SU1356129A1 - Three-phase stator winding of cascade induction motors and contact-free double-feed machines - Google Patents

Abstract

The invention relates to electric machines, in particular to the combined windings of electric machines, and can be used in cascade asynchronous motors and in non-contact dual machines. nutrition The purpose of the invention is to increase efficiency. The winding is made of 27 coils, of which 9 coils are single-layer. Single-layer coils with serial numbers 4,8,13,17,22, 26 have twice the number of turns as compared to double-layer ones, and single-layer coils with order numbers 3,1,2,21 have 12% fewer turns than the rest single layer coils. Winding phase 4 CI, performed as follows. In the first parallel branch are connected according to the coil 6.8 and opposite, 27, the beginning of the coil 27 is connected to the terminal of phase 6 C1. In the second branch, the counter coils 16,14,13 are included, the beginning of the coil 13 S (L 6CS

Description

1356129

connected to the 6S2 phase terminal. In the phase clamp BSZ. Rest

Third, the branches are turned on according to ka-two phases are made the same.

carcasses 20, 21, and counter 1. In an offset manner, respectively, the coil 1 is connected to, 9 and 18 coils. 1 il.

one

The invention relates to electric machines, namely to the combined windings of electric machines, and can be used in asynchronous asynchronous motors and in contactless ma: dual-power buses

The aim of the invention is to increase the efficiency by reducing the balancing currents.

The drawing shows the unfolded diagram of a three-phase combined 6 / -pole winding.

A three-phase combined 6 / pole winding is performed by a single-layer-double-layer on the magnetic core with a number of slots z-36 or a multiple of 36 according to the triple star circuit with leads from zero points. The pitch of all coils is the same and equal to y-6 for z-36 ,, Each phase winding has three parallel branches, which consist of two double-layer coils and one single-layer coil.

The winding is made of twenty-seven coils with numbers from 1 to 27, of which nine coils are single-layer, single-layer coils with a sequence number of 4.8.1 3., 1 7, 22.26 have twice the number of turns , and single- layer laminates with serial numbers 3,12,21 have 12% fewer turns compared with the other single-layer coils.

Winding phase 4S1 performed as follows. In the first parallel branch are included according to coil 6.8 and opposite 27, the beginning of coil 27 is connected to the terminal of the 6С1 phase. In the second branch, coils 16,14,13 are included, the beginning of coil 13 is connected to the terminal of the 6С2 phase. B the third branch included according to the coil 20,21 and, opposite 1. The beginning of the coil 1 is connected to the terminal phase

without. The coil connections for the phase can be represented as follows:

GB, 8, -27-BS1 4Cl | -16, -14, -13-6C2

, 21, -1-BSZ

The remaining phases are made in a similar way with an offset of 9 and 18 coils, respectively; at 120 and 240. Coil connections for phase 4C2:

G15,17, -9-6С1 4С2- -25, -23 ,, - 22-бС2

.2,3, -10-6СЗ Coil connections for 4СЗ phase:

Г24,26, -18-бС1 4СЗ | -7, -5, -4-бС2

ll, 12, -19-6C3

When the number of turns of single-layer coils is doubled, the greater the number of turns of double-layer coils, the EMF vectors of parallel branches of each phase, induced by a four-pole field, have a slight divergence in the angle, which is between the extreme vectors of only 1 16. Modulo discrepancy reaches 6%.

Offer.ma winding works

in the following way.

When connected to its four-pole power supply terminals, a rotating four-pole field is created. On the rotor should be located five (P fP) groups of concentric short-circuited coils. The currents induced in them by the four-pole stator field create, along with a rotating four-pole field (2P, -4), a reverse-rotating six-pole field ((), which induces an electromotive force in the proposed stator winding removed from the six-pole clamps. six-pole terminals of the resistors, additional currents flow through the stator winding, changing the torque of the motor and helping to regulate its rotational speed in a non-contact manner. Some asymmetry of the type-phase phase voltages is not kazhetsa negatively on adjusting the properties.

To equalize the modulators of the EMF vectors and reduce the balancing currents, the single-layer coils 3, 12, 21 are made with the number of turns 12% smaller compared to the other single-layer coils. The EMF vectors for a four-pole sub in this case are the same in size and displaced from each other by 120 al. Thus, from the side of the four-pole connection, the proposed winding is -symmetric three-phase with a high value of the winding factor, 789 (for the prototype winding K. 0.830).

Claims (1)

Invention Formula The three-phase stator winding of cascade asynchronous motors and contactless dual-feed machines with a pole ratio of 6: 4 for the number of slots, made of Compiled by A. Ketsaris Editor N. Slobod nickname Tehred A. Kravchuk Proofreader L. Pilipenko Order 5806/50 Circulation 659 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 double-layer and single-layer coils with a y-6 pitch according to the triple star scheme with conclusions from zero points with three parallel branches in each phase, characterized in that, in order to increase efficiency by reducing equalizing currents, the winding is made of twenty-seven coils, coils with serial numbers 4.8, 13,17,22,26 are made single-layer and have twice the number of turns compared with double-layer ones, coils with order numbers 3,12,21 are single-layer and have 12% fewer turns compared to the other single-layer coils, phase 4c1 in one parallel branch contains included according to coils 6.8 and counter .27, start coil 27 is connected to the 6S1 phase clamp, in the other branch of this phase coils 16,14,13 are connected, the beginning of the coil 13 is connected to the 6C2 phase clamp, in the third branch of this phase are connected according to the bobbins 20, 21 and 1, the start of coil 1 is connected to the clamping phase BSZ, the remaining Two phases are made similarly with an offset of 9 and 18 coils respectively.