SU1279020A1 - Three-phase two-speed winding - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to simplify the winding and increase the use of winding copper. The obmo-rka contains twelve main coil groups (CG), evenly distributed over the bore, and three additional “CG 13 - I5”, which are located concentrically beyond even CG 4, 8 and 12. CG 4, 8, 12 and 13-15 They are made with the number of coils, two rows smaller and the copper cross section three times larger than the other CGs. The main odd CGs are interconnected in three parallel branches with two opposite CGs in each branch. From the points of connection of the branches, the conclusions of phases A and C are made for the number of pairs of poles P 3, and the main even CGs are interconnected in three branches. From the ends of the branches, conclusions are drawn for the number of pairs of poles R 4, and the midpoints of the first and fourth branches, the second and fifth, third and sixth branches are interconnected, and at the points of connection of the branches relative to the main odd CG, according to the included CG 4.8 and 12 and oppositely - 2.6 and 10. This embodiment increases the number of effective turns of each phase. 2 Il. . From € N5 CO

Description

The invention relates to electrical engineering, namely to the windings of electric machines of alternating current.

The purpose of the invention is to simplify the winding, increase the use of winding copper and improve engine performance.

Figure 1 shows a diagram of the connection of the elements of a three-phase two-speed winding with the ratio of the numbers of pole pairs of 3: 4; in fig. 2 deployed a circuit with numbers of poles 6 and 8 for the number of slots Z 48.

A three-phase two-speed winding with a ratio of pole pair numbers of 3: 4 contains 12 main coil groups, evenly distributed over the machine bore and designated by serial numbers 1-12, and three additional coil groups with serial numbers 13-15, which are located concentrically beyond even coil groups 4.8 and 12. The coil groups 4.8 and 12 and 13-15 are made with the number of coils in each coil group two times smaller and the copper section three times larger (niotans with three wires) compared with the other coil groups ( ig.2).

The main odd coil groups are interconnected in three parallel branches with two oppositely connected coil groups in each branch, the sequence numbers of which are in the first branch 1-7, in the second 5-11 and in the third 9-3. From the points of interconnection of parallel branches with the numbers of coil groups at the points of connection 1-9-5 and 7-3-11, conclusions were made, respectively, AC and C for the pole of 2P 6 Poles. branch with numbers 4-10, the fifth branch with numbers 8-2 and the sixth branch with numbers 12-6, and the beginnings of these branches are connected at one point with the numbers of coil groups at the connection point 2-6-10, and from the ends of the branches with coil grooves 4.8 and 12 conclusions are drawn for the number of poles 2P 8, indicated by proper

Cg. In addition, among themselves

AS, Bg, the midpoints of the first and fourth, second and fifth, third and sixth branches are connected with the numbers of reel rpyrtn 1-7-410, 5-11-2-8, 9-3-6-12 connected at these points, in these

points with respect to odd coil groups according to included coil .groups 4,8 and 12 and counter 2, 6,10. The coil groups 13-15 are interconnected sequentially in the seventh branch, which is connected to the junction point of the fourth, fifth and sixth branches with the opposite connection of the coil groups at the junction point, and from the end of the seventh branch, the output Bg for the number of poles 2P 6 is made (Fig. one).

The proposed winding is double-layered, has three independent leads for each number of pole pairs and is extensible with the number of slots Z 48 and a multiple of 48. The use of winding copper on each number of pairs of poles is the same and amounts to 87.5%. The coil groups are 4.8 and 12, and at 2P 8 - 13-15, having the same number of coils in the groups. Concentric placement of these coil groups relative to each other ensures the use of coils from all phase zones for both numbers of pole pairs and obtaining a good shape of magnetizing force curves.

With the number of pole pairs P 4, the winding is connected in a star with three parallel branches. The successive inclusion of coil groups 4.8 and 12 in the phases of the winding with a given number of pole pairs increases the number of effective turns of each phase and ensures the equality of the inductions in the gap of the machine with this winding for both numbers of pole pairs.

When the number of pairs of poles is P 3, the winding is connected T - figuratively with three parallel branches. Symmetry of the currents in the phases with three-phase power is achieved by the inclusion in phase B of the coil groups 13-15, having high winding factors due to the implementation of their coils with steps along grooves close to the diametrical pitch for a given number of pole pairs.

Claims (1)

The proposed winding is intended for use in multi-speed AC motors, in machines with an internal cascade, in motors with a non-contact change in the number of pole pairs. Invention Formula Three-phase two: speed winding with a ratio of the numbers of pole pairs of 3: 4 for the number of slots Z 48 and a multiple of 48 consisting of 12 main coil groups evenly distributed over the bore, a machine with sequence numbers 1-12 and three additional coil groups since The numbers 13-15} are concentrically located with respect to the coil groups 4, 8, 12, in which the main odd coil groups are interconnected in three parallel branches with two counter-connected coil groups in each parallel branch, the order of Era which in the first branch 1-7, in the second 5-11 and in the third 9-3, and from the points of interconnection between parallel branches we made conclusions of phases A and C for the number of pairs of poles Р 3, and the main even coil groups are connected between in three branches (fourth, fifth, and sixth) with two according to the included reel groups in each branch, whose serial numbers are in the fourth branch 4-10, in the fifth 8-2 and in the sixth, 12-6, and the beginnings of these branches are interconnected at one point, and conclusions are drawn from the ends of the branches for the number of pairs of poles P 4, and the middle of the first and the fourth branch, the second and fifth, the third and the sixth are interconnected. moreover, at the points where the branches are connected with respect to the main odd coil groups, the coil groups 4,8,12 and 2,6,10 are opposite according to, and the coil groups with numbers 13-15, filled with the number of turns three times smaller and the copper section in three times larger than the main odd coil groups, are connected in series in the seventh branch, which is connected to the junction point between the fourth, fifth and sixth branches with the opposite inclusion of the coil groups in the TO4ifie connection, and from the end of the seventh branch The basics for the number of pairs of poles, characterized in that, in order to simplify the winding, increase the use of winding copper and improve performance, the main coil, Groups 4,8,12 and additional coil groups 1315 located concentrically outside these groups are made the number of coils in the group is two times smaller than the rest of the coil groups, and the number of turns in each coil of the main coil groups 4,8,12 is three times less than the l section of copper is three times more than the coils of the remaining coils x groups.