SU775821A1 - Device for automatic switching-in of stand by sypply of users - Google Patents

Description

. The invention relates to devices for automatically turning on the backup power and is intended for substations of power systems with two transformers.

Known devices for automatically turning on the power reserve, providing ⁵ times, turning on the backup source by using a special ON switching relay, consisting of ATS start circuits containing the contacts of two undervoltage relays to control the voltage drop of the main source and the contact of the overvoltage relay to control the presence of the backup voltage source, connected in series with the winding of the time relay, as well as a time relay contact closing with a time delay, contact relaying and break contact - the positions repeater _χ Nia one primary source switch, connected by OR circuit and in series with disconnecting the intermediate relay control vyklyucha2 second main source of Tell. The contact of this relay is inserted into the control circuit of the circuit breakers Ci ?.

The one-time action of ABP is provided by one of. intermediate relays, called a single-shot relay. This relay has a return time delay. After this time delay has elapsed, the one-shot relay opens the switching circuit of the backup source circuit breaker. The time delay of the single-shot relay is selected so that it with some margin exceeds the time for switching on the backup source circuit breakers and provides reliable circuit breaker protection when the backup circuit is switched on for a stable short circuit.

By the time the backup power supply is disconnected by protection, the contact of the single-shot relay will still be closed if the selected time exceeds the total protection and shutdown time, turn OFF the power supply switch

IS, 775821 pins. In this case, a command will be issued to turn on the backup source switches off again, which is possible if the backup source is protected by high-speed protection or acceleration of protection after the ABP is applied.

To exclude the multiple actions of the ATS in the event of a short circuit, a block from repeated inclusion in the circuit breaker control circuit is used.

The closest solution to the technical problem is a device for automatically turning on backup power supply of consumers, containing start-up circuits made on a voltage relay of an automatic control circuit for main and backup power chats, on-off relays for on-off switches, and providing a one-time switching made on an intermediate relay [2],

The aim of the invention is to increase the reliability of the device. This goal is achieved by the fact that in the device for automatically turning on the backup power supply of consumers, containing start-up circuits made on the voltage relay, circuits for automatic control of the switches of the main and backup power supplies, relays on and off position of the circuit breakers, the circuit for providing a single switching on, made on the intermediate relay, the intermediate relay in the circuit of a single actuation is made without time delay, its winding is connected in series with the make contact relay disconnected position redundant power switch and

In Fig. 2, a diagram of the ABP device is shown (for simplicity, the indicator relay circuits are not shown.)

The start-up circuit 14 of the device consists of contacts 15 of the undervoltage relay 11, contacts 16 of the undervoltage relay 12, contacts 17 of the overvoltage relay 13 and the time relay 18 connected in series. The device also contains a relay 19 of the off position of the switch 5, a block contact 20 of this switch, a relay 21 of the on position of the switch 6, _{% a} block contact 22 of the same switch, a relay 23 of the disconnected position of the switches 7, 8, connected in series with parallel connected opening blocks contacts 24, 25 of these switches. The single-turn circuit 26 contains an intermediate relay 27 without a time delay (memory relay), a terminal 28 of the relay 23 and a parallel-connected make contact 29 of the memory relay 27 and a contact 30 of the relay 21 connected in series with it. The control circuit 31 of the circuit breakers contain a parallel-connected make contact 32 of the relay time 18 and NC contact 33 of the relay of the on position 19, NC contacts 34, 35 of the relay and NC contacts 36, 37 of the memory relay 27 in the switching circuits of the switches 7, 8.

The ABP device operates as follows.

When the voltage at the main power source is reduced and the voltage at the backup source is present, the voltage relays 11, 12, 13 and the time relay 18 are activated, after the relay of the switched on position of the main power switch and the backup power switch set in parallel with the closing contacts.

In FIG. 1 shows a schematic diagram of a substation on which an ABP device is installed.

The diagram shows the transformer 1 of the main power supply 2 and the transformer 3 of the backup power supply 4, switches 5, 6 of the main power supply and switches 7, 8 of the backup power supply 4, voltage measuring transformers 9, 10 for monitoring the voltage of the main and backup power supplies, relays minimum voltage 11, 12 and maximum voltage relay 13.

time delay time relay closes contact 18 and comes off switch 6. When the switch ₄₅ is turned off for any reason 5, relay 19 included provision of this switch and closes a contact in a circuit breaker trip 6, when disconnecting switch 6 to ₅₀ lu fight fires due relays 21 , contact 30 of relay 21 closes the circuit of memory relay 27, contacts 34, 35 are closed. When the relay 27 is activated, contacts 36.37 are closed, as a result of which the switching circuits of switches 7, 8 are closed and they turn on, at Ohm, their block contacts 24, 25 open, contact 28 in the circuit of the memory relay 27 opens, the relay is de-energized, and with its contacts 36, 37 it breaks the switching circuits of switches 7, 8.

In the event of the circuit breakers 7, 8 being tripped (for example, by relay protection of the backup source), their repeated switching _on — ₅ will not occur, since in the circuit of the memory relay 27 its contact 29 and the closing block contact 30 of the disconnected circuit breaker 6 are open. Contacts 36, 37 in the control circuits for turning off the switches 7, 8 remain open.

Thus, the proposed device ABP provides a one-time inclusion of switches of the backup power source. As a memory relay, providing a one-time inclusion, an intermediate relay is used without a delay to return.

Claims (2)

. The invention relates to devices for automatic switching on of the backup power supply, intended for substations of power systems with two transformers. Automatic power reserve switching devices are known, which ensure that the backup source is switched on once by using a special on-time relay, consisting of ADB starting circuits, containing the contacts of two undervoltage relays to control the decrease of the voltage of the main source and the contact of the overvoltage relay to control the presence of voltage backup source, consistently connected to the winding of the time relay, and also closed with a time delay contact rep time, end act relaying repeater and break the contact position of primary source switch, connected by OR circuit and in series with disconnecting the intermediate switch controlling the second switch main source. The contact of this relay is entered into the control circuit by turning on the switches of the backup source Cl. The one-time operation of the ATS is provided by one of. intermediate relays, called one-time relays. This relay has a time delay for return. After this time expires, the one-time relay opens the backup source switch on circuit. The time delay of the one-time relay is chosen so that it with a certain margin exceeds the switch-on time of the backup source switches and ensures reliable tripping of the switch with protection when the backup source is switched on for a stable short-circuit. By the time the backup power supply is disconnected by the protection, the one-time relay contact will still be closed if the selected time exceeds the total time the protection has been running and the video is turned off. In this case, the SI will be given a command to re-enable the backup source of the selectors, which is good if the backup source is protected with high-speed protection or if the acceleration of the protection is applied after the action of the ATS. In order to avoid multiple action of the ATS during short hooking, the blocking from multiple switching into switch control circuits is used. The closest solution to the technical problem is a device for automatic switching on the backup power supply of consumers, containing start circuits, performed on the relay of the automatic control voltage of the switch. the main and backup power sources, the relay on and off position of the switches, the circuit for ensuring a single switch-on, on the intermittent relay ts The aim of the invention is to improve the reliability of the device. This goal is achieved by the fact that in the device for automatic reserve supply of consumers, containing start circuits, made on the voltage relay of the automatic control circuit of the main and backup power supply switches, the on and off position of the circuit breakers, the one-turn-on supply circuits made on the intermediate relay, the intermediate relay in the single-turn-on circuit is made without time delay, its winding is connected in series with the closing contact of the relay of the disconnected position of the switch of the backup source and with the parallel contacts of the closing contacts of the relay of the switched on position The main source switch and the backup source switch. FIG. 1 is a schematic diagram of a substation on which an ATS device is installed. The diagram shows the transformer 1 of the main power source 2 and the transformer 3 of the backup power source 4, the switches 5, 6 of the main power source and the switches 7, 8 of the backup power source 4, the measuring voltage transformers 9, 10 for controlling the voltage of the main and standby power supplies, minimum voltage relays 11, 12, and relays of maximum voltage 13. In FIG. 2 shows the circuitry of the ATS device (for simplicity, the pointer relays are not shown.) The starting circuit 14 of the device consists of the contacts 15 of the minimum voltage relay 11, the contacts 16 of the minimum voltage relay 12, the contacts 17 of the maximum voltage relay 13 and the time relay 18, connected consistently. The device also contains a relay 19 of the off position of the switch 5, a flea contact 20 of this switch, a relay 21 of the on position of the switch 6, a block contact 22 of the same switch, a relay 23 of the open position of the switches 7, 8, connected in series with parallel-interlock contacts 24, 25 of these switches. The single-turn-on circuit 26 contains an intermediate relay 27 without time delay (memory relay), a contact 28 of the relay 23 is connected in series with it and a parallel-connected closing contact 29 of the memory relay 27 and a contact of the relay relay 21. The control circuit 31 of the switches contains a parallel-connected closing contact 32 of the time relay 18 and the disconnecting contact 33 of the relay of the on position 19, the disconnecting contacts 34, 35 of the relay and the closing contacts 36, 37 of the relay of memory 27 in the circuits of the circuit breakers 7, 8. The ATS device works as follows. When the voltage decreases on the HDM power supply bases and when there is voltage on the backup source, voltage relays 11, 12, 13 and time relay 18 are triggered. After a predetermined time delay, contact 32 of time relay 18 closes and the switch b turns off. When the switch 5 is disconnected for any reason, the relay 19 is turned on for this switch and closes its contact in the opening circuit of the switch 6, when the switch 6 is disconnected for any reason, the relay 21 operates, the contact 30 of relay 21 closes the memory relay circuit 27, contacts 34 close, 35. When the memory relay 27 is triggered, contacts 36.37 are removed, as a result of which the switching circuits of the switches 7, 8 are closed 1and they turn on, their block contacts 24, 25 open, the contact 28 in the memory relay circuit 27 opens. Relay -Resto contacts 36, 37 breaks the switching circuits of the switches 7, 8. In the case of switching off the switches 7Г 8 (for example, relay protection of the backup source), they will not turn on again because the memory relay circuit 27 is open the block-contact 30 of the disconnected switch 6. The contacts 36, 37 in the control circuit of the switching on of the switches 7, 8 remain open. Thus, the proposed AVR device ensures that the switches of the backup power source are turned on once. An intermediate relay with no delay for return has been used as a memory relay, which ensures a single switch-on. The invention is a device for automatically turning on a backup power supply to consumers, comprising start circuits made on a voltage relay, automatic control circuit breakers of the main and backup power sources, relays on and off position of the breakers, on-off circuit, made So, in order to increase the reliability of the device operation, the intermediate turnips in the single-turn-on circuit are made without a time delay, the windings it is connected in series with the switching contacts of relays disconnected position switch backup source and connected in parallel with normally open relay contacts included primary source switch position and switches the backup source. Sources of information taken into account in the examination of 1, Barzam A. B. Sistemna avtomatiya. M., Energie, 1973, p. 326-328. 2.Berkovich M.A., Semenov V.A D again automatics of energy systems. M., Energie. 1968, p. 121-124.