SU993169A1 - Electric apparatus checking device - Google Patents

Description

The invention relates to electrical measuring technique and should be used to create devices for monitoring high-voltage electrical equipment.

A device for testing high-voltage electric apparatuses for switching capacity is known, which contains synchronous shock generators, impact transformers, protective and operational switches and synchronous switching devices 1.1.

The drawback of the device is the impossibility of obtaining large values of test currents at high voltage levels.

The closest in technical essence to the present invention is a device containing synchronous shock generators, the outputs of which through appropriate protective switches are connected to the inputs of regulated reactors, three-phase and single-phase electrical transformers, synchronous reactors, synchronous switching devices, additional synchronous switching device, operational switch , a switch whose fixed contact is connected to

with the output of the power system, and test electric device 2.

A disadvantage of the known device is the long duration of auxiliary operations, which limits test capabilities, and low reliability.

The purpose of the invention is to enhance the functionality and increase reliability of operation.

The goal is achieved by the fact that in a device for testing electrical apparatus containing synchronous shock generators,

15 outputs of which are connected to the inputs of controlled reactors, three-phase and single-phase impact transformers, synchronization reactors, synchronous switching devices, additional synchronous switching device, operational switch, switch, fixed contact of which is connected to the output

25 of the power system, and the electrical apparatus under test, synchronization reactors are connected between the inputs of the corresponding regulated reactors, the outputs of which through

30 synchronous switching-on devices of the yen with the inputs of impact transformers, with the outputs of single-phase impact transformers through an operating switch, and the output of a three-phase impact transformer is directly connected to the moving contact of the switch, and the electrical apparatus under test is connected between the common bus and the input of the operating switch through an additional portable synchronous powering apparatus.

The drawing shows a structural electrical circuit of the device.

The device contains synchronous percussion generators 1-3, safety switches 4–6, synchronization reactors 7–9, adjustable reactors 10–12, synchronous switching devices 13–16, three-phase percussion transformers 17, single-phase percussion transformers 18–20, additional synchronous switching apparatus 21, the test apparatus 22, the operational switch 23, the switch 24 and the output of the power supply system. We are 25.

The device works as follows.

When using a device for testing electrical apparatuses, for example, switches for switching capacity, using resistance regulated reactors 10 12, they establish resistance in shock generator circuits 1–3 corresponding to a given current and include test apparatus 22 and safety switches 4 - b. Impact generators 1 - 3 synchronize with each other through reactors 1 -, turn on synchronic switching devices 14 - 16 and shock generators 1-3. Each is connected to an additional synchronous switching device 21 through its impact transformer 18 20 in a single-phase version. , the shock generators synchronize with the power system, close the synchronous switching apparatus 13 and connect the shock generator 1 through the shock transformer 17 in a three-phase version to the power system 25. Then they switch on the operational one the switch 23 and immediately after it at a predetermined voltage phase an additional synchronous switching device 21. Then the testing device 22 is turned off and the operation is disconnected from O. After that, the on-off switch 23, safety switches 4-6, switch 24, synchronous switching on devices 13, 16 and 21, and the device returns to its original position.

If the switches are carried out in a shutdown cycle — dead pause on / off lO-tj -BO), then in operation O, the device operation sequence is the same as described above, but after completion of operation O for period g (0.25-1.2 ) only the operational switch 23 is disconnected, and for 0.01-0.02 seconds before the end of the dead time, the operational switch 23 and the device 22 are switched on again, switching on and off, carries out operation VO, ending the cycle. After that, the switches (4H24), synchronous-switching devices (13-16 and 21) are turned off in the sequence indicated in brackets and the device returns to its original position,

The advantage of the proposed device is that the auxiliary operations, including synchronization of the shock generators between themselves and the preparation of a given circuit, occur in the absence of communication with the power grid. This simplifies their implementation.

When operating in parallel with the power system of two or more shock generators, an increase in the number of shock generators does not lead to additional operations that are required to synchronize them with the power system during connection to it for parallel operation. The time spent on synchronization with the power system, due to direct connection to it through a three-phase transformer 17, of just one shock generator 1 is minimal. The remaining shock generators during the experiment are actually disconnected from the power system by a short-circuit or electric arc in the apparatus under test. Therefore, in the case of coincidence of experience and an accident in the power system, recharge is possible practically from only one percussion generator 1, and between the other percussion generators and the power system there are reactors .7–9 that have high resistance, and the current from them will be insignificant.

The advantage is also an increase in current from the shock generators due to the fact that each shock generator is connected to its single-phase impact transformer, which is connected directly to the synchronous switching apparatus of the switch under test and does not participate in the operation of the power system, therefore its resistance can be reduced, for example, by parallel connection of several transformers and test capabilities of the device by 15-20% or more, depending on the equipment used ovan. Besides

Claims (1)

Claim A device for testing electrical apparatuses containing synchronous shock generators, the outputs of which are connected through the appropriate protective switches to the inputs of regulated reactors, three-phase and single-phase shock transformers, synchronization reactors, synchronous 15 switching apparatuses, an additional synchronous switching apparatus, an operational switch, a circuit breaker, the fixed contact of which connected to the output of the power system / and a tested electrical apparatus, characterized in that, in order to expand the function In order to increase the number of possibilities and increase the reliability of operation, synchronization reactors are switched on between the inputs of the respective regulated reactors, the outputs of which are connected via inputs of shock transformers through the corresponding synchronous switching devices, while the outputs of single-phase shock transformers are connected via an operational switch, and the output of a three-phase shock transformer is directly connected to the movable contact of the switch, and the tested electrical apparatus is connected between the common bus and the input of the operational switch Atelier through an additional synchronous switching device.