SU805469A1 - Power arrangement protection device - Google Patents

Description

(54) DEVICE FOR PROTECTION OF THE ENERGY OBJECT

one

The invention relates to electrical engineering, in particular, to relay protection and automation of electrical networks and Systems, and is intended to turn off a power facility in short-circuit mode.

A power object protection device is known, which contains a relay protection and one switch-off coil and trips a switch when a relay protects a power object by acting on its switch-off coil ij.

The disadvantage of this device is the possible failure to open a circuit breaker, either due to the failure of the actuating element of the relay protection acting on the trip coil of the circuit breaker, or to the breakage of the wire of the trip coil of the circuit breaker.

As is closer to the present invention, there is an energy protection device for opening the switches of the autotransformer in the event of a short circuit in it and the operation of the primary and backup relay protection. .Basic and backup relay protection of the autotransformer when triggered affect one

the actuator is the output intermediate relays from which the contact is produced — the autotransformer switches off by acting on one relay contact for one trip coil for each switch.

However, the reliability of the operation of complex 0 decreases the relay protection device and the control circuit of the switches of the protected autotransformer, as in case of possible failure of the executive elements of the relay protection (con tacts of the output intermediate protection relay) and when the circuits of these contacts go to the circuit breakers of the circuit breakers , it is possible to refuse to disable the autotransformer with a short closure in it and the operation of relay protection. Having one shutdown coil on each switch reduces its reliability as a result of possible damage.

5 (e.g. break) coil off switch coil. Thus, the disadvantage of this device is its low reliability.

The purpose of the invention is to increase the .0 reliability of the device.

This goal is achieved by the fact that the device for protection of a power facility, containing switches, in which circuits current transformers are connected in series with the main relay protection unit, its output interrupter unit, short-circuit relays and main switch-off Catholics, Circuit breakers include a backup relay protection circuit consisting of a series-connected current transformer, a backup relay protection unit, a time delay unit, an output intermediate relay unit, under Switched to the main disconnecting coil of the breaker, another output of the time delay block is connected to the input of the main intermediate relay of the main relay protection unit, an additional disconnecting coil for each switch and additional blocks of the output intermediate relays of the main and backup relay protection are introduced, the latter are connected with the input and the corresponding blocks of the output intermediate relays of the main and backup relay protection, and the outputs with the corresponding additional coil and trip the circuit breaker.

-.The drawing shows the block-circuit of the device for the protection of a power facility.

The protected power facility 1 is connected via switches 2 and 3 to high voltage buses 4 and 5. Transformers B and 7 of the current are connected to a series circuit consisting of block 8 of the main relay protection, block 9 of its output intermediate relays and main disconnecting coils 10 and 11, respectively, of switches 2 and 3.

The current transformer 12 is connected to a series circuit consisting of a block 13 of backup relay protection of the time delay block 14, a block of 15 output intermediate relays of the backup relay protection 13 and the main trip coil 10 of the switch 2. The second output of the block 14 of time delay is connected to the input of the block 9 output intermediate relays axle relay protection. The input of the additional block 16 of the output intermediate relays is connected to the input of the block 9 of the output intermediate relays of the main relay protection, and the outputs with the additional coils 17 and 18 of the opening of the switches 2 and 3, respectively.

The input of the additional block 19 Output intermediate relays is connected to the input of the block 15 output intermediate relays of the backup relay protection, and the output is connected to the additional switch-off trip coil 17 2

The place of the short hatch is indicated by the position 20.

When a short circuit 20 occurs at the power facility 1, the unit 8 of the main relay protection and the blocks 9 of the main and 16 additional output intermediate relays of the main relay are activated, which give the command to turn off the switches 2 and 3 through their main 10 and 11 and additional 17 and 18 disconnect coils . The operation of the main relay protection is reserved by the action of the backup relay protection. If the block 8 of the main relay protection of the power object 1 fails to turn off at a short circuit 20, the block 13 of the backup relay protection trips, and after a shorter time specified by the time delay block 14, the blocks 15 and 19 of the output intermediate relays operate and act on the coils 10 and 17 off switch 2 and turn it off. In this case, it is assumed that the main portion of the short-circuit power goes to the short-circuit place through switch 2. However, to completely shut off the short-circuit, it is also necessary to turn off switch 3, through which the power from the buses goes to the short zag / pin point, which ensures the operation of the unit 13 backup relay protection and time delay block 14 with longer delay time. In this case, blocks 9 and 16 of the output intermediate relays operate and affect the tripping of the switch 3 through its main 11 and additional 18 disconnecting coils.

The above-described sequence of the device operation provides full redundancy of the operation of the relay protection of the power object along the tripping circuit of the breakers in the event of a short circuit on it.

The invention can be used for relay protection of power objects of any voltage in the presence of two breaker coils in the switches. Its application is especially effective for 110-500 kV AC voltage networks, both newly designed and reconstructed.

Claims (2)

1. Gumin I. Ch. Secondary power plants. M.-L., 1962, p. 40, FIG. 3-2. 2. Guidelines for relay protection. Release 4. Protection of step-down transformers and autotransformers. M., Energie, 1962, with. 14, fig. 3 five