SU122546A1 - Test method for high voltage circuit breakers - Google Patents

Description

The present invention relates to methods for testing high-voltage switches using an inductance coil and a synchronous generator as a disconnectable-current source.

The proposed method differs from the known ones in that a capacitor precharged from a charging device is connected in series with the device under test directly or through an intermediate transformer, and the test circuit is closed at a certain predetermined voltage phase of the generator.

This method of testing high-voltage switches allows an increase in the power of the test facility.

The drawing shows a schematic diagram explaining the proposed method.

The installation contains a shock synchronous generator G; an operation switch of pollutants, ensuring the termination of the short circuit process; synchronous switching device VA, which closes the value in the specified phase of the emf. generator; regulated reactors L, creating the necessary inductance circuit; and a capacitor C with a charger charger connected to the circuit through the relay disconnectors RZ. The test switch IA is connected in series to the test setup circuit.

In order to best use the capacitor C capacitance, as well as when testing the MAi and IA2 circuit breakers at high or low voltages compared to generator G voltage, the circuit breakers should be connected to the generator via intermediate transformers TI and T. In this case, the possibility of charging it is applied to the discharge voltage R. The discharge voltage of the discharge voltage P must be greater than the charging voltage of the capacitor C, but less than the sum of this voltage and the voltage of the generator reduced to the secondary voltage second winding of the transformer Ti. In this case, the closure of the generator circuit will trigger the trigger.

When testing high-voltage circuit breakers according to the proposed method, the required voltage of the generator G is preset and the capacitor C is charged. Thereafter, with the operational switch ZV closed and the test circuit breaker IA

With the help of a synchronous switching device BA, the circuit is closed at a certain phase of the generator. After a specified period of time, the apparatus under test shuts off the current and a voltage equal to the sum of the voltages of the generator and the capacitor is restored at its terminals, which results in an increase in the reactive power of the device.

If it is necessary to compensate for the attenuation of the industrial frequency current, due to a decrease in the super-transient component of the generator short-circuit current, the test circuit is closed at this phase of the emf. generator, in which the current established in the test circuit contains a component of the transition process of a lower frequency. In this case, in each individual case, it is possible to select the switching-on phase in such a way as to compensate for a certain period of time by beating the attenuation of the short-circuit current.

If the highest value of the short circuit current in the test value is not limited by the design (dynamic stability) of the generator or other equipment, but by the inductance of the circuit (which is often the case when using step-up transformers), the inductance of the series-connected oscillating circuit is chosen somewhat less than that required normal operation. In this case, an increase in the power of the test facility is achieved not only due to the addition of generator and circuit voltages, but also as a result of some increase in the test current.

Subject invention

The method of testing high-voltage switches using a synchronous generator as a source of disconnected current and inductance is distinguished by the fact that, in order to increase the power of the test facility, a capacitor precharged from a charger is switched on directly or through a transformer, and the test circuit is closed at a predetermined, predetermined voltage phase of the generator.