KR100868681B1 - High pressure expansion gas discharge apparatus provided on the ground with for gas insulated load break switch and the installation method thereof - Google Patents

Abstract

A high pressure expansion gas discharge apparatus for a gas insulated switchgear installed on the ground and an installing method thereof are provided to prevent gas leakage by inserting packing rings in receiving grooves. A pair of a semicircular plate(10) include a central penetration hole in the center to discharge the gas to the outside if the pressure inside a gas insulator switchgear is over a constant pressure. A pressurizing plate(20) includes a first receiving groove and a second receiving groove into which a first packing ring(25) and a second packing ring(26) are inserted for preventing the leakage of the insulated gas filled in the gas insulated switchgear. A third receiving groove into which a third packing ring(65) is inserted for preventing the insulated gas filled in the gas insulated switchgear is formed in the lower part of a bracket(30). A circular safety film(40) is composed of a stainless plate whose edge is installed to contact a step formed in the lower part of the bracket in order to be damaged and discharged to the outside when the pressure inside the gas insulated switchgear is over the constant pressure. A guide ring(50) guides a circular safety film. A circular ring(60) fixes the position of the guide ring. A packing cover(70) blocks the penetration of the foreign material to the gas insulator switchgear from the outside. One side of a cover(80) is opened in order to guide the jet direction of the insulation gas which gushes out in case the insulation gas inside the gas insulator switchgear is the constant pressure or greater to the specific direction.

Description

PRESSURE EXPANSION GAS DISCHARGE APPARATUS PROVIDED ON THE GROUND WITH FOR GAS INSULATED LOAD BREAK SWITCH AND THE INSTALLATION METHOD THEREOF}

1 is a perspective view schematically showing the cover of the high-pressure inflated gas discharge device for a gas insulated switchgear installed on the ground according to an embodiment of the present invention with the cover removed in a state in which the gas insulated switchgear is installed;

Figure 2 is a longitudinal sectional view schematically showing a state in which the high-pressure expansion gas discharge device for gas insulated switchgear installed on the ground according to an embodiment of the present invention installed in the gas insulated switchgear,

3 is an exploded perspective view of FIG. 1;

4 is a plan view showing the pressing plate in FIG.

5 is a cross-sectional view taken along the arrow A-A in FIG. 4,

6 is a cross-sectional view taken along the arrow line B-B in FIG.

7 is a plan view showing a semi-circular plate in FIG.

8 is a longitudinal cross-sectional view of FIG. 7;

9 is a perspective view of the cover in FIG.

Figure 10 schematically shows a state in which the semi-circular plate and the presser plate of the high-pressure expansion gas discharge device for gas insulated switchgear installed on the ground according to an embodiment of the present invention is installed on the inner and outer sides of the through-hole formed on the wall of the gas insulated switchgear. Cross Section,

11 is a longitudinal cross-sectional view of the bracket of the high-pressure expansion gas discharge device for gas insulated switchgear installed on the ground according to an embodiment of the present invention;

FIG. 12 is an enlarged cross-sectional view of part A of FIG. 11.

<Explanation of symbols for the main parts of the drawings>

1: gas insulated switchgear 1a: wall

2: housewife 3: center through hole

4: protrusion 4a: screwdriver

6: Semi-circular groove 10: Semi-circular plate

20: pressure plate 22: cylindrical part

23: center through hole 24: protrusion

24a: screwdriver 24b: tightening bolt

25: 1st packing ring 26: 2nd packing ring

27: first receiving groove 28: second receiving groove

29: screw thread 29a: screw thread

30: Bracket 33: Tightening bolt

34: Through hole 34a: Stepped portion

35: Bolt ball 37: Leg part

37a: Through hole 38: Fastening bolt

39: third receiving groove 40: round safety shield

50: guide ring 50a: through hole

60: round ring 65: third packing ring

70: packing cover 80: cover

80a: through-hole

The present invention relates to a high-pressure expansion gas discharge device for a gas insulated switchgear installed on the ground and a method for installing the same, in particular installed in the gas insulated switchgear can prevent the leakage of gas in normal, gas installed on the ground that can be easily installed The present invention relates to a high pressure expansion gas discharge device for an insulated switchgear and a method of installing the same.

In general, the substation recently supplied 22,900V when supplying power to the electric power source. However, in order to prevent urban aesthetics, power lines were buried underground, and gas insulated switches filled with SF ₆ were installed on sidewalks.

However, the conventional gas insulated switchgear has a problem that an explosion may occur due to the generation of high-pressure gas inside the arc due to long use, and a large replacement cost is required to replace the gas insulated switchgear installed in the related art. There were various problems such as being.

Accordingly, the present invention has been made to solve the above various problems, and an object of the present invention is to provide a high-pressure expansion gas discharge device for a gas insulated switchgear installed on the ground that can prevent the leakage of gas in normal times and a method of installing the same. .

Another object of the present invention is to provide a high-pressure expansion gas discharge device for a gas insulated switchgear installed on the ground that can be easily installed at a low cost and a method of installing the same.

In order to achieve the above object, the high-pressure expansion gas releasing device for a gas insulated switchgear installed on the ground of the present invention has a central through hole formed in the center to discharge to the outside when the pressure in the gas insulated switchgear exceeds a predetermined pressure. A pair of semi-circular plates exposed to the inner side of the through hole formed in the wall of the wall, and exposed so that a predetermined width of the protrusion formed with a plurality of screw holes is visible from the outside of the through hole formed in the wall; When the pressure in the insulated switchgear exceeds a certain pressure, a central through hole is formed in the center to discharge to the outside, and a peripheral edge portion of a predetermined width is abutted on the outside of the through hole formed in the wall of the gas insulated switchgear, and the protrusion of the semicircular plate The screw hole is formed on the protrusion to be engaged by the formed screw hole and the fastening bolt. And a press plate having first and second receiving grooves in which first and second packing rings are inserted at a predetermined interval from the central through hole to prevent leakage of the insulating gas filled in the gas insulated switchgear, and the gas insulation. A central through hole is formed at the center to discharge to the outside when the pressure in the switch is greater than a predetermined pressure, and a bolt hole is formed to be screwed into a screw hole formed at 120 degree intervals on the pressure plate by a fastening bolt. A bracket having a third receiving groove in which a third packing ring is fitted in the lower part to prevent leakage of the insulating gas filled in the lower part, and when the pressure in the gas insulated switchgear exceeds a certain pressure, the lower part of the bracket is discharged to the outside. A circular safety film made of a stainless plate having edges abutting on a stepped portion formed in the gas insulating portion, and the gas insulation A plurality of through holes are formed to transmit the pressure in the switch to the circular safety membrane, and are disposed in the lower portion of the circular safety membrane to guide the circular safety membrane, and are installed around the edge of the guide ring to position the guide ring. A circular ring for fixing a; and a packing cover for inserting an edge into a circular receiving groove formed in the upper portion of the bracket to block the ingress of foreign matter into the gas insulated switchgear from the outside; and a through hole formed at a vertex forming an equilateral triangle on the upper portion. A long fastening bolt penetrates the through-holes of the leg formed at 120 degree intervals between the bolt holes formed in the bracket, and is screwed into screw holes respectively formed at 120 degree intervals between the screw holes of the pressing plate to insulate the gas. Insulation gas emitted when the insulation gas in the switch is above a certain pressure And a direction characterized in that one side is provided with a cover opened to guide in a particular direction.

In addition, the installation method of the high-pressure inflated gas discharge device for the gas insulated switchgear installed on the ground of the present invention is connected to the gas purity analyzer to the insulated gas outlet installed in the gas insulated switchgear installed on the ground of the insulating gas filled in the gas insulated switchgear. After the gas purity analysis process for analyzing gas purity and the gas purity analysis process, a moisture measuring device is connected to an insulating gas outlet provided in the gas insulated switchgear to measure the moisture content of the insulating gas filled in the gas insulated switchgear. An insulation gas discharge process of discharging the insulation gas filled in the gas insulation switch to an external storage container by connecting a hose to an insulation gas outlet provided in the gas insulation switch after the content measurement process and the water content measurement process; Insulating gas discharged to outside container When forming a circular groove for installing a high-pressure expansion gas discharge device on a specific wall of the gas insulated switchgear using a hole cutter, the residual thickness is measured by using an ultrasonic measuring device to measure the residual thickness from 93% of the wall thickness. A circular groove forming step of forming a circular groove to a depth of 97%, and applying pressure by contacting an air hammer tip to the edge of the circular groove formed in the circular groove forming step so that the circular plate formed by the circular groove is partially separated from the wall. A through-hole forming step of removing the circular plate connected to the wall 1a by pushing and pulling the circular plate away from the wall with a clamp, pushing and pulling in the forward and rearward directions, and forming the through-hole. Injecting the endoscope into the gas insulated switchgear through the through hole formed in the wall First and second packing around the polishing jig after fixing the polishing jig in the through-hole formed in the wall in the through-hole forming step after the foreign matter removing step of removing the foreign matter in the gas insulated switchgear and the foreign matter removing step A through hole outer surface polishing step of smoothly polishing the outer surface around the through hole in which the ring abuts using a hand grinder, and a polishing jig fixed to the through hole formed in the wall after the through hole outer surface polishing step is removed. Protruding inside the through hole formed in the wall in a burr receiving groove formed between the circumferential portion of the pair of semi-circular plates and the protruding portion inside the through hole formed in the wall after the polishing jig removing process and the polishing jig removing process. The projection of the semi-circular plate can be seen from the outside of the through hole formed in the wall while inserting the formed burr. A semicircular plate fixing step of fixing the pair of semicircular plates to form a circular shape by penetrating into a through hole, and first and second packing rings in first and second receiving grooves formed in the pressing plate after the semicircular plate fixing step, respectively. The first and second packing ring insertion processes to be inserted, and the screw holes of the pressing plate in which the first and second packing rings are inserted into the first and second receiving grooves in the first and second packing ring insertion processes. Semi-circular plate / press plate installation step of installing the semi-circular plate and the press plate to the airtight inside and outside of the wall by screwing the screw holes formed in the projections of the pair of semi-circular plate in the semi-circular plate fixing step; After the semi-circular plate / press plate installation process, the safety barrier installation step of installing the edge of the safety film abuts on the stepped portion of the bracket, and the circular safety at the stepped portion of the bracket in the safety film installation process Guide ring installation step of installing the guide ring to press the circular safety film on the lower surface of the guide ring installation process is installed around the edge of the guide ring to press the circular safety film in the guide ring installation process to fix the position of the guide ring O-ring installation process for installing the ring, and a third packing for inserting a third packing ring into the third receiving groove of the bracket to prevent leakage of the insulating gas filled in the gas insulation switch after the O-ring installation process. The ring packing step and the third packing ring inserted into the third receiving groove of the bracket in the third packing ring insertion step contact the outer surface of the pressing plate, and then the fastening bolt passes through the bolt hole of the bracket. And a bracket installation step of mounting the bracket to the pressing plate in an airtight manner by screwing into a screw hole formed in the pressing plate. While mounting the cover on the leg of the bracket installed in the plate, match the through hole formed in the cover with the through hole formed in the leg portion and the screw hole formed in the press plate, and the cover is attached to the bracket and the pressing plate by a long fastening bolt. It characterized in that it comprises a cover bonding process to combine.

Hereinafter, a high-pressure expansion gas discharge device for a gas insulated switchgear installed on the ground according to an embodiment of the present invention and a method of installing the same will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing the cover of the high-pressure inflated gas discharge device for gas insulated switchgear installed on the ground according to an embodiment of the present invention with the cover removed, and FIG. 2 is an embodiment of the present invention. Fig. 3 is a longitudinal sectional view schematically showing a state in which a high-pressure expansion gas releasing device for a gas insulated switchgear installed on the ground according to an example is installed in a gas insulated switchgear, FIG. 3 is an exploded perspective view of FIG. 1, and FIG. 4 is a pressure plate in FIG. 2. 4 is a cross-sectional view taken along arrow AA in FIG. 4, FIG. 6 is a longitudinal cross-sectional view taken along arrow BB in FIG. 4, and FIG. 7 is a plan view showing a semicircular plate in FIG. 2. 8 is a longitudinal sectional view of FIG. 7, FIG. 9 is a perspective view of the cover of FIG. 2, and FIG. 10 is a high pressure expansion gas discharge device for a gas insulated switchgear installed on the ground according to an embodiment of the present invention. Figure 11 is a longitudinal sectional view schematically showing a state in which the semi-circular plate and the pressure plate is installed on the inner and outer sides of the through hole formed in the wall of the gas insulated switchgear, Figure 11 is a high-pressure expansion for the gas insulated switchgear installed on the ground according to an embodiment of the present invention It is a longitudinal cross-sectional view of the bracket of a gas discharge | release device, and FIG. 12 is sectional drawing which expanded part A in FIG.

As shown in FIGS. 1 to 12, the high-pressure expansion gas releasing device for a gas insulated switchgear installed on the ground according to an embodiment of the present invention is discharged to the outside when the pressure in the gas insulated switchgear 1 exceeds a predetermined pressure. The central through hole 3 is formed at the same time, and the edge circumferential portion 2 of a predetermined width is abutted inside the through hole (not shown) formed in the wall 1a of the gas insulated switch 1, and a plurality of A pair of semicircular plates 10 exposed to the outside of the through hole formed in the wall 1a, and the pressure in the gas insulated switchgear 1, in which the protrusions 4 having a predetermined width are formed. When the pressure exceeds the predetermined pressure, the central through hole 23 is formed in the center to discharge to the outside, and the edge circumferential portion 22 having a predetermined width is formed outside the through hole formed in the wall 1a of the gas insulated switchgear 1. Is in contact with the protrusion 4 of the semi-circular plate 10 Generated a screw hole (4a) and the fastening bolt (24b) in the same time and such that a screw hole (24a) is formed in the projection 24 engaged by, the leakage of the insulating gas (SF ₆₎ filled in the gas insulated switchgear (1) Press plate 20 having first and second receiving grooves 27 and 28 into which first and second packing rings 25 and 26 are inserted at predetermined intervals from the central through hole 23 so as to prevent them. And, when the pressure in the gas insulated switchgear (1) is more than a predetermined pressure through hole 34 is formed in the center so as to discharge to the outside, by a fastening bolt 33 to the pressure plate 20 by 120 degrees to each other The bolt hole 35 is formed to be screwed into the screw hole 29 formed to have a gap, and the third packing ring 65 is disposed at the bottom to prevent leakage of the insulation gas SF ₆ filled in the gas insulation switch 1. When the pressure in the bracket 30 and the gas insulated switchgear 1 is formed to be greater than or equal to a predetermined pressure, the third housing groove 39 is formed. A circular safety film 40 made of a stainless plate having an edge abutted on the stepped portion 34a formed at the lower portion of the bracket 30 so as to be discharged, and the pressure in the gas insulated switchgear 1 may be applied to the circular safety film ( A plurality of through-holes (50a) are formed to be delivered to the 40, the guide ring 50 is disposed under the circular safety film 40 to guide the circular safety film 40, and the guide ring 50 Is installed around the edge of the circular ring 60 to fix the position of the guide ring 50, and the edge is inserted into the circular receiving groove 36 formed on the bracket 30 to insulate the gas from the outside. 120 degrees between the packing cover 70 for blocking the infiltration of foreign matter into the switch 1, the through hole 80a formed at a vertex forming an equilateral triangle on top, and the bolt hole 35 formed at the bracket 30. Penetration of the leg portion 37 formed at intervals A long fastening bolt 38 penetrates 37a and is screwed into a screw hole 29a formed at a 120-degree interval between the screw holes 29 of the pressing plate 20, so that the gas insulated switch 1 The cover 80 is open at one side to guide the ejecting direction of the insulating gas ejected when the insulating gas therein is above a predetermined pressure in a specific direction.

The semi-circular plate 10 is a semi-circular groove for receiving a burr (also referred to as a burr) generated during the drilling of the through hole formed in the wall 1a between the circumferential portion 2 and the protrusion 4 ( 6) is formed.

The packing cover 70 has a plurality of protrusions 70a integrally formed at regular intervals around the packing cover 70 so as to be firmly inserted into the circular receiving groove 36 formed on the bracket 30.

Next, a description will be given of an installation method in which the high-pressure expansion gas releasing device for a gas insulated switchgear installed on the ground according to the embodiment of the present invention configured as described above is installed in the gas insulated switchgear.

First, a gas purity analyzer (model name 3-027-R002 manufactured by DILO, Germany) is connected to an insulating gas (SF ₆ ) outlet (not shown) provided in the ground gas insulated switchgear 1 installed on the ground of the present invention. The gas purity of the insulating gas filled in the gas insulated switchgear (1) is analyzed (gas purity analysis step), and after the gas purity analysis process, a moisture measuring device ( After connecting the model name SADPmini-TYPE B) manufactured by ALPHA moisture company in the UK, the moisture content of the insulating gas filled in the gas insulated switchgear 1 was measured (moisture content measuring step), and after the moisture content measuring step, A hose (not shown) is connected to an insulated gas outlet provided in the gas insulated switch 1 to discharge the insulated gas filled in the gas insulated switch 1 to an external storage container (insulated gas discharge). Process)

After the insulating gas is discharged to the outer container in the insulating gas discharge process, a circular groove for installing the high pressure-expanded gas releasing device of the present invention on the specific wall 1a of the gas insulated switchgear 1 using a hole cutter. When forming the residual thickness using an ultrasonic measuring device (model name WT-710 manufactured by Weltech Co., Ltd., Korea), the circular groove is formed to a depth of 93% to 97% of the thickness of the wall 1a by measuring the residual thickness. (Circular groove forming process),

The air hammer tip is abutted and applied to the edge of the circular groove formed in the circular groove forming step to partially detach the circular plate formed by the circular groove from the wall 1a, and then clamp the circular plate away from the wall 1a. The circular plate connected to the wall 1a is removed by pushing and pulling in the forward and rearward direction by means of a claw clip (through hole formation step).

In the through hole forming process, an electronic endoscope (model S-50000 manufactured by Caretec, Inc., Korea) is introduced into the gas insulated switchgear 1 through a through hole formed in the wall 1a. Remove foreign substances (elimination of foreign substances),

The polishing jig is fixed to the through-hole formed in the wall 1a in the through-hole forming step after the foreign material removing step, and then the first and second packing rings 25, 26; The outer surface of the periphery of the through-hole, which is called a ring), is smoothly polished by using a hand grinder (through-hole outer-side polishing step), and the through-hole formed in the wall 1a after the through-hole outer-side polishing step. Remove the fixed polishing jig (polishing jig removal process).

After the polishing jig removal process, the wall (in the semicircular groove 6 formed respectively between the circumferential portion 2 and the projection 4 of the pair of semicircular plates 10 inside the through hole formed in the wall 1a) The pair of semi-circular shapes is inserted into the through-holes so that the projections 4 of the semi-circular plate 10 are visible from the outside of the through-holes formed in the wall 1a while inserting the burrs protruding inside the through-holes formed in 1a). The plate 10 is fixed to form a circular shape (semi-circular plate fixing step), and the first and second packings in the first and second receiving grooves 27 and 28 formed in the pressing plate 20 after the semi-circular plate fixing step. Inserting rings 25 and 26, respectively (first and second packing ring insertion process), and first and second receiving grooves 27 and 28 in the first and second packing ring insertion process. The pair of halves in the screw hole 24a of the pressing plate 20 into which the second packing rings 25 and 26 are inserted and the semicircular plate fixing process. The threaded holes 4a formed in the protrusions 4 of the template 10 are screwed together with the fastening bolts 25 so that the semicircular plate 10 and the press plate 20 are airtightly installed on the inner and outer surfaces of the wall. (Semicircle plate / press plate installation process).

After the semi-circular plate / press plate installation process, the edge of the circular safety film 40 abuts on the stepped portion 34a of the bracket 30 (safety film installation process), and the bracket ( The guide ring 50 is installed on the stepped portion 34a of the 30 to press the circular safety film 40 on the lower surface of the circular safety film 40 (guide ring installation step), and in the guide ring installation step. Installed around the edge of the guide ring 50 to press the circular safety film 40 is installed a circular ring 60 to fix the position of the guide ring 50 (O-ring installation process), the O- After the ring installation process, the third packing ring 65 is inserted into the third receiving groove 39 of the bracket 30 to prevent leakage of the insulating gas filled in the gas insulated switch 1 (third packing ring). Insertion process).

In the third packing ring insertion process, the third packing ring 65 inserted into the third receiving groove 39 of the bracket 30 contacts the outer surface of the pressing plate 20, and then the fastening bolt ( 33) is screwed through the bolt hole 35 of the bracket 30 to the screw hole 29 formed in the pressing plate 20 to install the bracket 30 to the pressing plate 20 in an airtight manner. (Bracket installation step) and the through hole 80a formed in the cover 80 while placing the cover 80 on the leg portion 37 of the bracket 30 installed on the pressing plate 20 in the bracket installation step; The through hole 37a formed in the leg portion 37 and the screw hole 29a formed in the pressing plate 20 are matched to each other to the bracket 30 and the pressing plate 20 by a long fastening bolt 38. The cover 80 is coupled (cover coupling process).

Next, the operation and effects of the high-pressure expansion gas discharge device for gas insulated switchgear installed on the ground according to the embodiment of the present invention configured as described above will be described.

When forming a circular groove for installing the high pressure-expansion gas discharging device of the present invention on a specific wall 1a of the gas insulated switchgear 1 using a hole cutter, the residual thickness is measured by an ultrasonic measuring instrument (Welltech Co., Ltd. in Korea). Since the circular groove is formed to a depth of 93% to 97% of the thickness of the wall 1a while measuring the residual thickness using the manufactured model name WT-710), the circular groove can be formed accurately, While contacting the air hammer tip to apply pressure, the circular plate formed by the circular groove is partially separated from the wall 1a, and then the circular plate separated from the wall 1a is clamped and pushed and pulled forward and backward. The circular plate connected to the wall 1a can be easily removed to form a through hole.

The electron endoscope is introduced into the gas insulated switchgear 1 through the through hole formed in the wall 1a formed as described above to remove foreign substances in the gas insulated switchgear 1, and then the outside hole is formed in the wall 1a. By smoothly grinding the side surfaces using a hand grinder, the first and second packing rings 25 and 26 accommodated in the first and second receiving grooves 27 and 28 of the press plate 20 are outside the through holes. There is no fear that the insulating gas filled in the gas insulated switch 1 through the outer wall 1a of the gas insulated switch 1 is hermetically contacted to the side.

The wall (in the semicircular groove 6 formed respectively between the circumferential portion 2 and the projection 4 of the pair of semicircular plates 10 inside the through hole formed in the wall 1a of the gas insulated switchgear 1). The protrusion 4 of the semi-circular plate 10 is inserted into the through hole so as to be visible from the outside of the through hole formed in the wall 1a while inserting the burr protruding inside the through hole formed in 1a. Abutment with the projections 4 of the pair of semi-circular plates 10 provided inside and outside of (1a), and then tightening the pair of semi-circular plates 10 and the pressing plate 20 with fastening bolts 25. The pair of semi-circular plates 10 and the pressing plate 20 are airtightly installed on the inner and outer surfaces of the through-holes formed in the wall 1a of the gas insulated switchgear 1.

Next, the circular safety film 40 is installed in the stepped portion 34a formed around the central through hole 34 of the bracket 30, and the guide ring 50 is disposed so as not to move the circular safety film 40. The bolt hole of the bracket 30 is provided with a circular ring 60 around the guide ring 50 and the third packing ring 65 is installed in the third receiving groove 39 of the bracket 30. 35 and the screw hole 29 formed in the pressing plate 20 to be matched, and then by fastening with a fastening bolt 33 to couple the bracket 30 to the pressing plate 20 of the bracket (30) The third packing ring 65 fitted in the third accommodating groove 39 is hermetically contacted with the pressing plate 20 so that the gas insulating switch 1 passes between the bracket 30 and the pressing plate 20. There is no fear of leakage of the insulating gas filled therein.

In addition, since the packing cover 70 is installed in the circular accommodating groove 36 of the bracket 30, foreign matter may not be injected into the circular safety membrane 40 installed in the bracket 30 from the outside.

Next, the through-hole 80a formed in the cover 80 and the through-hole formed in the leg portion 37 are placed on the leg portion 37 of the bracket 30 installed on the pressing plate 20. By coupling the cover 80 to the bracket 30 and the pressing plate 20 by the long fastening bolt 38 by matching the ball hole (37a) and the screw hole (29a) formed in the pressing plate 20 to the When the pressure in the gas insulated switchgear 1 is greater than or equal to a predetermined pressure, the circular safety layer 40 is broken as pressure is applied to the circular safety layer 40 through the through hole 50a of the guide ring 50. Therefore, even if the insulating gas in the gas insulated switch 1 leaks at a high pressure, the cover 80 is controlled to be discharged in a specific direction, thereby preventing the occurrence of a safety accident. In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the high-pressure expansion gas releasing device for a gas insulated switchgear installed on the ground and an installation method thereof according to an embodiment of the present invention, it is installed in the gas insulated switchgear to prevent the leakage of gas in normal times, and low cost. The effect is that it can be easily installed.

Claims (4)

When the pressure in the gas insulated switchgear 1 is greater than or equal to a predetermined pressure, a central through hole 3 is formed in the center so as to be discharged to the outside, and a predetermined inside of the through hole formed in the wall 1a of the gas insulated switchgear 1. A pair of semi-circular plates exposed to the edge circumferential portion 2 of the width and exposed to the outside of the through hole formed in the wall 1a at the same time as the protrusions 4 having a predetermined width in which a plurality of screw holes 4a are formed. 10, When the pressure in the gas insulated switchgear 1 exceeds a predetermined pressure, a central through hole 23 is formed in the center to discharge to the outside, and is formed outside the through hole formed in the wall 1a of the gas insulated switchgear 1. The edge circumferential portion 22 of a predetermined width is abutted, and the screw hole 24a is attached to the protrusion 24 so that the screw hole 4a and the fastening bolt 24b formed in the protrusion 4 of the semi-circular plate 10 are engaged. ) And at the same time, the first and second packing rings 25 and 26 at regular intervals from the central through hole 23 to prevent leakage of the insulating gas SF ₆ filled in the gas insulated switch 1. Press plate 20 formed with the first and second receiving grooves (27, 28) is inserted into, When the pressure in the gas insulated switchgear (1) is greater than a predetermined pressure through-hole 34 is formed in the center to discharge to the outside, by the fastening bolt 33 to the pressing plate 20 at intervals of 120 degrees to each other A bolt hole 35 is formed to be screwed into the formed screw hole 29, and the third packing ring 65 is inserted in the lower portion to prevent leakage of the insulating gas SF ₆ filled in the gas insulating switch 1. A bracket 30 having a third receiving groove 39 formed therein, When the pressure in the gas insulated switchgear (1) is more than a predetermined pressure is damaged by a circular safety film made of a stainless plate that is edged in contact with the stepped portion (34a) formed in the lower portion of the bracket 30 so as to be discharged to the outside ( 40), A plurality of through holes 50a are formed to transmit the pressure in the gas insulated switch 1 to the circular safety layer 40, and are disposed below the circular safety layer 40 to provide the circular safety layer 40. Guide ring 50 to guide the, Circular ring 60 is installed around the edge of the guide ring 50 to fix the position of the guide ring 50, A packing cover 70 having an edge inserted in the circular receiving groove 36 formed on the upper portion of the bracket 30 to block foreign matter from penetrating into the gas insulated switchgear 1 from the outside; Fastening bolt having a long through-hole (37a) of the leg portion 37 formed at a 120-degree interval between the through-hole (80a) formed at the vertex forming an equilateral triangle, the bolt hole (35) formed in the bracket 30 (38) penetrates and is screwed into the threaded holes (29a) formed 120 degrees apart from each other between the screw holes 29 of the pressure plate 20 so that the insulating gas in the gas insulated switch (1) is above a certain pressure. High pressure expansion gas discharge device for a gas insulated switchgear installed on the ground, characterized in that the cover 80 is open on one side to guide the ejection direction of the insulating gas to be ejected in a specific direction. The semicircular groove (10) according to claim 1, wherein the semicircular plate (10) is provided with a semicircular groove (6) for receiving a burr generated at the time of drilling of a through hole formed in the wall (1a) between the circumferential portion (2) and the protrusion (4). High-pressure expansion gas discharge device for gas insulated switchgear installed on the ground, characterized in that formed. According to claim 1, The packing cover 70 is a plurality of protrusions (70a) integrally at a predetermined interval around the packing so as to be firmly inserted into the circular receiving groove 36 formed on the upper portion of the bracket 30 High-pressure expansion gas discharge device for gas insulated switchgear installed on the ground, characterized in that formed. A gas purity analysis step of analyzing a gas purity of the insulation gas filled in the gas insulation switch 1 by connecting a gas purity analyzer to an insulation gas outlet provided in the gas insulation switch 1 installed on the ground; A moisture content measuring step of measuring a moisture content of the insulating gas filled in the gas insulating switch 1 by connecting a moisture meter to the insulating gas outlet provided in the gas insulating switch 1 after the gas purity analyzing step; An insulation gas discharge process of discharging the insulation gas filled in the gas insulation switch 1 to an external storage container by connecting a hose to an insulation gas outlet provided in the gas insulation switch 1 after the water content measuring step; After the insulating gas is discharged to the outer container in the insulating gas discharging step, when the circular groove for installing the high pressure-expanded gas discharging device on the specific wall 1a of the gas insulated switchgear 1 is formed using a hole cutter. A circular groove forming process of forming a circular groove to a depth of 93% to 97% of the thickness of the wall 1a while measuring the residual thickness by using an ultrasonic measuring device for the residual thickness; The air hammer tip is abutted and applied to the edge of the circular groove formed in the circular groove forming step to partially detach the circular plate formed by the circular groove from the wall 1a, and then clamp the circular plate away from the wall 1a. A through-hole forming step of forming a through-hole by removing the circular plate connected to the wall (1a) while pushing and pulling in a forward and backward direction by a paper clip; A foreign material removal step of removing foreign substances in the gas insulated switchgear 1 by inserting an electron endoscope into the gas insulated switchgear 1 through a through hole formed in the wall 1a in the through hole formed step; The through hole in which the first and second packing rings 25 and 26 abut on the polishing jig after the polishing jig is fixed to the through hole formed in the wall 1a in the through hole forming step after the foreign material removing step. A through hole outer side polishing step of smoothly polishing the outer outer surface of the periphery using a hand grinder; A polishing jig removing step of removing the polishing jig fixed to the through-hole formed in the wall 1a after the through-hole outer surface polishing step; After the polishing jig removal process, the wall (in the semicircular groove 6 formed respectively between the circumferential portion 2 and the projection 4 of the pair of semicircular plates 10 inside the through hole formed in the wall 1a) The pair of semi-circular shapes is inserted into the through-holes so that the projections 4 of the semi-circular plate 10 are visible from the outside of the through-holes formed in the wall 1a while inserting the burrs protruding inside the through-holes formed in 1a). Semi-circular plate fixing process for fixing the plate 10 to form a circular shape, First and second packing ring inserts for inserting the first and second packing rings 25 and 26 into the first and second receiving grooves 27 and 28 formed in the pressing plate 20 after the semi-circular plate fixing process, respectively. Fair, Thread holes of the pressing plate 20 in which the first and second packing rings 25 and 26 are inserted into the first and second receiving grooves 27 and 28 in the first and second packing ring insertion processes. 24a) and the semicircular plate 10 and the presser plate 20 by screwing the screw holes 4a formed in the projections 4 of the pair of semicircular plates 10 with fastening bolts 24b in the semicircular plate fixing process. ) Is a semicircular plate / press plate installation process, which is installed on the inner and outer sides of the wall in an airtight manner, After the semi-circular plate / pressure plate installation process, the safety film installation process for installing the edge of the circular safety film 40 abuts on the stepped portion 34a of the bracket 30, Guide ring installation step of installing the guide ring 50 to press the circular safety film 40 on the lower surface of the circular safety film 40 on the step portion 34a of the bracket 30 in the safety film installation process and, O-ring installation process is installed around the edge of the guide ring 50 to press the circular safety film 40 in the guide ring installation process to install a circular ring 60 to fix the position of the guide ring 50 and, A third packing ring 65 inserted into the third receiving groove 39 of the bracket 30 to prevent leakage of the insulating gas filled in the gas insulating switch 1 after the O-ring installation process; Packing ring insertion process, In the third packing ring insertion process, the third packing ring 65 inserted into the third receiving groove 39 of the bracket 30 contacts the outer surface of the pressing plate 20, and then the fastening bolt ( 33 is screwed through the bolt hole 35 of the bracket 30 to the screw hole 29 formed in the pressing plate 20 to securely install the bracket 30 to the pressing plate 20. Bracket installation process, The through hole 80a and the leg portion 37 formed in the cover 80 while placing the cover 80 on the leg portion 37 of the bracket 30 installed on the pressing plate 20 in the bracket installation process. The cover 80 is attached to the bracket 30 and the pressing plate 20 by a long fastening bolt 38 by matching the through hole 37a formed in the screw hole 29a formed in the pressing plate 20. A method of installing a high-pressure expansion gas discharge device for a gas insulated switchgear installed on the ground, characterized in that it comprises a cover coupling process for coupling.

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