SU1029299A1 - Device for emergency operation protecting 6-35kv distributing network - Google Patents

Abstract

A DEVICE FOR PROTECTION AGAINST EMERGENCY MODES DISTRIBUTE 6–35 kV LNB1X NETWORKS, containing a current sensor made on induction current transducers, a voltage sensor made in the form of antenna voltage transformers according to the zero-sequence voltage filter circuit, the first output of which included on the first input of the phase-matching unit, the output of the phase-matching unit, -Ka-j- ;; 3jj is connected via an earth-fault relay block to the input of an earth-fault indication block, a short-circuit relay block whose output is connected to a short-circuit indication block, characterized in that it is simplified by using one set of current sensors and extending the functionality of the device by providing protection against incomplete-phase operation, it additionally includes two delay units, a current sensor control unit, a switching unit, an incomplete-phase relay unit, and The indication block of the incomplete mode, while the second and third outputs from the voltage sensor are connected to the input of the first and second delay blocks, the output of the first delay block through the switching unit, the relay block of the incomplete mode connected to the input (L of the indication block of the half-phase mode, with: output The second delay unit is connected to the input of the current sensor control unit, the first output of the current sensor is connected via the disconnecting contact of the current sensor control unit to the input of the relay short-circuit block, the second sensor output A current through the closing contact of the control unit of the current sensor is connected to the control input of the switching unit and the secondary input of the phase-equalizing unit. GcheE SO with

Description

The invention relates to relay protection and can be used in the technique of relay protection and emergency control automation in electrical installations.

Devices for selective signaling of earth faults are known, operating on the principle of comparing zero-sequence currents on damaged and intact connections 1.

The disadvantage of these devices is low sensitivity due to the change in contact resistance at the location of the circuit. Moreover, the accuracy of the device operation on the principle of comparing the amplitude values of the zero sequence current depends on the ratio of the own capacitances of the connections.

The closest to the proposed technical essence and the achieved result is a device containing a current sensor made on induction current transducers, a voltage sensor made in the form of antenna voltage transducers and connected according to a zero-voltage filter circuit, the outputs of these transducers are included to the input of the phase-matching unit, the output of the phase-matching unit via the ground-fault relay block is connected to the input of the ground-fault indication unit. In addition, the device contains current transformers that are connected to the input of the relay short-circuit unit, the output of which is connected to the short-circuit indication unit.

A disadvantage of the known device is the need to use two sets of current transformers to measure the current. In addition, the known device does not allow controlling the incomplete phase modes of the distribution electric network.

The purpose of the invention is to simplify by using one set of current sensors and to extend the functionality of the device by providing protection against incomplete phase modes of operation.

To achieve this goal, a device for protection against emergency modes of distribution networks of 6-35 kV, containing a current sensor made on inductive current transducers, a voltage sensor made in the form of antenna voltage transducers connected in a zero-sequence voltage filter circuit, the first output of which is connected to the first input of the phase-equalizing unit; the output of the phase-equalizing unit is connected to the input of the ground-fault indicating unit through the relay unit; the relay unit is short The short circuit, the output of which is connected to the short circuit indication unit, additionally introduced two delay units, a current sensor control unit, a switching unit, a half-phase relay block and a half-phase indication block, while the second and third outputs from the voltage sensor are connected to the input the first and second delay blocks, the output of the first delay block through the switching unit, the relay block of the incomplete phase mode is connected to the input of the indication block of the phase multifaceted mode, the output of the second delay block is connected Input to current sensor control unit; first current sensor output through disconnecting contact of current sensor control unit; connected to relay short circuit input; second current sensor output output through current contact control unit terminal to current switch block control input and second phase equalizing unit. .

The drawing shows a block diagram of a device for protection against emergency operation of distribution networks; 6–35 kV power networks, while monitoring a short circuit.

The first output of the voltage sensor 1 is connected to the first input of the phase-matching unit 2, the output of the phase-matching unit 2 is connected to the input of the relay to the ground-fault relay unit 3, the output of the relay-to-earth relay unit 3 is connected to the input of the ground fault indication unit 4. The second output of the voltage sensor 1 is connected to the input of the first delay unit 5, the output of the first delay unit 5 is connected to the input of the switching unit 6, the output

the switching unit 6 is connected to the input of the relay unit 7 of the half-phase mode, the output of the relay block 7 of the half-phase mode is connected to the input of the block 8 of the indication of the half-phase mode. The third output of the voltage sensor 1 is connected to the input of the second delay block 9, the output of the second delay block is connected to the control unit

current sensor 10. The current sensor 11 is a three. induction current transducer 12, 13 and 14 connected in series. The first output of the current sensor 11

through the opening contact 15 of the control unit of the current sensor 10 is connected to the input of the relay block 16 short circuit, the output of the relay block 16 short circuit is connected to the input of the block 17 of the short circuit indication. Second exit

current sensor 11 through the closing contact 18 of the control unit of the current sensor 10 is connected to the control input of the switching unit 6 and to the second input of the phase-equalizing unit 2.

When a short circuit occurs in the electrical network, the inductive current transducer 14, via the disconnecting contact 15 of the control unit of the current sensor 10, receives a signal proportional to the short circuit current to the input of the relay short circuit unit 16. The relay short-circuit block 16 and the short-circuit indication block 17 are activated.

By. The position of the short circuit indication unit is determined by the direction to the short circuit location. During the transition period of a short circuit, a zero-sequence voltage may be applied to the voltage sensor 1, which is sufficient to trigger the partial-phase mode indication unit 8 and the ground-fault indication unit 4. Therefore, in order to eliminate the false alarms of the display units 4 and 8, the zero-sequence voltage from the voltage sensor 1 goes to the first delay unit 5 and the second delay unit 9, and the delay times delay blocks 5 and 9 are longer than the transient time.

The occurrence of a ground fault in the electrical network leads to the appearance of a zero-sequence voltage on the voltage sensor 1, which from the third output of the voltage sensor 1 through the second delay unit 9 enters the input of the current sensor control unit 10, the contact 18 closes and the disconnecting contact 15 opens and prohibits turning on the short-circuit indication unit 17. Through a closed contact 18 from the costly output of the control unit of the current sensor 10 to the control input of the switching unit 6, a zero-sequence current is applied, which switches the switching unit 6 and thereby prohibits the activation of the non-phase indication unit 8.

The phase-matching unit 2 receives the zero-sequence voltage from the first output of the voltage sensor 1, and the zero-sequence current flows from the second output of the current sensor 11 through the closed contact 18 of the control unit. There is a comparison of the signals in phase and the operation of the relay unit 3 earth faults and unit 4 of the earth fault indication. The position of the ground fault indication unit determines the direction to the ground fault location. To prevent false triggering of the block

8 indication of an incomplete-phase mode, the delay time of the delay block 5 is longer than the delay time of the delay block 9 (tj tg), i.e., the zero sequence voltage from the second output of voltage sensor 1 goes to the switching unit 6 after the zero sequence current coming from the second output current sensor II through the closed contact 18 of the control unit of the current sensor 10.

0 In the case of an incomplete-phase operation of the electrical network, the zero output voltage is supplied from the third output of the voltage sensor 1 through the second delay unit 9 to the input of the current sensor control unit 10. The current sensor control unit 10 is switched. Contact 15 is opened and the prohibition of switching on the short-circuit indication unit 17 is prohibited.

In the case of an incomplete phase mode, no zero sequence current is induced on the current sensor 11, therefore the zero output current does not flow to the phase-matching unit 2 from the second output of the control unit of the current sensor 10, which prohibits the response of the closure indication unit 4 to ground.

The absence of a zero-sequence current on the switching unit 6 and the presence of a zero-sequence voltage supplied from the second output of the voltage sensor 1 through the first delay block 5 Q triggers the relay block 7 of the incomplete-phase mode and the block 8 of the non-phase-mode indication. in the network of incomplete phase mode.j

Thus, the use of induction; Current transducers and antenna voltage converters allow the device to expand its functionality, make the device simple and reliable, and significantly reduce its cost.

The technical and economic effect from the introduction of the device is 225 p per 1 set per. expense of failure of current transformers and voltage transformers.

Claims (1)

DEVICE FOR PROTECTION FROM EMERGENCY MODES OF DISTRIBUTION NETWORKS 6–35 kV, containing a current sensor made on induction current converters, a voltage sensor made in the form of antenna voltage converters connected by a zero-sequence voltage filter circuit, the first output of which is connected to the first input of the phase-comparing unit , the output of the phase-comparing unit through the relay block of earth fault is connected to the input of the block of indication of earth fault, relay block of short circuit, the output of which connected to a short circuit indication unit, characterized in that, in order to simplify by using one set of current sensors and expand the functionality of the device by providing protection from out-of-phase operation modes, two delay units, a current sensor control unit, a switching unit are additionally introduced into it, out-of-phase relay unit and out-of-phase mode indication unit, while the second and third outputs from the voltage sensor are connected to the input of the first and second delay units, the output of the first delay unit through the switching unit, the in-phase relay unit is connected to the input of the in-phase mode indication unit, the output of the second delay unit is connected to the input of the current sensor control unit, the first output of the current sensor through the NC contact of the current sensor control unit is connected to the input of the relay unit short circuit, the second output of the current sensor through the make contact of the control unit of the current sensor is connected to the control input of the switching unit and the second input of the phase-comparing unit.