KR20190003056U - Gas-insulated switch gear - Google Patents

Abstract

According to the present invention, a vacuum interrupter is disposed in an outer case and the outer case by an insulating medium, and wraps around an insulating supporter for fixing the vacuum interrupter by screws and the circumference of the screw, and the screw corresponds to the high voltage. The present invention provides a gas insulated switchgear including a shield member that uniformly diffuses the introduced charges and blocks the movement of the charges to the outer case through the insulating medium.

Description

Gas-insulated switchgear

The present invention relates to a gas insulated switchgear, and more particularly, to a gas insulated switchgear with improved insulation specification between the insulating supporter and the outer case to which the vacuum interrupter is fixed.

In general, the vacuum interrupter included in the gas insulated switchgear can provide excellent arc extinguishing performance for opening or closing a high voltage of more than 1000 Volts or tens of thousands of Volts by installing contacts in a vacuum. Or it is a power device that is mainly used as a core part of a vacuum circuit breaker or switchgear for opening and closing of an ultra high voltage power circuit.

Since these vacuum interrupters are always charged with high voltage, they must be fixed insulated inside a grounded outer case. The fixing of the vacuum interrupter inside the outer case is made by the insulating supporter. In the insulating supporter, a vacuum interrupter is fixed to the insulating supporter by a fastening member including a screw.

On the other hand, by filling the SF ₆ which is an inert gas between the vacuum interrupter and the outer case is filled with high pressure to electrically insulate the vacuum interrupter and the outer case, the high-voltage current of the vacuum interrupter is transmitted to the outer case to cause an accident prevent.

Of course, since the outer case is grounded, even when the vacuum interrupter and the outer case are connected, current flowing from the vacuum interrupter is taken out to the ground. However, since the vacuum interrupter is charged at a high voltage, there is a limit to the current flowing out through the ground. Therefore, the vacuum interrupter and the outer case must be electrically insulated by the inert gas.

However, the vacuum interrupter has the following problems. SF _{6, which} is used to electrically insulate the vacuum interrupter and the outer case, is a harmful gas, and when it is used as an insulating medium, there is a problem of environmental pollution. Moreover, since SF ₆ is an expensive gas, the cost of the vacuum interrupter is increased, and air is used as the insulating medium.

However, the gas insulated switchgear uses air as an insulating medium between the vacuum interrupter and the outer case, but the fastening member for fastening the vacuum interrupter and the insulating supporter, that is, in a specific part of the screw, for example, a pointed part. Since charges corresponding to the high voltage charged in the vacuum interrupter are concentrated and conducted to the outer case through the insulating medium, a problem of lowering the insulating property is generated, and research is being conducted to solve this problem structurally.

An object of the present invention is to provide a gas insulated switchgear with improved insulation characteristics between an insulating supporter to which a vacuum interrupter is fixed and an outer case.

The object of the present invention is not limited to the above-mentioned object, other objects and advantages of the present invention not mentioned can be understood by the following description, will be more clearly understood by the embodiments of the present invention. In addition, it will be readily appreciated that the objects and advantages of the present invention can be realized by the means and combinations thereof indicated in the utility model claims.

Gas insulation switchgear according to the present invention, a vacuum interrupter (vacuum interrupter) is disposed in the outer case and the outer case by an insulating medium, wraps around the insulation supporter and the screw for fixing the vacuum interrupter by screwing, The screw may include a shield member that uniformly diffuses the charge introduced in response to the high voltage, and blocks the movement of the charge to the outer case through the insulating medium.

The shield member may be aluminum and an aluminum alloy.

The shield member may be coupled to a coupling groove formed in the vacuum interrupter.

The coupling groove may prevent rotation of the shield member during rotation coupling of the screw.

The shield member may be formed in an elliptical upper portion.

The insulating supporter may include a screw coupling part coupled to the vacuum interrupter and the screw, and the shielding member may contact an upper side of the screw coupling part.

The shield member may be formed with a screw thread for coupling with the screw.

The gas insulated switchgear according to the present invention uses harmless and inexpensive air as an insulating medium, and forms a shield member that encloses the fastening member for fastening the insulating supporter and the vacuum interrupter in use of air, There is an advantage to improve the insulating characteristics between the outer case, that is, the vacuum interrupter and the outer case.

1 and 2 are a top view and a cross-sectional view as viewed from the top of the configuration except the outer case of the gas insulated switchgear according to the present invention.
3 and 4 are enlarged views illustrating various embodiments of an 'A' block shown in FIG. 2.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

The above objects, features, and advantages will be described in detail with reference to the accompanying drawings, whereby those skilled in the art to which the present invention pertains may easily implement the technical idea of the present invention. In describing the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 and 2 are a top view and a cross-sectional view as viewed from the top of the configuration except the outer case of the gas insulated switchgear according to the present invention.

1 and 2, the gas insulation switchgear 100 may include a vacuum interrupter 110, an insulation supporter 120, a screw 130, and a shield member 140.

Here, the gas insulated switchgear 100 may include an outer case (not shown) for accommodating the vacuum interrupter 110, the insulation supporter 120, the screw 130, and the shield member 140 therein. There is no limit.

The vacuum interrupter 110 is for energizing the normal current and blocking the fault current, and the movable conductor may perform the blocking and closing operation by horizontally moving the left and right or vertically moving up and down.

The vacuum interrupter 110 may include an insulating container 112, a movable electrode (not shown), and a fixed electrode (not shown).

First, although the insulating container 112 is made of a ceramic material, which is an electrical insulating material, as a container for accommodating the components of the vacuum interrupter 110, various materials having good insulating properties may be used, and the present invention is not limited thereto. In addition, the insulating container 112 is configured as a cylindrical shape in which both ends in the longitudinal direction is open, but is not limited thereto, and may also be a polygonal shape such as a rectangular shape or a pentagonal shape in which both ends are open.

The movable electrode may be configured as a conductive material electrode connected to a power transmission means such as a rod and a lever or a link and linearly movable by power transmitted to the power transmission means, for example, on the load side of the power circuit. Can be electrically connected.

In addition, the movable electrode may be formed with a movable contact (not shown) at one end facing the fixed electrode, and the movable contact may be formed of a metal material having conductivity, current blocking characteristics, and high withstand voltage performance. Do not put

The fixed electrode is an electrode having a fixed position, disposed to face the movable electrode, and may be electrically connected to a power supply side of a power circuit, for example. In addition, the fixed electrode may have a fixed contact (not shown) formed at one end facing the movable electrode, and may be formed of a metal material having conductivity and current blocking characteristics and high withstand voltage performance, without being limited thereto.

In addition, although not shown in the drawing, the insulating container 112 may include an accommodating member accommodating the movable electrode and the fixed electrode therein, and the accommodating member is generated when the movable electrode is separated from the fixed electrode. The inner wall of the insulated container 112 can be protected from the arc and the metal vapor around it.

The insulating supporter 120 fixes and supports the vacuum interrupter 110 and may be fixed inside the outer case. That is, the insulation supporter 120 may be disposed between the vacuum interrupter 110 and the external case in the inside of the outer case, and the vacuum interrupter 110 may be fixed to the inside of the outer case.

In this case, the insulating supporter 120 may be fixed to the inside of the outer case by a fastening device such as an adhesive, a screw, or the like, and may be attached and fixed to the inside of the outer case by an outsert molding method.

The insulating supporter 120 may be formed in any shape as long as it can support the vacuum interrupter 110 and fix the inside of the outer case. In the present invention, the insulating supporter 120 is formed to surround the vacuum interrupter 110. Can be.

The insulating supporter 120 may be made of a good insulating material such as epoxy, but is not limited thereto. In addition, the insulating supporter 120 and the outer case may be filled with an insulating medium, that is, air, and the insulating medium may electrically insulate the insulating supporter 120 and the outer case.

In this case, the insulating supporter 120 may be formed with a screw coupling portion 124 to be coupled to the vacuum interrupter 110 by a screw 130. That is, the screw coupling part 124 may allow the vacuum interrupter 110 to be fixedly supported by the insulating supporter 120.

Here, the screw 130 has a screw head may be formed in a circular shape, a pointed portion may be formed in the screw head manufacturing process, the pointed portion of the screw head is a vacuum interrupter 110 for charging a high voltage The charges transferred through the battery pack may be concentrated to destroy the insulation between the vacuum interrupter 110 and the outer case through the insulating medium filled between the insulating supporter 120 and the outer case.

In this case, the shield member 140 surrounds the circumference of the screw 130 and uniformly diffuses the charge introduced in response to the high voltage with the screw 130 to move the charge to the outer case through the insulating medium. As a result, the insulating property between the vacuum interrupter 110 and the outer case can be improved.

In addition, at least one portion of the shield member 140 may be coupled to a coupling groove (not shown) formed in the vacuum interrupter 110, and may be in contact with the surface of the vacuum interrupter 110 and the screw coupling part 124. There is no limit.

That is, the shield member 140 may be formed with a screw thread (not shown) for coupling with the screw 130. At this time, the coupling groove of the vacuum interrupter 110 is coupled to at least a portion of the shield member 140, to prevent the rotation of the shield member 140 when the screw 130 is rotationally coupled to the shield member 140. Can be.

In addition, the shield member 140 is a screw head of the screw 130 is located inside, can be coated with an insulating material on the screw head, but is not limited thereto.

That is, when the low insulating air is used as the insulating medium, the shield member 140 may protrude a screw head, that is, a tip of the screw 130, from the space between the vacuum interrupter 110 and the outer case to generate gas discharge. Can be prevented.

The gas discharge conducts electrical charge between the vacuum interrupter 110 and the outer case filled with an insulating medium, that is, air, so that current flows from the vacuum interrupter 110 to the outer case. Although the outer case is grounded, the current due to the charge flowing from the vacuum interrupter 110 is a high voltage current, so there is a limit to grounding it, and as a result, an accident may occur due to the inflow of charge.

Accordingly, the shield member 140 may diffuse the electric charge introduced into the screw 130, thereby preventing the electric current according to the electric charge from flowing into the outer case.

The shield member 140 is able to solve the problem that may occur by using air having a low insulating property as an insulating medium by diffusing the charge, thereby preventing discharge by an electric field.

Meanwhile, in the above description, the shielding member 126 is made of a metal material to diffuse the charge flowing into the screw 130, thereby shielding or weakening an electric field, and the gas according to the movement of the charge to the outer case. The discharge can be prevented from occurring.

In addition, the shield member 140 may have an elliptical shape at an upper portion thereof, thereby preventing concentration of either side during charge diffusion.

3 and 4 are enlarged views illustrating various embodiments of an 'A' block shown in FIG. 2.

First, referring to FIG. 3, the shield member 140 may be coupled to the screw 130 to be parallel to the screw head of the screw 130.

At this time, the shield member 140 is thicker than the screw 130, the portion is coupled to the coupling groove (h) formed in the vacuum interrupter 110, can increase the bonding force, the surface of the vacuum interrupter 110 Can be contacted.

The shield member 140 may prevent or block charge movement with an external case (not shown) generated by the charge concentrated at the screw head end of the screw 130 by diffusing the charge transferred to the screw 130.

In this case, the shield member 140 is shown to form an angle at the corner portion in the cross section, it may be preferably formed to achieve a curvature.

In addition, the shield member 140 may be fixed in contact with the screw coupling portion 124 of the insulating supporter 120, but is not limited thereto.

Referring to FIG. 4, the shield member 140 may have a large groove so that the screw head of the screw 130 is positioned therein.

That is, the shield member 140 shown in FIG. 4 is similar to the shield member 140 shown in FIG. 3, but the shield head 140 and the screw shown in FIG. 3 are exposed by allowing the screw head of the screw 130 to be exposed therein. There is an advantage that the screw head of the screw 130 does not protrude by the assembly tolerance between the 130.

Various modifications of the present invention or a structure that can be easily devised based on the present invention should also be included in the scope of the present invention. Therefore, the scope of the present invention should not be determined by the above detailed description, but should be determined by the appended utility model claims.

100: gas insulated switchgear 110: vacuum interrupter
120: insulation supporter 130: screw
140: shield member

Claims (7)

A gas insulated switchgear, in which a vacuum interrupter is disposed in an outer case and the outer case by an insulating medium,
An insulating supporter for coupling and fixing the vacuum interrupter with a screw; And
And a shield member wrapped around the screw and uniformly diffusing charge introduced in response to the high voltage with the screw to block movement of the charge to the outer case through the insulating medium.
Gas Insulated Switchgear.
The method of claim 1,
The shield member,
Which is aluminum and aluminum alloy,
Gas Insulated Switchgear.
The method of claim 1,
The shield member,
Coupled to a coupling groove formed in the vacuum interrupter,
Gas Insulated Switchgear.
The method of claim 3, wherein
The coupling groove,
To prevent the rotation of the shield member during rotational coupling of the out,
Gas Insulated Switchgear.
The method of claim 1,
The shield member,
The upper part is formed elliptical,
Gas Insulated Switchgear.
The method of claim 1,
The insulation supporter,
A screw coupling portion is formed to be coupled to the vacuum interrupter and the screw,
The shielding member,
In contact with the upper side of the screw coupling,
Gas Insulated Switchgear.
The method of claim 1,
The shield member,
A threaded thread for engaging with the screw is formed,
Gas Insulated Switchgear.

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