SU4809A1 - Device for locating damage in a high voltage transmission line - Google Patents

Description

The proposed device is intended to make it possible to locate a fault in the line without shutting down the operating voltage.

The drawing shows the corresponding scheme.

As soon as the damage occurred, at the station, high-voltage lines are connected by means of trainers 5, b and 7 to the three capacitors 8, 9 and 10. The capacitors 8, 9 and 10 through chokes 11, 12, 13 are connected to a star, the zero point 27 of which is grounded (see ground 26). Three capacitors 14, 15, 16 are connected to capacitors 8, 9 and 10. A capacitor from group 14, 15, 16 connected to a damaged wire is connected to the winding 18 of a differential transformer, which through a variable self-induction (variometer) 20, variable ohmic resistance 21 and the second variometer 24 is connected to one of the terminals of the high frequency generator 25. The capacitor from groups 14, 15 and 16, connected to the wire located adjacent to the damaged one, is connected to the second winding 17 of the differential transformer, at which point 36 is connected to the circuit of the first winding 18 of the same transformer. In the zero winding of the transformer

enabled through the detector 22 phone 23.

A high frequency generator is used to locate the damage. The current from the generator is branched in two circuits: circuit 1. (25, 26, through the ground 28, 4, 7, 10, 16, 18, 20, 21, 36, 24, 25); chain II (25, 26, across the ground 28, 31, 29, 3, 6, 9, 15, 17, 36, 24, 25). In order that there is no current at all, self-induction is changed in the zero winding of the differential transformer with a variometer 20 in circuit I and the resistance is also changed by alternating resistance (the rheostat is calibrated) 21. In the absence of current in the zero winding, equality is obtained watt and wattless resistance. The difference of resistances in the circuits of the differential transformer 17, 36 and 18, 36 is determined by the direct position of the slider on the graduated rheostat 21. From the diagram it is clear that this difference will correspond to the difference of resistance of the line segments 4, 28 and 28, 31, 3; as the watt impedance is directly proportional. rationally, the difference will directly indicate the difference in the distance of the linear wire 4, 28 and 28, 31, 3, i.e. will indicate the location of the damage. To reduce overall chain I

and a non-watt resistance II, a variometer is turned on in branch 25, 36; 24. Zaz.e1m4 tion in practice occurs- a solid discharge, but this essentially does not change, since for high frequency the resistance of such a closure is not great. The high frequency generator can serve as a lamp generator powered by alternating current.

The chokes P, 12, 13 (with iron) have a large self-induction and, therefore, have a high resistance for high frequency currents; therefore, these currents can be neglected in the proposed device.

Capacities 30 and 29 are obtained by switching capacitors at the end of the line.

A variable capacitor 37 is included in the winding branch 18 of the differential transformer to obtain a complete equality of low voltage resistances in circuits I and II, and therefore the equality of the currents in the windings 17 and 18.

The damage location is from the known difference in watt resistance of wires 4, 28 and 28, 31, 29, 3, and the latter will correspond to twice the length of segment a – g (point at the beginning of the line; point point of damage; r-end condenser lines and place of adventure).

The subject of the patent.

A device for determining the location of damage in a high-voltage transmission line, characterized by the use of a high-frequency electric oscillator, one terminal of which is grounded, and a differential transformer equipped with three windings, two inductively, 17 and 18, and one-zero 19, of which winding 18 is connected to a grounded high-frequency generator 25 in series with variable resistance 21, variable self-induction 20, variable capacitor 37, capacitor 10 and line section from the seats and switching on the measuring device to the point of damage, the second inductive winding 17 is connected to the high frequency generator in series with capacitor 9, one of the intact lines from the point of switching on the measuring device to the end of the line, capacitor 29 and the damaged line from zero to the point of damage, zero the same winding 19 is connected through the detector to the telephone in order to conclude, due to the absence of current in winding 19, that the impedances of the circuits in which windings 18 and 19 are connected are equal rmator.