SU1437955A2 - Induction electric machine with split magnetic core - Google Patents

Abstract

The invention relates to electrical engineering and can be used in electromechanical systems containing induction electrical machines with an open magnetic conductor. The goal is to increase the energy indices by compensating for the higher spatial harmonic components of the floor of the longitudinal edge effect. The inductor contains a magnetic core 1 with compensating coils 4, 5 located in the extreme slots 2, 3. Additional compensating coils 7, 8 and 9 serve to compensate for the third harmonic spatial component of the field of the longitudinal edge effect. The length of the pole division of these coils is equal to the ratio of the length of the magnetic conductor to the number of the harmonic to be compensated. 8 il. § (L

Description

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The invention relates to electrical engineering and can be used in electromechanical systems containing induction electrical machines with an open magnetic circuit.

The purpose of the invention is to increase the energy indices by compensating for the higher spatial harmonic components of the floor of the longitudinal edge effect.

FIG. 1 shows an inductor of an electric machine with main and additional compensating coils located on it (the working winding is not indicated), a longitudinal section in FIG. 2 is an electrical connection circuit for the coils; in fig. 3–8 are graphs illustrating the choice of the location of the unwinding of the windings.

The inductor of an induction electrical machine with an open magnetic core contains a magnetic core 1 with spaced and in the extreme slots 2 and 3 compensating coils 4, 5, which serve to compensate for the first spatial harmonic component of the field of the longitudinal edge effect. Coils 4 and 5, like all additional compensating coils, are wound around the magnetic circuit of inductor 6. Additional compensating coils 7.8 and 9 serve to compensate for the third harmonic spatial field with the field of the longitudinal edge effect. These coils are wound through a distance equal to one pole division of the coil, defined as the ratio of the length of the magnetic circuit to the number of the harmonic to be compensated.

In order to determine the location of the additional compensating coils 7, 8 and 9, it is necessary to have the dependence of the distribution of induction in an air gap of an induction electric machine with an open magnetic circuit. The spatial spectral composition of the distribution of induction in the air gap is determined by the dependencies.

Example. The curve of the induction distribution in the gap of an induction electric machine with an open magnetic circuit is shown in FIG. 3. It is necessary to decompose this distribution induction curve in the Fourier series into separate spatial components, for example, by known mathematicians.

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A combination of methods for calculating Fourier coefficients. The induction distribution curves for the individual components are then plotted. Thus, in FIG. 4-7, the distribution of the individual components of the induction is given: FIG. 4 shows a constant component that is formed by running through a field that creates a useful working moment; in FIG. 5 shows the first spatial component of the pulsating field of the longitudinal edge effect, which is compensated for by the coils 4 and 5 covering the ends of the magnetic circuit; FIG. 6 - third; in fig. 7 - n ta, etc. The dependences of the induction distribution for higher harmonics are basic for determining the location of the additional compensating coils 7, 8 and 9.

Let us show this by the example of the third spatial harmonic. Along the length of the inductor mark the place of the maxima of induction and zero points. The distance between the maxima determines the pole division of the coil, and hence its location. On each of the pole divisions wound compensating coil. It can be performed as distributed (Fig.8), and concentrated. Knowing the induction of the harmonics, the geometrical dimensions of the electric machine, determine the magnetic flux in a series of compensating coils. Know the magnitude of the magnetic flux of a separate spatial component and the value of the zero-sequence current measured when an induction electric machine with an open magnet is switched on. By using a conduit without compensating coils, the number of turns of the coil is determined.

The sections of the compensating coils 4, 5, 7, 8 and 9 are connected in series, as indicated in Fig. 2, and are connected between the neutral of the working winding and the neutral of the power source.

The device works as follows.

When the working winding of the inductor is connected to the network, it creates a traveling magnetic field, when placed in which the secondary body moves. To reduce losses from higher spatial components of the floor of the longitudinal edge effect, the compensating coils create spatially distributed compensating fields in accordance with the spatial distribution of the floor of the longitudinal edge effect. Thus, the compensating coils A and 5, located at the ends of the magnetic circuit, compensate the first harmonic component of the floor of the longitudinal edge effect, the additional system of coils 7, 8 and 9 - the third. In a number of designs of inductive electrical machines with an open magnetic conductor, with an unfavorable arrangement of the working winding and a short inductor, even spatial harmonics and odd harmonics of a higher order than one-third may be observed, to compensate for which additional compensation of the coil is used.

The use of additional compensating coils connected in series with the neutral winding of the working winding and the power supply neutral leads to an improvement in the degree of compensation of the floor of the longitudinal edge effect in various operating modes and, as a result,

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Vy, to improve the energy performance of induction electric machines with an open magnetic circuit.

Claims (1)

Invention Formula An induction electrical machine with an open magnetic conductor according to the author, No. 758420, characterized in that, in order to noBbmie energy indices by compensating for the higher spatial harmonic components of the floor of the longitudinal edge effect, it is equipped with additional compensating coils placed in the slots with the working wound and wound on the PMO of the magnetic circuit and connected in series with the main compensators, and the number of additional coils is determined by the number of compensated ranstvennoy harmonic longitudinal floor 5 Vågå The edge effect, and the length of the pole division of these coils is the ratio of the length to the number of magnetic compensated harmonic. five 0 about 6 five (RC.2 srig.Z FIG. FIG. five LET-I