JPS6380763A - Thyristor valve - Google Patents

Abstract

PURPOSE:To improve a potential distribution thereby to improve a breakdown strength by laying a light guide in a hollow porcelain and filling SF6 gas therein. CONSTITUTION:A light guide is laid in a hollow porcelain 29, and SF6 is filled in the porcelain 29. A metal box 30 couped with a lower flange is provided under the porcelain 29, an upper flange 25 is provided at the top, and fed to a thyristor valve body 22. An insulating plate is attached to the top of the flange 25, and many holes are formed for passing the light guide. Thus, the light guide in the light guide unit is vertically laid to reduce its length and to increase the breakdown strength.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a thyristor valve in which a light guide installation method in an air-insulated thyristor valve is improved.

(Conventional technology) With the increase in demand for electricity in recent years, DC power transmission has been used in a wide range of applications, as it has many advantages in terms of system operation, such as large capacity, long-distance power transmission, and power interchange between different frequency systems. . At present, there are 1 domestic grid connections in some areas, and 2
50KV DC power transmission has been implemented, and it is hoped that this DC power transmission will have a larger capacity and higher voltage in the future.

FIG. 3 shows a typical wiring diagram of an AC/DC converter station in conventional DC power transmission. This AC/DC converter station performs 12 sets of rectification, and voltage is supplied from the 3-phase AC voltage system 1, via converter transformers 2 and 3, to the thyristor valve groups 4 and 5, and then converted to DC voltage. It is something. Air-insulated thyristor valves are used as the thyristor valve group 4゜5 due to their operational performance and ease of maintenance and inspection work, and are usually housed in a building called a valve hole 6.7. ing. In addition, thyristor valve group 4,
A lightning arrester 8.9 is provided for electrical protection of 5. FIG. 4 shows peripheral equipment for such a conventional AC/DC converter. Note that FIG. 4 shows the low-pressure side thyristor valve group 5 and its peripheral equipment in FIG. 3.

That is, the three-phase AC voltage system 1 is connected to the air-insulated thyristor valve 12, which is made up of two units, through the converter transformer 3, and the air-insulated thyristor valve 12 is A lightning arrester 15 is connected, and the air-insulated thyristor valve 12 and lightning arrester 15 are housed in the thyristor valve hole 11.

Further, the thyristor valve hole 11 is provided with a blocking coil 13 against an invading surge voltage and a through-wall bushing 14 that guides the DC output to the outside of the thyristor valve hole 11 .

(Problems to be Solved by the Invention) The thyristor valves in AC/DC converting stations configured as described above will become larger as the capacity and voltage increase in the future.

That is, as shown in FIG. 5, the thyristor valve 12 is
It is made up of 2 am units in 1 unit.

Several thousand volt class thyristor elements are connected in series.
- A unit thyristor assembly (hereinafter referred to as a module) 16 is supported by an insulating column 18 and is arranged in multiple stages at a predetermined interval. In the thyristor valve 12 configured in this way, as the voltage and capacity increase, the module itself also becomes larger due to the enlargement of internal elements such as thyristor elements, capacitors, and resistors. Therefore, the thyristor valve 12 also becomes larger.

Now, in thyristor valves with high voltage and large capacity, the light guide, which is mainly used for igniting the gate of the thyristor element, becomes an important component. Insulation of the light guide's surface area is particularly important. In FIG. 5, the light guide device W119 installed between the ground and Moginy 9 is usually covered on the outside with an insulator such as FRP, and several tens or hundreds of light guides are installed together. The light guide in this method is designed to have a longer overall length in order to lengthen the creepage path as the voltage of the thyristor bulb increases. This is also the reason why the light guide device [19 in FIG. 5 is arranged diagonally.

However, since the light guide device 19 arranged diagonally as shown in FIG. 5 needs to be long in size, (2) the material cost is high. In addition, since the light guide is exposed to air, there are drawbacks such as (1) dirt on the light guide surface affects insulation. (2) was a big problem in terms of cost reduction (several hundred light guides had to be made long), and (2) was a big problem in terms of insulation stability. Therefore, it was necessary to improve this light guide device.

The present invention was proposed to solve the problems of conventional AC/DC converters (thyristor valves) as described above.
The purpose is to provide a reliable thyristor valve by improving the structure of the light guide device of the thyristor valve. The light guide device 28 installed between the two is partially shown in cross section. In the figure, a light guide 20 is installed inside a hollow insulator 22, and the inside is filled with SF and gas.

By doing so, the insulation of the creeping portion of the light guide 20 is strengthened. Also, since the light guide is installed upright, the light guide can be shortened.

〔Example〕

- FIG. 1 shows a light guide device 28 installed between the thyristor valve body 12 and a pedestal 21 in contact with the ground. The light guide 20 is laid inside the hollow insulator 22, and the inside of the insulator is
SF, fill with gas. The gas pressure should be approximately equal to atmospheric pressure. A metal box 27 connected to a lower flange is installed at the bottom of the insulator 22, from which a light guide is laid 29 to the pulse generator. An upper flange 23 is provided on the upper part of the insulator 22, through which the thyristor valve body 1 is inserted.
Sent to 2.

As shown in Figure 2, which shows the details around the insulator upper flange, an insulating plate 25 is attached to the upper part of the upper flange 23.The insulating plate has many holes 26 for passing the light guide.
is provided. In this way, the hollow insulator is not a sealed type.As mentioned above, the inside of the insulator is filled with SF and gas 24, and the pressure is equal to atmospheric pressure.

Therefore, since the lower part of the insulator is sealed, SF and gas do not dissipate.

The light guide in the light guide device configured in this manner can be significantly reduced in length compared to the conventional light guide because it is installed upright. In addition, high voltage insulating gas C5F is used inside the hollow insulator.
＠ ) environment, the creepage road will not be contaminated and high pressure resistance will be achieved.

〔Effect of the invention〕

With the configuration described above, the light guide 20
The potential concentration of the creepage path is improved (because there is no dirt), and the withstand voltage of the creepage path is also significantly improved by filling with insulating gas. Further, as described above, by installing the light guide upright, the length of the light guide can be shortened.

In this way, the cost can be reduced by reducing the length of the light guide, and the insulation reliability can be significantly improved by improving the withstand voltage of the creepage path.

[Brief explanation of the drawing]

Fig. 1 is a diagram showing an embodiment of the present invention, Fig. 2 is an enlarged view of an embodiment of the invention, Fig. 3 is a wiring diagram of an AC/DC converter station, and Fig. 4 is a diagram of an AC/DC converter. FIG. 5 is a perspective view showing the arrangement of peripheral equipment, and a front view of a conventional AC/DC converter. 1... Three-phase AC voltage system, 2, 3... Converter transformer 4.5.12... Thyristor valve 6.7, 11... Thyristor valve hole 8.9.1
5...Arrestor, 10...DC line 13...
Blocking coil, 14... through-wall bushing 16
...Module, 17...High voltage shield 18...Insulation column, 19...Light guide device 20...Light guide 21...
- Frame 22...Hollow insulator, 23...Upper flange 24...Insulating gas, 25...
・Insulating plate 26...hole, 27...
Lower metal box 28... light guide device, 29.
...Light guide 30...Bolt, 3
1...Lower Shield Agent Patent Attorney Nori Chika
Yudo Hirofumi Mitsumata Figure 1 Figure 2

Claims (1)

[Claims] In an air-insulated thyristor valve in which one unit of thyristor element assembly, in which several thyristor elements are connected in series, is supported by an insulating column and stacked in multiple stages at predetermined intervals, there is a connection between the ground and the thyristor element assembly. A thyristor valve characterized in that a light guide installed between them is housed in a hollow support insulator device, and the inside of the hollow insulator is filled with an insulating gas.