JPS6351016A - Gas insulated switch - Google Patents

Abstract

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

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a gas insulated switch, for example, a gas insulated switch used in a power plant or substation.

[Conventional technology]

FIG. 2 is a cross-sectional view showing an example of a conventional three-phase bracket type disconnector shown in, for example, Japanese Patent Application Laid-open No. Sho SJ-QGOBG. A grounded container, for example, a disconnector tank, (21 is the 2 insulating spacer, (31 is the fixed 1t (II electrode, Ip) is the movable @ side electrode, +51 is connected to and separated from the fixed side electrode (3) to conduct the current cut off,
The movable contact (6) is an insulated operating rod that connects the movable contact (5) and the operating device, to which the movable contact (sl) is connected. (71 is the insulated operating rod (6) connected to it. (z) is the lever that operates the link (7), (q) is the rotary airtight shaft that rotates the lever (II), and is connected between the disconnector tank (c) and the (10) is the operating device that rotates the rotary airtight shaft (q), (//) is the output shaft of the operating device (10),
9). In addition, (/, 2)&''i support stands support the operating device (10) from the disconnector tank (c).Furthermore, (/3) is a blind lid that seals this switch.

Next, the operation will be explained.

When an electrical command to "on" or "off" is input to the disconnector, the operating device Cl0) installed in the atmosphere operates. This operation appears as a rotational movement of the output shaft (//), and this output The rotary airtight shaft (9) engaged with the shaft (l/) rotates.The rotary airtight shaft (9) makes a rotational movement and is sealed inside the disconnector tank (c). It has a structure that prevents high-pressure residue from leaking to the outside.Rotating airtight shaft (
When 91 rotates, the rotational movement is converted into a linear movement in the axial direction of the disconnector tank (c) through the lever (g) and link (7) attached to its tip. Installed insulated operation rod fA
The switch is opened and closed by linear movement of the movable contact (1) and the movable contact (1).

A gas insulated switch with such a structure has an operating device (
10) is provided outside the disconnector tank (/1), it is necessary to consider the installation space for the operating device Wt (10').

In addition, since the operating device (10) is installed in the atmosphere, it is necessary to pay attention to rusting of moving parts and deterioration of lubricating oil, and there are also costs associated with the need for a rotating airtight shaft (9). It also becomes expensive.

[Problems to be solved by the invention] The conventional gas insulated switch is configured as described above, and because the operating device Wt(/o') is installed in the atmosphere, the space for installing the equipment is limited. It needs something wide, and
There were problems such as the moving parts were easily affected by the atmosphere, lacked reliability over many years of use, and were expensive.

The present invention has been made to solve the above-mentioned problems, and aims to provide a gas insulated switch that can be reduced in size and improved in reliability, and is also inexpensive.

[Means for Solving the Problems] The gas insulated switch according to the present invention is provided with an operating device housed in a suitable space inside a disconnector tank, that is, a grounding device filled with insulating gas. It is something that exists.

[For production]

In this invention, since the operating device is housed inside a grounded container filled with insulating gas, the installation space required for installing the conventional operating device can be omitted.
In addition, since all the moving parts are housed in high-pressure gas, the operating parts do not penetrate the wall of the grounded container. There is no need for any member to communicate between the inside and outside of the grounded container.

〔Example〕

Hereinafter, this invention will be explained based on FIG. 7 showing one embodiment thereof.

In the drawings, the symbols (H) to (S) are exactly the same as those of the same symbols shown in FIG. 2, which shows a conventional device.

Next, the symbol (,2/) is an operating device installed in the space inside the disconnector tank (C), which is a grounded container filled with insulating gas, and (,zx) is the operating device (2/ ), and its tip is fixed to the lever 1gl, transmitting the rotation of the output shaft (2, 2) to the lever (2).

Next, the operation of this embodiment will be explained.

When an electrical command to turn on or off is received by the disconnector.

The signal is input through an electric wire to the operating device (1) housed inside the disconnector tank (1).The part where this electric wire penetrates the disconnector tank (1) is generally insulated. A sealed terminal (-3) configured as shown in FIG.

When a movement command is manually input to the operating device (-/), the output shaft (
2) rotates, and the rotational motion of this output shaft (, 2, 2) is transmitted directly to the lever (fl) without relaying the rotary airtight shaft, unlike conventional devices. And the link (7) converts the rotational motion into linear motion, and as in the past, the insulated operating rod (phantom and movable contact (j-1) move linearly, thereby opening and closing the switch. .

In the gas insulated switch according to the present invention, since the operating device (λ/) is housed and installed inside the disconnector tank (c), the rotary airtight shaft (9) is not required and the installation space is also reduced compared to the conventional one. It has been reduced in comparison.

Furthermore, since the moving parts are not exposed to the atmosphere, there is no rusting or deterioration of lubricating oil, and the structure is highly reliable even after many years of use.

In addition, although the case of a disconnector was explained in the said Example, other switches, such as a circuit breaker and a grounding switch, may be used and the same effect as the said Example will be produced.

Further, in the above embodiment, the electric fishing rod and output to the operating device (, 2i) were performed using an electric wire, but it may be performed using an optical cable.

〔Effect of the invention〕

As described above, according to the present invention, since the operating device is housed inside the grounded container, the installation space can be reduced.
In addition, there is no operating member that penetrates through the container wall, which simplifies the configuration, improves reliability over many years, and provides a gas-insulated switch that can be provided at a low cost due to the reduced number of parts. It has this effect.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing a gas insulated switch according to an embodiment of the present invention, and FIG. 2 is a sectional view showing a conventional gas insulated switch. (C) Grounding container (disconnector tank) filled with insulating gas, (3)...Fixed side electrode, (t)...Movable side electrode, (jl--Conductor (movable contact), (B) ) Φ No. insulated operating rod, (ko/)・ψ operating device, (,2,2')...
Output shaft, (23)... sealed terminal. In each figure, the same reference numerals indicate the same or similar parts. -C Tsugu LL+1 ■ To -C Tsu゛10

Claims (2)

[Claims] (1) In a gas insulated switch in which a fixed side electrode and a movable side electrode are housed in a grounded container filled with insulating gas, and the movable side electrode has a conductor that can be connected to and separated from the fixed side electrode. . A gas insulated switch, characterized in that an operating device for operating a conductor that can be connected to and separated from the fixed electrode is housed inside the grounding container. (2) The gas insulated switch according to claim 1, wherein the input/output signals of the operating device are transmitted via an optical cable.