SU1644290A1 - Arc control device to compensate single phase-grounded capacitance current - Google Patents

Abstract

The invention relates to electrical engineering and power engineering, in particular, to designs of arc-suppressing reactors, designed to compensate for the capacitive currents of a single-phase earth fault in electric networks of 6-35 kV. The purpose of the invention is to simplify the manufacture of a magnetic circuit. The arc device for compensating for capacitive currents of a single-phase circuit contains a magnetic core 1, a primary 2 and a secondary 3 windings. The magnetic core is made double-core without gaps, placing the primary working and secondary windings on different rods, the primary winding is connected between the mains neutral and the ground parallel to the winding of the controlled arc suppressor 4, the secondary winding is short-circuited, 1 il. cl

Description

The invention relates to electrical engineering and power engineering, in particular, to designs of arc-suppressing reactors, designed to compensate for the capacitive currents of a single-phase earth fault in electric networks of 6-35 kV.

The aim of the invention is to simplify the manufacture of the magnetic circuit.

The drawing shows the design of the proposed device for compensation of capacitive currents.

The closed magnetic circuit 1, without gaps, is assembled from standard plates of the same size. On one rod there is a working primary winding 2, the cross section of this winding is selected by 75-85% capacitive current of the metal circuit of the phase to earth. On the other rod is located the secondary winding 3 with the number of turns of the primary winding, the secondary winding 3 is short-circuited. The primary winding is connected between the mains neutral and the earth in parallel with the reactor to be controlled 4.

The device works as follows.

When one of the phases closes on the ground, a neutral bias voltage appears, causing current to flow in the working winding. According to the law of electromagnetic induction, an emf and a current 2 arise in the secondary winding. An emf predetermining the current of the primary winding occurs in the secondary winding in the primary winding, compensating for the capacitive component of the single-phase earth current. The number of turns of the secondary winding and the magnetic core is calculated in such a way that the primary current would compensate for the calculated part of the capacitive current of a single-phase circuit (75-85% of

about

±

yu o

maximum value). In this case, the compensation current working winding And has a sinusoidal curve,

Application of the proposed arc-suppressing device, designed to compensate for 75-85% of capacitive current together with a low-power controlled reactor 4, designed to compensate for the remaining part of 25-15% capacitive current, will provide economic efficiency mainly due to reduced labor costs for manufacturing magnetic conductor.

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Claims (1)

The invention is an arc-suppressing device for compensating capacitive currents of a single-phase circuit, containing a controlled reactor for connection between the neutral of the network and ground, and a magnetic circuit with windings on its rods, the primary winding being connected in parallel to a controlled reactor, characterized by In order to simplify the fabrication of the magnetic circuit, it is made double-core without gaps, and the secondary winding placed on the second rod is short-circuited.