SU1050043A1 - Combined type three-one-phase winding of electric machine - Google Patents

Abstract

ELECTROMASH COMPATIBLE THREE-PHASE-ONE-PHASE WARMING, containing forty-two distributions; divided coil groups connected in phases into two three-phase stars, the heads of which form three-phase clamps for polarity PI, and zero points are connected to two additional terminals for polarity Pg, and the coil pitch is equal to pole division for polarity Fj, which differs from expansion of the field of application in the first phase of the first star are connected in series with the numbers 1 according to, 4, 40, opposite, 38 according to, 35, 30 opposite, 27 according to in the first phase of the second star, 6 according to, 9, 14 opposite, 17 according to, 19 22 counter publicly 25 is opposite, in the second phase of the first star 8, 13 according to, 16, 11.5 opposite, 3 according to, 42 opposite, in the second phase of the second star 37 opposite, 34 according to, 32 opposite, 29 according to, 26 opposite, 24 according to , 21 is opposite, in the third phase of the first star - 15 according to, 12, 18 is opposite, 20 according to, 23, 28 is opposite, 31 according to, in the third phase of the second star 10 according to, 7, 2 is opposite, 41 according to, 39 is opposite, P 36 according to, 33 is opposite, with specified (Additional ends are connected to the ends of groups 27, 31 and the beginning of 42 into one output, the beginnings 21, 25, 33 - to the other, where P, 8 and pg 7. "I 2 3 h 5 6 and 3 U SL 4 with T2 13 14 75 16 1619 202122 Z3Zit25Z8 2728 2E 30317Z32 3135 36 3T38l3fO fj

Description

The invention relates to windings of combined electric machines and can be used, for example, in single-machine frequency converters, motors with a rolling rotor, etc. The combined windings of, electrical machines are known, made in the form of parallel branches of the same polarity p, each of which consists of spacers shifted in space, and having the findings of mid-points that are the beginning of the phases of the other Polarity pj. The angle between the axes of the coils of the same branch is (Pi + P2) radians, and the number of turns in the coils is proportional to the sine of the angle of their shift relative to the axis of the branch 1. Their disadvantages are the complexity of design and manufacturing, large losses from the balancing currents in the branches x. Also known is a combined winding containing 12 distributed coil groups connected in phases into two parallel branches, the beginnings of which form three-phase clamps for polarity p, and the ends are connected to two additional terminals for polarity p, where p is 1 IL, 6 2. The disadvantage is Drainage is of limited use. Closest to the proposed is a combined winding containing 42 distributed, coil groups connected in phases into two parallel branches, the beginnings of which form three-phase clamps for polarity p, and the ends connected to two additional terminals for polarity p, in one the branches of the phase of which are connected in series with the numbers 1, 2, 13, 33 according to, 18, 17, 28 are opposite for the first phase, .15, 26, 27, 37 according to, 42, 11, 10 are opposite for the third phase, and the numbers of the groups the other branches of each phase alternate with an interval of 21 groups, with additional leads are connected to the beginning of groups 4, 10, 28 to one output, 7, 25, 31 - to another, and the coil pitch is equal to pole division for polarity p, where p is 4 and 3. A disadvantage of the known winding is the limited domain range. The purpose of the invention is to expand the application by obtaining the number of pairs of poles, 8ir, 7. This goal is achieved by the fact that in an electromachine combined three-phase single phase winding containing 42 distributed coil groups connected in phases into two three-phase stars, the beginnings of which form three-phase clips for polarity PJ, and zero points are connected to two additional terminals for polarity p, and The coil coil is equal to pole division for polarity Pj, in the first phase of the first star, groups are connected in series with the numbers 1 according to, 4, 40 opposite, 38 according to, 35, 30 opposite, 27 according to in the first phase of the second star s, b according to, 9, 14 opposite, 17 according to, 19 opposite, 22 according to, 25 opposite, in the second phase of the first star 8, 13 according to, 16, 11, 5 opposite, 3 according to, 42 opposite, in the second phase of the second star 37 counter, 34 according, 32 counter, 29 according, 26 allTrechno, 24 according, 21 counter in another star, in the third phase of the first star - 15 according to, 12, 18 counter, 20 according to, 23, 28 counter, 31 according to, the third phase of the second star 10 according to, 7, 2 is opposite, 41 according to, 39 is opposite, 36 according to, 33 is opposite, with the ends of groups 27, 31 and the beginning of 42 in one n output, the beginning of 21, 25, 33 - in another, where p, 8, and Fe 7. In FIG. 1 shows a diagram of the proposed winding; in fig. 2 and 3 - its star and EMF diagram for polarity p., 8. The winding (Fig. 1) is double-layered in 42 slots with a coil pitch of 3 and contains 42 coils, numbered from 1 to 42. In the first phase they are connected successively coils 1 according to, 4, 40 opposite, 38 according to, 35, 30 opposite, 27 according to in one branch, 6 according to, 9, 14 opposite, 17 according to, 19 opposite, 22 according to, 25 opposite in the other; in the second phase - 8, 13 according to, 16, I, 5 counter, 3 according, 42 counter in one branch, 37 counter, 34 according, 32 counter, 29 according, 26 counter, 24 according, 21 counter in another; in the third phase - 15 according to, 12, 18 is opposite, 20 according to, 23, 28 is opposite, 31 according to in one branch; 10 according to, 7, 2 counter, 41 according to, 39 opposite, 36 according, 33 opposite in another. The beginnings of the branches form clips of phases C1, C2, Sz for polarity p, 8 (the upper row of arrows in Fig. 1). To the additional terminals 01 and 02 for the polarity p 7 (the bottom row of arrows in Fig. 1), the ends of the rollers 27, 31 and the beginning 42 are connected to one terminal, the beginnings 21, 25, 33 - to the other. FIG. 2 and 3 EMF vectors are assigned to the number of coils. From the diagram (Fig. 3) constructed for p 8 polarity, it can be seen that the field with this polarity on terminals 01 and 02 does not produce an emf. The proposed winding works simultaneously as 2p 16-pole three-phase and as 2p2 14-pole dc. 24, 19 f 3 /

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Claims (1)

Dynamoelectric OPEN three-phase, single-phase winding comprising forty two distributed coil groups connected in phases by a two-phase star, the start of which form three-phase terminals of the pole P, and zero point are connected to the two additional terminals' to the polarity P _r, a step of coils is equal to pole division for the pole R _g , characterized in that, in order to expand the scope of application of the first phase of the first star, the groups with numbers 1 are connected in series, according to 4, 40, counter, 38 according to 35, 30 counter, 27 with publicly in the first phase of the second star, 6 according, 9, 14 counter, 17 according, 19 counter, 22 according, 25 counter, in the second phase of the first star 8, 13 according, 16, 11.5 counter, 3 according, 42 counter, in the second phase of the second star 37 counter, 34 according, 32 counter, 29 according, 26 counter, 24 according, 21 counter, in the third phase of the first star - 15 according, 12, 18 counter, 20 according, 23, 28 counter, 31 according , in the third phase of the second star 10 according to, 7, 2 counter, 41 according, 39 counter, 36 according, 33 counter, and the ends are connected to the indicated additional conclusions groups 27, 31 and beginning 42 in one conclusion, beginning 21, 25, 33 in the other, where P, = 8 and p ₂ = 7. Figure 1