DE1541852B2 - SYNTHETIC TEST CIRCUIT - Google Patents

Description

25th

For testing high-performance switches, synthetic test circuits are known in which two Energy sources, namely a high current source and a high voltage source, are provided and at which have an auxiliary switch (blocking switch) in series with the switch to be tested. Such synthetic test circuits are z. B. in the "ΈΤΖ-Α", 1963, pages 581 to 586, described.

The invention also relates to a synthetic test circuit, namely a synthetic one Test circuit in which compressed gas switches are tested with two or multiple interruptions. According to the invention, a pressure gas switch with the same extinguishing gas is also used as the blocking switch as used by the switch to be tested, but it has fewer series-connected switching paths than the switch to be tested, and the reduction in its breaking capacity is achieved by increasing the Pressure of the extinguishing agent balanced. This has the advantage that maintenance is simplified because fewer parts, e.g. B. switch contacts must be replaced. Plus, there will also be wear and tear from. Switching contacts reduced. The synthetic test circuit according to the invention also has the great advantage that fewer arcs are in series, d. i.e. that the arc voltage in the high current circuit is small, so that the distortion of the current is reduced.

In the case of a switch as a blocking switch, in which the extinguishing agent of the nozzle via a valve and a Pressure line is fed, one can apply the principle of pre-compression, d. i.e., the valve will opened in good time so that when the contact is separated the extinguishing gas is already at or almost at boiler pressure is available for deletion. You can then specify the number of switching paths of the blocking switch further decrease.

Another embodiment of the blocking switch based on the principle of precompression is to use a to use so-called pressure chamber switch as a blocking switch. Such pressure chamber switches are known per se, for example from the German Auslegeschriften 1 041 569, 1 161 620 and 1178 925, so that it is not described in detail need to become. Even when the blocking switch is designed as a pressure chamber switch you can increase the number of switching paths in the blocking switch with a corresponding increase in the Reduce the pressure compared to the number of switching paths of the switch to be tested.

Some examples are given below.

A 380 kV SF ₆ switch, which works on the principle described in "Siemens-Zeitschrift", 1964, pages 225 to 228, has six switching paths in series. It has a pressure of 16 atmospheres in the high-pressure tank and a somewhat reduced pressure in the nozzle that occurs when it is switched off. _{If you use an SF 6} switch constructed according to the same principle as a blocking switch for the synthetic testing of this switch, you can use it e.g. B. equipped with only four breaker points and for atm with a boiler pressure of about 24 as well as operate a correspondingly increased pressure in the nozzle, so that it has again approximately the same as the breaking test ¹ J switches. So far, when testing a multi-pole switch, one pole has always been used as an auxiliary switch, while another pole of the switch has been tested.

As already mentioned, so-called precompression could also be used with an SF ₆ blocking switch designed in this way. This happens because the valve that releases the supply from the high pressure container to the switching chamber is opened in good time so that the extinguishing gas is already available for extinguishing in the switching chamber when the contact is separated at or almost at the full pressure of the high pressure container. You can then z. B. get by with two switching paths and a pressure of about 24 atmospheres.

As already mentioned, it can also be expedient to design the blocking switch as a pressure chamber switch. If you use such a blocking switch for the synthetic test circuit of an SF ₆ switch with six switching paths, which is based on the principle described in the earlier / f Siemens magazine, you can increase the pressure in the blocking switch to about 24 atü can also manage with only two switching distances.

It should be noted that the blocking switch for the voltage of the switch to be tested - in the mentioned Embodiment for 380 kV - must be isolated, d. H. via the open switching path and against earth.

If a switch based on the precompression principle is also used as the switch to be tested with multiple interruptions, the blocking switch can be built in the same way, only with a smaller number of switching paths and therefore an increased pressure.

The invention is not limited to the use of SF ₆ as an arc extinguishing agent for blocking switches and switches to be tested. It can be used in the synthetic test of all pressure gas switches, ζ. B. also find compressed air switches, where the blocking switch and the switch to be tested have the same extinguishing gas. If you check z. B. in a synthetic test circuit with the breaking capacity of a compressed air switch

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Multiple interruptions, so you will use a compressed air switch as a blocking increase in the pressure of the compressed air compensated switch, which becomes one. Here, too, one can again use the principle of a smaller number of switching paths than the switch testing precompression for the blocking switch and in which this turns, analogous to how it was previously carried out when testing the conditional reduction of the breaking capacity with 5 SF ₆ switches .

Claims (2)

Patent claims: 1. Synthetic test circuit for testing the breaking capacity of pressurized gas switches with two or more switching sections in series and one in series with the one to be tested Switch horizontal pressurized gas auxiliary switch (blocking switch), characterized in that the blocking switch with the same extinguishing gas as the switch to be tested less Has switching paths than the switch to be tested and that the resulting reduced breaking capacity is balanced by increasing the extinguishing agent pressure. 2. Synthetic test circuit according to claim 1, characterized in that as a blocking switch a pressure gas switch based on the principle of pre-compression is used. .