SU572728A1 - Device for measuring resistance of electric circuit insulation - Google Patents

Description

one

This invention relates to devices for protection against leakage currents in three-phase electrical networks.

A device is known for monitoring the isolation of networks, comprising an operational source connected between the phases of the network and the earth, a coupling capacitor, and measuring and executive units ij.

The disadvantage of such a device is that the measuring element is connected between the phases of the network and the ground in parallel to the source of operational voltage and parallel to the resistance of the insulation of the network. The maximum current through the measuring body in such a device is achieved when the insulation resistance is equal to 00 and depends on the mains voltage, which leads to false alarms.

A device is known comprising a power source and a reference source connected between the mains phases and the earth, an operational source and a compensating circuit to which the input of the transistor amplifier, shunted by a semiconductor diode, is connected, the output of which is connected to the executive unit 2J.

However, in the known device there is no possibility of self-monitoring of the health of the circuit elements, which reduces the reliability of its operation.

The purpose of the invention is to increase the reliability of the device.

This is achieved by the fact that in the proposed device, parallel to a semiconductor diode are connected an opposing operational source and a source of pulsed voltage, made in the form of a rectifier connected in series with a resistor and a semiconductor zener diode, and the output of the amplifier is connected through a capacitor to an actuator, bypassed semiconductor device connected according to the source of food.

The drawing shows the scheme of the proposed device for measuring the insulation resistance of electrical circuits.

The device contains an operational source 1 connected between the phases of the network and the earth using star resistors 2 and a compensation circuit consisting of drossel transformer 3, compensating throttle 4 and separation capacitor 5. Operational source 1 and source b of rectified pulse signals, which is made on the zener, in which the four-terminal zener diode is to be used, are connected in opposite directions and connected to the semiconductor diode 7, which shunt the input of the transistor amplifier 8. To the output of the amplifier 8 through 9 connected opdepsator

the actuator (relay) 10, shunted by another semiconductor device 11, connected according to the power source 12. The semiconductor device And can be made in the form of a four-terminal diode or a zener diode. In addition, the device contains resistors 13.

The device works as follows.

With insulation resistance, the operational current / oper. Passing through the input of the trans; 1-booster amplifier 8 increases and when it reaches a certain threshold value, it is reasonable to trigger the executive (relay) 10, which by its contact 14 breaks the circuit of the zero release of the automatic switch 15. As a result the circuit breaker shuts off the network with damaged insulation. For / operas, less than the amplitude value of the current / at., Which is proportional to the instantaneous value of the rectified voltage of source 6, a current of pulses flows through the emitter-base junction of transistor amplifier 8 due to the difference between / fl. and, in connection with this, the amplifier periodically opens and closes. As a result, in the open state of the transistor amplifier 8, the capacitor 9 is charged through the semiconductor device 11 for the voltage of the power source 12, and when closed it is discharged through the winding of the relay 10 and the resistor included in the collector circuit of the transistor amplifier 8. The average current of the pulses is discharged Yes, the capacitor 9 through the winding of the relay 10 is sufficient to activate it and then keep it in the on state.

With an infinitely large insulation resistance, the operational current / opera is closed along the circuit: "earth, star of resistors 2, network phases, connecting choke - transformer 3, compensating choke 4 and

input of the transistor amplifier 8. When the insulation resistance decreases (resistors 13), resistors 2 are shunted last and the operating current increases. The duration of the open state of the transistor amplifier 8 also increases.

When reaching / operas, the amplitude value / fl. the transistor amplifier 8 is only open, which leads to the fact that the bit

the capacitor current 9 through the executive orga 10 impinges on, and it does not work.

F o m u l o inventions

An apparatus for measuring the insulation resistance of electrical circuits, comprising a power source and a reference source connected between the mains phases and the earth, an operational source and a compensating

A circuit to which a semiconductor-shunted diode input transistor amplifier is connected, the output of which is connected to an executive body, characterized in that, in order to increase the reliability of the device, an operating source and a pulse voltage source connected in parallel to the semiconductor diode, connected in series with a resistor and

a semiconductor zener diode, and the output of the amplifier is connected via capacitance to an actuator, a shunted semiconductor device, connected according to the power source.

Sources of information taken into account in the examination

1. USSR author's certificate №275206, cl. H 02 H 3/16, 17.06.66.

2. USSR author's certificate L 291278, cl. G 01R 31/08, 19.11.68.

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