SU117122A1 - Test method for high voltage circuit breakers in automatic reclosing mode - Google Patents

Description

To test high-voltage circuit breakers in AR mode, a method is used based on using an oscillating circuit to perform the first operation of an AR cycle, a synthetic circuit for (1 performing a second operation, and a two-frequency circuit with a phase shift of the over-frequency current to perform the third operation.

The proposed method is more perfect, since it ensures the production of continuous current at all three operations and any predetermined ratios between the turn-on voltage and the restoring voltage and a reduction in the number of capacitors used when performing three steps in the AR cycle during one experiment.

This is achieved by the fact that the capacitor bank, used in the first operation (disconnecting), is simultaneously used to feed the current in the third operation (repeated disconnection), and the capacitor bank, used to reproduce the inrush current, is simultaneously used to obtain the disconnect current in the last operation . The battery of capacitors in the high voltage circuit is used in the second (on) and third operations, and in the first case it is connected through a disconnecting device, and in the second case through a dipstick shunted by this device during the second operation and including an additional battery capacitors, as well as the reactor in the third operation.

The drawing shows a schematic diagram of an apparatus for carrying out tests of high-voltage circuit breakers according to the proposed method.

The first operation of the reclose cycle is carried out in an oscillating circuit consisting of a capacitor bank 1 and inductance 2. This circuit is closed by a switching device 3№ 117122-2 -

During this operation, the disconnector 4 is open and the test switch 5 is disconnected from the rest of the circuit. After the arc is extinguished in the switch 5, the disconnectors open (J and 7, disconnecting the circuit of the primary circuit from the switch 5, and the disconnector 4 is turned on.

A step-down transformer 8 is used for testing at lower voltages. If a switch with an arc time longer than one half-cycle is tested, in the case of premature arc extinction, circuit 5 uses an circuit for artificially extending the arc time connected in parallel with this switch .

During the second operation of the automatic reclosing cycle, the contacts of the switch under test are brought together in a series circuit containing capacitor banks 5 and / (and inductances // and 12.) When a breakdown occurs between the contacts of switch 5, a capacitor 13 discharges through it, reproducing the pulse discharge of the capacities of the outgoing lines a real network. An increased frequency current begins to flow through the arc gap, the initial part of which corresponds to the power frequency turn-on current curve. After 300-600 microseconds then the switching-on device operates The device 14, which closes the circuit of the battery of capacitors 9 - inductance 11, at the same time through the test switch 5 begins to pass the switching current of a given amplitude of the industrial frequency, and in the circuit of the battery of capacitors 10 - inductance - 12 continues to pass a current of higher frequency. devices 15 and 16 are turned off through zero. Thus, the second AR operation is carried out synthetically, providing equivalent test conditions, since when the contacts of the switch 5 close and in the first 3 00-600 microseconds after the breakdown between the Nilsch circuit breaker 5 is located in the circuit, all of whose parameters (voltage, inductance) correspond to their values in the real network.

The third operation of the auto-reclose cycle occurs after the closing of the switching devices 17 and 18 (the tripping device 19 is closed).

At the same time, a switch-off current passes through the test switch 5, which is equal to the sum of the currents of the two oscillating circuits of the condensate battery ;; ditch 9 - inductance // and capacitor bank 1 - inductance 20.

With an appropriate selection of the parameters of these circuits, this current will have the same amplitude as the currents in the two preceding operations. If a switch is tested with an arc time in one half-cycle of the power frequency, then the natural frequencies of the indicated circuits are assumed to be equal. If the arc time is longer than one half period, then these frequencies are assumed to be different from each Other.

After a predetermined time interval after switching on the switches 17 and 18, a shift circuit operates, providing a corresponding shift in the beginning of the passage of the increased frequency current in the circuit of the capacitor bank 10 v. 21 - inductance 12, with respect to the current industrial frequency. This circuit consists of the following basic elements: voltage transformer 22 or inductive shunt, synchronization circuit 23, fuse 24 and arrester 25 and 26. For 300-600 sec / sec before the current in the test switch passes through zero, the arc goes off in disconnecting device 19, in which the difference of industrial currents and increased frequency flows. In this case, one series circuit is formed and the test switch is turned on in a circuit in which the voltage, inductance and capacitance are

: same value as full power circuit. This provides equivalent test conditions for the third operation of the AR cycle.

The possibility of obtaining a predetermined ratio between the turn-on voltage and the restoring voltage is ensured by the fact that during the third AR operation, the high-voltage circuit has a voltage generated by the battery of capacitors 10, and when the first operation is repeated, the sum of batteries 10 and 21 (battery 21 Lish is connected after triggering the trigger 26).

The electronic synchronization circuit 23 provides a stable operation of the shear circuit and makes it possible to obtain timely transfer of the current through zero in the disconnecting device 19, i.e. create equivalent test conditions for a certain time interval before the current in the tested switch 5 passes through zero.

A capacitor bank / is used at the same time to provide the current during the first AR operation and to compensate for the current decay during the third operation. Batteries 9 and 10 are used in the last two steps of the AR cycle. As a result, for carrying out testing in the AR cycle, only 1.5 times more capacitors are required than in the synthetic test of the circuit breaker only for breaking capacity.

Subject invention

A method of testing high-voltage circuit breakers in the automatic reclosing mode using an oscillating circuit for performing the first operation of an automatic recloser cycle, a synthetic circuit for performing a second operation and a two-frequency circuit with a phase shift of the increased frequency current for performing the third operation, characterized in during all three operations and any predetermined ratios between the turn-on voltage and the restoring voltage, as well as for The number of capacitors used in a single run of three operations of the AR cycle, the capacitor battery used in the first operation (shutdown) is simultaneously used to feed the current in the third operation (repeated shutdown), the capacitor battery used to reproduce the inrush current, while to obtain a shutdown current during the last operation; and a capacitor battery in the high voltage circuit is used in the second (on) and third operations, and in the first case it is connected through a disconnecting device, and in the second case through a dipstick shunted by this device during the second operation and including an additional capacitor battery, and the reactor in the third operation.

- 3 - № 117122