CS200090B1 - Equipment for testing electrical surface strength of insulators - Google Patents

Abstract

Equipment for testing the electrical surface strength of insulators. In the insulating case made of metal and wicker, rods with holders for placing the tested insulators are recessed in the bottom. The lid is equipped with a lead to the surge voltage generator. The equipment makes it possible to perform economical, strict piece tests of the electrical surface strength of insulators for encapsulated substations. Handling the test container is easy. The time courses of the voltage on all tested insulators are identical, the probability of flashover of one of the insulators in the test apparatus will therefore be higher than in the substation, the test is therefore more stringent.

Description

FIELD OF THE INVENTION The present invention relates to an apparatus for testing the electrical surface strength of insulators, in particular for encapsulated β sulfur hexafluoride gas substations.

In the encapsulated switchgear, all potential components are housed in closed, grounded metal pipes, the insulation being sulfur hexafluoride gas and insulators.

Each substation failure is associated with a long-term blackout and thus great economic damage, so their frequency must be minimal, in terms of voltage, the weakest point of the substation is insulators whose surface is short to keep the outline substations small. In order to ensure sufficient operational reliability of the substation, the probability of jumping over the Insulator when the overvoltage occurs with an amplitude equal to or higher than the standard insulation level must be very low. Substation insulators are connected in parallel, therefore the existence of one insulator β by low flashover voltage jeopardizes the steel substation.

Verifying the very low probability of the Insulator Jump Voltage requires a large number of attempts, hence time consuming. The test room requirements can be reduced by testing several parallel insulated insulators. The adequacy of these tests is influenced by the design of the test apparatus. If the adequacy cannot be fully achieved, stricter conditions must be chosen. Furthermore, the handling of the test apparatus should be undemanding.

These drawbacks in principle are overcome by the invention in that in an insulating sleeve provided with a metal bottom and a lid, metal bars are embedded in the bottom, on which metal holders are placed for receiving the insulators to be tested. The lid is equipped with a lead to the surge voltage generator and is adapted for conductive connections to the metal plate of the upper insulator tested. The bottom is grounded and after the tested insulators are placed, their metal tubes are connected by flexible metal connectors.

The device enables to perform economically strict piece tests of electrical surface strength of insulators for enclosed switchgear.

The attached drawing shows an example of the device according to the invention.

The insulators to be tested rest on metal holders 2 in the form of a disc, slid onto metal bars 4 fixed to a metal grounded base (6). Everything is enclosed in the insulating sleeve 14. The distance between the insulators to be tested 1 is determined by the spacers. The metal plugs 6 of the insulators 1 are connected to each other by flexible metal connectors χ. The molding of the lowermost insulator may be provided with a shaped electrode 8 providing a sufficiently high surge voltage between it and the bottom. The mechanical stability of the insulator assembly 1 is increased by sliding the insulating ring χ onto the upper end of the rods χ. After the insulators have been assembled, a spring 10 spanned by a metal strip 11 and supported by a cover 12 connected to the surge voltage generator is placed on the metal strip 6 of the upper insulator 1.

After removal of the lid 12 s, a test number of insulators 1, which are interconnected by flexible metal couplings χ, are stored in the test device. After closing the insulating sleeve 16, the apparatus is filled with, for example, sulfur hexafluoride gas. The lid 12 is connected to a surge generator. After the specified number of shock waves, the course of which is

200 090, for example, follows the oscilloscope *, the gas discharge test terminates and the insulators £ are removed ·

Handling ee test vessel is undemanding and thus one of the conditions is fulfilled, ie easy handling · The second condition regarding the adequacy of the tests is fulfilled by the fact that the voltage waveforms on the tested insulators are identical, whereas insulator to the other and gradually damping, the probability of skipping one of the insulators in the test apparatus will therefore be greater than in the substation, the test is therefore stricter *

SUBJECT OF THE INVENTION

Claims (1)

Apparatus for testing the electrical surface strength of insulators, in particular for encapsulated sulfur hexafluoride gas substations, characterized in that metal rods are embedded in the bottom (4) in an insulating housing (14) provided with a metal bottom (4) and a lid (12) (3) on which the metal holders (2) for receiving the test insulators (1) are placed, wherein the cover (12) is provided with a lead to the surge voltage generator and is adapted for conductive connection with the metal lint (6) ), the bottom (4) is grounded and after placing the tested insulators its metal plugs (6) are connected by flexible metal connectors (7) ·