SU1272409A1 - Three-phase two-speed winding of a.c.elecric machines - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase the use of coil winding J V flj Cg l, Af copper. The winding is made with the ratio of the numbers of pairs of poles 2: 3 for the number of slots Z 36, contains twelve coil groups (CG), uniformly distributed over the machine bore, with numbers from 1 to 12 and three additional coils 13-15, which are located concentrically inside CG 2 , 6, 10. Odd CGs are made of two concentric coils with a ratio of the numbers of turns of the outer and inner coils of 0.425: 1.0 and an average pitch of 5 slots, and even CGs contain one coil with a pitch of grooves, into two division grooves in comparison with the groove of external cuts lugs and with the number of turns in the coil, equal to (N the number of turns of the inner coil of odd KG, and the additional coils connected in series are made in 6 steps and with the number of turns less than half the coils of the even KG. 2 ill. S 1 3 10 ft y

Description

The invention relates to electrical engineering, namely to the windings of electric machines of alternating current. The purpose of the invention is to exploit the use of winding copper with a smaller number of pole pairs. I Figure 1 shows a diagram of the connection of the elements of a three-phase two-speed winding with a ratio of pole pair numbers of 2: 3; 2 shows a three-phase 2-speed winding circuit with pole numbers 4 and 6 for the number of slots Z 36. A three-phase two-speed winding with a ratio of pole pair numbers 2: 3 for the number of grooves Z 36 and a multiple of 36 contains 12 main coil groups 1-12, evenly distributed over the machine bore, and three additional coils 13–15, which are concentrically located within even coil groups 2, 6 and 10 (Fig. 2). The main odd coil winding groups are made of two concentrically arranged coils with a ratio of the numbers of turns of the outer and inner coils of 0.425: 1.0 and with an average pitch of 5 slots. The main even coil groups with the number of notches Z 36 each contain one coil with a spacing of 8 and with the number of turns in the coil equal to the number of turns of the internal coils of the odd coil groups The even and odd coil groups are interconnected in six branches x with two counter-activated coil groups in each branch, the order of measure in which the first vet vi, the second 9-3, the third 5-11, 10-4 in the fourth, a fifth and a sixth 6-12 2-8. The first, second and third branches are interconnected in parallel, and from the points of connection of the branches with the sequence numbers of the coil groups at the points 1-9-5, C-7-i1, the outputs of Ag and Cg for the number of poles are made. The fourth, fifth, and pole branches of the winding branch are connected in parallel, and the middle of these branches are connected to the middle of the first, second, and third branches with the numbers of interconnected coil groups 1-7-10-4; 9-3-6-12 and 5-11-2-8 and with conclusions from the connection points A., Br), Sc for the number of poles, with even and odd coil groups at the connection points being included among themselves according to. Additional 09 coils with numbers 13–15 are connected in series in the seventh branch, which is connected to the junction point of the fourth, fifth and sixth branches with the numbers of the coil groups 4–8–12–15 and their opposite connection at the junction point. In this case, the coils of the seventh branch are filled with the number of turns, two times smaller (wound in two wires) compared with the coils of even coil groups and with a step along the grooves at 6, and from the beginning of the seventh branch a conclusion B, dl (figure 1) The winding is a single-layer-two-layer, has three independent leads for each number of pole pairs. The single-layer part of the winding is 83.3% and the two-layer 16.6%. The winding scheme ensures the same use of winding copper (83.3%) with both numbers of pole pairs. For the number of pairs of poles, the winding is connected in a star with four components of the cathorelling branches. of odd coil groups with an external and internal coil ratio of 0.425: 1.0, and of even coil groups with groove steps, into two groove divisions larger than the outer coils of odd coil groups, provides similar values of effective coil numbers for chappy and odd coil groups and EMF symmetry in parallel branches of the winding phases. For the number of pole pairs, the phases of the winding are connected T-shaped with three parallel branches. The winding symmetry is achieved by performing additional coils 13-15 with a number of turns two times smaller and a copper cross section twice as large as coils of even coil groups and turning them on consecutively in phase B. The ratio of the numbers of effective windings in the phases of the winding with and equal to 1.5, which ensures the equality of the inductions in the gap at both poles. The winding can be used in multi-speed AC motors, in machines with an internal cascade, in motors with contactless change in the number of pairs in the field s. Faure m.u la invention winding two-speed three-phase alternating current electric machines

Claims (1)

Claim Three-phase two-speed winding of AC electric machines with the ratio of the numbers of pole pairs 2: 3 ₃ consisting of twelve main coil groups evenly distributed over the bore of the machine, with serial numbers v 1-12 and three additional 5 coils with serial numbers 13 - 15, concentrically located inside the coil groups 2,6,10, in which the main coil groups form six branches with two facing-but-connected coil groups in each branch and with the numbers of coil groups in the first branch 1-7, in the second 9- 3 the third 5-11, in the fourth 10-4, in the fifth 6-12 and in the sixth 2- '5 8, and the first, second and third branches are interconnected in parallel with the conclusions of phases A and C from the connection points of parallel branches for the number of pairs the poles are p = 3, and the fourth, 20th, fifth and sixth branches are connected among themselves in parallel with the connection of the midpoints of these branches, respectively, with the midpoints of the first, second and third branches and with the conclusions from the connection points of the midpoints of the branches for the number of pole pairs p = 2 and by consonant inclusion of even and odd coil groups at the connection points, and cat winding ears with numbers 1-3 - 15 are connected in the seventh branch, which is connected to the fourth, fifth and sixth branches interconnecting points with the opposite inclusion of coil groups at the connection point and with the phase B from the beginning of the seventh branch for the number of pole pairs p = 3, characterized in that, in order to increase the use of winding copper with fewer pairs of poles, the main odd coil groups are made of two concentrically arranged coils with a ratio of the number of turns of the outer and inner coils of 0.425: 1.0 and an average step in p the basics y = 5, and the main even coil groups contain one coil with a pitch along the grooves, two groove divisions greater than y = 8 compared to the pitch along the grooves of the external coils and with the number of turns in the coil equal to the number of turns of each of the odd inner coils coil groups, and additional coils connected in series are made in increments of grooves y = 6 and with a number of turns that are half as small as the coils of even coil groups.