KR20090073784A - Gas insulation switchgear - Google Patents

Abstract

A fixing unit of a gas insulated switchgear is provided to prevent insulation breakdown by minimizing the melting loss of a fixing chamber due to the hot gas. A fixing chamber(110) has a hot gas flow space. The rear of the fixing chamber is closed. A fixing contact(140) is arranged in front of the fixing chamber. A plurality of exhaust holes are formed around the fixing chamber. A fixing arc contact(120) is arranged in the center of the fixing chamber. The fixing arc contact is selectively connected with an operation arc contact(220) of a driving unit(200). A guide(130) guides the flow of the hot gas inputted through a space between the fixing contact and the fixing arc contact. The guide prevents the hot gas from being exhausted directly through the exhaust hole.

Description

Fixing part of circuit breaker for gas insulated switchgear {Gas Insulation switchgear}

The present invention relates to a gas insulated switchgear (GIS), and more particularly, to minimize the loss of the fixed side chamber by hot gas generated when the breaker is blocked, and to improve the dielectric strength. A new type of gas insulated switchgear is provided.

In general, Gas Insulation Switchgear (GIS) uses insulation gas (SF ₆ ) with excellent insulation performance and arc extinguishing function in a metal sealed container (tank) as an insulating medium to accommodate conductors and various protective devices. It is a water substation facility with improved circuit breakers, circuit breakers, disconnecting switches, and earthing switches.

The fixing part 10 constituting the circuit breaker among the components of the gas insulated switchgear is configured to selectively conduct current while being selectively connected by the selective operation of the movable part 20.

At this time, when the connection between the movable portion 20 and the fixed portion 10 is released (when the breaking operation of the breaker is in progress), the movable arc contactor 22 of the movable portion 20 and the fixed arc contactor of the fixed portion An arc is generated between the 12, at which time the arc extinguished gas SF ₆ compressed by the piston 25 in the popper cylinder 24 is injected along the nozzle 26 to the site of generation of the arc. Thus the arc is extinguished.

In addition, in the arc extinguishing process, the extinguishing gas is converted into hot gas at a high temperature, and a part of the converted hot gas flows to the fixed part 10 and the other part is moved to the movable part 20. Flows.

At this time, the hot gas flowing to the fixed part 10 is flowed along the inner space of the fixed side chamber 11 and then discharged through the exhaust hole 11a formed in the circumferential surface of the fixed side chamber 11.

This series of processes and structures is shown in FIG.

However, the fixed side chamber 11 of the fixed portion 10 of the circuit breaker for a gas insulated switchgear according to the related art as described above typically flows into the fixed side chamber 11 in consideration of being made of aluminum having a low melting point. In the process of directly discharging high temperature hot gas toward the exhaust hole 11a of the fixed side chamber 11, the melting loss of the portion where the exhaust hole 11a is formed is frequently generated.

In particular, since the melt residue generated as described above is discharged through the exhaust hole 11a together with the hot gas, there is a problem that a substantial decrease in the dielectric strength is caused.

The present invention has been made to solve the various problems of the prior art described above, the object of the present invention is to minimize the loss of the fixed side chamber by hot gas, and to improve the dielectric strength It is to provide a fixture for a gas insulated switchgear of the type.

In order to achieve the above object, the fixing part for a gas insulated switchgear according to the present invention is formed to have a space in which a hot gas flows. A fixed side chamber formed therethrough; A fixed arc contactor fixedly installed along an axial direction in a central portion of the fixed side chamber and selectively connected to and energizing a movable arc contact of the movable portion; The hot gas flows through the exhaust hole while guiding the flow of hot gas flowing through the space between the fixed contact and the fixed arc contact while being installed along the inner wall of the fixed arc contact and the fixed side chamber. And a guide body for preventing straight exhausting.

Here, the guide body is characterized in that it is formed of a heat resistant material.

In addition, the exhaust hole is formed in the connection portion with the fixed contact, the guide body is characterized in that it is formed so as to intersect the portion where the exhaust hole is formed while extending from the rear side of the fixed contact.

In addition, the rear end of the guide body is positioned to be adjacent from the rear surface in the fixed side chamber, characterized in that it is formed to reach a position spaced apart by the interval enough to flow the hot gas.

In addition, a flow guide portion for directing the hot gas flowing into the fixed side chamber toward the circumferential surface of the fixed side chamber, which is a communication site between the guide body and the fixed side chamber, is further formed at the central portion of the rear wall surface in the fixed side chamber. The flow guide portion is characterized in that it is formed to be rounded to be gradually inclined outward toward the rear wall surface in the fixed side chamber from the front center portion.

As described above, the movable part of the breaker for a gas insulated switchgear according to the present invention extends the flow of the hot gas generated by the extinguishing action during the ON operation of the breaker by the guide body to substantially remove the second exhaust hole of the movable side chamber. When exhausted through the reduction of temperature and flow rate is made to minimize the degradation of the insulation performance.

In addition, the movable part of the breaker for a gas insulated switchgear according to the present invention is prevented from melting by the hot gas due to the structure of the guide body to the part where the second exhaust hole of the chamber is blocked by the hot gas, thereby preventing breakdown Has the effect of being able to be prevented.

Hereinafter, specific embodiments for the implementation of the present invention will be described with reference to FIGS. 2 and 3.

First, the fixing part 100 of the circuit breaker for a gas insulated switchgear according to a preferred embodiment of the present invention as shown in Figures 2 and 3 attached largely the fixed side chamber 110, the fixed arc contact 120 and the guide body And 130.

This will be described in more detail for each component as follows.

First, the fixed side chamber 110 will be described.

The fixed side chamber 110 is a portion forming the appearance of the fixing part 100 constituting the circuit breaker for the gas insulated switchgear, and is formed in a cylindrical shape with a rear substantially closed.

In particular, a fixed contact 140 is provided in front of the fixed side chamber 110, and the fixed contact 140 is selectively connected to and energized with the movable contact 241 of the movable part 200.

In addition, a plurality of exhaust holes 111 are formed through the circumferential surface of the fixed side chamber 110.

At this time, each of the exhaust holes 111 is a portion which is generated during arc extinguishing and discharges hot gas flowing through the fixed side chamber 110 into the inner space of the enclosure 1.

Next, the fixed arc contact 120 will be described.

The fixed arc contact 120 is a series of components selectively connected to and energized by the movable arc contact 220 of the movable part 200, and the fixed side chamber 110 is located at a central side of the fixed side chamber 110. It is fixedly installed along the axial direction.

At this time, the fixed arc contact 120 and the fixed contact 140 is disposed so as to have a gap enough to allow the indentation of the nozzle 260 and the movable contact 241 constituting the movable portion 200.

Next, the guide body 130 will be described.

The guide body 130 is a series of guiding a flow for the hot gas provided to the fixing part 100 of the hot gas generated by arc arc when the separation between the fixed part 100 and the movable part 200 Configuration.

In particular, the guide body 130 according to an embodiment of the present invention is configured to guide the hot gas to flow for a long time after being configured to exhaust through each exhaust hole 111, which is the fixed side chamber ( This is to prevent the hot gas introduced into the 110 from being directly exhausted through each of the exhaust holes 111 formed in the fixed side chamber 110.

That is, the guide body 130 according to the embodiment of the present invention is installed between the fixed arc contact 120 and the inner wall surface of the fixed side chamber 110 and the tip (left side portion in the drawing) is fixed to the The rear end of the contactor 140 is fixed, and the rear end (right side portion in the drawing) is extended from the front end to the rear side, suggesting that it is formed to block each exhaust hole 111 of the fixed side chamber 110.

At this time, the rear end of the guide body 130 is located adjacent to the rear wall surface in the fixed side chamber 110, suggesting that it is formed to reach a position spaced apart by a gap enough to flow the hot gas .

In particular, each exhaust hole 111 of the fixed side chamber 110 has a boundary portion with a fixed contact 140 that is a relatively front side portion of the fixed side chamber 110 among the peripheral surfaces of the fixed side chamber 110. Most preferably. This is to allow the flow path of the hot gas to be maximized.

In addition, the embodiment of the present invention proposes that the guide body 130 is formed of a heat resistant material. This is to prevent the deterioration due to the hot gas as much as possible.

On the other hand, in the embodiment of the present invention, the hot gas flowing into the fixed side chamber 110 flows in the central portion of the rear wall surface in the fixed side chamber 110 between the guide body 130 and the fixed side chamber 110. It is suggested that the flow guide portion 160 which guides toward the circumferential surface in the fixed side chamber 110, which is a communication site, is further included.

At this time, the flow guide 160 is formed to be rounded to be inclined outward gradually toward the rear wall surface in the fixed side chamber 110 from the front center portion.

Hereinafter, the operation of the fixing part 100 of the circuit breaker for gas insulated switchgear according to the embodiment of the present invention configured as described above will be described.

First, when the circuit breaker performs an open operation as shown in FIG. 3 attached to the circuit breaker constituting the gas insulation switchgear as shown in FIG. As the movable part 200 is retracted by the retracting operation, the movable arc contactor 220 of the movable part 200 is separated from the fixed arc contactor 120 of the fixed part 100.

When the open operation is performed, an arc is generated between the movable arc contactor 220 and the fixed arc contactor 120, and together with the piston 250 in the popper cylinder 240 of the movable part 200. The arc extinguishing gas, SF ₆ gas, of the compressed extinguishing medium is injected through the nozzle 260 to extinguish the arc.

The SF ₆ gas is changed into hot gas at high temperature and high pressure while meeting the arc, and the hot gas is moved through the opened front surface of the movable arc contact 220 constituting the movable part 200. After passing through the inside of the contactor 220 into the inside of the movable shaft 210 and the fixed portion through the space between the fixed arc contact 120 and the fixed contact 140 constituting the fixed portion 100 It is introduced into the fixed side chamber 110 of the (100).

At this time, the hot gas introduced into the space in the fixed side chamber 110 as described above is guided by the guide body 130 installed in the fixed side chamber 110, the rear side space in the fixed side chamber 110 (Fig. Upper left space), and then through the gap space between the guide body 130 and the fixed side chamber 110, each exhaust hole 111 of the fixed side chamber 110 is flowed back to the front side. Afterwards it is discharged into the enclosure 1 through each of the exhaust holes 111.

Therefore, the temperature of the hot gas is gradually reduced by the long flow along the guide of the guide body 130, and the flow rate of the hot gas is also gradually reduced, thereby decreasing the insulation performance.

In particular, considering that the guide body 130 is formed of a heat resistant material, the temperature reduction of the hot gas proceeds more stably.

As a result, the circuit breaker is opened by the above-described series of processes.

1 is a schematic internal state diagram illustrating the internal structure of a circuit breaker for a conventional gas insulated switchgear;

Figure 2 is a schematic diagram showing the structure of the fixing part of the breaker for a gas insulated switchgear according to an embodiment of the present invention

3 is a schematic configuration diagram illustrating an operation state of a fixing part of a circuit breaker for a gas insulated switchgear according to an embodiment of the present invention;

Claims (6)

A fixed-side chamber which is formed to have a space in which hot gas flows, a rear of which is closed and a fixed contactor is provided at a front side thereof, and a plurality of exhaust holes are formed at a circumferential surface thereof; A fixed arc contactor fixedly installed along an axial direction in a central portion of the fixed side chamber and selectively connected to and energizing a movable arc contact of the movable portion; And, The hot gas is directly exhausted through the exhaust hole while guiding the flow of hot gas flowing through the space between the fixed contact and the fixed arc contact while being installed along the inner wall of the fixed arc contact and the fixed side chamber. Guide body for preventing the: Fixed part of the breaker for gas insulated switchgear characterized in that it is configured to include. The method of claim 1, Fixing part of the breaker for gas insulated switchgear, characterized in that the guide body is formed of a heat resistant material. The method of claim 1, The exhaust hole is formed in a portion adjacent to the fixed contact which is a relatively front portion of the fixed side chamber, The guide body is fixed to the circuit breaker for a gas insulated switchgear, characterized in that it extends from the rear of the fixed contact to the rear side to block the portion where the exhaust hole is formed. The method of claim 3, wherein The rear end of the guide body is located adjacent to the rear wall surface in the fixed side chamber, the breaker for a gas insulated switchgear, characterized in that it is formed to reach a position spaced apart by a gap enough to flow the hot gas Fixing part. The method of claim 4, wherein The central portion of the rear wall surface in the fixed side chamber further includes a flow guide unit for guiding the hot gas flowing into the fixed side chamber toward the circumferential surface of the fixed side chamber, which is a communication site between the guide body and the fixed side chamber. Fixing part of the circuit breaker for gas insulated switchgear, characterized in that configured. The method of claim 5, wherein The flow guide is Fixing part of the circuit breaker for gas insulated switchgear, characterized in that it is rounded to be inclined outward gradually toward the rear wall surface in the fixed side chamber from the front center portion.

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