SU1007050A2 - Method of determining damaged phase at single-phase earthing in network with insulated neutral wire - Google Patents

Abstract

A METHOD FOR DETERMINING A DAMAGED PHASE AT SINGLE-PHASE INTERCUTS ON THE EARTH IN A NETWORK WITH ISOLATED NEUTRAL at author. St. No. 756322, characterized in that, in order to extend the functionality by determining the location of a break, the electric field strength at two points of the air line is measured before and after the intended break point, and with a stepwise increase in the signal at a given measurement point from the previous point measurements determine the change in the search direction to the power source, and with a stepwise decrease in the signal at a given measurement point compared with the previous measurement point, the change in power search board. About sd

Description

The invention relates to the field of electrical measuring equipment and can be used to determine wire breaks in networks with insulated neutral.

The closest in technical essence to the proposed by the main author. St. No. 756322 is a method for determining a faulty phase — with single-phase earth faults in a network — with an insulated neutral, which includes measuring the directivity of an electromagnetic field at two points along a transmission line in sections perpendicular to the axis of symmetry of the arrangement of the phase conductors of the transmission line, where the damaged the extreme phase is determined by the excess of the intensity of the electromagnetic field at the measuring point opposite to this phase, and the damaged middle phase is determined by the equality of the intensity of the electric field. omagnitnogo floor at the points of measurement 1.

The disadvantage of the known method is the impossibility of determining the damaged phase in the event of a phase failure without a ground fault, for example, due to the burnout of the knife of the sectionalizer.

The aim of the invention is to expand the functionality.

This goal is achieved by the fact that, according to cnoco6yj, the measurement of electromagnetic field intensity along a transmission line route in sections perpendicular to the axis of symmetry of its phase drives located at two points located symmetrically with respect to the axis of symmetry of the arrangement of phase conductors of the transmission line, the terminal phase is determined by the excess of the electromagnetic field at the point of measurement opposite to this phase, and the damaged middle phase is determined by the equality of the intensity the electromagnetic field at the measurement points, the intensity of the electric field being measured at two points of the air line before and after the expected break point, when the signal increases at a given measurement point compared to the previous measurement point, the search direction to the power source is determined, and stepwise decrease of the signal at a given measurement point, compared

from the previous measurement point, the change in search direction from the power source is determined.

FIG. 1 is a diagram illustrating the proposed method; in fig. 2 shows the distribution curves of the electric field strength.

FIG. Figure 1 shows the power supply source 1, the power transmission line 2, the interruption location 3, the electric field strength measurement point 4 to the interruption location 3, the electrical field tension measurement point 5 after the interruption location 3, and FIG. Figure 2 shows the distribution curves of the electric field under the phase wires 6, 7 and 8 of power line 2 at a level of 1 m from the surface of the earth, with curve 9 obtained at measurement point 4 to the break point, curve 10 at measurements behind the break point ( at point 5) points 11, 12, 13, 14 are the electric field strengths under the extreme and middle wires of the transmission line at measurement points 4 and 5.

To determine the location of the 3 breaks in the air line, it is necessary to measure the electric field intensity at points 4 and 5 of the measurement and compare the results of these measurements.

Initially, the measuring point of the electric field strength is chosen to the proposed break point - 4. Then, a point after the assumed break point - 5 is selected for measurements (Fig. 1).

The absolute values of the electric field intensity at points 4 and 5 of measurements differ by one order, i.e. the value of the signal measured at point 5 (points 14, 13 on curve 10 - Fig. 2) is an order of magnitude larger than the signal at point 4 (points 11, 12 on curve 9 - Fig. 2).

As a result of the measurements, it is found that a break is located between points 4 and 5 of the measurements. After measuring at point 5, the next measurement should be made closer to source 1.. In this way, the location of the cliff is determined by stepwise measurement. Experimental studies have confirmed the reliability and effectiveness of the application of the proposed method.

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Claims (1)

METHOD FOR DETERMINING A DAMAGED PHASE FOR SINGLE-PHASE EARTH CIRCUITS IN SE- TI WITH ISOLATED NEUTRAL by ed. St. No. 756322, characterized in that, in order to expand the functionality by determining the place of a break, the electric field is measured at two points of the overhead line before and after the proposed place of break, and when the signal jumps at this measurement point compared to the previous measurement point a change in the direction of the search to the power source, and when the signal decreases abruptly at a given measurement point compared to the previous measurement point, a change in direction Search Oia from the power source.