SU565260A1 - Insulation resitance selective control device - Google Patents

Description

one

This invention relates to electrical measurements. The device makes it possible to detect an element of an electrical network with a lowered value of insulation resistance without disconnecting it from the network.

A device for selective control of insulation resistance, containing a source of non-industrial frequency, sensors, signaling unit, switch 1, is known. The sensitivity of this device is limited by the dependence of the output signal of the phase-sensitive organ on the capacitance of the element monitored, therefore the lack of a known device is insufficient selectivity.

The aim of the invention is to increase the selectivity. To do this, the proposed device for selective control of insulation resistance contains a source of non-industrial frequency, one of the outputs of which is connected to a compensated neutral of the controlled electrical system, another output is connected to a common bus, and voltage sensors connected to the input are installed at each linear output of the electrical system switch unit alarm, entered the selector converter and the decision block. Moreover, the input of the selector converter is connected to the output of the switch, and the output of the selector converter is connected to the input of the decision block, the output of which is connected to the input of the alarm unit.

In order to increase the accuracy and sensitivity of the measurement, the source of the non-industrial frequency is made in the form of a generator of two proportional coupling frequencies.

The drawing shows the structural electrical circuit of the device for the selective 10 control of insulation resistance.

Electric system 1 with compensated neutral 2 has monitored elements 3, 4, 5 with sensors 6, 7, 8 mounted on them, distributed resistances 5 of insulation 9-12 and capacitances 13-16 of the system and monitored elements. One of the poles of the source 17 voltage of the non-industrial frequency is connected to the ground (housing), the other to the neutral of system 1. Sensors 6, Q 7, 8 are connected via switch 18 and selector converter 19 to critical unit 20 and signaling unit 21.

On the controlled network from the source of non-industrial frequency 17 alternately superimposed are voltage fields of the same amplitude and differing in frequency by n times. The total leakage current at the output of sensor 6 is proportional to the active and capacitive conductance of elements 10 and 14 at each of the two frequencies, 0 superimposed on the network. The active component of the leakage current at both frequencies is constant, the capacitance of the component of the leakage current depends on the frequency and is proportional to the frequency at which the measurement is made. The output voltage of sensor 6 at said frequencies is proportional to active and capacitive conductors.

In the proposed device, the voltage from sensor 6 through switch 18 is supplied to converter selector 19, which divides the voltage from the sensor into two channels (according to frequency), amplifies and detects voltages proportional to the total leakage current. The indicated constant voltages are fed to the two inputs of the decision block 20:: at the output of which, the voltage is prolortional to the active conductivity of the element being monitored 3.

Claims (2)

1. A device for selectively controlling insulation resistance, containing a source of non-industrial frequency, one of the outputs which is connected to the neutral compensation of the controlled electrical system, another output is connected to the common bus, and each linear output of the electrical system has voltage sensors connected to the switch input, an alarm unit, characterized in that, in order to increase the selectivity, A converter selector and a decision block are entered, the converter selector input is connected to the switch output, and the converter selector output is connected to the input of the decision block, the output of which is connected n to the input signal block. 2. The device according to claim 1, characterized in that, in order to increase the accuracy and sensitivity of the measurement, the source of the non-industrial frequency is made in the form of a generator of two proportionally related frequencies. Sources of information taken into account in the examination 1. "Shipbuilding number 2, 1973," Device feeder control: insulation, p. 73 (prototype). sixteen Mg h: /five // sh YU