KR100915965B1 - Circuit Breaker of moving conductor in a Gas Insulation switchgear - Google Patents

Abstract

The present invention relates to a gas insulated switchgear (GIS), and more specifically, to effectively extinguish arcs generated when the breaker is blocked, and to prevent breakdown of the outer body of the gas insulated switchgear. The present invention relates to a new type of gas insulated switchgear that is easily removable.

To this end, the present invention is formed with a hollow pipe inside the front and rear open state, the movable front contact is coupled to the opened front surface, the rear side circumferential surface is a piper pipe formed with a plurality of exhaust holes; A pipe body made of Teflon material which is inserted into the front space of the popper pipe so as to be replaced so as to form a hollow pipe to guide the flow of hot gas; A pipe guide inserted into a rear space of the paper pipe to guide the flow of hot gas exhausted through the respective exhaust holes; A movable part of a circuit breaker for a gas insulated switchgear is provided, comprising: a rod coupling end for engaging with an insulating rod while being coupled to a rear surface of the pipe guide.

Gas insulated switchgear, circuit breaker, moving parts, pipe body, pipe guide

Description

Circuit Breaker of moving conductor in a Gas Insulation switchgear

The present invention relates to a gas insulated switchgear (GIS), and more particularly, to effectively extinguish arcs generated when the breaker is blocked, and to break the insulation with the external body forming the gas insulated switchgear. The present invention relates to a new type of gas insulated switchgear which can be prevented and is easily removable.

In general, Gas Insulation Switchgear (GIS) uses insulation gas (SF6) with excellent insulation performance and arc extinguishing function in a metal sealed container (tank) as an insulating medium to store conductors and various protective devices for reliability. It is an improved water substation facility and consists of various components such as circuit breaker, disconnecting switch, and earthing switch.

Among the above components of the gas insulated switchgear, the popper pipe of the movable part constituting the breaker moves the movable part during operation of the manipulator while being connected to the insulating rod while supporting the pap cylinder, and the hot gas blown out of the chamber through the pipe exhaust hole. Plays a role in discharging.

1 is a view illustrating a structure of a movable part of the above-described conventional gas insulated switchgear breaker, and FIG. 2 is a view illustrating a structure of a paper pipe among the movable parts of the above-described conventional gas insulated switchgear breaker. .

As can be seen through this, the conventional common piper pipe 10 is formed as a pipe that is opened inside, the front of the mover coupling end 20 for coupling with the movable portion contact 11 is installed, the insulating rod ( Rod coupling end 40 is coupled to the 60 is installed.

In addition, the exhaust hole 12 is formed along the circumferential surface of the rear side portion of the paper pipe 10, and the rear side of the portion where the exhaust hole 12 is formed in the inner space of the paper pipe 10. A pipe guide 30 for guiding the flow of air exhausted through the exhaust hole 12 is installed.

At this time, the mover coupling end 20, the pipe guide 30 and the rod coupling end 40 are each made of a metal material and is fixed in a welded state to the popper pipe 10.

In addition, the gas inlet 21 penetrates the movable coupling end 20 therein.

Therefore, when the breaker is opened, the movable contact 11 is detached from the fixed contact 50 due to the retraction of the insulating rod 60, and between the fixed contact 50 and the movable contact 11. Due to the release, arcs are generated between each other. At this time, the arc extinguishing medium SF ₆ (sulfur hexafluoride) gas compressed inside the breaker is injected through the nozzle to extinguish the arc.

In addition, when extinguishing the arc as described above, the SF ₆ gas is changed into hot gas at a high temperature and high pressure while meeting the arc, and the hot gas is connected to the gas inlet 21 of the mover coupling stage 20. After passing through the popper pipe 10, the exhaust gas is exhausted into the outer space of the gas insulated switchgear through the exhaust hole 12 formed at the rear side of the popper pipe 10. The pipe is guided by the pipe guide 30 installed in the rear space in the 10 and is exhausted to the exhaust hole 12 while being guided.

However, the movable part of the gas insulated switchgear according to the related art described above has various problems as described below.

First, since the mover coupling end 20 coupled to the front surface of the paper pipe 10 is fixed to the paper pipe 10 by welding, it is difficult to change the shape as necessary.

That is, since the mover coupling stage 20 has recently emerged as an important part of controlling the pressure increase effect in the multi-disciplinary circuit breaker, the length and size of the flow path through which the hot gas flows are adjusted according to the set. Although it should be formed, it is extremely inconvenient to separate from the paper pipe 10 when performing the repeated test for changing the length or size of the flow path because it is welded and fixed with the paper pipe 10 as described above.

In particular, there is a problem that the foreign matter (or foreign matter generated during the welding operation) generated at the welding site is applied as a factor that destroys the insulation.

Second, the conventional mover coupling end 20 is formed of a metal material for fixing the welding, so that the inner wall of the gas inlet 21 of the mover coupling end 20 during the passage of hot gas is described above. Due to the hot gas, there is a problem in that gradually changing the shape (eg, increasing the gas inlet diameter, etc.) occurs, so that the extinguishing performance is deteriorated.

Third, the metal foreign matter dissolved from the inner wall of the gas inlet 21 of the mover coupling stage 20 by the hot gas and flows along with the hot gas is continuously accumulated in the exhaust hole while being exhausted through the exhaust hole. As piled up, the insulation distance between the outer body (not shown) of the actual gas insulated switchgear and the outer circumferential surface of the popper pipe 10 is gradually closer, thereby causing a breakdown of the insulation.

In addition, when the amount of metal foreign matters exhausted through the exhaust hole 12 is excessively large, the metal foreign matters may form a conductive flow path between the outer body of the gas insulated switchgear and the outer circumferential surface of the popper pipe 10. There is a problem that the breakdown occurs.

Fourth, since the movable mover coupling stage 20 is rapidly heated by hot gas in consideration of the metallic material, the pressure increase effect and the cooling effect in the circuit breaker are lowered, and thus the arc cannot be effectively extinguished.

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 effectively extinguish the arc generated when the breaker is blocked, and with the outer body forming the gas insulated switchgear The present invention provides a new type of gas insulated switchgear which can be prevented from breaking and is easily removable.

In order to achieve the above object, the movable part for a gas insulated switchgear according to the present invention is formed of a hollow pipe having an open front and rear sides, and a movable part contact is coupled to the opened front, and a plurality of rear side peripheral surfaces are provided. A piper pipe through which exhaust holes are formed; A pipe body made of Teflon material which is inserted into the front space of the popper pipe so as to be replaced so as to form a hollow pipe to guide the flow of hot gas; A pipe guide inserted into a rear space of the paper pipe to guide the flow of hot gas exhausted through the respective exhaust holes; It is characterized in that it comprises a rod coupling end: coupled to the back of the pipe guide and coupled to the insulating rod.

Here, fastening holes for fastening the bolts to each other are formed on the front circumferential surface of the popper pipe and the circumferential surface of the pipe body corresponding thereto.

In addition, the front inner peripheral surface and the rear inner peripheral surface of the pipe body is characterized in that the pipe is gradually reduced.

In addition, the pipe guide is characterized in that formed of Teflon material.

In this case, the central portion of the pipe guide is formed to have the same outer diameter as the inner diameter of the piper pipe, the front portion of the pipe guide is formed to gradually decrease in diameter toward the front side, the rear portion of the pipe guide It is formed stepped so as to have a smaller outer diameter than the central portion, characterized in that the fastening hole for fastening the bolt with the rod coupling end is formed in the rear of the pipe guide.

In addition, a stepped stepped portion is formed at a rear side portion of the movable part contact so as to be screwed to the front inner circumferential surface of the popper pipe, and the thickness of the stepped part forming the movable part contact is the same as that of the pipe body, or It is characterized by being formed thicker.

The movable part of the breaker for gas insulated switchgear of this invention as mentioned above has various effects as mentioned later.

First, the movable part of the breaker for a gas insulated switchgear according to the present invention to maximize the cooling effect of the hot gas by passing the hot gas generated by the extinguishing action during the ON operation of the breaker passes through a pipe body formed of Teflon material It is possible to have an effect that the blocking effect is improved.

Second, the movable part of the breaker for gas insulated switchgear according to the present invention does not generate foreign substances dissolved by hot gas because the pipe body is made of Teflon material, thereby preventing the breakdown of the insulation. Have

Third, the movable part of the breaker for gas insulated switchgear according to the present invention is configured such that the pipe body, the movable part contact, and the pipe guide and the rod coupling end are easily detachably coupled to each other to facilitate the joining operation and foreign matters due to the welding joint. Has the effect that occurrence of can be prevented.

Fourth, since the moving part of the breaker for gas insulated switchgear according to the present invention is made of a Teflon material, the pipe can be easily processed into an appropriate shape, and the optimal flow path design can be conveniently made, and the overall weight is light. The weight of the movable part set can be reduced.

Hereinafter, with reference to Figures 3 to 5 attached to a specific embodiment for the implementation of the present invention.

First, as shown in FIG. 3, the movable part of the circuit breaker for a gas insulated switchgear according to the preferred embodiment of the present invention is largely a paper pipe 100, a pipe body 200, a pipe guide 300, and a rod coupling end ( 400).

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

First, the paper pipe 100 will be described.

The popper pipe 100 supports a popper cylinder (not shown) in the breaker constituting the gas insulated switchgear, and discharges hot gas generated when the breaker operates.

The piper pipe 100 as described above is formed of an empty pipe in an open state of the front and rear surfaces, and the movable contact 110 is coupled to the opened front surface, and a plurality of exhaust holes are formed on the rear circumferential surface thereof. 120 is formed through.

Here, the movable part contact 110 is a series of components that are selectively connected to the fixed part contact 50, as shown in Figure 4 attached to the front side, the inside is opened so that the fixed part contact 50 can be recessed Formed into a pipe shape.

In addition, the rear side portion of the movable part contact 110 is formed with a stepped stepped portion 111 so as to be recessed in the inner circumferential surface of the popper pipe 100, and coupled to the front inner circumferential surface of the popper pipe 100 in a screw structure. It is formed to be. That is, spirals are formed along the outer circumferential surface of the stepped part 111, and spirals corresponding to the spirals of the stepped part 111 are formed on the inner circumferential surface of the front side piper pipe 100.

In particular, the thickness formed by the stepped part 111 is formed to be the same as or thicker than the thickness of the pipe body 200 to be described later, which is introduced into the pipe body 200 through the movable part contact 110. This is to minimize the occurrence of resistance to the flow of hot gas to facilitate the flow.

Next, the pipe body 200 will be described.

The pipe body 200 is a series of configurations for guiding the flow of hot gas introduced into the popper pipe 100 through the movable part contact 110, and is inserted into and installed in the front space in the popper pipe 100. To form a hollow pipe shape to guide the flow of hot gas.

In particular, the embodiment of the present invention is characterized in that the pipe body 200 is formed of a Teflon material.

Since the Teflon material itself has a cold property, such a configuration may not only play a role of dropping heat of hot gas passing through the pipe body 200, but also melted and dislodged by the hot gas. In order to prevent the problems with the various dielectric breakdown due to the solubility.

In addition, the pipe body 200 is formed of a Teflon material as described above has the advantage that it is easy to process the shape as needed and light.

In addition, the embodiment of the present invention is characterized in that the pipe body 200 is installed to be replaced in the inner space of the front side of the paper pipe pipe (100).

This makes it possible to easily replace the pipe body 200, so that the work such as fixing or separating the pipe body 200 to the piper pipe 100 for the load-specific experiment of the gas insulated switchgear is made convenient. To do so.

In this case, in order to selectively fix the pipe body 200 to prevent the flow thereof in the popper pipe 100, in the embodiment of the present invention, the front circumferential surface of the popper pipe 100 and the corresponding side surface thereof are corresponding thereto. The fastening holes 101 and 201 are formed in the circumferential surface of the pipe 200, respectively, to suggest that the bolts can be fastened to each other.

In addition, the front inner circumferential surface and the rear inner circumferential surface of the inner circumferential surface of the pipe body 200 are formed to gradually reduce the pipe toward the central portion of the pipe body 200.

At this time, the diameter and length of the flow path formed by the pipe body 200 is set differently according to the size or capacity of the movable portion of the gas insulation switchgear, which is appropriately changed when setting the gas insulation switchgear.

Next, the pipe guide 300 will be described.

The pipe guide 300 is inserted into and installed in the rear space in the popper pipe 100 to exhaust the flow of hot gas exhausted through each exhaust hole 120 formed in the rear circumferential surface of the popper pipe 100. It is a set of configurations that serves as a guide.

In the embodiment of the present invention, the pipe guide 300 is characterized by being formed of a Teflon material.

In addition, the central side portion of the pipe guide 300 is formed to have the same outer diameter as the inner diameter of the papper pipe 100, the front side portion of the pipe guide 300 is formed so that the diameter is gradually reduced toward the front The rear side portion of the pipe guide 300 is formed stepped to have a smaller outer diameter than the central side portion, and the bolt coupling with the rod coupling end 400 to be described later on the rear surface of the pipe guide 300. Fastening hole 301 for the recess is formed.

Next, the rod coupling end 400 will be described.

As described above, the rod coupling end 400 is a series of components in which the rod coupling end 400 is coupled to the rear surface of the pipe guide 300 and coupled with the insulating rod 60.

At this time, the front portion of the rod coupling end 400 is formed stepped so as to be recessed mounted between the rear circumferential surface of the pipe guide 300 and the rear inner circumferential surface of the piper pipe 100, the partition wall ( A 410 is formed and a fastening hole 411 for fastening a bolt with the rear surface of the pipe guide 3000 is formed in the partition 410.

In particular, the front side portion of the rod coupling end 400 is configured to be screwed to the inner circumferential surface of the popper pipe 100 so that the stable fixing of the pipe guide 300 in the popper pipe 100 can be made. It is composed.

In the following, it will be described in detail the coupling process and operation of the movable portion of the circuit breaker for gas insulated switchgear according to the preferred embodiment of the present invention configured as described above.

First, the pipe body 200 is inserted through the front side of the prepared piper pipe 100.

In this case, the pipe body 200 is designed in such a way that the length and diameter of the flow path are optimized to increase the pressure of the hot gas according to the capacity of the gas insulated switchgear breaker.

And, as described above, the pipe body 200 inserted into the front side in the piper pipe 100 through each other through the fastening holes (101,201) formed to correspond to the peripheral surface of the piper pipe 100 and the pipe body 200, respectively Bolt the liver. Accordingly, the flow of the pipe body 200 can be prevented.

In particular, in order to design the shape of the pipe body 200 in an optimized state, a number of repetitive factors (for example, the length and size of the flow path of the pipe body) may be changed. Repetitive detachment of the) proceeds, but since the pipe body 200 is configured to be fastened by bolting in the popper pipe 100 as described above, the operator may repeatedly remove the detachment and change the shape of the pipe body 200. It can be done easily, enabling optimum design.

Next, the movable part contact 110 is coupled to the front surface of the popper pipe 100.

In this case, the movable part contact 110 is fixed to the paper pipe 100 by screwing the stepped part 111 to the inner peripheral surface of the front side of the popper pipe 100, in which case the movable part contact 110. The rear end of the stepped portion 111 is in close contact with the front surface of the pipe body 200 in the papper pipe 100.

Next, the pipe guide 300 and the rod coupling end 400 is bolted to each other.

This is achieved by inserting the stepped rear portion of the pipe guide 300 into the front inner circumferential surface of the rod coupling end 400 and then fastening the two fastening holes 301 and 411 corresponding to each other with bolts.

For this reason, the pipe guide 300 and the rod coupling end 400 is integral with each other, and then the pipe guide 300 is installed through the back of the opening of the popper pipe 100.

At this time, the front circumferential surface of the rod coupling end 400 is threadedly coupled to the rear inner peripheral surface of the paper pipe pipe 100, so that the pipe guide 3000 is stable in the rear space in the paper pipe pipe 100. Will remain coupled.

Of course, a series of processes for inserting and fixing the pipe guide 300 coupled to the rod coupling end 400 into the popper pipe 100 is a series of inserting and installing the pipe body 200 into the above-described popper pipe 100. It can also be done before the process.

In addition, after the above-described series of processes are completed, the movable part is completed by additional coupling of other components (not shown) constituting the movable part of the breaker, such as a nozzle cover or a main contact.

Next, the operation of the movable part of the circuit breaker for gas insulated switchgear of the present invention configured as described above will be described.

First, when the circuit breaker performs the open operation as shown in FIG. 5 in a state in which a close operation of the circuit breaker constituting the gas insulated switchgear as shown in FIG. As the movable part is retracted by the retracting operation, the movable part contact 110 of the movable part is separated from the fixing part contact 50 of the fixed part.

When such an open operation is performed, an arc is generated between the movable contact 110 and the fixed contact 50, and the SF ₆ gas of the extinguishing medium compressed inside the breaker is nozzle (not shown). And extinguish the arc while spraying through.

The SF ₆ gas is changed into hot gas of high temperature and high pressure while meeting the arc, and the hot gas is inside the movable part contact 110 through an opened front surface of the movable part contact 110 constituting the movable part. In addition to being flowed into the pipe body 200 is continuously passed through the inside of the paper pipe 100.

At this time, the pressure increase effect on the hot gas is provided by a sufficient flow path length and size by the pipe body 200, and in particular, the cooling effect on the hot gas is due to the material characteristics of the pipe body 200. It is also provided to have the effect of reducing the heat of the hot gas to improve the blocking performance.

In addition, due to the material characteristics of the pipe body 200, the solubility due to the hot gas is not generated, and thus the insulation breakdown by foreign matters according to the solubility can be prevented in advance.

And, as described above, the hot gas flowing through the pipe body 200 and flowing in the inner space of the paper pipe 100 is guided by the pipe guide 300 mounted in the rear space in the paper pipe 100. It is exhausted to the outside through each exhaust hole 130 of the paper pipe 100.

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 cross-sectional view showing for explaining the structure of the popper pipe of the movable portion of the conventional gas insulated switchgear breaker

Figure 3 is an exploded view showing for explaining the relationship between the components of the movable portion of the breaker for gas insulated switchgear according to an embodiment of the present invention

4 and 5 are cross-sectional views for explaining the operating state of the movable portion of the breaker for gas insulated switchgear according to the embodiment of the present invention.

Claims (7)

A piper pipe having an interior of the front and rear surfaces of the pipe formed in an empty pipe, a movable part contact being detachably coupled to the opened front surface, and a plurality of exhaust holes penetrating through the rear circumferential surface; A pipe body made of Teflon material which is inserted into the front space of the popper pipe so as to be replaced so as to form a hollow pipe to guide the flow of hot gas; A pipe guide inserted into a rear space of the paper pipe to guide the flow of hot gas exhausted through the respective exhaust holes; Movable part of the circuit breaker for gas insulated switchgear, characterized in that it comprises a rod coupling end: coupled to the back of the pipe guide and coupled to the insulating rod. The method of claim 1, Movable part of the circuit breaker for gas insulated switchgear, characterized in that the fastening hole for fastening the bolt between each other is formed on the front circumferential surface and the circumferential surface of the pipe body corresponding thereto. The method of claim 1, The front side inner circumferential surface and the rear inner circumferential surface of the pipe body is a movable portion of the circuit breaker for gas insulated switchgear, characterized in that the pipe is gradually reduced toward the inner side of the pipe body. The method of claim 1, The pipe guide is a movable part of the breaker for gas insulated switchgear, characterized in that formed of Teflon material. The method of claim 4, wherein The central side portion of the pipe guide is formed to have an outer diameter equal to the inner diameter of the popper pipe, The front side portion of the pipe guide is formed to gradually decrease in diameter toward the front side, The rear side portion of the pipe guide is formed stepped to have a smaller outer diameter than the central portion, The rear of the pipe guide movable part of the breaker for gas insulated switchgear, characterized in that the fastening hole is formed for the fastening of the bolt with the rod coupling end. The method of claim 1, Movable part of the breaker for gas insulated switchgear, characterized in that the stepped stepped portion is formed in the rear side portion of the movable portion contact to be screwed to the front inner circumferential surface of the popper pipe. The method of claim 6, The movable part of the breaker for a gas insulated switchgear, characterized in that the thickness of the step portion forming the movable portion contact is the same or thicker than the thickness of the pipe body.

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