JPS6212312A - Gas breaker - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

TECHNICAL FIELD OF THE INVENTION The present invention relates to gas circuit breakers, and more particularly to improvements in the arrangement and construction of three-phase configurations in which each phase has a separate cylindrical container.

[Technical background of the invention and its problems]

Generally, gas circuit breakers have a bushing and a circuit breaker body.

It is constructed by connecting an operating mechanism section, a connecting mechanism section, a pedestal, etc. In addition, the main body of the circuit breaker has a contact part 9 and an energizing part.

It consists of an insulating part and a cylindrical container that covers these parts.

As shown in FIGS. 3 and 4, a conventional gas circuit breaker has three separate circuit breaker bodies 2a, 2b, and 2c arranged parallel to each other on the same plane on a pedestal 1. Further, the circuit breaker bodies 2a, 2b, and 2c are cylindrical containers 3a.

A blocking section (not shown) is housed inside 3b and 3c, respectively.

Insulating gas is sealed inside the cylindrical containers 3a, 3b, and 3c. And each circuit breaker body 2a, 2b,
The upper sides of the cylindrical containers 3a, 3b, 3c of 2c are provided with two outlets 3a, 3b1, 3c, respectively, and these outlets 3a, 3b,.

3c1, the bushings 4a, 4a: 4b, 4b;
Install c. Then, the bushings 4a, 4b, 4c are led out from the blocking part via the outlet parts 3a1, 3b, 3c.

Furthermore, one operating mechanism section 5 is provided on one side of the gantry 1, and a disconnection section (not shown) inside each circuit breaker main body 2a, 2b, 2c is connected via a drive device 6 in this operating mechanism section 5 and a coupling mechanism section 7. connected to the movable side of the

The connection mechanism section 7 is collectively connected to each circuit breaker main body by a connection shaft 8 connected to the drive device 6, for example, via link sections 9a, 9b, and 9c.

In such a conventional gas circuit breaker, the air insulation distance A is usually between each adjacent bushing 4a, 4b.

4c, but in order to ensure a sufficient distance, it is necessary to increase the dimension B. Furthermore, since the integrated operation mechanism section 5 is disposed on the side surface of the pedestal 1, the dimension C also becomes long, resulting in a problem that the overall installation area becomes large.

[Purpose of the invention]

The present invention has been made in consideration of the above points, and an object thereof is to provide a gas circuit breaker whose installation area and overall size can be reduced.

[Summary of the invention]

In order to achieve such an object, according to the present invention, the circuit breaker main body for each of the three phases is arranged in an isosceles triangle in parallel and horizontally, with the center raised higher than the pedestal and both sides lowered. If one operating mechanism is installed inside the frame on one side in the longitudinal direction, it is possible to operate the circuit breaker body in the longitudinal direction via the connecting mechanism. Ensure sufficient air insulation distance between bushings.

It is characterized by being able to reduce the distance in the longitudinal direction of the frame and the overall installation area.

[Embodiments of the invention]

An embodiment of the gas circuit breaker of the present invention will be described below with reference to FIGS. 1 and 2. That is, the circuit breaker main bodies 10a, 10b, and 10c for each of the three phases each house a interrupting portion 12 in a cylindrical container 11, and each cylindrical container 11 is filled with an insulating gas lla. The cutoff section 12 consists of a fixed electrode section 13 and a movable electrode section 14 that faces the fixed electrode section and can be moved into and out of contact with the fixed electrode section 13.
The fixed electrode section 13 and the movable electrode section 14 are electrically led out to the outside via bushings 15 and 16, respectively.

Further, bushings 15,16 are respectively attached to the openings 17,18 provided in the upper longitudinal direction of the cylindrical container 11 so as to be inclined to open upwardly. The cylindrical containers 11 of the circuit breaker bodies 10a, lOb, and foe of each of the three phases are provided on the pedestal 19 parallel and horizontally to each of the three phases. Furthermore, the cylindrical containers 11 of each phase are attached to the horizontal part 20 at the center of the pedestal 19 via attachment parts 20a, and the cylindrical containers 11 of each phase are attached to the horizontal part 20 at the center of the pedestal 19 via attachment parts 20a, and the inclined parts 21 are inclined outwardly on both sides of the horizontal part 20.
．． 22, respectively, through attachment portions 21a and 22a. Therefore, each phase circuit breaker body 10a, 10
The circuit breaker bodies 10b and 10c are located at a high position in the center, and the circuit breaker bodies 10a and 10c are installed at low positions on both sides, and are arranged in an isosceles triangle shape when viewed from the front.

The operation mechanism section 23 is housed inside the pedestal 19, and the operation mechanism section 23 is connected to the connection operation section 25 of each of the three phases at once. Further, the connection operation section 25 of each phase includes a lump bar 26 provided at one end of the cylindrical container 11 on the operation mechanism section 23 side, and a movable section 28 of the drive section 27 of the operation mechanism section 23.
It is formed by connecting with. Further, the collective bar 26 is connected to a movable portion 28 and levers 30 of each phase which are rotatably supported via lower fulcrums 29, respectively. The frame 1 is connected via a rotatable central fulcrum 31 provided at the center of the lever 30.
9, and the other end of the lever 30 connects to the movable portion 14 of each blocking portion 12 via a rotatable upper fulcrum 32.
connected to. In this way, the gas circuit breaker 35 is configured.

Next, the effects of the embodiments of the present invention will be explained. For example, in the open state as shown in the figure, when the movable part 28 of the drive part 27 of the operating mechanism part 23 is driven to the right side in the figure in response to a closing command, the lever 30 rotatably supported by the collective bar 26 moves around the central fulcrum 31. The movable electrode portion 14, which rotates as a fulcrum and is supported by the upper fulcrum 32 of the lever 30, moves to the left in the figure, and the cutoff portion 12 is closed.

In such a closed state, the above operation is reversed by an open command, resulting in a cutoff state, that is, an open state.

The configuration of the present invention is such that each phase is arranged on the pedestal 19 so as to form an isosceles triangle, and the operation mechanism section 23 is arranged on the pedestal 19 so that each phase forms an isosceles triangle.
9, even if the air insulation distance A between the bushings of adjacent phases is sufficient, the dimensions B1 and C1 shown in the illustration are smaller than the conventional dimensions B and C, and the gas circuit breaker 35 is Installation area can be reduced.

〔Effect of the invention〕

As explained above, according to the present invention, the circuit breaker main body of the gas circuit breaker is inclined in the longitudinal direction of the pedestal, and the operating mechanism section is arranged inside the pedestal.

The longitudinal distance of the pedestal and the width of the pedestal can be reduced, and a gas circuit breaker with a reduced installation area can be provided.

[Brief explanation of drawings]

1 and 2 are a partially sectional side view and a front view, respectively, of the gas circuit breaker of the present invention. 3 and 4 are a side view and a partially sectional front view, respectively, of a conventional gas circuit breaker. 10a, 10b, 10c... circuit breaker body, 11.
...Cylindrical container. 11a... Insulating gas, 12... Shutoff part, 13...
・Fixed electrode part. 14... Movable electrode part, 15.16... Bushing, 17.18... Exit part, 19... Frame, 20
...Horizontal part, 21.22...Slope part. 20a, 21a, 22a... mounting portion, 23...
Operation mechanism section. 25...Connection machining section, 26...Bulk bar, 27...
·Drive part. 28...Movable part, 29...Lower fulcrum, 30...Lever. 31... Central fulcrum, 32... Upper fulcrum, 35...
Gas circuit breaker.

Claims (1)

[Claims] A three-phase shutoff is housed in each separate cylindrical container, and each phase is provided with two outlets on the upper side of the cylindrical container, which outlets are mutually connected in the longitudinal direction of the cylindrical container. The breaker body is formed by providing respective bushings that are inclined to open in opposite directions, and the breaker bodies for the three phases are parallel and horizontal to each other, and the central breaker body is The circuit breaker main bodies with high ends are arranged in a low isosceles triangular shape on a pedestal, and further, the three phases are collectively arranged from one end of the cylindrical container to the inside of the mount. 1. A gas circuit breaker, characterized in that it is operated by an operating mechanism section via a coupling mechanism section.