15 is inspected periodically, (15) The inspection method is to disassemble the inspection target pipe, disassemble it, and visually inspect it, or to perform hydraulic test, etc. This not only involves the shutdown of the whole piping, So that it has a problem in that it is costly and time consuming.

3 and 4, when inspecting the piping tube 10 having the insulating material lining 15 coated on the inside of the tube 10 and the surface of the joint, The insulation resistance between the flange 21 and the tubular body 10 is measured by electrically connecting the tubular body 25 and the tubular body 10 with a megger 45 which is an insulation resistance measuring device, So that the damage of the lining 15 can be easily grasped.

That is, when the lining 15 is damaged and the fluid in the tubular body 10 leaks through the damaged portion of the lining 15, the electrical resistance which is formed between the inside and the outside of the tubular body 10 by the boundary of the lining 15 is reduced So that it is detected that the lining 15 is damaged.

The inspection of the utilization lining 15 of the present invention of the present invention is advantageous in that it can be performed easily and quickly even in the normal operation state of the piping without shutting down the piping and shutting down the operation of the related facilities in the inspection process.

The insulation resistance between the flange 21 and the tubular body 10 is measured at the time of initial construction of the pipeline, that is, in the state where no damage or defects are generated in the lining 15 in the tubular body 10, , And if the measured insulation resistance is lower than the reference value or when an excessive error occurs in the measured insulation resistance during the periodic insulation resistance measurement, it is judged that the insulation damage is a damage to the lining 15, so that even minute damage of the lining 15 can be detected And thus the reliability of the lining 15 inspection can be improved.

3, the connection between the mugger 45 and the gasket annulus 21 and the tube 10 in the inspection of the lining 15 through the test of the gasket 45 of the gasket application pipe of the present invention, And the other terminal is connected to the protruding tip 17 formed on the tube body 10 in such a manner that the protruding tip 17 is connected to the protruding portion 25 of the tube 10) It is composed of a metal rod which is attached by welding or the like in advance so as to enable easy connection.

5 shows a state in which a flange 11 of a gasket according to the present invention in which a plurality of through holes 23 are drilled is provided between the flange 11 and the bolt 19 and the flange 21 fastened to the flange 11, Since the gasket and the tubular body 10 can be electrically connected to each other when the through holes 23 of the through hole 23 are in contact with each other, the insulating ring 27 is formed inside the through hole 23, It is possible to ensure the insulation between the annulus 21 and the bolt 19 without excessively exposing the through hole 23 to separate the inner circumferential surface of the through hole 23 from the outer circumferential surface of the bolt 19. [

That is, in the embodiment of the insulating ring 27 of the present invention, as shown in Fig. 5, the through hole 23 of the annular insulating ring 23 having an outer diameter coinciding with the inner diameter of the through hole 23 And the bolts 19 fastened to the connecting portions between the tubes 10 are inserted into the insulating ring 27 so that the electrical insulation between the gasket and the bolts 19 can be maintained.

The insulating ring 27 may be formed separately from the annulus 21 and then inserted into the through hole 23. Alternatively, when the annulus 21 is formed by an injection molding method using a metal mold, 27 may be pre-inserted and then a synthetic resin may be injected to be molded so as to be embedded at the same time as the molding of the annulus 21 is performed.

10: Tubular body
11: Flange
15: lining
17: Extrusion tip
19: Bolt
21: Flange
22:
23: Through hole
25:
27: Insulation ring
35: Ground wire
45: Mage

Claims (3)

An annular gasket installed at a connecting portion between tubes (10) constituting a pipe,
The gasket is constituted by a fulcrum (21) formed with a through hole (22) at its center portion;
A protrusion 25 protruding outward is formed in the annulus 21 and the distal end of the protrusion 25 is exposed outside the connection part between the tubes 10;
Wherein the annulus (21) is formed by mixing a fluororesin-based synthetic resin and a fine powder carbon black.
A plurality of through holes 23 are drilled in the annular gasket ring 21 and an annular insulating ring 27 having an outer diameter coinciding with the inner diameter of the through hole 23 is formed in the through hole 23. [ And the bolts 19 fastened to the connecting portions between the tubes 10 are inserted into the insulating ring 27 so that the gasket and the bolts 19 are electrically insulated from each other. .
A method of inspecting a lining (15) using the gasket for piping according to claim 1 or 2,
The inside of the tube (10) and the surface of the joint are covered with a lining (15) of insulating material;
Connecting a megger 45 to the tubular body 10 with the projection 25 of the annulus 21;
The lining 15 is inspected for damage by measuring the insulation resistance between the body 21 and the tubular body 10 due to the insulating lining 15. The lining inspection method using the gasket for piping .

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