JPH09284925A - Cubicle gas insulation switchgear - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the size of C-GIS(cubicle gas insulation switchgear) by lessening the number of panels and elements. SOLUTION: A main body 2 of GIS which is housed in C-GIS 1 consists of lightning arrester element 4, a line element 5, a gas-blast circuit-breaker element 6, and a bus bar element 7. The lightning arrester element 4 has a square container, wherein a lightning arrester LA is stored in the horizontal direction together with a disconnecting section for lightning protection DS1. In the case no lightning arrester is installed in the C-GIS 1, the container for lightning arrester is replaced with a frame. Therefore, there is no need of increasing the size of the C-GIS 1 when installating a lightning arrester. Furthermore, the same elements can be used in common whether a lightning arrester is installed or not.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cubicle type gas insulated switchgear in which a gas insulated switchgear body is housed in a cubicle. (Hereinafter, "cubic type gas insulated switchgear" is referred to as "C-GIS" and "gas insulated switchgear" is referred to as "GIS".)

[0002]

2. Description of the Related Art C-GIS is a GIS that constitutes a main circuit.
It includes a main body and a control box that is placed in front of the main body and houses the operation unit, meter, relay, and the like. The GIS main body houses the main circuit charging part in a steel container which is divided into several parts such as a circuit breaker element and a bus bar element, and the charging part is insulated with SF ₆ gas. This CG
IS is mainly used as GIS for buildings.

A conventional C-GIS will be described with reference to the drawings. A first conventional example is shown in FIGS. 3 and 4. FIG.
The state which looked at the inside of each board | substrate of C-GIS comprised from the board of a surface from the side is shown. FIG. 4 shows a block connection diagram of the C-GIS of FIG. The C-GIS is composed of a lightning arrester board 1-1 and a gas circuit breaker board 1-2. The lightning arrester board 1-1 is composed of a disconnector element 31 and a lightning arrester element 32.
It houses the IS body 2-1. Lightning arrester element 32
Stores the lightning arrester LA, the lightning arrester disconnecting section DS1, and the cable head CHD. The disconnector element 31 houses the disconnector DS and the ground switch ES.

The gas circuit breaker panel 1-2 includes a conductor element 3
The GIS main body 2-2 including the gas circuit breaker element 6, the gas circuit breaker element 6, and the busbar element 7 is housed therein. Conductor element 3
3 accommodates the conductor 34 and is connected to the conductor 34 in the disconnector element 31 of the lightning arrester board 1-1. The gas circuit breaker element 6 accommodates the gas circuit breaker GCB and the gas circuit breaker inspection ground switch ES. The busbar element 7 houses the busbar BUS.

The cable 11 is drawn in from the lower part of the C-GIS 1-1 and is connected to the cable head CHD through the current transformer CT. The main circuit in the C-GIS of FIG. 3 is connected as shown in the block connection diagram of FIG. The operation mechanism 21 of the gas circuit breaker GCB is housed in the control box 3-2 arranged on the front surface of the GIS body 2-2. Further, the operation part 24 of the arrester disconnecting section DS1 and the operation mechanism 22 of the disconnector DS are also housed in the control box 3-1 arranged on the front surface of the GIS main body 2-1.

In this example, the gas circuit breaker element 6 and the lightning arrester element 32 are arranged in the middle stage which is easy to operate in consideration of the operability of the gas circuit breaker GCB and the operability of the lightning arrester disconnecting section DS1. . Therefore, a lightning arrester board 1-1 that houses the lightning arrester element 32 and a gas circuit breaker board 1-2 that houses the gas circuit breaker element 6 are separately provided.

In the C-GIS described above, the board surface has a two-sided construction of a lightning arrester board 1-1 and a gas circuit breaker board 1-2. Further, the lightning arrester board 1-1 has two elements and a gas circuit breaker board 1- 2 has 3 elements and requires a total of 5 elements. In addition, an empty space is generated above the lightning arrester element 32 of the lightning arrester board 1-1. In order to improve the fact that the number of board surfaces and the number of elements are large and there is wasted space, the following C-GIS is used.
Has been proposed.

A second conventional example is shown in FIGS. FIG.
Shows a state in which the inside of C-GIS is viewed from the side. FIG.
5 shows a block connection diagram of the C-GIS of FIG. The C-GIS of FIG. 5 has a panel configuration of only one surface of the power receiving panel 1-3. The power receiving panel 1-3 is a GIS main body 2 including a line element 5, a gas circuit breaker element 6, and a busbar element 7.
-3 is stored. This GIS body 2-3 is a pedestal 9
Supported by Since other points are almost the same as those of the above-mentioned first conventional example, those having the same function are designated by the same reference numerals, and detailed description thereof will be omitted. In addition, 2
Reference numeral 3 denotes an operation mechanism of the gas circuit breaker inspection grounding switch ES. The main circuit of FIG. 5 is connected as shown in the block connection diagram of FIG.

According to this second example, C-GIS1-3
Since the number of boards can be set to 1 and the number of elements can be set to 3, the size can be reduced as compared with the C-GIS of the first conventional example shown in FIGS.

[0010]

However, in the C-GIS 1-3 of the second example described above, when it is necessary to provide a lightning arrester, there is no room for disposing the lightning arrester in the GIS main body 2-3. . Therefore, the C-GIS1 shown in FIG.
-3, when a lightning arrester is provided, the above-mentioned FIG.
The lightning arrester panel as shown in (a) was provided side by side in the C-GIS of FIG. The present invention is intended to enable the C-GIS to be configured with one board even when a lightning arrester is provided.

An object of the present invention is to provide a miniaturized C-GIS with a reduced number of boards and elements.

[0012]

SUMMARY OF THE INVENTION The present invention has been made to achieve the above object. The present invention mainly includes a gas circuit breaker container having a gas circuit breaker housed therein, a bus bar container having a bus bar housed therein, and a line container having a power receiving cable head and a disconnector housed therein. As a target, a C-GIS including a GIS main body vertically stacked and a cubicle accommodating the GIS main body inside.

According to the present invention, in the above C-GIS, there is provided a lightning arrester container in which a lightning arrester having a disconnection portion is horizontally housed.
The line container is arranged at an end of the line container opposite to the gas circuit breaker container. Since the lightning arrester container has the lightning arresters arranged in the horizontal direction, the lightning arrester container can have a height substantially the same as that of the gantry on which the GIS main body is mounted. Therefore, GIS
Even if a lightning arrester container is added to the main body, the GIS main body can have the same height (size) as the C-GIS that does not house the lightning arrester.

[0014]

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a state in which the inside of the C-GIS is viewed from the side. FIG. 2 is a block connection diagram of the C-GIS of FIG. In FIG. 1, 1 is C-GIS and 2 is C-GIS.
The GIS main body 3 housed in the GIS 1 is a control box arranged on the front surface of the GIS main body.

The GIS body 2 is constructed by stacking a lightning arrester element 4, a line element 5, a gas circuit breaker element 6 and a bus bar element 7 from the bottom. Each of the elements 4 to 7 has a main circuit charging section housed in a steel plate container, and the charging section is insulated with SF ₆ gas. The container of the arrester element 4 is composed of a rectangular container having the same height as the mount 9 of FIG. 5 described above. A lightning arrester LA for three phases and a lightning arrester disconnecting section DS1 are housed inside the container. The lightning arrester LA is arranged horizontally in the container, and the lightning arrester disconnecting section DS1 is operated from the back side of the GIS main body 2. Since a known arrester disconnecting section DS1 can be used, a detailed description thereof will be omitted here.

The container of the line element 5 is a cylindrical container. Inside this container, the cable head CHD
And the disconnecting switch DS and the ground switch ES. In addition,
The disconnector DS and the ground switch ES are integrally configured as a three-point disconnector. The container of the gas circuit breaker element 6 is composed of a cylindrical container. Inside this container, the gas circuit breaker G
It houses the CB and the grounding switch ES for checking the gas circuit breaker.

The container of the busbar element 7 is composed of a cylindrical container. A three-phase bus BUS is housed inside this container. Each main circuit charging part in the GIS main body 2 has a conductor 12,
Connected by 13, 14, 15, and 16, respectively. Further, the cable 11 is drawn from the upper part of the C-GIS 1 and connected to the cable head CHD through the current transformer CT. This constitutes the circuit shown in FIG. In addition, when pulling in this cable 11 from the bottom, G
With the IS body 2 centered on the gas circuit breaker element 6,
The elements 4, 5 and 7 are arranged upside down. That is, the busbar element 7, the gas circuit breaker element 6, the line element 5, and the arrester element 4 are sequentially stacked from the bottom to form the GIS main body 2.

Further, in the control box 3, a gas circuit breaker GCB is provided.
Operating device 21, three-point disconnecting switch DS and grounding switch ES
And the operating device 23 of the earthing switch ES for inspection of the gas circuit breaker GCB. According to the configuration described above, even if the lightning arrester LA is housed in the GIS main body 2, C-
The GIS 1 can be composed of a single-sided board. this is,
Not only the cost reduction effect, but also the installation area of the C-GIS 1 can be reduced, and the electric room in the building can be effectively utilized.

Further, the above-mentioned conventional GIS main body 2 of FIG.
It is possible to share the line element 5, the gas circuit breaker element 6, and the busbar element 7 of No. 3. That is, the cover plate 8 of the line element 5 in the GIS body 2-3 of FIG.
Then, by removing the gantry 9 on which the GIS main body 2-1 is mounted and directly attaching the container of the lightning arrester element 4 to the container of the line element 5, a C-GIS having a lightning arrester can be obtained. Also, the mount 9 of FIG. 5 and the lightning arrester bait 4 of FIG.
The lightning arrester LA
There is no change in the height of the GIS main body 2 regardless of the presence or absence of.

The lightning arrester element 4 is arranged at the lowermost portion or the uppermost portion of the GIS main body 2 depending on the pulling direction of the cable 11. Therefore, compared with the conventional example of FIG. 3, the operability of the lightning arrester disconnecting section DS1 is reduced, and the operability of the lightning arrester LA replacement operation is also reduced. However, since the reliability of the lightning arrester body is improved and the fact that the lightning arrester is disconnected and the number of times of connection work is very small, the decrease in operability has little effect.

[0021]

According to the present invention, it is possible to obtain a miniaturized C-GIS by reducing the number of boards and elements of the C-GIS.

[Brief description of drawings]

FIG. 1 is a side view showing a configuration of a C-GIS according to an embodiment of the present invention.

FIG. 2 is a block connection diagram of the C-GIS of FIG.

FIG. 3 is a side view showing the configuration of a conventional first example C-GIS.

FIG. 4 is a block connection diagram of the C-GIS of FIG.

FIG. 5 is a side view showing a configuration of a second conventional C-GIS.

6 is a block connection diagram of the C-GIS of FIG.

[Explanation of Codes] 1,1-1,1-2,1-3 ... C-GIS 2,2-1,2-2,2-3 ... GIS main body 3,3-1,3-2,3- 3 ... Control box 4 ... Lightning arrester element 5 ... Line element 6 ... Gas breaker element 7 ... Busbar element 11 ... Cable GCB ... Gas breaker LA ... Lightning arrester BUS ... Busbar DS ... Disconnector ES ... Grounding switch CHD ... Cable head

Claims (1)

[Claims] 1. A gas circuit breaker container having a gas circuit breaker housed therein, a bus bar container having a bus bar housed therein, and a line container having a power receiving cable head and a disconnector housed therein. In a cubicle type gas insulated switchgear consisting of a gas insulated switchgear main body vertically stacked in the center and a cubicle accommodating this gas insulated switchgear main body, a lightning arrester having a disconnection part was horizontally accommodated. A cubicle type gas insulated switchgear, wherein a lightning arrester container is attached to the side of the line container opposite to the gas circuit breaker container.