SU306524A1 - DEVICE FOR PROTECTION AGAINST LEAKAGE CURRENTS - Google Patents

Description

This invention relates to leakage current protection devices in three-phase networks with insulated neutral, containing three-phase and zero chokes, rectifiers, a transistor relay, a source of operating voltage and a capacitor.

Existing devices have a limited scope and a significant difference in their protective characteristics from those required under electrical safety conditions and electrical network operation, as well as inadequate circuit reliability.

The purpose of the present invention is to improve the protective characteristics of the device for protection against leakage currents and to increase the reliability of operation by applying new circuit solutions.

In the proposed device, in order to improve the protective characteristic due to the use of transients in the operational circuit, a U-shaped quadrupole of two capacitors connected by a variable resistor is connected to the secondary winding of a three-phase throttle through a rectifier.

The circuit diagram of the proposed device is shown in outline.

Insulation is monitored by applying a rectified voltage to the network 1 under normal operating voltage, and the voltage of the controlled network removed from the secondary winding is used as a source of electrical energy for the protection circuit.

Drossel Transformer 2. In order to obtain a free component of the operating current, which occurs only when a sudden leakage occurs, a quadrupole of capacitors 3 and 4 and

active resistance 5, the magnitude of the latter and the capacitance of the capacitor 4 are chosen in such a way that when a sudden leakage occurs, the device trips only under ut / ne

depending on the magnitude of the active insulation resistance.

The source of operating voltage 6 together with the quadrupole described above is connected from one side through kilohmmeter 7, which is connected to the measurement button 8, compensating choke 9 and active resistance 10, to the zero point of the three-phase Drossel-transformer 2, which serves as a cell with a controlled network, and on the other - through the input of the transistor relay 11 - to the ground.

The middle rod of a three-phase throttle 2 serves as a transformer for powering

relay 11 (rectifier 12). A transistor relay / L is assembled on the triodes and is used to supply current to the control electrode of the thyristor 13.

Compensation of the capacitive ground-fault currents is achieved by connecting successively connected throttles 9 and capacitor 14 between the zero point of the three-phase throttle transformer 2 and the ground.

Resistance 10 is used to adjust the internal resistance of the device when using different taps of compensating chokes 9.

The impact of the device on the trip coil of the circuit breaker is due to the energy accumulated in the capacitor 15. The latter is charged from the rectifier 16 through the resistance 17 necessary to limit the source current when the capacitor 15 is discharged onto the trip coil of the circuit breaker.

Rectifier 16 is powered by the secondary winding of transformer 18, the primary winding of which is connected to the mains to the main contacts of the circuit breaker.

The proposed device provides the ability to monitor network isolation even when the circuit breaker is turned off. This is achieved by the presence of a special secondary winding on the transformer 18, which is connected to the rectifier 6 by means of a button 19. The use of capacitive additional resistance (capacitor 20) in the primary winding of the transformer 18 makes it possible to make the safe mode when the disconnecting switch is disconnected to the rectifier 16 automatic switch coil.

The test circuit of the device consists of a resistance 21 and the contacts of the button 8,

acting on the knob allows you to simultaneously check the operability of the device and the continuity of the grounding circuit. In addition, the scheme of the proposed device includes a switching device 22, a fuse 23 and a relay 24, which serves to visually signal the device to be triggered.

The scheme of the proposed device works as follows.

With a slow decrease in the insulation in the operational circuit, a free component arises, and the device operates with a slow decrease in the active resistance of the insulation to only 1 com and lower, regardless of the magnitude of the leakage resistance. The operation of the device in case of a sudden leakage (iri provided that Ryyf R) occurs due to the appearance of a transient current in the operational circuit.

When the transistor relay is triggered, the thyristor 13 is opened, and the capacitor V5 is discharged to the disconnecting coil of the circuit breaker. By reducing the discharge current of the co-sensor 15 to the holding current of the thyristor 13, the latter closes.

Subject invention

A device for protection against leakage currents in three-phase electric networks with insulated neutral, containing three-phase and zero chokes, rectifiers, a transistor relay, a source of operating voltage and a capacitor, characterized in that, in order to improve the protective characteristic by using transients, in the operational circuit, to the secondary winding of a three-phase throttle, through a rectifier, is connected a U-shaped quadrupole of two capacitors connected by a variable resistor.

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