UA52395C2 - Device for monitoring and measuring resistance of insulation in an electric mains - Google Patents

Abstract

The proposed device for monitoring and measuring insulation resistance in an earthed neutral electric mains contains a direct voltage source, an insulation resistance indicator, an overvoltage suppressor, a capacitor, a current-to-voltage converter, a compensating voltage source, and a voltage summing unit.

Description

Description of the invention

The device refers to electrical measuring equipment and primarily concerns control and measurements of insulation resistance 2 in electrical networks with an isolated neutral.

A well-known device for monitoring and measuring the insulation resistance of electrical networks, which contains a source of constant voltage, which is connected to the electrical network with an isolated neutral through a disconnecting element, and an indicator of the value of the insulation resistance of the electrical network (A.s. USSR Mo 1707576. Device for monitoring and measurement of insulation resistance of electric networks. (from 01 K 31/02. Publ. Bull. Mo3, 23.01.92). 70 However, the known device does not provide for protection against damage to it, and for service personnel - against damage by high voltage due to sensor ground failure The device cannot also provide high accuracy of insulation resistance measurement.

The invention is based on the task of creating a device that, thanks to the introduction of new elements, will ensure its safe operation and will measure the value of the electrical network insulation resistance 79 with high accuracy.

The task is solved by the fact that the device for monitoring and measuring the insulation of the electric network, which contains a source of constant voltage, which is connected to the electric network with an isolated neutral through the disconnecting element, and the indicator of the resistance of the electric network insulation, according to the invention, it additionally contains a surge limiter, a capacitor, a current-to-voltage converter, a compensating voltage source and a voltage adder, and the capacitor and the surge limiter are connected with their first leads to the common point of the decoupling element, and the second to ground, the second lead of the constant voltage source under is connected to the input of the current-voltage converter, the output of which is also connected to the ground, and its output is connected to the input of the voltage adder, and a source of compensating voltage is connected here with one output, the second output of which is connected to the ground, and the output voltage adder is connected to the input of the indicator of the insulation resistance value of the power grid. c 29 The use of a capacitor allows, on the one hand, to create a resistive-capacitive divider, thanks to which it is possible to easily supply direct current from a constant voltage source to an alternating current electrical network. On the other hand, a capacitor of the appropriate capacity prevents the penetration of alternating current from the electrical network into the source of constant voltage and its damage, since the inheritance of alternating voltage on the capacitor is insignificant.

In addition, the use of a surge protector, which can be used with neon, barium, etc., arresters, allows you to protect the device from overvoltages and damage, and the service personnel from possible high voltage injuries in the event of a capacitor loss of capacity or a break in its grounded terminal. at

To increase the accuracy of insulation resistance measurements, a source of compensating DC voltage is additionally introduced into the circuit, which compensates for the DC leakage current of the capacitor. 3o The drawing shows the schematic diagram of the connections of the device elements (see fig.). at

The device for monitoring and measuring the electrical network insulation resistance 1 consists of a constant voltage source 2, a "current-voltage" converter C, a voltage adder 4, a compensating voltage source 5, an indicator of the electrical network insulation resistance value 6, as well as a capacitor 7 and a surge limiter 8, moreover, capacitor 7 and surge limiter 8 are connected by their first terminals to the common point of the resolving element 9, and by the second - to the ground, a source of constant voltage 2 is connected to the same point, the second terminal of which is connected to to the input of the current-voltage converter 3, the output of which is connected to the ground, and its output is connected to

From" to the input of the voltage adder 4, here the source of compensating voltage 5 is connected by one terminal, the second terminal of which is connected to the ground, and the output of the voltage adder 4 is connected to the input of the indicator of the insulation resistance of the electrical network 6. Device 1 through the The connecting element 9 is connected to the electrical network 10, which is depicted in the drawing 49 by capacitors (Са, Св, Сс) and resistances (КА, Кв, Кс) of the isolation of the phases of the network. The i-th Device works as follows. ka Direct current !/ from the constant voltage source 2 flows through the decoupling element 9 into the electrical network with an isolated neutral 10. Part of the current Is branched off through the insulation of the capacitor 7 to the ground. o In order to increase the accuracy of measurements, this current is compensated by a source of compensating voltage 5, (Te) 20, then the indicator of the insulation resistance of the electrical network will show the actual leakage current of the network | M through active insulation resistances (Kl, Kv, Ks). This current will be inversely proportional to the insulation resistance of the electrical network.

Surge limiter 8 serves to protect against damage to the device and possible damage to service personnel by high voltage in the event of a break in the grounded terminal or loss of capacity by capacitor 7, 29 By lowering the voltage to 150 - 2008. In the non-working state, the resistance of the arrester itself is more

HF) 10000MoΩ, that is, the leakage current through it can be neglected, since the voltage under these conditions on the arrester will not exceed several volts. A decrease in the insulation resistance of the network symmetrically across all phases or asymmetrically will lead to an increase in the network current Iu, and thereby the total current I, which will be fixed by indicator 6. Thus, by the value of the current I, it will be possible to judge the value of the insulation resistance of the network with an isolated 60 neutral. At the same time, the scale of the indicator 6 can be graduated so that the reading is carried out in megohms.

Therefore, the use of the indicated device will allow to effectively monitor and measure the insulation resistance of the alternating current electrical network both in the working state (under voltage) and when the network is disconnected from the voltage. b5 mon prРЕshzhshnyishshshsh write 70 and c!

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Claims (1)

The formula of the invention is a device for monitoring and measuring the insulation resistance of an electrical network, containing a source of constant voltage, which is connected to the electrical network with an insulated neutral through a decoupling element, and an indicator of the value of the insulation resistance of the electrical network, which is distinguished by the fact that it additionally contains a surge limiter , with a capacitor, a current-voltage converter, a compensating voltage source and a voltage adder, and the capacitor and the overvoltage limiter are connected by their first terminals to the common point of the releasing element, and by the second to the ground, the second terminal of the constant voltage source is connected to the input of the "current-voltage" converter, the output of which is also connected to the ground, and its output is connected to the input of the voltage adder, and here is connected with one output the compensating voltage source, the second output of which is connected to ground, and the output of the voltage adder is connected to the input of the electrical network insulation resistance indicator. o Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuits", 2005, M 2, 15.02.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. at 50 pm F) name) 60 b5