SU231656A1 - DEVICE TO REDUCE RESTORING PULSE STRENGTHS - Google Patents

Description

The present invention relates to high voltage AC substations in which the operating conditions of the switches are continuously adjusted, which is associated with an increase in short circuit currents and at the same time an increase in the rate of increase in the voltage restored on the contact x switch when the short circuit is disconnected.

It is well known and widely applied bypassing of the contacts of switches with active resistance OR capacitance to reduce the voltages at the contacts of the switches, BOS; I stop, when the short circuits are disconnected.

These resistances are set at each switch, and scarce materials are consumed to make them. In addition, the resistors operate at every disconnection - close and distantly short: 1 closure x, even when this is not required. During operation, they heat up, which limits the possibility of multiple switching.

In the proposed device, in order to increase reliability and reduce costs, the indicated resistances, made in the form of parallel-connected resistors, capacitors, and droplets, are connected between busbars AND earth via a switch and

switch,

turn-on time which is less than turn off the linear time switch off tel.

The drawing shows an ipnts 1pial scheme of the proposed device.

In the long operating mode, the quick-acting on / off switch and the switch 2 is on. Thus, the shunt power supply unit, which: can consist of a combination of resistance 3, capacitance 4 and inductance 5, is normally disconnected.

The high-speed switch / is turned on from the control unit 6 connected to the relay protection, and the pulse to the switch-on electromagnet 7 is supplied with a short-circuit current exceeding the set one.

The pulse on the shut-off electromagnet 8 switch is supplied from the control unit 9 after the elimination of the short circuit.

Disconnector W disconnects the device from busbar systems 11.

The essence of the invention is that the set of shunting resistances is installed between the phases and the ground one for the whole switchgear, and for separate operation of busbar systems one for each system. To enable the shunt resistances, a special quick-release switch is provided, which connects the normally disconnected shunt resistances before the linear switch is turned off. The switch can operate either from a minimum voltage relay 5 or from a current cut-off, or even from an output protection relay acting on switches of the damaged connection, since there is already a fast-developed high-voltage switch with a switch-on time significantly shorter than the switch-off time. All this makes it possible to remove the limitations in the design and power of shunt elements, which arise when it is necessary to inscribe these elements in the design of the switch, i.e. place them on the switch insulation and disconnect them with additional contacts. When choosing the parameters of the bypassing resistances, it should be borne in mind that the capacitance significantly limits the initial growth rate of the restoring voltage, reduces the frequency, but increases the amplitude. On the contrary, the inductance practically does not affect the initial growth rate of the restoring voltage, but limits the amplitude. Therefore, in circuits with a large capacitance (in the presence of high-voltage cables), the bypass inductance may be 30 10 more effective than capacitance or resistance. The effectiveness of the latter also depends on the parameters of the circuit in which the short circuit is shut off. Therefore, depending on the type and parameters of the external circuit, it is advisable to use different compositions of shunting elements. The proposed device is most effective in those cases when the conditions of short-circuit tripping directly behind the switch turn out to be more severe than it is provided for by the norms on recoverable voltages. The subject of the invention is a device for reducing the recoverable voltages at the contacts of switches when short-circuiting is disconnected by bridging the contacts of the switches with resistances, characterized in that, in order to increase reliability and reduce costs, these resistances are shown in parallel with the resistor, capacitor and throttle , are connected between busbars and ground through a switch and an on-hook switch, the turn-on time of which is shorter than the turn-off time of the linear switch.