SU498573A1 - Single-phase network isolation control device - Google Patents

Description

one

The proposed device relates to the field of measuring tech- nics and is intended to control the isolation of the single-phase network of electrical heating of the vacuum-chamber chambers of the open-hearth shops.

A device of a valve circuit for continuous monitoring of insulation resistance in single-phase AC networks is known, comprising a relay, two valves connected in an incomplete star, connected in series with the resistances to the linear wires of a single-phase network.

However, in such a device, the magnitude of the current in the relay also depends on the magnitude of the operating voltage controlled by the device in a single-phase circuit.

Such a dependence leads to the fact that when the direct current is triggered by the relay, it operates at different values of the insulation resistance of the network relative to the ground when the size of the working equipment changes. This limits the use of the device in networks, having a wide range of operating voltage values.

Pel of the invention consists in expanding the field of use of the device for controlling the insulation.

This goal is achieved by the fact that the proposed device is equipped with two rectifiers, two adjustable resistors, sources

An operational variable voltage and a magnetic amplifier, one control winding of which is connected between the zero point of the incomplete star of the gates and the ground. The working winding is connected via a relay to a source of operating alternating voltage to which a magnetic amplifier amplifier winding, another KOTOpoio control winding is connected through a second adjustable resistor and a second rectifier connected to a controlled single-phase network via a nerve rectifier and the first adjustable resistor. This allows the relay to be controlled from

with the help of two control windings of a magnetic amplifier, the magnitude of the current in one of which depends on the resistance of the insulation of the network and its operating voltage, and in the other on the operating voltage of the network. When meeting

The direction of the magnetic fluxes of the control of the first and second windings compresses the oscillations of the values of the operating voltage of a single-phase network. With counter-magnetic fluxes caused by the mixing winding and the control winding connected to the rectifier, the relay is not triggered at high values of the operating voltage of the network and a high level of insulation of the network relative to earth. This eliminates the dependence of the operation of the relay on the magnitude of the operating voltage of a single-phase network, which expands the scope of use of the device to control the insulation.

The drawing shows a diagram of the proposed device.

The device contains resistances 1, gates 2, rectifiers 3, 4, a magnetic amplifier with control windings 5, 6, a bias 7 and workers 8, a relay 9 and adjustable resistors 10, 11.

The transformer of a single-phase network is represented by a winding 12, the load of a vacuum coil is a resistance 13. Dots denote the polarity of the windings of the magnetic amplifier.

The device works as follows.

An operational alternating voltage is applied to the working windings 8 of the magnetic amplifier. Under the action of this voltage, an alternating current passes through the relay 9 and the current rectified by the rectifier 4 through the bias winding 7.

The current passing through the control winding 5 reduces the current value in relay 9, the current passing through the control winding b increases the current value in relay 9. This allows to compensate the influence of fluctuations of the operating voltage of a single-phase network at the protection relay is activated.

With a high level of isolation of a single-phase network relative to the earth, the current rectified by the valves 2 approaches zero. In this case, the operating windings 8 and the relay 9 pass a current less than the switching current of the relay 9. As the voltage of the single-phase network increases, the current in the relay 9 decreases.

When the isolation level of the single-phase network is reduced relative to the earth, the current in the control winding of the relay 9 increases. At a certain equivalent equivalent isolation value of the single-phase network (relative to the earth for the rectified current-2 valves), the relay 9 is triggered, ensuring that the insulation value network. The contacts of the relay 9 of the device can act on the trip or on the signal.

Subject invention

A device for monitoring the isolation of a single-phase network, containing a relay, two partially-connected valves connected in series with resistances to the linear wires of a single-phase network, characterized in that, in order to expand the functionality of the device when operating in networks with a wide range of values operating voltage, it is equipped with two rectifiers, two adjustable resistors, a source of operational variable

voltage and a magnetic amplifier, one control winding of which is connected between the zero point of an incomplete star of gates and ground, the working winding is connected via a relay to a source of operational variable

the voltage to which the bias winding of the magnetic amplifier is connected through the first rectifier and the first adjustable resistor, the other control winding of which through the second adjustable resistor and the second

The rectifier is connected to a controlled single-phase network.