SU1501219A1 - Three-phase switchable-pole with 8:6:4 pole ratio - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to simplify the winding and increase the use of copper. The winding is made in the number of slots Z = 60 and a multiple of 60. The winding contains 12 coil groups (CG) uniformly distributed along the bore of the machine, in which the odd CG are interconnected in three parallel branches with the order numbers of the counter CG in the first branch 1- 7, in the second branch 9-3 and in the third branch 5-11, in even CG, two are interconnected in opposite directions with serial numbers 4-10, 12-6, 8-2, respectively, in the fourth, fifth and sixth branches the fourth branch is connected with the middle of the first, the fifth with the middle of the second, and the pole with the middle of the third th branch. To simplify the winding and increase the use of copper winding, odd QGs are made of four concentric coils with steps along the slots Y = 11.9, 7.5, and even QGs are made of four concentric coils with steps along the slots Y = 13,11,7,5 , moreover, the ratio of turns of the internal coils of even and odd QG is 0.3: 0.7. The winding contains 11 conclusions that are made from the points of interconnection between the branches with odd KG and from the middle of these branches, as well as from the beginnings and the middle of the fourth, fifth, and sixth branches. 3 il.

Description

The invention relates to a multi-pole pole-switching winding of 1-ac electric machines.

The purpose of the invention is to simplify the winding and increase the use of winding copper.

Fig. 1 shows a diagram of the connection of the elements of a three-phase three-SK011 OPTTY winding with the ratio of the numbers of pole pairs 4: 3: 2; 2 shows a three-phase three-speed winding circuit with pole numbers 8, 6, 4 for the number of slots in FIG. 3 — a winding circuit with pole numbers 8, 6, 4 and a single-layer 80% winding coil is deployed. Three-phase three-speed winding with a ratio of the numbers of pole pairs 4: 3: 2 contains 12 coil groups with numbers, evenly distributed 3150

boring machine, in which the odd coil groups are made of four concentrically arranged coils with groove steps, 9, 7, 5 (1 12, 2 11, 3 10, 4 9), and the even coil groups contain four concentric coils with steps in the grooves 11, 7, 5 (1 14, 2 13, 411.5 10). The axes of the coil winding groups are displaced along the machine bore into five groove divisions (Fig. 2). The ratio of the turns of the inner coils of the even and odd coil groups, the sides of which are located in the same grooves, is 0.3: 0.7, and the coils with a step along the grooves of the odd coil groups and coils with a step along the grooves of the even coil groups contain The number of turns is twice as high compared with other winding coils due to the single-layer design, and the filling of all the slots with copper is the same. The odd coil groups are interconnected in three parallel branches with two oppositely connected coil groups in each branch, the serial numbers of which are in the first branch 1, 7, in the second branch 9, 3 and in the third branch 5, 11, and from the points joints of parallel branches, in which the beginnings of coil groups 1.9, 5 and 3, 7, 11 are connected. Conclusions Ae and Ct, respectively, for the number of pairs of poles. Even coil winding groups are interconnected in the fourth, fifth and sixth branches with two opposite included coil groups in branches connected to each other with their ends, the serial numbers of which are in the fourth branch 4, 10, in the fifth branch 12, 6 and in the sixth branch 8, 2 with conclusions, respectively, Aj, Cg, B for the number of pole pairs from the junction points reel groups in each branch. The ends of the fourth, fifth, and sixth branches, representing the beginning of the coil groups 10, 6, 2, are connected to the middle of the first, second, and third branches with the sequence numbers of the coil groups connected together; 5, 11, 2 and the consonant inclusion of even and odd coil groups at the junction points from which conclusions were made, respectively A, B, D, for

the numbers of pairs of poles, and from the beginnings of the fourth, fifth, and sixth branches, representing the beginnings of the coil groups 4, 12, 8, conclusions are drawn, respectively the number of pairs of poles (figure 1)

The winding is single-layer, two-layer, symmetrical, has 11 leads to the rotational speed switch and is possible with the number of slots and a multiple of 60. The single-layer part of the winding is 40%. A three-speed winding variant with a pole ratio of 4: 3: 2 is presented, in which the single-layer part is 80Z, and the winding is balanced by performing internal coils of even and odd coil groups with a ratio of 1: 2 turns. This winding is simpler to manufacture, however, it has a lower winding ratio when the number of pole pairs is due to the outer coils of the odd coil groups with a step along the grooves smaller by two grooves (FIG. 3).

The proposed winding is intended for use in multi-speed AC motors with a pole ratio of 8: 6: 4. At the number of poles, power is supplied to the outputs Ag, Eg, Cg, and the phases of the winding are connected into a star with two parallel branches by connecting the higher steps A with Ah / Wb, W with Bq / Wb, C4 s. The operation of the engine when power is applied to the terminals A4, BJ, C and shorted outputs Aj, Eg, Wed. At the same time, the AlfI, HF and B4 / Wb, Sc and pins remain interconnected, which ensures the connection of the winding into a star with four parallel branches. At the number of poles, the winding is connected T-shaped with three parallel branches, which is ensured by supplying three-phase power to terminals A 6, Ce and connected terminals, Vc / B, which form terminal B.

The economic effect of using this winding will be achieved by simplifying the design of the winding and increasing the use of winding copper. Compared to pro

By this type, balancing of the proposed winding is achieved without using additional Coils, which reduces the number of winding elements, reduces the labor intensity of its manufacture by 15–20%, increases the reliability of the motor. In addition, an increase in the use of winding copper by 20% is achieved, which provides an improvement in the engine performance, an increase in the power developed by the engine in a given machine dimension by 20-25%.

Claims (1)

Invention Formula Three-phase pole-switching winding with a ratio of pole numbers of 8: 6: 4 for the number of slots and a multiple of 60, containing 12 coil groups with numbers from 1 to 12, uniformly distributed along the machine bore, in which the coil groups contain concentrically arranged coils with offset coil axes along the machine bore into five groove divisions with, with the odd coil groups interconnected in three parallel branches with two counter-included coil groups in each parallel branch, sequence numbers to In the first branch 1 and 7, in the second branch 9 and 3 and in the third branch 5 and 11, with phases A and C, for the number of pairs of poles from the beginning of the coil groups 1, 9, 5 and 3, 7, 11, and even coil groups are connected among themselves in the fourth, fifth and . t five the sixth branches with two connections and their ends of the coil groups in each branch, the serial numbers of which are in the fourth branch of Au 10, in the fifth branch 12 and 6, and in the sixth branch 8 and 2 with leads from the connection points of coil groups in the branches for the number of pairs of poles, the ends of the fourth, fifth, and sixth branches, representing the beginning of the coil groups 10, 6, and 2 are connected to the middle of the first, second, and third branches, respectively, with pins from the connection points for the number of pole pairs p-2, and from the beginning the fourth, pth, and sixth branches, representing the beginning of of the core groups 4, 12, and 8, conclusions have been made to form parallel branches at and and phase B for the output, characterized in that, in order to simplify the winding and increase the use of copper winding, odd coil groups are made of four concentrically coils with groove steps, 9, 7, and 5, and even-numbered coil groups are made of four concentrate concentrically located coils with grooved steps, 11, 7, and 5, and the ratio of turns of the internal coils of even and odd coil groups is 0, 3: 0,7, and the coil with sha ohm at odd slots and coil groups katupzhi increments the grooves even coil groups contain twice the number of turns compared to the other coils of the winding. 4. 7 five 0 five .  4 / fae.1 -about „, 4“,., “S, tt.- i5 fcssSRS 5; ; ijS iS55SK 5S5 ":; 5S2 55 JP: j3 i Sc; Kc; is 4" f S I I Iri l I M lil lIl-lil P I lil RPIGP | Ж1ЖШ f a.  s &, Cg Cf Fig 2 . liiliililitiHIIIIIIIilllllllllillllHI IIIHIIIIIMIIIII r Sch BIAgfai i о 0о 5 C, Cs CulSf fig.Z  "4 t Ltd And AIв „1в.