SU532934A1 - Winding core inductor machine - Google Patents

Description

Invent relates to the field of electric machine building and can be used to create large inductor-type electric machines.

The windings of the core of an inductor electric machine, made of sections, are laid in the grooves, so that the conductors of only one of the sections are placed in each slot. Due to the significant magnitudes of the currents in the circular electrical machines, the effective conductor in the parallel branch of such windings consists of several elementary conductors.

The disadvantage of such windings is the presence of losses from circulation currents in the winding branch.

The windings of inductor electrical machines are also known, in which in order to reduce losses from circulating currents, by aligning the electromotive force induced by the scattering fields in parallel elementary conductors, they are transposed in the groove and frontal parts of the branch or rod of the winding . The transposition of the veggie winding of the core of an inductor machine occupying one or more poles on the stator core is carried out in the frontal winding.

Full transposition is most effective for the case when the elementary conductors (; | дыty) in the groove constitute one effective conductor, and the most even distribution of the currents along the elementary conductors is achieved when each elementary conductor passes through the entire branch and occupies the full number of identical provisions for the height of the groove. This is possible only in that joke, if the number of grooves under the branch of the winding of the core is a multiple of the number of elementary conductors.

However, if the electrical conductors occupy an incomplete number of identical positions in the grooves, due to the difference in the reactance of the scattering in the winding, current currents appear, especially significant at high frequencies characteristic of inductor machines. In some cases, these currents can create additional losses commensurate with the losses from the main current and even large ones.

The aim of the invention is the alignment of the values of currents on the elementary conductors and the reduction of the additional losses in the winding.

This is achieved by the fact that the core winding is divided into two parts, one of which contains sections that are wound by one conductor with the number of turns not multiple of the grooves, but the other part of the winding is made of sections, each conductor of which is connected in series with the sections of the first part.

The drawing shows the winding of the core of the inductor machine.

In the grooves 1-10 of the stator there is a branch of the core winding consisting of elementary conductors 11-14, and in the first eight grooves are connected parallel sections of 15-8 th / r.

coil in each, wound with one elementary software and forming a part of the winding. The sections of the skhs branded into one effective conductor 1SHK, which is used to complete section 19, are laid into the remaining sockets and forming the second part of the winding.

During the operation of the inductor machine, in each elementary conductor (litz), the same electromotive force is induced, since the number of consecutively connected turns for each elementary conductor is odanak. When flowing in the winding, the current is distributed along the elementary conductors; in the first part of the winding back nponopiyiOHajfbHO to the impedance of the coils, in the second part is inversely proportional to the inductive resistance of the scattering of each elementary conductor. In inductor machines, the synchronous reactivity value is higher than the reactivity dissipated by one to two orders of magnitude, so it basically determines the distribution of currents across the pits. With a constant air gap under the sections, their total resistances will be equal, which ensures a uniform current distribution, but the elemental conductors and an almost complete absence of additional losses due to the flow currents.

Such a winding of the inductor machine core makes it possible to almost completely eliminate losses from circulating currents.

Claims (1)

Invention Formula The winding of the inductor machine, containing parallel branches, is made of seki.iy laid in grooves, with the conductors of one of the sections with transposis in the grooves in each groove, in order to level the currents along the elementary conductors and reducing the additional losses, the winding is divided into two parts, one of which contains sections that are wound by one conductor with a number of turns not a multiple of the number of slots, and part of the winding is made of sections, each conductor of which is connected in series with sections of the first part.