SU1134987A1 - Combined winding for stator of one-machine rotary frequency changer - Google Patents

Abstract

The COMBINED SHOT of the STATOR of the SINGLE-MACHINE FREQUENCY CONVERTER, filled with the numbers of pairs of poles P ../P2 1/4 of the twelve distributed coil groups with concentric coils and connected into two parallel three-phase stars of the beginning form three-phase beat of the teams they the other players will have three-phase and they were the same ones that the other teams have been keeping the numbers of the three-phase ones the three-phase ones have been formed by the three-phase numbers of the beginning of the group. additional clamps for polarity Pp and in the first phase in the first star are included sequentially. coil groups with numbers 1 and -8, and the second star - coil groups with numbers 2 and -7, in the second phase the coil groups with numbers 6 and -11 are included in the first star, and the second star - coil groups with numbers 5 and -12, in the third phase, the coil groups with numbers 9 and 10 are connected in series to the first star, and the coils with numbers –– 4 and –3 are connected in the second star; for polarity p and p, the winding is made in forty-eight slots and each coil group contains t shaggkmn with three coils of U grooves "20, 18, 16, wherein the coil is formed with MPS step and one layer. has twice the number of turns than the other two coils of the coil group, which are made of double-layer, where the minus sign in front of the number of the coil group means its counter-inclusion.

Description

11 The invention relates to coils of combined electric machines and can be used in single-tuned frequency and number of phase converters. The known electromachine is combined on a winding that is filled with the numbers of pole pairs p / Pg 1/6 of 12 distributed coil groups connected in phases into two parallel branches of the beginning of which form three-phase clamps for polarity p, and their ends are connected into two additional clamps for performance The pH of such a winding is limited in scope. Closest to the invention to the technical essence is the combined electric machine stator winding, made with the numbers of pole pairs 1/4 of 12 distributed coil groups connected in two parallel three-phase stars of the beginning of which form three-phase clamps for polarity p, and their zero points are two additional in the first phase, groups with numbers 1 and -8 are connected in series to the first star, groups 2 and -7 in the second star, groups with numbers 6 and -11 are included in the first star, and in oruyu star - groups 5 and -12, in the third phase to the first star VC, pyucheny group numbers 9 and 10, and the second star - group -4, and -3. The disadvantage of such a winding is the high content of higher harmonics in the MDS curve for polarity p and p, which degrades the winding parameters. The purpose of the invention is to improve the winding parameters for polarity p and p2. This goal is achieved by the fact that for a combined stator winding of a single-machine frequency converter made with the numbers of pole pairs p / p. 1/4 of the 12 distributed coil groups with concentric coils and connected into two three-phase parallel stars, the beginnings of which form three-phase clamps for polarity p, their zero points two additional clamping for polarity p and in the first phase in the first star are connected in series the coil groups with numbers 1 and -8, and B the second star - coil groups with numbers 2 and -7, in the second phase 7 the coil groups with numbers 6 and -11 are included in the first star, and the coil groups with numbers 5 and -12 in the second star a third In the first star, the coil groups with numbers 9 and 10 are connected in series to the first star, and the coil groups with numbers –4 and –3 in the second star, the winding is made in forty-eight slots and each coil group contains three coils with steps along the grooves Y, 20 , 18, 16, moreover, the coil with a pitch of U 18 is filled with a single layer and has twice the number of turns than the other two coils of the group, which are double-layered, where a minus sign in front of the number of the coil group means its counter-start. FIG. 1 shows the unfolded diagram of the proposed winding J in FIG. 2 alternating its phase zones} in FIG. 3 and 4 — MDS polygons for polarity p 1 of the known and proposed windings. The winding (Fig. 1) is made in forty-eight slots from 12 distributed coil groups (numbers from 1 to 12) with concentric coils and connected into two parallel three-phase stars, the beginnings of which form three-phase clamps C1, C2, Sz for polarity p 1 and their zero points are two additional wires 02 for polarity p 4. Kama 01 bow groups are connected in the star phases in series. In the C1 phase, the groups with numbers t and -8 in the first star and groups 2 and -7 in the second star, in the C2 phase - groups 6 and -11 in the first star and groups 5 and -12 in the second star, in the C3 phase - groups 9 and 10 in the first star and the group -4 and -3 in the second star, where the minus sign in front of the number of the coil group means that it is turned on. Each coil group contains three coils with steps along the grooves Y ,, 20, 18, 16, and for a single-layer coil with a pitch U „tS the number of turns is 2W. and for the other two coils of the group with Y5 20 and 16, filled with double layers, the number of turns is W. The upper row of arrows in FIG. 1 shows the direction of the currents when powering the winding through the clips C1, C2, Sz by a three-phase current (p 1), and the lower

Claims (1)

COMBINED WINDING OF THE STATOR OF A SINGLE-MACHINE FREQUENCY CONVERTER, made with the numbers of pole pairs p ^ / p „= 1/4 of twelve distributed coil groups with concentric coils and connected in two parallel three-phase stars, the beginnings of which form three-phase clamps for the polar point p _l - two additional clamps for the pole p ₂ and in the first phase of the parameters for the pole p and Pj., the winding is made in forty-eight § grooves and each coil group contains three coils with groove steps Y _n = 20, 18, 16 , reason m katupgka steps have _n = 18 one * made * r and layer. it has twice as many turns as the other two coils of the coil group, which are made two-layer, where the minus sign in front of the coil group number means its counter inclusion. Sae "and>