SU653666A1 - Device for high-frequency interlocking of power transmission systems for double-transformer substation with jumper-located cutout - Google Patents

Description

with a switch in the jumper, reducing the number of high-frequency transceivers, reducing the bandwidth occupied by the protection channels, and ensuring the selectivity of the action of protection and increased reliability in the event of damage on any of the sections of the protected line.

The specified target in a device for high-frequency blocking of directional power line protection for a two-transformer substation with a switch in a jumper that contains a high-frequency path with a transceiver and its start and stop bodies, intermediate blocking relays, output circuits of the transmitter start bodies are connected in parallel and connected to the input "transmitter start, the output circuits of the transmitter's stop organs are included in the circuit of the windings of the intermediate blocking relays, through whose opening contacts the transceiver The transmitter is connected to the high-frequency path, while one closing contact of the blocking intermediate relays connected in series is also connected to the high-frequency path to form a high-frequency bypass circuit, and other closing contacts of the specified blocking relay connected in series are connected to the input “transmitter stop”.

A schematic diagram of the device is shown in FIG. 1 and 2. Starting bodies 1 and 2 of the transmitter 3 are connected to current transformers 4 and 5, respectively, embedded in the sleeves of switch 6. Transformers 7, 8 act on the start of the transmitter when damage occurs at any of the transmission sites (line L1-transformer 7, line L2 - transformer 8).

Output circuits 9, 10 of the transmitter's stop units And and 12 are formed by parallel-connected closing contacts of the output protection relays (not shown) of transformers 7 and 8, respectively, the output relays of directional protections (not shown) of lines L1 and L2, respectively, and the blocking current relay (not shown in the diagram) the disconnection of the separators 13 and 14, respectively, are included in the circuit of the windings 15, 16 of the intermediate blocking relays 17 and 18, respectively, through the opening contacts 19, 20 of which the output circuit of the transmitter 3 is connected to high frequency to the paths formed on lines L1 and L2 with the help of barriers 21, 22, respectively, coupling capacitors 23, 24. and connection filters 25, 26. The closing contacts 27, 28 of intermediate blocking relays 17 and 1-8, respectively, are connected in series and switched on in the high-frequency bypass circuit of the substation through passage.

In case of a short circuit on one of the transmission areas, for example, on LII L1 or transformer 7, the transmitter 3 starts up through the output circuits 29, 30 of the start-up organs 1, 2, respectively. At the same time, using relay line protection devices or a transformer acting on the opening of the switch 6 and part of the stop 11, the intermediate blocking relay 17 is started (through the output circuit 9, the operational power is supplied to the winding 15 of the intermediate blocking relay 17) 19 which breaks the transmission circuit of the blocking signal towards the supply substation of the line L1, which makes it possible to turn off its linear switch. At the same time, the intact transmission area (L2-transformer 8) remains in operation, since the device ensures the transmission of the blocking signal to the side of the supply substation of the L2 line (disconnecting contact 20 of the intermediate blocking relay 18 remains closed).

Thus, the device provides selective shutdown of the damaged section of power transmission and reliable blocking off of the intact section.

Attaching the transmitter 3 to the high-frequency path leads to an increase in its attenuation by no more than 4-5 dB, which does not cause a noticeable decrease in the margin on overlapping attenuation when transmitting blocking signals between the protection semi-sets installed at the power ends L 1 and L 2. To prevent the influence of the beating of the high-frequency signals, the frequency of the transmitter 3 is assumed to be different from the frequency of the transmitter of the feed ends by 0.5 kHz.

To prevent the transmitter from operating when the load is disconnected (both of the blocking relays 17, 18 are in the actuated position, for example, during a short circuit on 6-35 kV wiring in parallel operation of transformers 7 and 8) connected in series short-circuiting contacts 31, 32 of the blocking relay 17 and 18 close up

5 transmitter stop circuit. The second pair of make contacts 27, 28 of relay 17 and 18 closes the high-frequency bypass circuit of the through station to enable the transmission of a signal from one supply substation to another, which increases the reliability of interlocking line protection during power line swings.

Claims (2)

1. Guidance on relay protection. Issue Y. High-frequency blocking of the distance (|) th and current directional zero-sequence protection of lines 110-220 kV; M, “Energie, 1975, Fig.2, p. 16. 2. The copyright certificate number 291348, cl. H 04 B 3/34, 1971. P to RU-6-JSHS FIG. I -H K 26 K2S