KR100980390B1 - Gas Insulation switchgear - Google Patents

Abstract

The present invention provides a new type of gas insulation that allows convenient installation and maintains a stable installation state while preventing conductive foreign matter from being discharged into the enclosure through a portion for filling gas into the hollow center conductor constituting the gas insulated switchgear. It relates to a structure for gas filling for switchgear.

To this end, the present invention is a closed container formed with a gas inlet for gas injection; A center conductor formed of a hollow tube body, the center conductor having a gas communication hole communicating with an inner space of the sealed container while being fixedly installed along a central portion of the sealed container in an insulated state by a spacer; A filter module positioned to intersect a portion of the center conductor in which the gas communication hole is formed, and is installed so as not to protrude toward an outer circumferential surface of the center conductor; In addition, the gas filling structure of the gas insulated switchgear is provided, including: a fixing part for fixing the filter module to the center conductor.

Gas insulated switchgear, Gas communication hole, Mounting groove, Filter module, Fixing part

Description

Gas filled structure of gas insulated switchgear {Gas Insulation switchgear}

The present invention provides a new type of gas insulation that can be conveniently installed while maintaining a stable installation state while preventing metallic foreign substances from being discharged into the enclosure through a portion for filling gas into the hollow center conductor constituting the gas insulated switchgear. A gas filling structure for a switchgear.

In general, a gas insulated switchgear (GIS) uses a gas for insulation (SF ₆ ), which has excellent insulation performance and arc extinguishing function, in a metal sealed container (tank) as an insulating medium to accommodate a center conductor and various protective devices. It is a water substation facility with improved reliability, and is composed of various components such as circuit breaker, disconnecting switch, and earthing switch.

In particular, the center conductor of the gas insulated switchgear is a portion in which a high pressure current flows while being provided in a sealed container filled with insulating gas, and the center conductor is fixedly installed in an insulated state from the sealed container by a plurality of insulating spacers. .

The center conductor is formed of a hollow tube so that an insulating gas is filled therein, and a gas communication hole communicating with the inside of the sealed container is formed in a circumferential surface of any one portion of the center conductor.

In this case, the gas communication hole serves as a hole into which the insulating gas flows into the sealed container as necessary, or serves as a hole to discharge the insulating gas flowing into the sealed container into the sealed container. do.

However, in the conventional gas insulated switchgear as described above, a phenomenon in which conductive foreign matter (metal foreign matter) existing inside the center conductor is provided to the inside of the sealed container through the gas communication hole frequently occurs during the operation. As described above, the conductive foreign matter flowing into the sealed container has a problem in that an insulation deterioration is generated by substantially reducing the insulating distance between the sealed container and the center conductor.

Therefore, conventionally, the above-mentioned insulation fall is prevented by forming the collection container which collects various electroconductive foreign substances in the said airtight container.

However, the process of collecting the conductive foreign matter to the collection container is not due to a separate mechanical operation but only depends on the vibration caused by the operation of the gas insulated switchgear, the collection of the conductive foreign matter does not occur smoothly. There was a problem that the insulation deterioration is still bound to occur.

Of course, by installing a separate filter in the communication hole it can be prevented that the conductive foreign matter is provided into the sealed container. However, there is a problem that the insulation deterioration is generated as the distance between the center conductor and the sealed container is as close as the thickness due to the filter, and also because the filter is easily removed by the pressure of the insulation gas when the insulation gas is charged. Since one filter is applied as a conductive foreign matter, the insulation strength is further lowered, and thus the situation is not considered.

The present invention has been made in order to solve the various problems according to the prior art described above, the object of the present invention is to prevent the conductive foreign matter flowing in the center conductor using a filter module to the inside of the sealed container while preventing the leakage of the inside Insulation distance between the airtight container and the sealed container is sufficiently secured, and the structure for gas filling of the new type gas insulated switchgear which enables the convenient installation of the filter module and maintains the filter module in a stable installed state. To provide.

According to the gas filling structure of the gas insulated switchgear of the present invention for achieving the above object; a sealed container formed with a gas inlet for gas injection; A center conductor formed of a hollow tube body, the center conductor having a gas communication hole communicating with an inner space of the sealed container while being fixedly installed along a central portion of the sealed container in an insulated state by a spacer; A filter module positioned to intersect a portion of the center conductor in which the gas communication hole is formed, and is installed so as not to protrude toward an outer circumferential surface of the center conductor; And, the fixing part for fixing the filter module to the center conductor: characterized in that it comprises a.

Here, the filter module is a plurality of laminated mesh, a through hole of a smaller size than the mesh is formed in communication with the gas communication hole in the central side portion, the peripheral portion is a cover body formed to be bent to surround the mesh It is characterized by being configured.

In addition, the filter module is characterized in that the portion in which the through-hole of the cover body is formed so as to be located on the outflow side of the gas when viewed based on the flow direction of the gas.

At this time, the filter module is characterized in that it is installed in the portion where the gas communication hole is formed of the inner peripheral surface of the central conductor.

In addition, the fixing part is formed through the communication hole communicating with the gas communication hole of the center conductor to the center side, one surface is formed to have the same curved surface as the inner peripheral surface of the center conductor to be in close contact with the inner peripheral surface of the center conductor, the other surface is An installation groove is formed in which the filter module is recessed and is formed, and includes a fixed block fastened and fixed to the center conductor, and an installation block fastened and fixed in the installation groove to fix the filter module installed in the installation groove of the fixed block. It features.

In addition, a portion of the outer peripheral surface of the center conductor is formed in the recess formed in the gas communication hole in the inner groove, the recess groove is fixedly coupled in the state in which the fixed portion is concave, the concave between the recess and the fixing portion The filter module is inserted between the surfaces is characterized in that the installation.

In this case, a protruding end projecting toward the inside of the inner circumferential surface of the central conductor corresponding to the portion where the recess is formed is formed so that the strength of the thickness of the center conductor reduced by the recess is compensated for. It is done.

In addition, the gas communication hole formed in the center conductor is characterized in that formed in the vicinity of the coupling portion with the spacer of each portion of the center conductor.

According to the gas filling structure of the gas insulated switchgear according to the present invention as described above, by providing a filter module in the gas communication hole formed in the center conductor it is possible to prevent the conductive foreign matter in the center conductor is leaked into the sealed container. As a result, the dielectric breakdown caused by the conductive foreign matter can be prevented.

Particularly, in the present invention, the filter module is fixedly installed on the inner circumferential surface of the center conductor by using a fixing part, or the filter module can be installed in a recessed state on the outer circumferential surface of the center conductor so that the insulation distance between the center conductor and the sealed container is kept constant. It has the effect that it became possible.

In addition, the gas filling structure of the gas insulated switchgear according to the present invention is formed by stacking a plurality of mesh filter module, the through-holes of the cover body surrounding each mesh is installed so as to be located on the gas outlet side, The problem that the mesh is separated or damaged by the filling pressure has an effect that can be prevented in advance.

Hereinafter, preferred embodiments of the gas filling structure of the gas insulated switchgear of the present invention will be described with reference to FIGS. 1 to 4.

As shown in FIG. 1, the gas filling structure of the gas insulated switchgear according to the first exemplary embodiment of the present invention is largely a sealed container 100, a central conductor 200, a filter module 300, and a fixing part 400. It is configured to include).

This will be described in more detail below for each configuration.

First, the hermetically sealed container 100 is a part of the enclosure of the gas insulated switchgear, and is an hermetically sealed container filled with the insulating gas SF ₆ therein.

At this time, the gas inlet 110 for gas injection is formed on the circumferential surface of the sealed container 100.

Next, the center conductor 200 is a portion in which the high-pressure current flows and is provided in the sealed container 100 filled with the insulating gas.

The center conductor 200 is formed of a hollow tube body, is installed along a central side portion of the sealed container 100, and is fixedly installed in an insulated state from the sealed container by a plurality of spacers 120. .

In this case, the center conductor 200 is divided into a plurality of and is coupled as extending from each other by the respective spacers 120, and the portions where the respective center conductors 200 of the spacers 120 correspond to each other are spaces on both sides. The central conductors 200 communicate with each other by being formed to communicate with each other.

In addition, the central conductor 200 is formed with a gas communication hole 210 in communication with the space inside the sealed container 100.

Next, the filter module 300 is a series of components for preventing the outflow of metal foreign matter through the gas communication hole 210 of the center conductor 200, the gas of each portion of the center conductor 200. The communication hole 210 is positioned so as to intersect the formed portion, and is installed so as not to protrude to the outer circumferential surface of the central conductor 200.

Particularly, in the first embodiment of the present invention, as shown in FIGS. 1 and 2, the filter module 300 is installed at a portion where the gas communication hole 210 is formed in the inner circumferential surface of the central conductor 200. To present.

That is, the filter module 300 is installed on the inner circumferential surface of the center conductor 200 so that a safe insulation distance between the filter module 300 and the inner circumferential surface of the airtight container 100 may be sufficiently secured.

The filter module 300 includes a plurality of stacked meshes 310 and through-holes 321 having a smaller size than the mesh 310 while communicating with the gas communication hole 210 at a central portion thereof. In addition, the circumferential side portion is formed of a cover body 320 that is bent to surround the circumference of the meshes 310.

The reason why the plurality of meshes 310 are stacked in the above-described manner is that when a single mesh is formed only, breakage such as bending may be easily caused by the discharge pressure of the insulating gas. The mesh 310 is configured to serve to maintain a stable mounting state.

At this time, the portion where the through-hole 321 of the cover body 320 is formed is preferably installed so as to be located on the outflow side from which the gas flows when the gas flow direction. This is to prevent the bending deformation of each stacked mesh 310 to the maximum.

Next, the fixing part 400 is a series of components for fixing the filter module 300 to the center conductor 200.

In the first embodiment of the present invention, the fixing part 400 is fixed to the inner circumferential surface of the center conductor 200 and is fixed to the fixing block 410 and the filter module 300 to the fixing block 410. The installation block 420 is fastened to and fixed to the fixing block 410.

At this time, the fixed block 410 is formed through the communication hole 411 communicating with the gas communication hole 210 of the center conductor 200 to the center side, one surface is in close contact with the inner peripheral surface of the center conductor 200. The other surface is formed to have the same curved surface as the inner circumferential surface of the center conductor 200, and the other surface is formed by the installation groove 412 in which the filter module 300 is recessed and installed.

In addition, the installation block 420 is fastened and fixed in the recessed state in the installation groove 412 to fix the filter module 300 recessed in the installation groove 412 of the fixed block 410.

In the configuration of the fixing part 400, the size of the filter module 300 is also small considering that the size of the gas communication hole 210 is substantially small, and thus, the filter module 300 is connected to the center conductor 200. It is extremely difficult to fasten directly).

Accordingly, the fixing part 400 according to the first embodiment of the present invention is formed to have a sufficient size enough to facilitate the fastening to the center conductor 200 and the filter module 300 to the fixing part. By being fixed to the 400 in advance, to substantially obtain the effect of installing the filter module 300 in the center conductor 200 by the process of fixing the fixing portion 400 to the center conductor 200. It is.

Particularly, in the first embodiment of the present invention, the fixing part 400 is coupled to the center conductor 200 such that the position of the fixing part 400 is adjacent to the coupling part with the spacer 120 among the respective parts of the center conductor 200. By suggesting that the fixing portion 400 can be easily coupled to the center conductor 200. To this end, the gas communication hole 210 formed in the central conductor 200 is formed at a position adjacent to the coupling portion with the spacer 120 among the respective portions of the central conductor 200.

Hereinafter, a gas filling process by the gas filling structure of the gas insulated switchgear according to the first embodiment of the present invention described above will be described.

First, when insulating gas is injected through the gas inlet 110 of the hermetic container 100, the insulating gas flowing in the hermetic container 100 continues the gas communication hole 210 formed in the central conductor 200. Through the central conductor 200 is introduced into the space.

In addition, the insulating gas flowing into the center conductor 200 flows into the other center conductor 200 through the spacer 120, and then through the gas communication hole 210 formed in the center conductor 200. As it flows into the sealed container 100, an insulating gas is filled in all the internal spaces of the sealed container 100 and all the internal spaces of the central conductor 200.

When the filling of the insulating gas into the sealed container 100 and the center conductor 200 is completed by the above-described process, further gas injection is stopped and the gas injection hole 110 is closed.

Meanwhile, various conductive foreign substances present in the center conductor 200 during the charging of the insulation gas or the operation of the gas insulation switchgear are performed in the gas communication hole 210 of the center conductor 200. Although the gas flows through the sealed container 100, the gas communication hole 210 is provided with the filter module 300, so only the insulating gas passes through the conductive foreign matter by the filter module 300. It will be filtered out.

Therefore, the conductive foreign matter inside the center conductor 200 is prevented from leaking into the sealed container 100, and therefore, there is a concern about the breakdown of the insulation between the center conductor 200 and the sealed container 100 due to the conductive foreign matter. Also resolved.

3 and 4 illustrate an installation structure of the filter module 300 of the gas filling structure of the gas insulated switchgear according to the second embodiment of the present invention.

That is, the second embodiment of the present invention suggests that the filter module 300 is installed on the outer circumferential surface of the center conductor 200, but does not protrude outward from the outer circumferential surface of the center conductor 200.

This structure, while the maintenance of the filter module 300 is made as easy as possible, while the insulation strength between the center conductor 200 and the sealed container 100 is reduced due to the filter module 300 is lowered Is to be prevented.

To this end, in the gas insulated switchgear according to the second embodiment of the present invention, a recessed groove 211 recessed inward is formed at a portion of the outer circumferential surface of the center conductor 200 in which the gas communication hole 210 is formed. The fixing part 400 is fixedly coupled to the recessed groove 211 in a completely recessed state, and the filter module 300 is inserted and installed between the opposing surfaces between the recessed groove 211 and the fixing part 400. It is configured to be.

At this time, a portion corresponding to a portion of the inner circumferential surface of the center conductor 200 formed with the concave groove 211 is formed by integrally forming a protruding end 212 protruding toward the inside, thereby reducing the center of the concave groove 211. Preferably, the strength to the thickness of the conductor 200 can be compensated for.

1 is a block diagram showing the internal structure of the gas insulated switchgear according to the first embodiment of the present invention

2 is a main part configuration view of an installation part of a filter module viewed from the front in order to explain the gas filling structure of the gas insulated switchgear according to the first embodiment of the present invention;

3 is a main configuration diagram of a filter module installed in order to explain the gas filling structure of the gas insulated switchgear according to the second embodiment of the present invention when viewed from the front;

Figure 4 is a main part configuration view from the side of the installation portion of the filter module for explaining the gas filling structure of the gas insulated switchgear according to a second embodiment of the present invention

Explanation of symbols for main parts of the drawings

100. Airtight Container 110. Gas Inlet

120. Spacer 200. Center conductor

210. Gas communication hole 211. Installation groove

212.Protrusion 300.Filter Module

310. Mesh 320. Cover body

321.Through hole 400.Fixed part

410. Fixed Block 411. Communication Hole

412. Installation groove 420. Installation block

Claims (8)

A sealed container in which a gas inlet for gas injection is formed; A center conductor formed of a hollow tube body, the center conductor having a gas communication hole communicating with an inner space of the sealed container while being fixedly installed along a central portion of the sealed container in an insulated state by a spacer; A filter module positioned to intersect a portion of the center conductor in which the gas communication hole is formed, and is installed so as not to protrude toward an outer circumferential surface of the center conductor; And, Fixing part for fixing the filter module to the center conductor: Gas filling structure of the gas insulated switchgear characterized in that it comprises a. The method of claim 1, The filter module A plurality of stacked meshes, The gas filling structure of the gas insulated switchgear is characterized in that the through-hole of the smaller size than the mesh is formed in communication with the gas communication hole in the central portion, the circumferential portion is formed of a cover body bent to surround the mesh. . The method of claim 2, The filter module The gas filling structure of the gas insulated switchgear, characterized in that the portion is formed so that the through-hole of the cover body is located on the outflow side of the gas when the gas flow direction. The method of claim 3, wherein The filter module is a gas filling structure of the gas insulated switchgear, characterized in that installed in the portion of the inner circumferential surface of the central conductor formed gas communication hole. The method of claim 4, wherein The fixing part A communication hole communicating with the gas communication hole of the center conductor is formed through the center side, and one surface is formed to have the same curved surface as the inner circumferential surface of the center conductor so as to be in close contact with the inner circumferential surface of the center conductor. A fixed block formed with an installation groove and fastened and fixed to the center conductor; Gas filling structure of the gas insulated switchgear, characterized in that it comprises a mounting block fastened and fixed in the installation groove so as to fix the filter module installed in the installation groove of the fixed block. The method of claim 3, wherein In the outer circumferential surface of the center conductor is formed a recess groove recessed inward in the portion where the gas communication hole is formed, The fixing groove is fixedly coupled to the recessed state in the recessed state, The gas filling structure of the gas insulated switchgear, characterized in that the filter module is inserted between the opposing surface between the recess and the fixing portion. The method of claim 6, In a portion of the inner circumferential surface of the central conductor corresponding to the portion where the recess groove is formed The gas filling structure of the gas insulated switchgear, characterized in that the protrusion is formed to protrude toward the inside is configured to compensate for the strength of the thickness of the center conductor reduced by the recess groove. 8. The method according to any one of claims 1 to 7, The gas communication hole formed in the center conductor is a gas filling structure of the gas insulated switchgear, characterized in that formed in the vicinity of the coupling portion with the spacer of each portion of the center conductor.

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