SU748671A1 - Device for disconnection of electric equipment at short-circuiting in ac network - Google Patents

Description

(54) DISABLE DEVICE

ELECTRICAL INSTALLATIONS IN AC NETWORK CURRENT WITH SHORT CIRCUIT

I

The invention relates to electrical engineering, in particular, to burdock protection and automation of electrical networks and systems with a voltage of kV with a low-grounded neutral, and is intended for the Olya disconnecting an electrical installation in an alternating current network during a short circuit.

A device for advanced sectioning of an energy system is known, which contains a relay protection and, an switch of the connection switch, as well as an anticipation action, which blocks the operation of the relay protection of an object to switch off when a short circuit occurs with a current exceeding 6 Tcq of the switch capacity fl, the breaking capacity of a switch is understood to be the ability to reliably disconnect an electrical circuit at a certain amount of short circuit current. 20 flowing through the switch.

The disadvantage of this device is a possible slowdown in the passage of a command from the relay protection of a damaged network element to disconnecting its switch, which, in its turn, will save the time of a severe short circuit with a large current.

It is also known to provide a relay protection device for switching off the power switch of the power line, which, if a short-circuit occurs on the line, will make it possible for the circuit-breakers to disconnect the damaged power line 2.

Claims (2)

When a short-circuit current occurs on an electrical installation in an alternating-current network with currents exceeding the breaking capacity of one of its switches, the relay protection unit forms a command to turn off all electrical installation switches at the same time. In this case, the short circuit current can be switched by a switch with insufficient breaking capacity, which leads to the failure of this switch. The failure of a switch will result in the operation of automation devices at the facility (for example, a switch failure backup device), resulting in the disconnection of a large number of connections, which reduces the reliability of the power unit as a whole. Therefore, it becomes necessary to replace the switch with insufficient breaking capacity. The purpose of the invention is to improve the nanoparticles of the operation of the device when using as a second switch with insufficient breaking capacity. It is possible to increase the cost-effectiveness and reliability of the power node by using the installed and operating switch with insufficient breaking capacity and refusing to replace it with a new, more powerful and expensive one, and thus assembly and commissioning works, which generally reduce the reliability indicators. The goal is achieved by the fact that a device for disconnecting an electrical installation in an AC network during a short circuit, containing two switches, a relay protection unit and an intermediate relay unit connected in series between a current transformer in a single switch circuit and a control unit for this switch, as well as a transformer ToKy in the depy of the second switch and the control unit of this switch, the forcing unit and the high-speed current relay are introduced, the winding of which is connected between the current transformer in the Circuit Breaker an insufficient breaking capacity and a relay protection unit, whereby the opening contact of a fast-acting current relay is connected between the intermediate relay unit and the control unit of the switch with insufficient breaking capacity, while the input of the latter is connected to the output of the relay protection unit through the series-connected forcing unit and the quick-acting closing contact. relay. The drawing shows the block diagram of the device dd disconnection of electrical installations in a network of alternating current during a short circuit. Electrical installation 1 is connected via switch 2 with insufficient breaking capacity, switch 3 with sufficient breaking capacity and shunt circuit; 4 k. Power system 5. 14 current transformers 6 and 7 in the circuits of switches 2 and 3, respectively, are connected to a series circuit consisting of block 8 of relay protection and block 9 of intermediate relays, the current transformer 7 being directly, and the current transformer 6 through the coil of the high-speed current relay 10. One output of the intermediate relay unit 9 is connected to the switch control unit tl 3, the second output is connected to the switch control unit 12 via the disconnecting contact 13 of the high-speed current relay 10. Between the output of the relay protection unit 8 and the input of the control unit 12 by the switch 2 is connected in series with the closing contact 14 of the high-speed current relay 10 and the boost unit 15. The device operates as follows (the case of equal time of switching off the switches 2 and 3 is considered). When a short circuit occurs at the electrical installation 1 and a short circuit current flowing through the switch 2 has a lower breaking capacity, the high-speed current relay 10 does not trigger, because its tripping current is taken less by a safety factor than the maximum allowable tripping power of the switch with insufficient breaking capacity. Relay protection unit 8 and intermediate relay unit 9, when a signal appears at the output of which, a command is issued to turn off switch 3 through control unit 11 and switch 2 to turn off through control unit 12 and normally closed koHact 13 current relay 10, since the relay current does not work. At the same time, both switches 2 and 3 are switched off almost simultaneously. It is necessary to have such an adjustment of the switch-off time of switches 2 and 3 so that the switch-off time of switch .2 is not more than switch-off switch 3 time. The circuit from the series of forcing unit 15 and the closing contact 14 of the current relay 1O is open on pin 14, since the current relay 10 does not operate. In the event of the K) short circuit on the electrical installation I and the flow (1O switch 2 short circuit current, its greater breaking capacity, the block 8 relay protection and current relay 10, open its {pin 13 and short circuit pin 14). Prk THIS command to turn off the switch L 3 is formed, as before, after the operation of the block of intermediate relays 9, m / e. about ms after the appearance of the signal at the output of the relay protection unit 8. The command to oiv switch the switch 2 to pass after the relay protection unit 8 trips on Contact 14 and forefront unit 15. Forefront unit 15 provides a command to turn off switch 2 with a time not exceeding 10 ms after relay block 8 is activated, i.e., faster than the command to turn off switch 3, the passing circuit the switch-off signal of the switch 2 is blocked by the disconnecting contact 13 of the high-speed current relay 10 after it has been triggered. As a result, the first of the two electrical installation I switches off the switch 2. The conditions for turning it off turn out to be easy l 2 almost short-circuit current does not turn off for the following reason. The process of advancing the contacts of the switch 2 and burning at these contacts augi leads to the redistribution of short circuit current flowing from the power system 5 through the shunt circuit 4 through the switches 2 and 3 to the place of short circuits. The occurrence of arc resistance between the contacts of the switch 2 during the commutation of their depi reduces the short circuit current through this switch and increases the short circuit current through the switch 3, since the switches 2 and 3 are connected in parallel, which is provided by the closure of the shunt circuit 4, and the resistance between the contacts the on switch 3 is smaller than between the contacts of the disconnecting switch 2. As a result, by the time the contacts of switch 2 are completely diverged, the resistance between its contacts is incommensurable It is greater than the resistance of the coupler & p Amplifier circuit breaker 3; therefore, almost the entire short-circuit current goes to the last. Circuit breaker 3 rtlc is switched off later on circuit breaker 2 and switches the total short circuit current from. ; power system 5. The unit foreore 15 may have thyristor execution. Over time, the short-circuit currents within the energy center have a tendency to increase, and individual circuit-breakers of the electrical installation turn out to be subject to inconsistency between their breaking capacity and short-circuit current levels. Replacing switches with more powerful roads, terms and volumes of work is essential. Economically and technically justified is the use of operational switches with insufficient breaking capacity under the conditions of the existing short-circuit currents, which ensures the proposed device. At the same time, the savings resulting from the refusal to replace, for example, only one switch of the BB-SOO type, to the more powerful type of VVB | -5OO are estimated to be about 50 thousand rubles. Claims device for disconnecting an electrical installation in an AC network during a short circuit, comprising a two-point switch, a relay protection unit and an intermediate relay unit, connected in series between a current transformer in a single switch circuit and a control unit for this switch, and a current transformer in a second off circuit reader and a control unit for this switch, characterized in that, in order to improve the reliability of the operation of the device when used as a second switch with no residual breaking capacity, the device includes a forecasing unit and a fast acting relay, the winding of which is connected between a current transformer in a switch circuit with insufficient breaking capacity of a dam and a relay protection unit, and the disconnecting contact of a fast current relay is connected between EU with an intermediate relay unit and a switch control unit with insufficient oiv switching ability, while the input of the latter is connected to the output of the block of shielding protection through sequentially connected block of foreing and high speed relay closing contact. Sources of information taken into account in the examination 1. The author's certificate of the USSR 554583, cl. H 02 H 3 / O6, 1976. 2. Guidelines for relay testing. Issue 9. Differential-phase. High frequency protection for IICV lines. ZO kV. M., Energie, 1972.