SU564683A1 - Three-phase pole-switching winding - Google Patents

Description

(54) THREE PHASE REPLACEMENT COUPLING

Claims (2)

The invention relates to electrical engineering and can be applied in the manufacture of multi-speed electric motors. The windings are known to consist of three phases, which, when turned on in a three-phase network, create one polarity, and when turned on in a single-phase network, another one, and the three phases of the winding are connected according to a double star with conclusions from the middle of the phases and from separate zero points. When three-phase voltage is applied to the leads from the middle of the winding phase, they form pairs of poles, and when the single-phase voltage is supplied to the leads from separate zero points, they form another pair I. The disadvantage of such windings is that they provide only some specific ratios the number of pairs of poles is 1: 6. Also known is the multi-phase winding, which, when powered from the m-phase voltage system, forms one pole, and the power jipH winding from the adiophase system, another pole. in particular, prits1 3 winding ensures the ratio of pairs of poles of 1: 3 2. This winding contains three phases; each includes Hi - 1) (6t ± 2) - 2 + 3 | sequentially connected coil groups, and the adjacent groups of semi-phases (W - 1) (6t ± 2) -2 + Zri (tn- 1) (6i ± 2) - 2 + 3o are connected in opposite, where u1, 2, 3 is the phase number ; 1 is any integer; 1.2 ... 6t ± 2; p 1,2, ... 3t ± l; 3t ± 1. + 1, ... b {+2. However, this winding has limited application and provides only the ratio of the numbers of pairs of poles 1: 3. The aim of the invention is to expand the field of application of the winding. The indicated target is provided by the fact that the coil groups with the numbers (m -) (6t ± 2) + 3t ± 1 + 1 and (t - l) (6t ± 2) 3t + 1 are connected according to. FIG. 1 is a diagram of the connection of coil groups in phase; in fig. 2 - unless |: chickpea winding scheme for 1O-6 poles; in FIG. 3 - a winding scheme for 8-6 poles is deployed. FIG. 1 p d 1,2 ... (3t ± 1), (3t i l) -H, ... (6it 2) -l, (6-1 + 2) denotes the numbers of the reel groups in. phase, where - any positive integer. The coil groups in the phase are connected to each other in series with each other except for the two middle groups, which are connected to each other in a consistent manner. Each phase consists of 8 coil groups that are interconnected according to the above scheme. All phases are the same and spatially mixed at 12О ° 1 C.J, Cj, - beginnings and ends When the phases are connected by a star or a triangle, when they are switched into a three-phase ceib winding, they create 10 poles. If the winding is connected to the single-phase network by terminals from the combined beginnings of phases Cj, From the ends of phases C, 5-6 by terminals Z and Cg from the open tip of the triangle, we obtain 6 poles. In each case, the distribution of the coils of the two-layer phase, -, where 2 - the number of slots on the stator should be such that the winding provides the highest quality harmonic composition of magnetizing force curves. The distribution of 12 coils in 8 coil groups is performed as follows; The first, fourth, fifth, and eighth groups each contain one coil, the other groups each contain two coils. With such a distribution, and the schaza at 3 amplitudes of the parasitic monikar harmonics are small. The magnitude of the winding ratios of the working harmonics is 0.78 / 0.46. The ratio of the inductions in the air gap in the phase connection scheme with a triangle at 2 p 10 and parallel connection of the phases at 2 p 6 is B, o / B 1, and at 2 p 6 the winding feeds from linear voltage. According to this scheme, the connection of the coil groups in the phase can create windings at (et + 2) / 6t poles, if the phases start to be combined and short-circuit terminals of the middle of the phases and separate zero points are taken from the winding. With respect to the poles (6i + 2) / 6t and (6 t 2) 761, the winding in the first case consists of 3 (6t + 2) coil groups. and in the second - from 3 (6t- 2) coil groups, in both cases (6t ± 2) groups in phase are connected in series-counter, with the exception of two middle groups, which are included according to each other. The distribution of two-layer winding coils in (6t + 2) groups can be (evenly as in standard single-speed windings. An example of a winding with (61 ± 2) / 6t poles with i 1, i.e. 8/6 poles is shown in FIG. 3. The coil also has 8 coil groups connected according to the scheme shown in Fig. 1. The phases are displaced by 120 °. Giving a three-phase voltage to the terminals C, Cg, C will get 8 poles. Supplying, for example, a linear voltage to conclusions С |, Сl. we will get 6 poles. At a step of 4, the values are about the co-current coefficients (the number of candidates are equal to Kj, g5 is 0.93, K is 0.57 .. The ratio is ind Ktsy in the air gap 1. Bg / B6 In the general case, a winding can be created for the following ratios of the numbers of poles 2/6, 4/6, 8/6, 8/12 and so The invention formula Three-phase pole-switchable winding, each phase of which contains ( w- l) (6i ± 2) - 2 + 3t series-connected coil groups, with the adjacent semi-phase groups (w-l) (6i ± 2) - 2-f + Зр and (rn- 1) (6t + 2) - 2 + 3 (J are connected oppositely, characterized in that, in order to expand the field of application, the coil groups ii4-0 (6t ± 2) i5ifi and (KH-iX6tt2) + iii4 {are connected according to, where 1,2,3 - phase number}}, -t- any integer positive h Islom 1,2, ..., .Gt + 2; i p 1,2 ..;, 3t + 1; (-3t, + 1 + 1, ...., 6tt 2. Sources of information taken into account during the examination: 1. USSR Author's Certificate No. 382198, N 02 K 3/28, 197О. 2. Onyshko, EA. And; measuring the number of pairs of poles of a multiphase winding in relation to 1:; p. Collector Electrical Engineering and Electrical Equipment, vol. 5, 19b7. ((3ttil i / 2 / / (6tt2) -1 6t ± 2 / h