SU1711100A1 - Device for testing electrical strength of insulation - Google Patents

Abstract

The invention can be used to test the insulation of electrical products. The purpose of the invention is to increase the test performance by simultaneously testing many objects from a single high voltage source. To ensure the selective disconnection of only one test item and the reduction of the power supply of all the others, the supply circuit is disconnected by a high-voltage thyristor switch directly on the high voltage side. The thyristor key consists of series-connected thyristors and is controlled by high-voltage reed switches. As a current sensor, a reed switch is used, unlocking a low-voltage thyristor, a shunt winding of the control of high-voltage reed switches 1 ло С /

Description

The invention relates to electrical measuring equipment and can be used to test the electrical strength of the insulation of electrical products, in particular wires and cables.

The aim of the invention is to improve the performance of the device by simultaneously testing many objects from one common source of high voltage.

This goal is achieved by connecting the group to a common high voltage source directly through the high voltage circuit of each test object through a thyristor key with a control that uses reed relays.

The drawing shows the electrical circuit of the device for testing the electrical strength of the insulation.

A device for testing the electrical strength of the insulation of products connected as part of a group of test products to a common high voltage source 1, comprising a step-up transformer with a smooth output voltage control unit, contains a capacitor 2, a diode bridge 3, a filter 4, and a limiting resistor .5, while these elements form a low-voltage source 6 of direct current, a trigger indicator, made in the form of an LED 7, shunted by a resistor 8, a low-voltage thyristor 9, a thyristor switch 10 with a control unit made in the form of two opposite-connected high-voltage thyristors 11-13 and 14-16 with equalizing resistors 17-22, high-voltage diodes 23-28, limiter CH

.

29-34 resistors, high-voltage vacuum reed switches 35 and 36 with their control windings 37 and 38, respectively, separated by high-voltage insulation from the reed switches designed for the total operating voltage of source 1, current sensor 39 combined with a threshold element and made in the form of a shunt 40, comprising unregulated and adjustable parts, as well as a reed switch with high voltage isolation between winding 41 and reed switch 42, test object 43 and button 44.

An object 43 is connected to a high voltage source 1 through a thyristor switch 10 with a control unit and a series-connected shunt 40. tests, The thyristor switch is made in the form of two counter-parallel-connected branches, each of which consists of series-connected high-voltage thyristors 11-13 and 14-16, shunted by equalizing resistors 17-19 and 20-22, respectively. The control electrodes of these thyristors through high-voltage diodes 23-25 and 26-28 are connected to limiting resistors 29-31 and 32-34, combined respectively into successive circuits. The control node is designed as high-voltage vacuum reed switches 35 and 36 connected between the extreme resistors of the restrictive chain resistors and the first anode of each of the branches of series-connected high-voltage thyristors The control windings of these reed switches are connected in series with each other and in parallel with a chain in series with low-voltage thyristor 9 and indicator 7 triggered by resistor 8 o. Low-voltage reed switch 42 sub-keys to the anode and control electrode of the thyristor 9, and its winding is connected to the output terminals of the adjustable part of the shunt 40. the resistor 5 to the cathode of the LED 7 and the positive output to the anode of the thyristor 9, one of the input terminals of the diode bridge 3 is connected to the AC mains v220 V through the capacitor 2, and the other through the button 44, the output terminals of the diode Nogo mostd 3 shunted capacitor 2e

11004

The device works as follows. at once0

When the 220 V is connected to the network, the windings 37 and 38 are energized, which leads to the activation of the reed switches 35 and 36. At the same time, the control circuit of the switch key is closed. With a gradual increase in the output voltage Q of the source 1 through the thyristors 11-16 with a closed control circuit, a current flows to the object under test. If the test object is insulated, the current sharply increases.

5 of the shunt circuit 40 and the voltage drop across it increases. The reed relay 42 operates, through the contacts of which the thyristor 9 is opened. Open thyristor 9 shunts the windings

Q 37 and 38, which leads to the opening of the reed switches 36 and 35 s. At the same time, the LED 7 lights up, indicating the breakdown of the insulation of this object 43 tests, - At the first transition

5 current sinusoids through a zero value, the triac switch with an open control circuit is locked by disconnecting this test object with damaged insulation from the remaining objects

30 products, the testing of which continues according to a predetermined program, the Thyristor 9 remains in the open state until the completion of the entire test program and the switching off of the high voltage source 1. Thereafter, by pressing the button 44, the device returns to its original state.

Formula l and goiter

40

A device for testing electrical - "- Sfc i 01 1 of insulation strength with alternating blue alternating current.) Containing a source of high voltage, tiris

45 key with control unit, date

A current detector with a threshold element, which means that, in order to increase test performance due to the simultaneous power supply of many objects from one high-voltage source, the device is additionally equipped with a low-voltage DC source. low-voltage thyristor included

55 at the output of this source in series with a limiting resistor, in parallel with which the trigger indicator is on, and said triac key is connected in series

with a current sensor and an object to be tested in a high-voltage circuit of a high-voltage source, and is made in the form of two opposite-parallel-connected branches, each of which consists of series-connected high-voltage thyristors, which are leveling resistors the electrodes of these thyristors are connected via a high-voltage diode to limiting resistors, connected in a series circuit, and the control unit is made in the form of two vacuum reed switches connected ezhdu said chain limiting resistors and the first anode of each of the branches of series-connected high-voltage thyristor winding Regents of these reed switches are isolated

from the terminals of the reed switches to the full operating voltage of the installation, are interconnected in series and connected in parallel to the chain of series-connected low-voltage thyristor and indicator of operation triggered by a resistor, in addition, the current sensor and the threshold element are combined in a common node A resistor and a potentiometer, connected to a parallel but v-connected, to the output of which the winding of the Reed Relay is connected, is isolated from the reed switch connected between the control electrode and the anode of the Low voltage thyristor, low voltage direct current source connected to the network through the release button.

-3 ± 2 I

"F it-l

about 220 °

Claims (1)

Claim A device for testing the electrical strength of insulation with an alternating sinusoidal current, containing a source. a high voltage, thyristor switch with a control unit, a current sensor with a threshold element, characterized in that, in order to increase the test performance due to the simultaneous testing of many objects from one high voltage source, the device is additionally equipped with a low voltage DC source, a low voltage thyristor included 55 at the output of this source in series with a limiting resistor, in parallel with which a trip indicator is turned on, and the aforementioned thyristor switch is turned on after It is studied with a current sensor and a test object in the high voltage circuit of a high voltage source I and is made in the form of two counter-parallel connected 5 branches, each of which consists of series-connected high-voltage thyristors, coupled by leveling resistors, and the control electrodes of these 10 thyristors through high-voltage diodes are connected to limiting resistors combined in a series circuit, and the control unit is made in the form of two vacuum high-15 high-voltage reed switches in included between said chain limiting resistors and the first anode of each of the branches of series-connected high-voltage thyristor coil board 20 of the reed isolated! from the terminals of the reed switches to the full operating voltage of the installation, they are connected in series and connected in parallel to a chain of series-connected low-voltage thyristor and a trip indicator shunted by a resistor, in addition, the current sensor and the threshold element are combined into a common unit made in the form of a shunt consisting of parallel connected a resistor and a potentiometer, the output of which is connected to the reed relay coil, isolated from the reed switch connected between the control electrode and the anode of the aforementioned o low-voltage thyristor, the low-voltage direct current source is connected to the network through the disconnect button.