SU1631652A2 - Device for single-line-to-ground protection of insulated neutral ac network - Google Patents

Abstract

The invention relates to relay protection of electrical installations of alternating current. The purpose of the invention is to increase the reliability of protection operation and reduce the influence of external climatic factors on the reliability of power supply. In the process of operation, under the influence of climatic factors, changes in the insulation resistance occur. Depending on the ambient temperature and humidity, the outputs of the temperature sensor 6 and the humidity sensor 7-20 e appear signals that are fed to the inputs of analog-digital converters 21 and 22. At the output of the first analog-digital converter 21, a digital code appears corresponding to the current value of the output signal of the temperature sensor 6, and the output of the second analog-to-digital converter 22 is a digital code corresponding to the current value of the output signal of the humidity sensor 7. Thus, a correction signal corresponding to the current values of ambient temperature and humidity, detected by sensors 6 and 7, changes the signal applied to the inputs of the insulation resistance indicator 11 and the executive relay 18, which eliminates measurement errors during continuous monitoring of the insulation resistance. due to the influence of climatic factors. The use of this device allows to reduce the number of unreasonable triggers with decreasing insulation resistance under the influence of climatic factors. 1 il. S sS i «w

Description

The invention relates to the relay protection of electrical installations of alternating current and can be used for protection against earth faults of generators operating in a block with transformers and distribution networks with insulated neutral.

The purpose of the invention is to increase the reliability of the protection and reduce the influence of external climatic factors on the reliability of power supply.

The drawing shows a schematic diagram of the proposed device.

The device consists of a three-phase measuring transformer 1 voltage, the primary winding of which is connected in a star and connected to the network 2, and neutral; the star point is grounded through isolation capacitor 3, power supply 4, the first output of which is through correction unit 5, the temperature sensor 6 is connected to the first input, and the humidity sensor 7 is connected to the second input, the first input of the voltage adder 8 containing resistors 9 and 10, the indicator 11, the insulation resistance, the L-shaped quadrupole 12 and the primary winding of the transformer 13 are connected in parallel with the separation capacitor 3, which is bridged by the arrester 14 and connected in series with the test button 35 and the resistor 16, the secondary winding of the transformerr 13 voltage is through a diode 17 connected to the second input of the voltage accumulator 8, the output of which is connected to the measuring input of the executive relay 18 with the output contact 19 and the return button 20, the second output of the power source 4 is connected to the power inputs of the unit 5, a temperature sensor 6, a humidity sensor 7, and an executive relay 18, the correction unit 5 comprising a first analog-to-digital converter 21 connected to the first input of the correction unit 5, a second analog-to-digital converter The encoder 22 is connected to the second input of the correction unit 5, and the outputs of the converters 21 and 22 are connected to the inputs of the permanent storage device 23, the outputs of which are connected respectively to the inputs of the digital-to-analog converter 24, the output of which is the output of the correction block 5, and

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The power inputs of the correction unit 5 are connected to the power inputs of the converters 21 and 22 of the permanent storage device 23.

The device works as follows.

For continuous monitoring of the insulation resistance and protection against earth faults, the device is connected between the phases of the network 2 via a three-phase measuring transformer 1

and an alternating voltage is applied to the input of the power source 4.

The insulation resistance level of all three phases of the network 2 relative to the earth is determined by the indications of the insulation resistance indicator 11. When a ground fault occurs, when the resistance value at the location of the fault below the trigger setting, the executive relay 18 trips and its output contact 19 closes.

In operation, changes in the insulation resistance occur under the influence of climatic factors. Depending on the ambient temperature and humidity, the outputs of the temperature sensor 6 and the humidity sensor 7 generate signals that are fed to the inputs of analog-digital converters 21 and 22. At the output of the first analog-digital converter 21, a digital code appears the current value of the output signal of the temperature sensor 6, and the output of the second analog-to-digital converter 22 is a digital code corresponding to the current value of the output signal of the humidity sensor 7, i

The nature of the change in the output signal of sensors 6 and 7 differs from the dependencies of the active resistance of the insulation on temperature and humidity, according to which the signal from the output of the sum of 8 voltages to the input of the operating relay 18 should be corrected. Considering this, the output signals from the outputs of the analog digital converters 21 and 22 are fed to the inputs of a persistent storage device 23, which is pre-t. properly programmed in such a way - that fed to its inputs

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digital codes that implement the characteristics, sensors 6 and 7, cause the appearance at the outputs of the permanent storage device 23 digital codes that realize the required characteristics,

The digital code that is obtained at the output of the persistent storage device 23 is converted into a corrective action using a digital-to-analog converter 24.

Thus, a correction signal corresponding to the current values of ambient temperature and humidity, detected by sensors 6 and 7, changes the signal applied to the inputs of the insulation resistance indicator 11 and the executive relay 18, which eliminates the measurement error at non-sec. intermittent control of insulation resistance due to the influence of climatic factors.

The use of this device allows you to reduce the number neobosno2.

triggered by reducing the insulation resistance under the influence of critical factors and increase

reliable operation of protection.

Claims (1)

Invention Formula Device for protection of AC mains with isolated neutral from single-phase short-circuit on autom. St. No. 1065951, characterized in that, in order to increase the reliability of protection and reduce the influence of external climatic factors on the reliability of power supply, temperature and humidity sensors are additionally introduced, the outputs of which are connected to the first and second inputs of the newly-introduced correction unit settings, the regulating circuit of which is connected between the second input of the voltage adder and the second output of the DC power source.