SU1679421A1 - Method of finding of point of reduced resistance of insulation of power network and device to implement it - Google Patents

Abstract

The invention relates to electrical engineering and can be used to search for a place or branch of an electrical network with reduced insulation resistance. The purpose of the invention is to increase the selectivity of the device. This is achieved due to the fact that the serially connected measuring clamp 8, the amplifier 10, the filter 11 and the indicator 9 are connected to the device containing the alternating voltage source 7, the measuring clamp 12 connected in series, the amplifier 13, the filter 14 and the phase meter 15 , a phase meter 16, a phase difference meter 17, indicator 18. By measuring the phase difference of leakage currents in network sections, it became possible to determine the location of the insulation resistance in the power grid, even if the values of the measured leakage currents are equal. 2 sec. f-ly, 2 ill. with; Ј 5 y 4 y

Description

The invention relates to electrical engineering and can be used to search for a place or a branch with a reduced insulation resistance in an extensive cable network, as well as when a small leakage current is detected in an extensive cable network with distributed capacitance parameters and concentrated insulation resistance parameters, for example, with respect to conductive body of the car, aircraft, etc.

The purpose of the invention is to increase the selectivity of detecting a site with reduced insulation resistance by measuring the phase of the leakage current.

Fig. 1 is a schematic diagram of the proposed device; figure 2 - timing diagram of the device.

The device contains a section 1 of an extensive network with reduced insulation resistance, represented by an equivalent load 2, as well as equivalent capacitance 3 and resistance 4 of insulation of each of the network branches with respect to the housing, section 5 of the network with normal insulation resistance, presented similarly to section 1, the rest of the network section 6, represented by its equivalent load 2, as well as the equivalent capacitance 3 and resistance 4 of the insulation of each branch with respect to the housing, the alternating voltage source 7 is shifted network potentials with respect to the housing, with one output connected to the housing, and with another output to the monitored sections 1, 5 and 6 of the network, clamp meter 8, indicator element 9, amplifier 10, filter 11, clamp meter 12, amplifier 13, filter 14, phase meters 15 and 16, phase difference meter 17 and indicator element 18, the output of current-measuring tongs 12 through serially connected amplifier 13 and filter 14 is connected to the first input of indicator element 18 and through the meter 15 to the first input of difference meter 17 phase, and the output of the filter 11 through the meter 16 phase is connected to the second input of the meter 17 of the phase difference, the output of which is connected to the second input of the indicator element 18.

The device works as follows.

The alternating voltage source 7 periodically shifts the potentials of the sections 1, 5 and 6 with respect to the housing with the selected frequency (Fig. 2a). At the same time, a signal is removed from the output of the clamp meter 12, which, after passing through the amplifier 13 and the filter 14, acquires

2b, and is fed to the input of the phase meter 15. Similarly, after amplifying and filtering out the noise from the output of filter 11 (Fig. 2b), the signal goes to

 input meter 16 phase. After the phase meters 15 and 16, the signals arrive at the inputs of the phase difference meter 17 (respectively FIG. 2d, d), and from its output (FIG. 2e or 2g) are fed to the indicator element 18.

0 With equal measured currents and the presence of low isolation resistance, phase separation is carried out, respectively, by each of the phase meters 15, 16 and phase difference meter 17

5, a difference signal is produced which is supplied to the indicator element 18, giving information about the difference between the current and the pure capacitive, thereby increasing the selectivity of detecting a decrease in the resistance of the insulation or insulation. Preliminary tests confirmed the possibility of finding insulation damage from 0 to 20 MΩ.

Thus, due to the fact that the current in the section with reduced isolation resistance will lag in phase from the current in the section with normal insulation resistance due to the increased active component of the leakage current, it became possible by the magnitude of the phase difference of the currents in the sections

Claims (2)

1. The method of finding a place to reduce the resistance of the insulation 5 electrical network, based on the forced displacement of the network potentials with respect to the housing by imposing an alternating current voltage, measuring the variable component currents over the network sections and finding a place with reduced insulation resistance at the maximum of the measured values, characterized in that, in order to increase the selectivity, the location of the site with reduced insulation resistance, simultaneously record the phases of the measured currents over network sections, measure the difference between the values of the phases of the currents and, in case of equality 0 values of the measured currents, find a place with a reduced insulation resistance by the magnitude of the phase difference of the currents in the network sections. 2. Device for finding a place to reduce electrical insulation resistance network, containing a source of alternating voltage, one output connected to the common bus of the device, and the other output to the monitored branch of the network, the first current clamp meter, the first amplifier, the first filter and the first indicator, characterized in that, in order to increase the detection accuracy, places with reduced insulation resistance, serially connected second clamp meter, second amplifier, second filter and first phase meter, phase difference meter, second oh indicator and the second phase meter, the output of the second filter connected to the first input of the second indicator, the output of the first phase meter connected to the first input of the phase difference meter, the output of the first filter through the second phase meter connected to the second input of the phase difference meter, the output of which is connected to the second the input of the second indicator. BUT