RU2510443C2 - Apparatus for earthquake-resistant installation of discharger - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: apparatus for earthquake-resistant installation of discharger includes a mounting unit under the bottom flange of the discharger, a ground lead, a trip recorder and a supporting foundation. The apparatus is provided with a second mounting unit on the top flange of the discharger and a portal with a suspended insulator on its cross bar. The discharger is suspended through the second mounting unit from the suspended insulator, and the mounting unit under the bottom flange is attached to the supporting foundation by an additional damping structure.

EFFECT: high earthquake resistance of the of the discharger and maintaining operating state of the discharger at considerable wind loads.

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Description

The invention relates to the electric power industry, in particular, to earthquake-resistant installations of high-voltage electrical equipment.

A device for installing a spark gap / Typical project No. 407-0-166.85 outdoor switchgear-110 kV on standardized structures. Sheets 34 ... 37 /, containing the base stand and the mounting unit under the bottom of the spark gap. But with such an installation, the arrester is subject to destruction from an earthquake.

It is known to use a technical solution, which consists in installing in an assembly, under the lower flange of a spark gap of rubber shock-absorbing pads. However, they lead to an increase in seismic impact of 2-3 times / Transformers. Overvoltage and coordination of isolation. Translation of reports of the International Conference on Large Electric Systems (CIGRE-84) M .: Energoizdat ,. 1986, S. 72-83. Art. Earthquake Analysis of Transformer Inputs.

The technical solution / Guidelines “On the design of the electrical part of substations located in seismic areas” is also known. Inv. No. 8099. TM-T1 VGPII Research Institute "Energosetproekt" GPIO Energoprojekt Ministry of Energy of the USSR. M .; 1989 /, which uses a surge suppressor having a lower height as an arrester. But the functional characteristics of the surge suppressor does not coincide with the performance characteristics of the arrester.

The invention is directed to an earthquake-resistant installation of a spark gap. The figure shows the mounting unit 1 under the lower flange of the arrester 2, the trip recorder 3 (the ground electrode is not shown conventionally), the base stand 4, additionally mounted the second mounting unit 5 on the upper flange of the arrester 2, the portal 6 with a suspension insulator 7 on its crosshead damper design 8, made by a cable passed through the rollers 9, while one end of the cable is fixed to the mounting unit 1 under the lower flange of the spark gap 2, and the load is suspended at the other end 10. The task is achieved by the fact that the device is complemented by second a mounting unit 5 on the upper flange of the arrester 2, and a portal 6 with a suspension insulator 7 on its traverse, while the arrester 2 is suspended by means of a second mounting unit 5 to the aforementioned suspension insulator 7, and the mounting unit 1 under the lower flange is fixed to the base rack 4 additional damper design 8.

Damper design 8 can be performed both on the example of a cable, and on the example of a damping spring.

The proposed device implements the goal as follows: during earthquakes, the portal 6 perceives oscillations. Due to the pivoting of the suspension insulator 7 to the portal 6 and the insulator 7 to the spark gap 2, these vibrations are transmitted to the spark gap 2 by damping, with significant vibrations of the lower end of the spark gap 2 by the damper structure 8. The spark gap 2 does not collapse and is stably restored in the vertical axis.

An additional effect of the proposed solution is that with significant wind pressures, the arrester 2 is maintained in working condition when the prototype is fraught with destruction.

Claims (1)

A device for earthquake-proof installation of a spark gap containing an assembly under the lower flange of the spark gap, an earthing switch, a trip recorder and a base rack, characterized in that, in order to increase the earthquake resistance of the spark gap, the device is additionally equipped with a second mounting node on the upper flange of the spark gap, a portal with a suspension insulator on it traverse, while the arrester is suspended by means of a second mounting unit to said suspension insulator, and the mounting unit under the lower flange is fixed to the strut Ament additional damper design.