SU1415261A1 - Method of routine disconnection of a static capacitor bank - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to improve the reliability of switching the battery of static capacitors due to the electrical strength of the intercontact gap of the air circuit breaker. The device that implements the method contains a capacitor battery 1 connected to the substation buses via air switch 2 with compressor 3, electrical contact pressure gauge 4 connected to air switch 2, control key 5 connected to the first input of logic unit 5 and to compressor 3. Second the input of the logic unit AND 6 is connected to the output of the electrocontact pressure gauge 4, and its output is connected to the air switch 2. The reliability of switching off the battery of static capacitors is increased due to the fact that simultaneously with the supply The signal from the control key to turn off the air switch will give a signal to increase the pressure in the latter and to switch it off only when the pressure rises to the maximum allowed. 1 il. I (L

Description

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The invention relates to electrical engineering and can be used to routinely disconnect a battery of static capacitors in high-voltage electrical networks.

The aim of the invention is to increase the reliability of switching a battery of static capacitors by increasing the electrical strength of the contact gap of the air circuit breaker.

The drawing shows a device for implementing the proposed method.

The device contains a capacitor battery 1 connected to the substation buses through an air switch 2 with pressure control system 3 (for example, a compressor or intermediate receiver with air ducts and control devices), an electrical contact pressure gauge 4 connected to the air switch 2, and a control switch 5 connected with the first input of the logic unit I 6 and with the compressor 3. The second input of the logic unit I 6 is connected to the output of the electric contact pressure gauge 4, and its output with the air switch 2.

The device works as follows.

In normal mode, the air switch 2 is on, the battery 1 of static capacitors is connected to the substation buses. At the same time, the air pressure in the air switch 2 (for example, in the arc chamber of the air switch VVB-110) decreases with time from the maximum permissible to the minimum permissible value. When the pressure in the air switch drops below the maximum allowable value, the compressor 3 is turned on and raises the pressure to the maximum allowable value.

When a command is received from the dispatcher to disconnect the battery 1 of static capacitors, the control key 5 is switched to the Disabled position, after which the signal from the control key is simultaneously sent to the compressor 3, which increases the pressure in the air switch 2, and to the first logic block input

And 6, the second input of which receives a signal from the electric contact gauge 4. The latter produces a signal when the air pressure in the air switch 2 reaches the maximum permissible value, after which a signal appears at the output of the logic block 6 that is turned on to turn off the air switch 2. The technical and economic efficiency of the proposed technical solution in comparison with the known one is that o} io allows to increase the pressure up to 10% from minimum to maximum working and increase accordingly The strength of the contact gap between the air circuit breaker is due to the fact that it is disconnected at the maximum allowable pressure. This leads to an increase in the reliability of switching off the battery of static capacitors with a slight increase in air consumption, since an increase in air pressure in the air circuit breaker occurs immediately before the planned shutdown of the battery of static capacitors. Tests of air circuit breakers confirm that with

At maximum pressure, repeated breakdowns and ignitions occur less frequently than at minimum.

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Claims (1)

Invention Formula The method of planned disconnection of a static capacitor battery, switched by an air switch according to a signal from the control key, at which the air pressure in the switch is monitored, and the pressure switch is disconnected at a predetermined pressure value, characterized in that by increasing the electrical strength of the inter-contact gap of the air switch, simultaneously with the signal from the control key to turn off the air switch, the signal is given to increase The determination of pressure in the latter and its disconnection are carried out only with an increase in pressure to the maximum allowable.