SU1569745A1 - Method of determining resistance of insulation of d.c. electric circuit - Google Patents

Abstract

This invention relates to electrical engineering and can be used to measure insulation resistance in direct-current networks under voltage and to protect them during ground faults. The aim of the invention is to improve the accuracy of control of insulation resistance. The method consists in alternately shunting the pole of the network with a resistor, measuring the pole voltages and calculating the equivalent of the insulation resistance according to the formula given in the description of the invention. The device implementing the method contains two keys 1, 2, a shunt resistor 3, two measuring transducers 4, 5, two filtering units 6, 7, a dividing unit 8, two units 9, 10 of sampling and storage, a calculation unit 11, an indicator 12, output relay unit 13, control unit 14. The invention makes it possible to control the insulation resistance with greater accuracy due to the fact that the relative values generated from the measured electrical values, i.e. the accuracy of the measurements is not affected by the change in the network voltage. 1 il.

Description

UNION OF SOVIET

SOCIALIST

REPUBLIC

. „, SU ,,„ 1569745 Al

STATE COMMITTEE

BY INVENTIONS AND DISCOVERIES

AT GNST USSR

DESCRIPTION OF THE INVENTION

TO AUTHOR CERTIFICATE • SESSION

LATVGGNO TEHAMESHIA library I

(21) 4468029 / 24-21 (22) 0,1.08.88 (46) 06/07/90. Bull. 21 (7J) Leningrad Polytechnic Institute. M. I .. Kalinina (72) V.K. Vanin and V.Ya. Shmuryev (53) 621.317.333 (088.8) (56) USSR Copyright Certificate No. 840766, cl. G 01 R 27/18, 1981.

USSR copyright certificate No. 1432420, cl. G 01 R 27/18, 1986.

(54) METHOD FOR DETERMINING THE RESISTANCE OF THE INSULATION OF A DC ELECTRIC CIRCUIT (57) The invention relates to electrical engineering and can be used to measure insulation resistance in live DC networks and protect them from earth faults. The purpose of the invention is to improve the accuracy of monitoring the insulation resistance.

ΗΖΖΗ1 '—CZHI · 4 6

sob lies in the fact that alternately shunt the network pole with a resistor, measure the voltage of the poles and calculate the equivalent insulation resistance according to the formula given in the description of the invention. The device that implements the method contains two keys 1, 2, a shunt resistor 3, two measuring transducers 4, 5, two filtering units 6, 7, a division unit 8, two sampling and storage units 9, 10, unit 1! calculations, indicator 12, output relay block 13, control unit 14. The invention allows to control the insulation resistance with greater accuracy _s due to the fact that when calculating the resistance, relative values are used, which are formed from the measured electrical quantities, i.e., the measurement voltage is not affected by a change in the network voltage. 1 ill.

tv 5 ^ 699G ”ns

The invention relates to electrical engineering and can be used to measure insulation resistance in DC networks under voltage, and their protection against earth faults.

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

The method of controlling the insulation resistance consists in periodically and alternately shunting the poles of the monitored circuit with a resistor and measuring the voltage at each pole-ed network in the steady state, average the measured voltages, and the equivalent insulation resistance is calculated by the formula

Ut U2 and G IG . Ul “_2 and and; Ui ϋϊ

where ut, U are the averaged voltages j of the positive and negative poles when shunting the positive pole of the network of resistors Uj, U are the averaged voltages of poles when shunting the resistors Kw of the negative pole.

The drawing shows a diagram of a device for implementing the proposed method.

The device contains two switches 1 and 2, a shunt resistor 3, two measuring transducers 4 and 5, two filtering units 6 and 7, a division unit 8, two sampling and storage units 10, a calculation unit 11, an indicator 12, an output relay unit 13, and control unit 14. The shunt resistor 3 is connected to the ground with one terminal and the other through the keys 1 and 2 with the corresponding pole of the controlled circuit, the first pole of the controlled circuit is connected through a series-connected measuring transducer 4 and block 6 to the first input of block 8, and the second pole of the controlled network is connected through the measuring the converter 5 and block 7 - with the second input of block 8, the output of which is connected to the inputs of blocks 9 and 10, the outputs of blocks 9 and 10 are connected respectively to the first and second inputs of block 11, the output of which is connected to the inputs The indicator 12 and the output relay unit 13 corresponding to the block outputs 14 are connected to control inputs of the keys 1 and 2, the blocks 9 and 10 respectively, the input control unit 10 is connected to the input of the control unit 13 of the relay output.

The calculation unit 11 consists of two adders 15 and 16, a multiplication unit 17 and a division unit 18, the output of which is connected to the output terminal of the calculation unit 11, the first terminal of the unit II is connected to the direct input of the adder 15, the inverting input of the adder 16 and the first input of the block I7, the second input of which is connected to the inverting input of the adder 15 and the second input terminal of the calculation unit 11, the output of the block 17 is connected to the first direct input of the adder 16, the second direct input of which is supplied with a voltage corresponding to the level of a logical unit, the outputs of the adder Ovs 15 and 16 are connected to the corresponding inputs of block 18.

The method is implemented as follows.

When the key 1 is closed, the potential distribution between the positive and negative poles of the network. With respect to ground in the steady state is determined by the ratio of the equivalent insulation resistances of the poles R, and R-2 and the value of the shunt resistor 3 N _Ш5 i.e.

_{+ =} U _C (R ₁ II R _w ). UcRz ¹ (r4 and V ^{+ R} ? ' ¹ ~ (r7Trj <rI', respectively, when the key is closed 2 'n + = UcRf. Uc (RiHRu,) t / s, e U _C , U' _C are the mains voltage at the moments measuring the potentials of the poles.

In the general case, U _c / U _c ', which is the cause of the error, to eliminate which in the method and, accordingly, in the device for its implementation, relative values are used. After averaging (filtering) the pole voltages by blocks 6 and 7. in block 8, a relative value U * = U ⁺ / U is formed. This value in steady-state network operation modes with shunting of the corresponding pole re5, 1569765 by resistor 3 (Ry) is determined by the expressions

U * = UJ- =.

'and,' ^R i 'R ^ lTrL'

Rί 1 'Rm „r- U 2

----- or and _g . ₀ independent of U _c .

The relative value of U * is stored in block 9 when the control signal generated by block 14 appears at the moment preceding the end of the positive pole bypass mode, and the value of U * is stored in block 10, respectively, when the negative pole is bypassed.

Calculation of equivalent; insulation resistance of the network is carried out in block 11, taking into account the expression

R ₃ = R _UJ (U * -U *) / (U * U * -2U * + 1), where R ₃ ⁼ R, I / R ₂ .

The output signal of block 11 is supplied to indicator 12 ,. displaying the current value of the equivalent insulation resistance of the network, as well as the input of the output relay block 13, where it is compared with the setpoint for operation and when the resistance decreases below the permissible limit, the formation of the output signal.

The overall operation of the circuit is controlled by block 14, which generates a pulsed signal !, providing alternating closure of keys 1 and 2, storing the relative values of U * and And * in blocks 9 and 10 at the required times, the formation of the output signal in block 13 only with a steady decrease insulation resistance, i.e. observed continuously10 but during the number of measurement cycles specified in it.

The method and device for its implementation can be used to monitor the state of insulation and relay protection of DC circuits, ensuring the independence of the results from changes in the mains voltage, the value of the network capacitance and the place of insulation deterioration.

Claims (1)

Claim A method for determining the insulation resistance of a direct current electric circuit, including periodic and alternating shunting of the poles of the circuit by the resistor, measuring the voltages at the poles shunted by the resistor in steady-state modes of operation of the controlled circuit, characterized in that, in order to increase accuracy, simultaneously measuring the voltage on the shunt resistor measure the voltage and at the opposite pole, average the measured voltage, and the equivalent insulation resistance is determined by the formula and * U; υ _Ί U; R ₃ = R where averaged voltages corresponding to the positive and negative poles during shunting of the positive pole of the circuit by the resistor R _w ; and U ~ are the average voltages corresponding to the positive and negative poles when shunting the negative pole with resistor R _w .