SU1629874A1 - Device for leading checks of insulation resistance in power distribution networks with an insulated neutral - Google Patents

Abstract

The invention relates to electrical measuring equipment and can be used to control the insulation resistance of electrical circuits with insulated neutral. The aim of the invention is to increase, A-Eg U, the reliability of monitoring the insulation resistance of electrical networks with insulated neutral. The device contains input 1, resistance 2, isolation of the entire network, capacity 3 of the entire network, contacts 4 of the power switching device, branch 5 of the network having resistance 6 and capacity 7, high-voltage contact 8, barrage filter 9, switch-on blocks 10 and time delays 11, connection filter 12, auxiliary contact 13, a shunt filter 14, a blocking relay 15, a constant voltage source 16, a switching device switching mechanism 17. The device eliminates the overlap of direct and alternating measuring currents, which increases the reliability of monitoring the insulation resistance of the branch. 1 il. with so yu 00 2 -G

Description

This invention relates to electrical measuring equipment, namely, to monitoring the insulation resistance of electrical circuits with insulated neutral.

The aim of the invention is to increase the reliability of monitoring the insulation resistance of electrical networks with insulated neutral.

The drawing shows the functional diagram of the device.

The schema contains the following elements; input 1, insulation resistance 2 of the entire network, capacity 3 of the entire network, contacts 4 of the power switching device, branch 5 of the network, resistance 6 of the isolation of the branch, capacitance 7 of the branch, high-voltage contact 8, barrage filter 9, switch-on unit 10, block 11 of the exposure time, connection filter 12, auxiliary contact 13, a shunt filter 14, a blocking relay 15, a constant voltage source 16 and the switching device switching mechanism 17, the latter mechanically connected to the contacts 4 of the switching device, its first output dinene with the first output of the blocking relay 15, one network phase, supplied to input 1, is connected to branch 5 via a series-connected high-voltage contact 8 and a barrier filter 9, a constant voltage source 16 is connected by one pole to ground, and the other pole is via a blocking relay 15 leakage, blocking contact 13 and connecting filter 12 with the phases of the branch 5 of the network, the circuit between the leakage interlock 15 and the blocking contact 13 is connected to the ground shunt filter 14, the first output of switching device 17 connected to the input of the auxiliary contact 13, the first output of the high-voltage contact 8 is connected to the second input of the switching apparatus 17 and the first input of the time delay block 11, and the second and third inputs of the time delay block 11 are connected respectively to the second input of the leakage lock relay 15 and the output unit 10 enable, the output with the first input of the switching mechanism 17 of the switching apparatus.

The device works as follows.

After disconnecting the contacts 4 of the switching device, the constant operational current from the source 16 of constant voltage flows across the resistance 6 of the isolation of the branch 5. When the resistance of the insulation of the branch 5 decreases below the established norm, the leakage blocking relay 15 is activated, which blocks

The time delay unit 11 prevents the switching on of the mechanism 17 for switching on the switching device. If the resistance 6 of the isolation of branch 5 is higher than the allowable

level, it is possible to turn on the contacts 4 of the switching apparatus by means of the switch-on unit 10, and the triggering threshold of the leakage blocking relay 15 is increased. After that, the high-voltage contact 8 is closed and the voltage of one phase of input 1 through it and the barrier filter 9 is applied to the tested branch 5 of the network, and the current flowing through the leakage blocking relay 15 increases, due to

5 simultaneously acting on the resistance 6 of the isolation of the branch 5 of the constant voltage source 16 of the constant voltage and high alternating voltage. In the event of a breakdown or a sharp decrease in the resistance of the isolation of the branch 5, the leakage blocking relay 15 is activated, blocking the switching device switching mechanism 17. Due to the shunt filter 14, a high alternating voltage does not affect the operation of the interlocking leakage relay 15.

The device eliminates the overlap of direct and alternating measuring currents, thereby increasing

0 reliability of control of branch isolation resistance.

Claims (1)

Claims of Invention Advance Monitoring Device for Insulating Electric Networks 5 with an isolated neutral, containing an input, a switch-on unit, a power switching device, a network branch, a barrier filter, a constant voltage source, a time delay block, a locking relay, a switching mechanism of the switching device, an alternating voltage source, and a switching device of the switching device it is mechanically connected to the power switching device, its first input is connected to the first output of the blocking relay, characterized in that, in order to increase the reliability of the control, it is entered high voltage contact filter 0 connections, a shunt filter, a blocking contact, with the operating voltage of a single phase as a source of alternating voltage, which is connected to a branch through a high-voltage contact and a barrier filter connected in series, and the constant voltage source is connected with one pole ground, the other pole - through a blocking leakage relay, a block contact and a connection filter with phase-to-branch no network, in the chain between the blocking connection of the switching device and the first leakage and a blocking contact is connected to the ground at the input of the time delay block, and the second shunt filter, the first output of the fur and the third inputs of the block time delay switching on the switching device-connected respectively to the second input It is connected to the input of the block-contact, 5 blocking relay and the output of the block including the first output of the high-voltage contact of the stage, the output with the first input of the mechanism It is united with the second input of the mechanism of switching on and switching of the switching apparatus.