SU951529A1 - Device for feeding current circuits of relay protection units - Google Patents

Description

The invention relates to relay protection of distribution networks using onepa-v active alternating current.

A device is known for powering an electromagnet for tripping a high-voltage circuit breaker using two intermediate ⁵ current relays (for example, type RP-341), which with their contacts unmount the tripping magnet £ 1].

The disadvantages of this unit are the use of a large number of relays, ¹⁰ complexity of installation and commissioning, which leads to an increase in size and a decrease in reliability.

The closest in technical essence and achieved effect. to the invention is a power supply device connected to the secondary windings of the current transformers protected connections, comprising an intermediate HA ²⁰ sptsayuschiysya transformer parallel with the secondary winding of which is connected to block surge limit, vypol2 valuable as a capacitor, and a bridge full-wave rectifier for semiconductors, which is included in the diagonal executive element of relay protection unit [2]

However, this device is characterized by high power consumption and insufficiently effective reduction of overvoltages on the secondary winding of the transformer.

The purpose of the invention is the reduction of power consumption.

This goal is achieved by the fact that in the device for supplying current circuits of relay protection blocks, containing an intermediate saturable transformer, the primary winding of which is connected to a current transformer, an overvoltage limiting block is connected in parallel with the secondary winding, and a half-wave bridge rectifier on semiconductors, the diagonal of which is included in the executive element of the relay block 951528 protection, in two adjacent shoulders of the bridge half-wave rectifier, combined in the first input output, including enes resistors connected in parallel which make contacts ₅ Khodnev You are a protection relay, the break contacts which are connected in parallel to the other two adjacent shoulders, the combined second input terminal of said rectifier. YU

At the same time, in order to increase reliability. by improving the voltage limitation, the overvoltage limiting block is made in the form of a voltage divider, to the terminals of the adjustable resistor 15 of which are connected the thyristor control electrodes connected in series through the zener diode and connected to the terminals of the secondary _{2 £)} winding of the intermediate saturating transformer through one of the voltage healer resistors.

The drawing shows a schematic diagram of a device for supplying current circuits of relay protection blocks. _2S

The device contains an intermediate <saturable transformer 1, to the secondary winding of which is connected an overvoltage limiting unit 2, made in the form of a voltage divider on _3Q resistors 3-6, to the terminals of an adjustable resistor 5 through which zener diodes 7 and 8 and diodes 9 and 10 are connected 11 and 12; fullwave bridge rectifier - 1 3-16 diodes and resistors 17, 18, ³⁵ minutes, in the diagonal of which includes the actuator unit 19 relaying parallel resistors 17 and 18 are connected normally open contacts 20 and 21 output protection relay ⁴⁰ razmykayu- conductive contacts 22 and 23 which are connected in parallel to the diodes 15 and 16.

The device operates as follows.

When operating the device ⁴⁵ in the normal mode terminals 20 and 21 of the protection relay output to the secondary winding of the transformer 1 connected resistors 17 and 18. The proper power consumption of a device while Ma- ^5p lo excluded and significant increase in voltage at the secondary winding when a current external short circuit .

After the output relay is activated, the protective contacts ^{1 and 2} open its contacts 22 and 23 in the circuits of the diodes 15 and 16. The closing contacts 20 and 21 of the output relay are wired, bridging the load resistors 17 and 18.

The voltage of the secondary winding of the transformer 1 rectified by the bridge is supplied to the actuating element 19 of the relay protection unit, for example, to the shutdown electromagnet of the high voltage switch.

With a significant increase in the amplitude of the voltage on the secondary winding of the transformer 1 breaks the stabilizer. Rones 7 and 8 and thyristors 11 and 12, and the secondary winding of the transformer 1 is shorted to the limit resistor 3. The value of the adjustable resistor 5 sets the level of operation of the overvoltage block.

Tests of a comprehensive protection and automation device, which includes the proposed device, showed its performance and reliability. During tests, it was found that power consumption with an unused output protection relay (contacts 20 and 21 are open; 22 and 23 are closed) at a current of 5A in one of the primary windings of transformer 1 is only 11 VA compared to 21 VA, for example, power supply unit of current circuits BPT-11. The output power at the triggered state of the output relay is protected at the same current is 49 VA compared to 17 VA for the specified device.

Claims (2)

This invention relates to the relay protection of distribution networks in one-to-one alternating current. A device for powering an electromagnet to shut off a high voltage breaker is known by means of two intermediate relays (for example, of the type WG1-341), which by their contacts decouple the shutdown electromagnet 1. The disadvantages of such a block I conclude are the use of a large number of relays, the complexity of installation and commissioning, which leads to an increase in size and a decrease in reliability. The closest to the technical dryness and the effect achieved. An inventive device is a power supply unit connected to the secondary winding of current transformers of protected connections, containing an intermediate saturation transformer, parallel to the secondary winding of which is connected a capacitor of overvoltage, made in the form of a capacitor, and a bridge full-wave rectifier on the semiconductor, in the diagonal of which is a performance element of the relay protection unit 2 However, this device is characterized by high power consumption and insufficiently effective HAND lane &amp; voltages on the secondary winding tranoformatora. The purpose of the invention is to reduce power consumption. The goal is achieved by the fact that in the device for supplying current circuits of relay protection blocks containing an intermediate saturating transformer, the primary winding of which is connected to the current transformer, parallel to the secondary winding is connected to the current transformer, and a bridge full-wave rectifier with conductors, in the diagonal which includes the executive element of the relay protection unit, in the two adjacent shoulders of the bridge two half-heliocent elevator, combined into the first input terminal, on cheny resistors connected in parallel which make contacts you Khodnev protection relay break contacts which are connected in parallel to the other two c JezhshJM ppecham united to the second input terminal of said rectifier. At the same time, in order to increase reliability by improving the voltage limiting, the overvoltage limiting unit is designed as a divider, the terminals of the adjustable resistor of which are connected through the tandem Zener diode and diode control electrodes connected through one of the voltage divider resistors to the terminals secondary winding intermediate saturating transformer. The drawing shows a schematic diagram of a device for supplying current circuits of relay protection units. The device contains an intermediate saturating transformer 1, to the secondary winding of which a block 2 of overvoltage, made in the form of a voltage divider on resistors 3-6, is connected, to the terminals of adjustable resistor 5 of which through zener diodes 7 and 8 and diodes 9 and 10 are connected thyristor control electrodes 11 and 12; full-wave bridge rectifier - diodes 1 3-16 and resistors 17 and 18, the diagonal of which includes executive element 19 of the relay protection unit, in parallel with the resistors 17 and 18 are connected closure contacts 20 and 21 of the output protection relay, disconnecting contacts 22 and 23 of which are connected parallel to the diodes 15 and 16. The device operates as follows. When the device is operating in normal mode, contacts 20 and 21 of the output protection relay connect the load resistors 17 and 18 to the secondary winding of transform Mountain 1. The device’s own power consumption is low and eliminates a significant increase in voltage on the secondary winding when an external short circuit current flows. After the output relay trips, the shields open its contacts 22 and 2 in the diodes 15 and 16. The closure clocks 2O and 21 of the output protection relay shunt the load resistors 17 and 18. The bridge rectified voltage of the winding of the transformer 1 is fed ja actuator 19 A block of re, (power protection, for example, on the electromagnet of the high-voltage breaker disconnection. With a significant increase in the voltage amplitude on the secondary winding of the transformer 1, the stabilizer PANES 7 and 8 and the thyristors 11 and 12, and the second cable of the transformer 1 short-circuited to the limiting resistor 3. The magnitude of the adjustable resistor 5 sets the response level of the surge suppressor unit. Tests of the integrated protection and automation device, which includes the proposed device, showed its performance and reliability. the output protection relay (contacts 20 and 21 are open; 22 and 23 are closed) with a current of 5A in one of the primary windings of transformer 1 is only 11 VA compared to 21 VA, for example, the block Ш1та {psh current circuits BPT-11. The output power at the operated state of the output relay is sewn up with this current is 49 VA in the mean of 17 VA at the specified device. Claim 1. Device for supplying current circuits of relay protection units, containing an intermediate saturating transformer, the primary winding of which is connected to a current transformer, parallel to the secondary winding, an overvoltage suppressor unit, and a bridge full-wave rectifier on semiconductors, diagonal of which is connected An actuating element of the relay protection unit is included, characterized in that, in order to reduce power consumption, the two adjacent arms of a full-wave bridge rectifier Connected to the first input terminal, resistors are connected in parallel with which the closing contacts of the output protection relay are connected, the breaking contacts of which are connected in parallel to the other two adjacent terminals connected to the second input terminal of the indicated rectifier. 5951 2. The device according to claim 1, characterized by the fact that, in order to increase the reliability of operation, the overvoltage suppressor unit is designed as a voltage divider, to the outputs of the controlled 5 the resistor of which through the series-connected zener diode and diode is connected to the control electrodes of the tircators connected through one of the resistors of the voltage divider to the terminals 5296 secondary winding of the intermediate saturable transformer. Sources of information taken into account during examination 1. Gel4and Y.S. in others. Relein protection and electrics on an alternating operational current. M., Energie, 1973, p. 97 2. Neklepaev B, N. Electric part of power plants. M., Energie, 1976, with. 439. f