SU1432421A1 - Method of measuring ohmic resistance of electric network insulation - Google Patents

Abstract

The invention relates to electrical measuring equipment and is intended primarily for use in mine and mining electrical grids for determining the state and properties of electrical insulation. The method for determining the ohmic resistance of an electrical circuit is as follows. The phase voltage, the average value of the voltage and the leakage current are measured at the forward and reverse polarity of switching on the measuring diode. By the formula given in the description of the invention, the ohmic resistance is calculated, and finally the value of the ohmic resistance is determined as the average between the values obtained with the direct and reverse field 5 of the switching voltage of the measuring diode. In this case, measurements of the average values of the voltage and the leakage current are made after the extinction current has decayed. The method has a higher accuracy determination of the insulation resistance. 1 il. from € (L

Description

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The invention relates to electrical measuring equipment, and specifically to methods for measuring electrical insulation parameters of electrical installations when operating at alternating voltage of industrial frequency, and is intended npeKiviyinecTBeHHo for use in mine and mine electrical networks to determine the state and properties of electrical insulation.

The purpose of the invention is to improve the accuracy of determining the active insulation resistance.

The method is as follows.

The phase voltage, the average value of the voltage and the leakage current are measured at the forward and reverse polarity of switching on the measuring diode, the ohmic resistance is calculated by the formula

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where R is the ohmic resistance

with direct and reverse polarity, respectively; Uo phase voltage; and - is the mean leakage current measured at the direct and inverse polarity, respectively; 1 - average current

leakage, measured at direct and reverse polarity, respectively, and finally the value of the ohmic resistance is determined as the average between the values obtained at the direct and reverse polarity of switching on the measuring diode:

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moreover, measurements of average values of voltage and leakage current are carried out after attenuation of the absorption current.

The drawing is a diagram of the device that implements the proposed method.

The device comprises a phase switch 1, an electronic voltmeter switch 2, a polarity switch 3 of the measuring circuit, an electronic voltmeter 4, a diode 5, electrical measuring instruments: a microammeter 6 of the magnetoelectric system and a voltmeter 7 for measuring averages on

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yarn, phase 8-10 network. The ohmic resistances of the phase insulation are denoted by Ro / ng. RO / HJ. The three terminals of the switch 1 are connected to the three phase wires 8-10, respectively, and the moving contact is connected to the first terminals of the switch 2 and the switch 3 of the first direction. The second pin of the key 2 is connected via a voltmeter 7 to the housing and the first pin of the switch 3 of the fourth direction. The second terminal of the switch 3 of the first direction is connected to the third terminal of the switch 3 of the second direction and the anode of the diode 5, the cathode of which is connected to the third and second terminals of the switch 3 of the first and second directions, respectively. The first terminals of the switch 3 of the second and third directions are interconnected and the second output of the switch of the third direction is connected to the third output of the switch of the fourth direction and the first, output terminals of the microammeter 6 and voltmeter 7, the second terminals of which are connected to the third and fourth directions.

The measuring device operates in the following sequence.

After being connected via switch 1 to one of the phases 8 or 9 or 10 of the network through a measuring circuit consisting of switch 3 (four directions), diode 5, electrical measuring instruments 6.7, which serve respectively to measure average values of current and voltage leakage, direct current flows through the circuit: the network phase, the second contact of the first direction of the switch 3, the anode of the diode 5, the cathode of the diode 5, the second contact of the second direction of the switch 3, the second contact of the third direction of the switch 3, the common positive micro terminal permetra voltmeter 6 and 7, the second contact of the switch 3 of the fourth direction, excavation.

The readings of electrical measuring instruments are counted after the attenuation of the absorption process in the phase insulation of the network. These readings are average values of current and leakage voltage with positive polarity.

When switching the switch 3, the direct current flows through the circuit: ground, the first contact of the fourth direction of the switch 3, the common positive terminal of the electrical measuring devices 6 and 7, the common negative terminal of the devices 6 and 7, the first contact of the third direction of the switch 3, the first contact of the second direction of the switch 3 , the anode of diode 5, the cathode of diode 5, the first contact of the first direction of the switch 3, the phase of the network. The readings of instruments 6 and 7 are calculated after the attenuation of the absorption process in the phase insulation of the network. These readings are average values of current and leakage voltage at opposite polarity.

Measuring leakage currents at different polarities avoids the error caused by the unipolar effect in the network isolation and takes into account the attenuation of the absorption current.

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About the invention Invention A method for determining the ohmic resistance of an electrical network insulation, which consists in measuring the phase voltage, the average rectified current value and the leakage voltage during the direct polarity of the measuring diode, calculates the ohmic resistance value characterized in that, in order to increase accuracy, the average rectified value of the current and leakage voltage is measured additionally with the reverse polarity of switching on the measuring diode; moreover, the measurement of the current and leakage voltage at p and reverse polarity diode measurement is carried out after the extinction of absorption current calculated value of the ohmic resistance in the reverse polarity, diode measurement, and the value of the ohmic resistance determined as the average of the computed during the forward and reverse polarity measuring diode.

VNIISH Order 5420/37 Circulation / 72

Random polygons pr-tie, Uzhgorod, st. Project, 4

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Subscription

Claims (1)

SUMMARY OF THE INVENTION A method for determining the ohmic insulation resistance of an electrical network, which consists in measuring the phase voltage, the average rectified current value and the leakage voltage at the direct polarity of the measuring diode, you calculate the ohmic resistance value, characterized in that, in order to improve accuracy, additionally measure the average rectified value of the current and leakage voltage at the reverse polarity of the measuring diode, and the measurement of leakage current and voltage at pit and reverse polarity diode measurement performed after 2q damping absorption current calculated value of the ohmic resistance in the reverse polarity, diode measurement, and the value of the ohmic resistance opredelya25 was calculated as the average of at forward and reverse polarity measuring diode. VNIIIPI Order 5420/37 Custom polygr. production Circulation 772 Subscription • g. Uzhhorod, st. Project, 4