SU720632A1 - Inductor for three-phase linear electric machine - Google Patents

Description

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This invention relates to the field of electrical engineering, in particular to linear electrical machines.

A known linear electrical machine, in which a compensation coil 1 is turned on in series to compensate for the null fields in series with the middle phase of the working winding.

However, this leads to an increase in the average impedance of the middle phase and causes an undesirable asymmetry of the phase currents, which is greater than, e. distorts the curve of the floor in the gap and degrades the energy characteristics of the engine.

Also known is an inductor of a three-phase linear electric machine, consisting of a core, in the slots of which a three-phase working winding is laid, and two compensation coils 2.

However, such an inductor does not provide sufficient compensation for the pulsating fields in a linear electric machine, since the compensation of the two extreme phases occurs at the pole division of the edges, and for the middle phase - along the entire length of the inductor. Magnetic phase alignment with

This does not occur and, therefore, a full compensation of the pulsating field is not achieved. ..: ...-.-. ,, ..,: ..: ,,

The aim of the invention is to increase the net power and pulling force and reduce the pulsating fields.

This is achieved by the fact that, in the proposed inductor, one side of the two compensation coils is located before the first groove, the other two sides behind the last groove of the inductor core, and their frontal parts on the frontal parts of the working winding, and the beginning of the compensation coils phases of the winding, and their ends - with the beginning of the two extreme working phases.

FIG. 1 shows a winding connection, schematic diagram; in fig. 2 is an electrical connection scheme of the proposed inductor (where AX, BV, CZ are, respectively, the beginnings and ends of the working windings 1..ax, by - the beginnings and ends of the compensation windings 2, 3 are the ferromagnetic inductor core.

The voltage is applied to the lead ends Ci, € 2, Cz. The working phases AH, WU, CZ, along with the running 2p-plus field, create a unipolar pulsating field along the entire length of the inductor, and the compensation coils ax and by - switched on opposite to the main phases, create a pulsing unipolar field of the opposite direction and, thus, compensate pulsating field created by the working windings. Only a running magnetic field remains in the air gap .-- Invention Formula Inductor of a three-phase linear electric machine, consisting of a core, in the slots of which a three-phase working winding is laid, and two compensation coils, different in that with the aim of increasing the effective power and throttle efforts and reduction of pulsating fields, one side of two compensation coils are located before the first groove, the other two sides - behind the last groove of the inductor core, and their frontal parts - on the frontal parts of the work rim ki, wherein the compensating coils are connected beginning with the start of the working phase secondary windings, and the ends of them - from the start of the extreme working phases. Sources of information taken into account in the examination 1. A. Woldek. Induction magnetohydrodynamic machines with liquid metal working fluid. L., “Energie, 1971, p. 121 - 122. 2. USSR Author's Certificate No. 82974, cl. H 02 K 41/02, 1948.

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Claims (1)

Claim An inductor of a three-phase linear electric machine, consisting of a core, in the grooves of which a three-phase working winding is laid, and two compensation coils, characterized in that, in order to increase the net power and traction and reduce pulsating fields, one side of the two compensation coils is located in front of the first groove , the other two sides are behind the last groove of the sulfur of the inductor bottom, and their frontal parts are on the frontal parts of the working winding, and the beginning of the compensation coils are connected to the beginning of the middle working winding unions, and their ends - with the start of the extreme operating phases. ίο Sources of information taken into account during the examination 1. Voldek A. I. Induction magnetohydrodynamic machines with a liquid metal working fluid. L., "Energy", 1971, p. 121 - 122. ¹⁵ 2. USSR author's certificate No. 82974, cl. H 02 K 41/02, 1948.