SU798651A1 - Synthetic circuit for switchability testing of a.c. switches - Google Patents

Description

the inductance 3, the disconnecting device 4, the test switch 5, the chain 6 of formation restores its voltage, the contactor 7 with a moving arc, the high frequency circuit 8 of the restoring voltage and the controlled discharge 9.

The synthetic circuit for testing the AC breakers for breaking capacity works as follows.

According to the commands of the automatic control unit (not shown in the drawing), source 1 is connected via inductive storage device 2, auxiliary inductance 3, which disconnects device 4 to the test switch 5.

After reaching the Maximum value of current c (Fig. 2), the contacts of the disconnecting device 4 and the test switch 5 open, and between them an arc occurs on which the voltage U falls. The maximum value of direct current i corresponds to the actual value of the equivalent alternating current i, j

After a predetermined arc interval () has elapsed, a breakdown is made in the circuit-breaker 7, which shunts the auxiliary inductance 3, the disconnecting device 4 and the test switch 5. At the same time, the current in the test switch 5 gradually decreases to zero.

Before the end of the current i decays, the test switch 5 is superimposed by a current 1 of circuit 8, the restoring voltage by means of a breakdown in the discharge device 9. In the test switch 5, the currents i and 1 3 are summed, and in the disconnecting device 4 they are subtracted, which increases the deionization in the last U through zero.

During the .1 testing process, the switch 5 is sequentially exposed to a large current i, a derivative of the current. ji and regenerative voltage.

When the voltage of source 1 is removed and once it is disconnected, the switch 7 dissipates the energy of storage device 2.

In case of contact closure of the disconnecting device 4 and the switch 5 for repeated disconnection in the cycle, the arc in the closing device 7 is provided and goes out, and the accumulator 2 is recharged for a new disconnection, which is carried out as described above.

Reducing the current in the tested switch 5 when turning on the switch 7 causes a decrease in the voltage on the drive 2, thereby reducing the insulation requirements in the drive 2, reducing its size and cost.

The presence of zakshkatel 7 creates the ability to use the energy of the inductive storage device 2 in the mode with repeated disconnection, which expands the test capabilities of the circuit.

Claims (2)

1. Patent of Great Britain, cl. 37A, No. 662549, 1951. 2.J Patent Belik Britannia, cl. G 1 and, No. 977732, 1964 (prototype) FIG.