KR20140136825A - Switchgear - Google Patents

Abstract

A switchgear according to the present invention includes: an insulating housing which has an internal space filled with gas; a fixing conductor which is combined to the inside surface of the insulating housing; a rotor shaft which is combined to the center of the insulating housing to be rotated; and a moving conductor which is fixed and combined to the rotor shaft to be in contact with or separated from the fixing conductor by the rotation of the rotor shaft. A gas through-hole connecting the inside and the outside of the insulating housing is formed in the insulating housing, thereby circulating SF6 gas by simultaneously discharging SF6 gas polluted by arc right after the shutting operation of a switchgear LBS when an input operation is started, and maintaining a stable extinguishing performance even in repetitive shutting operations by reducing the SF6 gas pollution level of the switchgear.

Description

Switches {SWITCHGEAR}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a switch.

In recent years, Multi Circuit Switchgear or Ring Main Unit (RMU) has been extensively used for branching and separating distribution lines in the underground distribution system of electric power companies. The multi-circuit switch or the ring main unit is provided with a plurality of switches so as to protect the power system by shielding the line in an abnormal state such as a circuit break or a short circuit due to a normal state.

Depending on the insulation medium, the switchgear can be classified into an air-insulated switchgear, a solid-state insulated switchgear, and a gas-insulated switchgear. Among them, the gas insulated switchgear is a method of securing insulation by inserting insulated sulfur hexafluoride (SF6) gas into a disconnecting device and the like.

Grid, Grid, Puffer method, etc. are available for the soho system of switchgear. The present invention intends to improve the performance of the apparatus by supplementing the disadvantages of the pressure-less system and maintaining the advantages efficiently.

FIG. 1 is a perspective view showing an appearance of a conventional RMU, FIG. 2 is a front view showing the interior of the RMU according to FIG. 1, and FIG. 3 is a sectional view showing an open state of the LBS in the RMU according to FIG.

1 and 2, the RMU 1 includes a tank unit 2 filled with SF6 gas and provided with a plurality of switches 10, And a lower frame 4 provided at a lower portion of the tank portion 2 to support the tank portion 2 and to which a cable is installed.

3, the switchgear 10 includes an insulating housing 11 sealed with an inner space, a plurality of main circuit side fixing parts 11a fixedly coupled to the inner peripheral surface of the insulating housing 11 at regular intervals along the circumferential direction, A rotor shaft 13 which is rotatably coupled through a center of the insulating housing 11 and a rotor shaft 13 which is coupled to the rotor shaft 13, And a movable conductor 14 which selectively contacts or disconnects the fixed conductor 12a by rotation of the fixed conductor 12a to switch the switch 10 to a closed state or an open state.

The rotor shaft 13 is coupled with a pressure generator 15 and the movable conductor 14 is coupled to the pressure generator 15.

In the figure, the reference numeral 12b is a ground-side fixed conductor.

The movable conductor 14 is selectively brought into contact with or separated from the fixed conductor 12a in accordance with the rotation direction of the rotor shaft 13 so that the switch 10 is switched to the closing state or switched to the open state .

4, when the rotor shaft 13 rotates in the counterclockwise direction, the movable conductor 14 coupled to the rotor shaft 13 is separated from the fixed conductor 12a The switch 10 is switched to the open state as shown in Fig.

At this time, in the process of rotating the rotor shaft 13 at a high speed in order to switch from the closing state to the open state, the gas inside the insulating housing 11, which is filled in the direction in which the rotor shaft 13 rotates, Is instantaneously compressed by the pressure generation unit (15) of the rotor shaft (13), and this gas passes through the pressure generation unit (15) of the rotor shaft (13) and exits in the opposite direction. In this process, the gas passes through the pressure generating unit 15 of the rotor shaft 13 at a high speed, and the arc extinguishing operation proceeds.

However, when the internal space of the insulating housing 11 is closed, when the opening / closing operation is repeated or when a high current is repeatedly blocked, the conventional switch as described above is not operated by the arc heat in the inside of the insulating housing 11 The polluted gas is filled up, and when it gets worse, there is a problem that the opening and closing performance or the blocking performance are adversely affected and the performance of the circuit breaker is rapidly deteriorated.

SUMMARY OF THE INVENTION An object of the present invention is to provide a switch capable of smoothly exhausting a gas inside an insulating housing to the outside of the insulating housing, thereby preventing performance deterioration of the switch.

In order to accomplish the object of the present invention, A fixed conductor fixedly coupled to an inner circumferential surface of the insulating housing; A rotor shaft rotatably coupled to the center of the insulating housing; And a movable conductor fixedly coupled to the rotor shaft and being in contact with or separated from the fixed conductor according to rotation of the rotor shaft, wherein the insulating housing is provided with an opening / closing valve having a gas hole communicating the inside / outside of the insulating housing .

Here, the gas hole may be formed outside the rotation range of the rotor shaft.

In addition, a partition wall defining the inner space of the insulating housing may be formed inside the insulating housing, and the gas hole may be formed adjacent to a point where one side of the partition wall meets an inner circumferential surface of the insulating housing.

The partition wall may be provided with a guide protrusion for guiding the gas filled in the inner space of the insulating housing to the gas passage.

According to the present invention, the SF6 gas contaminated by the arc is discharged simultaneously with the closing operation immediately after the closing operation of the switch (LBS) to circulate the SF6 gas, thereby lowering the contamination degree of the SF6 gas inside the switch, Soho ability can be maintained.

1 is a perspective view showing an appearance of a conventional RMU,
FIG. 2 is a front view showing the inside of the RMU according to FIG.
3 is a sectional view showing the open state of the switch (LBS) in the RMU according to FIG. 2,
FIG. 4 is a sectional view showing the state of the switch in the RMU according to FIG. 2,
FIG. 5 is a cross-sectional view illustrating a process of switching the switch from the closing state to the open state of FIG.
6 is a perspective view showing the appearance of the switch according to the present invention,
FIG. 7 is a perspective view of a part of the switch shown in FIG. 6,
FIG. 8 is a sectional view showing the open state of the switchgear (LBS) in the RMU according to FIG. 7,
FIG. 9 is a sectional view showing the closing state of the switch in the RMU according to FIG. 7,
10 is a sectional view showing the process of switching the state of the switch according to FIG. 9 from the closing state to the open state,
11 is a sectional view showing another embodiment of the switch according to FIG.

Hereinafter, the switch according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

FIG. 6 is a perspective view showing an external appearance of the switch according to the present invention. FIG. 7 is a perspective view of a part of the switch shown in FIG. 6, and FIG. 8 is a cross- Sectional view.

Referring to FIG. 2, the switchgear 100 according to the present embodiment may be installed in a plurality of rows in a tank 2 of an RMU 1 filled with SF6 gas.

The switchgear 100 includes an insulating housing 110 having an inner space and a plurality of fixed conductors fixedly coupled to the inner circumferential surface of the insulating housing 110 at regular intervals along the circumferential direction And a grounding side fixed conductor. Hereinafter, the fixed conductor refers to a main circuit side fixed conductor) 121, a rotor shaft 130 rotatably coupled through the center of the insulating housing 110, A movable conductor 130 that is coupled to the rotor shaft 130 and is selectively brought into contact with or separated from the fixed conductor 121 by rotation of the rotor shaft 130 so as to switch the switch to a close state or an open state, 140).

The insulating housing 110 is made of an insulating material such as resin, and is formed into a semi-cylindrical shape in which a pair of left and right sides are symmetrical to each other, and can be joined in a cylindrical shape.

The front and rear ends of the insulating housing 110 are formed with a front and a rear faces so as to have a closed structure. A shaft hole 130 is formed at the center of the front and rear faces so that the rotor shaft 130 is rotatably inserted. .

The front and rear surfaces of the insulating housing 110 are longitudinally connected to each other in a longitudinal direction to divide the inner space of the insulating housing 110 into a plurality of left and right spaces. A plurality of lateral partition walls 113 extending in the radial direction at predetermined intervals along the longitudinal direction and partitioning the inner space of the insulating housing 110 into a plurality of longitudinal spaces, Can be formed. That is, the inner space of the insulating housing 110 may be divided into two spaces by the longitudinal partition wall portion 112 and three spaces by the lateral partition wall portion 113 to be divided into six spaces in total. Therefore, two of the fixed conductors 121 are provided for each space, and the movable conductors 140 may be installed so that three pairs of left and right, and six of the movable conductors 140 can be placed in the respective spaces.

A plurality of gas holes 115 may be formed in the side surface of the insulating housing 110. When the rotor shaft 130 rotates at a high speed in the direction in which the rotor shaft 130 is opened, the gas in the rotating direction is compressed and passes through the pressure generating unit 131, which will be described later, The fixed conductors 121 may be formed on one side of the space, that is, on one side of the fixed conductors 121 with reference to two fixed conductors 121.

The gas hole 115 may be formed in a position past the fixed conductor 121 at a position where the fixed conductor 121 is opened, that is, at a position where the movable conductor 140 is opened. However, Is formed at a point between the vertical partition wall portion 121 and the longitudinal partition wall portion 112, in particular, the vicinity of the longitudinal partition wall portion 112, that is, the point at which the longitudinal partition wall portion 112 and the side surface of the insulating housing 110 are in contact with each other Lt; / RTI >

The gas hole 115 may be formed in a circular shape as shown in the drawing, but it may be formed long in the longitudinal direction or may be formed by scattering a plurality of gas so that a large amount of polluted gas is discharged.

As shown in FIG. 8, the fixed conductors are arranged in a total of twelve total of the main circuit side fixed conductors 121 and the ground side fixed conductors 122, one for the main circuit side fixed conductors and one for the ground side fixed conductors And the main circuit side fixed conductors 121 and the ground side fixed conductors 122 disposed in the respective spaces may be radially arranged at regular intervals along the circumferential direction. The main circuit side fixed conductor 121 and the ground side fixed conductor 122 in another space can be arranged in a straight line along the longitudinal direction.

In this case, the gas-contamination does not occur because the ground-side fixed conductor 122 does not perform a separate shut-off operation, while the main circuit-side fixed conductor 121 generates gas contamination during the shutdown operation, A gas passage hole 115 to be described later may be formed on one side of the main circuit side fixed conductor 121 in order to discharge the gas.

The rotor shaft 130 may be coupled with a pressure generating unit 131 extending in the left-right direction and having a predetermined height and width. The pressure generating unit 131 is disposed in each space of the insulating housing 110 and one movable conductor 140 may be coupled to each of the pressure generating unit 131.

The switch according to the present embodiment as described above has the following operational effects.

That is, the movable conductor 140 is selectively brought into contact with or separated from the fixed conductor 121 along the direction in which the rotor shaft 130 rotates, so that the switch can be switched to the closing state or can be switched to the open state.

9, when the rotor shaft 130 rotates in the counterclockwise direction, the movable conductor 140 coupled to the rotor shaft 130 is separated from the fixed conductor 121, Is switched to the open state as shown in Fig. At this time, an arc is generated between the fixed conductor 121 and the movable conductor 140.

10, the gas inside the insulating housing 110, which is filled in the direction of rotation of the rotor shaft 130 (hereinafter referred to as a low contamination space), is supplied to the pressure generating unit 131 of the rotor shaft 130 And the gas passes through the pressure generation portion 131 of the rotor shaft 130 and exits at a high speed toward the opposite direction (hereinafter referred to as a high contamination space), thereby extinguishing the arc.

However, when the rotor shaft 130 rotates in the clockwise direction for the closing operation, the pressure generating unit 131, which is coupled to the rotor shaft 130, The gas staying in the highly contaminated space is pushed out and discharged to the outside of the insulating housing 110 through the gas hole 115.

The contaminated gas discharged to the outside of the insulating housing 110 is mixed with other gases in the internal space of the tank portion 2 accommodating the insulating housing 110 to reduce the degree of contamination, The gas filled in the inner space of the insulating housing 110 flows into the inner space of the insulating housing 110 through the gas hole 115 or the gap of the insulating housing 110. [

In this way, SF6 gas contaminated by the arc immediately after the closing operation of the switch (LBS) is discharged simultaneously with the closing operation to circulate the SF6 gas, thereby lowering the contamination degree of the SF6 gas in the switch, have.

11, a guide protrusion 116 for guiding the gas to the gas hole 115 may be formed in the longitudinal partition wall portion 112. As shown in FIG. The guide protrusion 116 may be curved or inclined toward the gas passage hole 115. As a result, the performance of the circuit breaker can be improved as the contaminated gas pushed by the pressure generating unit 131 is smoothly guided to the gas hole 115 by the guide protrusion 116.

110: Insulation housing 111: Football yoke
112: longitudinal partition wall portion 113: lateral partition wall portion
115: gas cylinder hole 116:
121, 122: fixed conductor 130: rotor shaft
131: pressure generating unit 140: movable conductor

Claims (6)

An insulating housing in which gas is filled in the inner space;
A fixed conductor fixedly coupled to an inner circumferential surface of the insulating housing;
A rotor shaft rotatably coupled to the center of the insulating housing; And
And a movable conductor fixedly coupled to the rotor shaft and being in contact with or separated from the fixed conductor according to rotation of the rotor shaft,
Wherein the insulating housing has a gas hole communicating the inside and the outside of the insulating housing. The method according to claim 1,
And the gas hole is formed outside the rotation range of the rotor shaft. The method according to claim 1,
A partition wall for partitioning an inner space of the insulating housing is formed inside the insulating housing,
Wherein the gas hole is formed adjacent to a point where one side of the partition wall meets an inner circumferential surface of the insulating housing. The method of claim 3,
And the guide block is formed in the partition wall part to guide the gas filled in the inner space of the insulating housing to the gas passage. 5. The method according to any one of claims 1 to 4,
Wherein the gas hole is formed at a position past the fixed conductor at a position where the movable conductor is opened. The method according to claim 3 or 4,
And the gas hole is formed between the fixed conductor and the partition wall portion.

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