SU1370628A1 - Device for checking insulation electric strength - Google Patents

Abstract

The invention can be used to test the dielectric strength of electrical and electronic products. The device for controlling the electrical strength of the insulation contains an AC source 1, resistors 2-1, ..., 2-p, 13-1, ..., 13-p, 17-1, ..., 17-p, 18-1, ..., 18-p, controlled objects 3-1, ..., 3-p, signal lamps 4-1, ..., 4-p, key 5, input terminal 6, source 7 constant voltage, diode bridges 8-1, ..., 8-p, LEDs 9-1, ..., 9-p, 10-1, ..., 10-p, photo thyristors 11-1, .. ., 11-p, 12-1, ..., 12-p, transistors 14-1, ..., 14-p, zener diodes 15-115-p, variable resistors 16-1, ..., 16- P. The invention increases the reliability of the congrol. 1 il.

Description

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The invention relates to instrumentation engineering and can be used to test the electrical strength of the insulation of electrical and electronic products.

The purpose of the invention is to increase the reliability of control of the electrical strength of the insulation by keeping the test voltage at the test objects close to the nominal value throughout the entire test time.

The drawing shows the electrical circuit of the device.

The device for controlling the electrical strength of the insulation contains an AC source 1, the first resistors 2-1, ..., 2-n according to the number of controllable objects 3-1, ..., 3-n, signal lamps 4-1, ..., 4-n, key 5, the control input of which is connected to the input terminal 6 of the device, and the input to the first output of the source 7 of a constant voltage, diode bridges 8-18-p, the first 9-1, ... , 9-p and the second 10-1,.,., 10-p LEDs, the first

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photothyristors, second resistors 13-1, ..., 13-p, transistors 14-1, ..., 14-fi, zener diodes 15-1, ..., 15-p, variable resistors 16-1, .. ., 16-p, as well as third 17-1, ..., 17-n and fourth 18-1, ..., 18-n resistors.

The device works as follows.

In the initial state, the key 5 is open, the current in the circuit of the second LEDs 10-1, ..., 10-n is absent, the first photo thyristors 11-1, ..., 11-n are in the off state and the test voltage living on controlled objects 3-1, ..., 3-p does not arrive

When a signal is applied to the control input of the key 5, the latter closes the circuit of the second LEDs 10-1, ..., 10-n through the second resistors 13-1, ..., 13-n and the signal lamps 4-1, ..., 4-p. At the same time, a current flows through the circuit, the value of which is greater than the switching current of the first photo thyristors 11-1, ..., 11-p, but not enough to ignite the signal lamps 4-1, .. ,, 4-p. The first photothyristors 11-1, ..., 11-p are transferred to the conducting state, and the test voltage is applied to the controlled objects 3-1, ..., 3-p through the first resistors 2-1, ..., 2-p, diode bridges 8-1, ..., Bn, the first LEDs 9-1, ...

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9-p, fourth resistors 18-1, ..., 18-p and the first photo thyristors 11-1, ..., 11-p. If the insulation of the monitored objects 3-1, ..., 3-n is not damaged, the value of the leakage current through the insulation is lower than the turn-on current of the second photo thyristors 12-1, ..., 12-n, the latter are in the off state and signal lamps 4-1, ..., 4-n do not burn.

In the case of insulation breakdown, for example, in the test object 3-1, a constantly pulsating current flows through the series-connected LED 9-1, resistor 18-1, and photo-thyristor 11-1. Since the photothyristor 11-1 is optically coupled to the excited LED 10-1, it opens at the time of the object 3-1 breakdown at the beginning of the positive half-cycle of the alternating test voltage. After opening the photo thyristor 11-1, it is blocked in this state and transmits current through the LED 9-1, which energizes the photo thyristor 12-1. The photo thyristor 12-1 opens and by its low resistance shunts a circuit consisting of series-connected resistors 13-1 and an LED 10-1, as a result of which the latter is de-energized. However, the photo thyristor 11-1 is in a conducting state until the end of the current positive half-cycle of the alternating test voltage.

As the amplitude of the positive half-period voltage approaches zero, the photo thyristor 11-1 closes and de-energizes the LED 9-1. This stops the flow of alternating current through the test object 3-1.

At the end of the test, the warning lights 4-1 indicate that the test object 3-1 was punched.

The photothyristors 12-1, ..., 12-n are memory elements that keep the corresponding signal lamps 4-1, ..., 4-n in the lit state while key 5 is in the open state . To reset the indication, a short-time signal is applied to the control input of the key 5 from terminal 6, as a result of which the power supply of all lamps 4-1, .. ,, 4-n and photo thyristors 12-1, ..., 12-n are closed. The device is ready for the next cycle of operation.

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A device for controlling the electrical strength of the insulation, containing an alternating current source, a switch, a constant voltage source, the first resistors, signal lamps, diode bridges, the first and second LEDs, the first and second photo thyristors, the second resistors, the first the pins of which are connected to the anodes of the corresponding second photo thyristors and through the corresponding signal lamps with a key output, the control input of which is connected to the input terminal of the device, and the input to the first output of the source constant voltage, the second output of which is connected to the cathode of the second photothyristor and the cathode of the second LED, the anode of which is connected to the second terminals of the respective second resistors, and the first output of the AC source is connected to the first terminals of the first resistors, the second terminals of which are connected to the first vertices of the first diagonals of the corresponding diode

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bridges, the second vertices of the first diagonals of which are connected to the second input of the alternating current source through the test object, and the first vertex of the second diagonal of the diode bridges are connected to the cathode of the corresponding first photothyristors, in order to increase the reliability of the electrical insulation test, it is entered according to the number of control objects, transistors, zener diodes, adjustable resistors, third and fourth resistors, the first conclusions of which are connected to the anodes of the corresponding first photo thyristor the emitter of the transistor, the first terminal and the regulator of the adjustable resistor, the second terminal of which is connected to the collector of the transistor, the second vertices of the second diagonals of the corresponding diode bridges and through the Zener diode to the base of the transistors and the first terminals of the third LEDs, the cathode of which is connected with the first pins of the respective fourth resistors.

Claims (1)

Claim A device for controlling the electric strength of insulation, containing an alternating current source, a key, a constant voltage source, according to the number of objects to be monitored, the first resistors, signal lamps, diode bridges, the first and second LEDs, the first and second photo thyristors, the second resistors, the first conclusions of which are connected to the anodes the corresponding second photo thyristors and through the corresponding signal lamps with the output of the key, the control input of which is connected to the input terminal of the device, and the input to the first output of the constant voltage, the second output of which is connected to the cathode of the second photothyristor and the cathode of the second LED, the anode of which is connected to the second terminals of the corresponding second resistors, the first output of the AC source being connected to the first terminals of the first resistors, the second terminals of which are connected to the first vertices of the first diagonals of the corresponding diode bridges , the second vertices of the first diagonals of which are connected through the control object to the second input of the AC source, and the first vertex of the second diagonal of the diode x bridges connected to the cathode of the corresponding first photothyristors, characterized in that, in order to increase the reliability of the control of the electrical insulation test, transistors, zener diodes, adjustable resistors, third and fourth resistors, the first outputs of which are connected to the anodes, are introduced into it the corresponding first photothyristors, the emitter of the transistor, the first output and the regulator of an adjustable resistor, the second · 2θ swarm output of which is connected to the collector of the transistor, the second vertices of the second Diagonals of the corresponding diode bridges and through a zener diode with a base of transistors and the first 25 leads of the third resistors, as well as with the anodes of the first LEDs, the cathode of which is connected to the first leads of the corresponding fourth resistors.