KR101154828B1 - Busbar connector for switchgear - Google Patents

Abstract

PURPOSE: A bus bar connector is provided to embed three phase bus lines which are connected to a switch and to combine three phase bus lines. CONSTITUTION: A connector body(100) is connected to a three phase housing of a switch. A flange for coupling is formed in one end of the connector body. Three phase bus lines(200) are accepted within the connector body. A bus lines connection member connects the three phase housing and the three phase bus lines. Three accepting space units are formed in the connector body.

Description

Busbar connector for switchgear {busbar connector for switchgear}

The present invention relates to a busbar connector for switchgear, and more particularly, to a busbar connector for switchgear that allows a three-phase busbar connected to the switchgear integrally and shorten the length by a predetermined unit. .

In general, the switchgear is used to deliver a high voltage power of 22,000V or more to industrial facilities such as factories.

The switchgear has a housing having a structure for blocking and injecting (connecting) a high voltage current so as to be connected to a load such as a power generator, and a main movable contact having a fixed conductor and a movable conductor installed in the housing to conduct current. And a power transmission member for operating the main movable contact.

The switchgear is provided with a three-phase bus bar for receiving current from the power supply side and conducting current to the load side.

Hereinafter, a bus bar connection structure of a switchgear according to the related art will be described with reference to FIG. 1.

As shown, the bus bar connection structure of the switchgear according to the related art protects the three-phase bus bar 20 extending in the longitudinal direction in which the plurality of housings 10 are installed, and the bus bar 20 in a state of wrapping. It comprises an insulating tube 30, and a connecting piece 40 for electrically connecting the housing 10 and the bus bar 20.

However, the bus bar connection structure of the switchgear according to the related art has a three-phase bus bar 20 connected to the plurality of housings 10, so that each of the insulation pipes 30 constitutes a lot of installation space due to the increase in configuration. In addition to the occupied structure, the length of the busbar 20 and the insulated tube 30 is extended so that when the short circuit accident occurs, partial replacement of the point at which the short circuit accident occurs cannot replace the entire bus 20. There was a problem of cost and excessive time to recover after an accident.

The present invention has been made to solve the above problems, an object of the present invention is to integrate the three-phase busbar connected to the switchgear integrally and to shorten the length by a certain unit, the switchgear for the switchgear can be made To provide a connector.

In order to achieve the above object, the bus bar connector for a switch according to the present invention,

A connector body connected to the three-phase housing of the switch and forming a coupling flange at one end and the other end of the longitudinal direction, respectively;

A three-phase bus bar integrally received in the connector body;

It includes a bus bar connecting member for interconnecting the three-phase housing and the three-phase bus bar,

The connector body is characterized in that through the three receiving space portion for receiving each of the three-phase bus bar spaced apart.

Particularly, two accommodation spaces of the accommodation spaces formed in the connector main body are formed side by side in a spaced apart state on each of the left and right sides, and the other accommodation space is formed below the two accommodation spaces.

In addition, a circumference of the three-phase bus bar is formed around the outer circumference of the contact surface to increase the contact area with the bus bar connecting member, the contact surface is characterized in that the engaging projection projecting.

In addition, the bus bar connecting member is formed on the upper surface of the connector main body and is connected to the three-phase housing of the switch, characterized in that consisting of connecting terminals connected to the connection terminal to guide each three-phase bus.

On the other hand, when connecting two or more of the connector body, it is characterized in that the coupling bushing for hermetically connecting the receiving space portion to communicate with each other.

Here, the coupling bushing is characterized in that the spring connection member for binding the three-phase bus bar entering in the direction facing each other is installed.

The spring connection member is provided with a plurality of energizing pieces wrapped around the outer circumferential direction of the three-phase bus bar, and elastic springs respectively installed at one end and the other end of the energizing piece to expand or contract corresponding to the diameter of the three-phase bus bar. Characterized in that consisting of.

On the other hand, the connector body is characterized in that the removable sealing cover for sealing the open space of the receiving space portion is mounted.

According to the present invention having the configuration as described above, the connector body is formed through the three receiving space portion for receiving each of the three-phase bus bar spaced apart from each other and made of a predetermined unit length corresponding to the three-phase housing width In addition, the number of insulated tubes for accommodating the existing three-phase buses can be reduced, and the length of the three-phase buses can also be reduced, which is advantageous in cost reduction.

In addition, the connector body has flanges at both ends, so that the switch 3-phase housing can be easily extended in preparation for expansion, and in the event of a short circuit, only the connector body of the corresponding bus bar can be replaced easily. There is an effect that can greatly shorten.

1 is a front view and a side view showing a bus bar connection structure of the switching device according to the prior art.
2 is a front view showing a state in which a bus bar connector for a switch according to an embodiment of the present invention is installed in the switch.
3 is a perspective view showing a bus bar connector for a switch according to an embodiment of the present invention.
4 is a perspective view illustrating the internal configuration of FIG. 3.
5 is a perspective view showing a coupling bushing for connecting two or more busbar connectors for a switch.
6 is a front view and an enlarged view showing a connection structure of the busbar connector for the switch according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 2 to 6 attached hereto.

As shown, the bus bar connector 1000 according to the present invention is connected to the three-phase housing 10 of the switch and the connector body 100 to form a coupling flange 110 on one end and the other end in the longitudinal direction, respectively; And a three-phase bus bar 200 integrally received in the connector body 100 and a bus bar connecting member 300 interconnecting the three-phase housing 10 and the three-phase bus bar 200. .

First, the connector body 100 is cut to a length corresponding to the width of the three-phase housing 10, the receiving space portion 120 is formed therein to accommodate the three-phase busbar 200 to be described later, the length Flange 110 is formed at both ends of the direction.

Of course, the flange 110 of the connector body 100 is a natural fastening hole 111 is formed so that two or more connector bodies 100 can be mutually fastened.

That is, the connector main body 100 can be shortened by a unit of a predetermined length so as to correspond to the width of the three-phase housing 10 and can be extended and divided, so that only the connector main body 100 of the corresponding busbar can be easily replaced when a short circuit accident occurs. It can work.

Such a connector body 100 is preferably made of steel that can withstand electrical and mechanical shock sufficiently.

Particularly, two accommodation spaces of the accommodation spaces 120 formed in the connector body 100 are formed side by side in a state spaced apart from each other on the left and right sides, and the other accommodation space 120 is two accommodation spaces. It is good to form at the bottom between.

That is, the connector body 100 has three receiving spaces 120 for receiving the three-phase busbars 200 spaced apart from each other, and are formed in an inverted triangle when viewed from the side. .

In addition, when connecting two or more of the connector body 100, there is interposed a coupling bushing 400 for hermetically connecting the receiving space portion 120 to communicate with each other.

As shown in FIGS. 4 and 5, the coupling bushing 400 connects two or more connector bodies 100 to each other in an insulated state and electrically energizes each of the three-phase buses 200. To perform.

To this end, the coupling bushing 400 is a spring connecting member 420 that binds the cylindrical insulating member 410 and the three-phase bus bar 200 installed in the cylindrical insulating member 410 to enter in a direction facing each other. ).

The cylindrical insulating member 410 is made of an insulating material such as an insulating silicone resin, and the inclined contact surface 411 is formed at both ends of the longitudinal direction so as to make inclined contact corresponding to the receiving space 120.

The spring connection member 420 is provided on a plurality of energizing pieces 421 surrounding the outer circumferential direction of the three-phase busbar 200, and installed at one end and the other end of the energizing piece 421, respectively, and a three-phase bus bar 200. It is composed of an elastic spring 422 that can be expanded or contracted corresponding to the diameter of the.

That is, the conducting piece 421 serves to electrically conduct two three-phase busbars 200 inserted into adjacent states, and the elastic spring 422 has one side and the other side of the conducting piece 421. It is installed in a state of winding each, and transmits a stable pressing force corresponding to the diameter of the conducting piece 421.

In addition, the connector body 100 is equipped with a removable sealing cover 140 for sealing the open space of the receiving space.

On the other hand, the three-phase bus bar 200 is installed in the connector body 100 serves to energize the current supplied through the three-phase housing 10 to the load side.

That is, one of the three-phase buses 200 is an R-phase electrical connector, the other is an S-phase electrical connector, and the other is a T-phase electrical connector.

Here, a contact incision surface 210 is formed around the outer circumferential surface of the three-phase bus bar 200 to increase a contact area with the bus connection member 300 to be described later, and the contact protrusions are formed on the contact incision surface 210. 211).

The bus bar connecting member 300 is a component that electrically connects the three-phase housing 10 and the three-phase bus bar 200 to each other. The bus bar connection member 300 is formed on an upper surface of the connector main body 100 and the three-phase housing 10 of the switchgear. And a connection terminal 310 for connecting to each other, and a connection terminal 320 connected to the connection terminal 310 to guide each three-phase bus bar 200.

That is, the connection terminal 310 of the bus bar connection member 300 is fixedly coupled in contact with the coupling end of the three-phase housing 10, and one end of the connection terminal 320 is connected to the connection terminal 310. And the other end is coupled in a state that is fitted to the engaging projection 211 formed on the contact cutting surface 210 of the three-phase bus bar 200. Therefore, the current flowing from the coupling end of the three-phase housing 10 flows to the three-phase busbars 200 through the connection terminal 310 and the connection terminal 320.

The connector body 100 according to the present invention configured as described above has three receiving spaces 120 formed therethrough to receive each of the three-phase buses 200 spaced apart from each other, and the width of the three-phase housing 10. According to the length of the corresponding predetermined unit, not only can reduce the number of insulated tubes for accommodating each of the existing three-phase bus 200, but also can reduce the length of the three-phase bus 200 It has a favorable effect on cost reduction.

In addition, by forming the flange 110 at both ends, the connector main body 100 can easily extend the switch 3-phase housing 10 in preparation for expansion, and in the event of a short circuit, the connector main body of the corresponding bus bar ( Only 100) can be easily replaced, which can greatly reduce the time for failure recovery.

10: 3-phase housing
100: connector body
110: flange
120: accommodation space
200: three-phase bus
300: bus bar connection member
310: connection terminal
320: connection terminal
400: bushing for coupling
410: insulation member
420: spring connection member

Claims (8)

A connector body connected to the three-phase housing of the switch and forming a coupling flange at one end and the other end of the longitudinal direction, respectively;
A three-phase bus bar integrally received in the connector body;
It includes a bus bar connecting member for interconnecting the three-phase housing and the three-phase bus bar,
The connector main body connector for the switch body, characterized in that through the three receiving space portion for receiving each of the three-phase bus bar spaced apart.
The method of claim 1,
Two accommodating spaces of the accommodating spaces formed in the connector body are formed side by side spaced apart from each other on the left and right sides, and the other accommodating space portion is formed in the lower side between the two accommodating spaces bus connector for the connector .
The method of claim 1,
The outer circumferential surface of the three-phase bus bar is a contact cutting surface for forming a contact area for increasing the contact area with the bus bar connecting member, the contact bus bar connector for the switch characterized in that the engaging projection is formed protruding.
The method of claim 1,
The bus bar connecting member is formed on the upper surface of the connector main body connector for connecting and connecting with the three-phase housing of the switch, and the bus terminal for the switchgear, characterized in that consisting of connecting terminals connected to the three-phase bus.
5. The method according to any one of claims 1 to 4,
When connecting two or more of the connector body, the bus bar connector for the switch, characterized in that the coupling bushing for hermetically connecting the receiving space to communicate with each other.
The method of claim 5,
The bus bar connector for the switchgear, characterized in that the spring connection member for binding the three-phase bus bar entering in the direction facing each other is installed in the coupling bushing.
The method of claim 6,
The spring connection member is composed of a plurality of energizing pieces wrapped in the outer circumferential direction of the three-phase bus bar, and elastic springs installed on one end and the other end of the energizing piece respectively to expand or contract corresponding to the diameter of the three-phase bus bar. Busbar connector for switchgear, characterized in that.
5. The method according to any one of claims 1 to 4,
The connector main body connector for the switchgear, characterized in that the removable sealing cover for sealing the open space of the receiving space portion is mounted.

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