SU417868A1 - - Google Patents

Description

This invention relates to current leakage protection devices in three-phase electrical networks with insulated neutral. There are known devices that contain leakage blocking relays installed on outgoing feeders, a circuit breaker, a network-wide leakage relay connected to substation wiring, in which a rectifier-connected four-pole network of two capacitors connected by a resistor and a relay controlling the isolator is connected between the rectifier bridge and the operational circuit the entire network. In the proposed device, in order to increase the reliability of protection, the operational circuit from the ground side is connected to the output and input of the quadrupole from the resistor side through the opening contact of the said relay controlling the insulation of the entire network and the series-connected closing contact of the same relay and the optional additional relay, closing contact which is included in the circuit breaker circuit of the circuit breaker. The drawing shows a schematic diagram of the proposed device. The network-wide relay 3 and three contactors 4-6, which control the feeders A, B, C, on which the leakage blocking relays 7-9 are installed, are connected to the wiring of the substation 1 connected to the power source through the automatic switch 2. As well as the known devices of similar purpose, the network-wide protective relay 3 contains a filter for connecting the operational circuit to the controlled network, consisting of three-phase 10 and zero 11, 12 chokes and a capacitor 13; a rectifying bridge 14 for powering the operational circuit, a relay amplifier 15 operating in relay mode with an output to the executive relay 16; U-shaped quadrupole 17 made up of capacitors 18, 19 connected by a resistor 20. Capacitor 21 is inserted in the public safety relay circuit to create a time delay when the actuating relay 16 drops out. For controlling the contactors, this relay has open contacts 22-24 in the coils these contactors. The network-wide protective relay has one more, an executive relay 25, the contact 26 of which is connected to the circuit of the tripping coil 27 of the automatic switch 2. The relay 25 is included in the operating circuit by the contact 28 of the relay 16 only when it is activated. Contacts 29 and 30 of relay 16 are designed to eliminate the effect of capacitor 19 and resistor 20 on the condition of relay 25 to operate.

The leakage blocking relay 7 has a known circuit solution. Its scheme contains a filter for attaching an opaque circuit in the form of a three-phase throttle 31; rectifying bridge 32 for feeding the operational circuit; sensing relay 33. The contact 34 of the relay 33 is inserted into the coil circuit 35 for blocking the contactor 4. This contactor has its own locking contact 36 in the operative circuit of the interlocking leakage relay 7. Similar elements and circuit solutions also have interlocking leakage relays 8 and 9 that are installed on feeders B and C.

The proposed device works as follows.

When a leakage current occurs behind the contacts of the feeder contactor (for example, 4), the amplifier 15, changing its state of jumps, connects the coil of the relay 16 with the connected capacitor 21 parallel to it to the power supply of the amplifier 15. The capacitance of the capacitor 21 has almost no effect the operation of the relay 16 is because the resistance of the amplifier 15 is low and the charge of the capacitor 21 is therefore almost instantaneous. Relay 16 is activated and opens its contacts 22-24 in the coils of contactors 4-6. As a result, the feeders A, B, and C are de-energized. At the same time, the blocking contacts of the contactors 4-6 are closed in the operating voltage of their leakage blocking relays. From now on, the isolation of the outgoing feeders A, B, C is separately monitored.

Since the leak causing the operation of the network-wide protective relay 3 is separated from it by the contacts of the contactor 4, the amplifier 15 returns to its original state. However, the relay 16 will not immediately disappear, and will remain on for some time due to the discharge of the capacitor 21. The time delay will be sufficient to activate the relay 33 and open its contact 34 in the circuit of the coil 35 of the contactor 4. Turning on this contactor will become possible only if the insulation resistance increases feeder A to a level at which the relay 33 will disappear. The power of feeder A is then restored automatically.

When the voltage decreases during the discharge of the capacitor 21 to the value at which the relay 16 returns to its initial state, the power supply of the intact feeders B and C is automatically restored.

Relay 16 will also work if a leakage trip occurs on the tires of 1 substation. By opening its contacts 22-24, it will provide the outgoing feeders A, B, C, and contacts 28-30 will perform the following operations.

By closing contact 28, relay 16 will turn on relay 3 relay 25 in order to increase the sensitivity of this relay by opening contact 29 to disconnect resistor 20 and capacitor 19. By closing contact 30, relay 16 discharges capacitor 19. Unload this capacitor to prevent false relay 16 triggers when power is applied to intact feeders.

The signal of leakage on the substation tires will be perceived by both relay 16 (via amplifier 15) and relay 25. At the same time, relay 16 prevents feeders A, B, C from turning on again, and relay 25 gives impulse 26 to turn off automatic switch 2 .

Subject invention

A device for group selective protection against current leaks in three-phase electric networks with insulated neutral, containing interlocking leakage relays installed on the outgoing feeders, a circuit breaker connected to the substation spikes, a network-wide leakage relay, in which between the rectifier bridge of the operating voltage source and The operational circuit includes a U-shaped quadrupole of two capacitors connected by a resistor and a relay controlling the insulation of the entire network, characterized in that, in order to protection reliability, its operational circuit from the ground side is connected to the output and to the quadrupole input from the resistor through the opening contact of the said relay controlling the insulation of the entire network and the series-connected contact contact of the same relay and the coil of the additional relay whose contact is turned on circuit breaker tripping circuit breaker. - -H-jnm IL-r with FiT g / Ж. s; A