SU1624606A1 - Electric mashine winding with fractional number of slots for pole and phase - Google Patents

Abstract

The invention relates to electrical engineering. The aim of the invention is to simplify the manufacture of a winding of an electric machine with a fractional number of slots per pole and phase. Each phase of the winding (A, B, C) consists of coil groups having the same number of turns. Each coil group is composed of concentric coils. The shape of the coil groups may differ from each other, and the number of turns of individual concentric coils does not exceed the total number of conductors in the slot and is a multiple of this number divided by the denominator of the irreducible fractional number of slots per pole and phase. During manufacture, coil-groups of phases A, B, C and coil groups of phases C, A, B, which fill the lower layer of a two-layer winding, are first laid. Then, the upper layer of the winding is filled with coil groups of a different shape. 2 Il. Yo

Description

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The invention relates to electrical engineering and can be used in the design and manufacture of electric motors and alternators, as well as in their repair.

The aim of the invention is to simplify the manufacture of a winding of an electric machine with a fractional number of slots per pole and phase.

Fig. 1 shows an end arrangement of the layers in the slots of a one-two-layer three-phase winding of an electric machine with a fractional number of slots per pole and phase (g 54;

g

2p 8; q); fig 2 - technological

Laying scheme of the proposed winding coil groups of various shapes.

The slots are labeled 1-54.

Each phase of the proposed winding (in Fig. 1 shows phases A, B, C) is composed of 55, 56, 57 coil groups having the same number of turns and the number of grooves per pole and phase in each coil group, and not as an average of the phase in the known windings, composed of different numbers of coils of individual coil cadavers. Each coil group of the proposed winding is composed of concentric coils. The shape of the coils in groups 55-57 can differ from one another and is determined by the number of turns of individual concentric coils, which does not exceed the total number of conductors in the groove and is a multiple of this number divided by the denominator of the irreducible fractional number of slots per pole and phase.

For example, for the case shown in FIG. 1, the irreducible denominator

fractional number g –t slots per pole and phase

equal to 4, therefore, with the total number of conductors in the groove (w), the coil groups can be composed of individual concentric coils with the number of turns

1 o h (4- w; t w; 2 w; w). The number of turns each

the coil group in this case must remain unchanged. The winding shown in FIG. 1 is symmetrical, since the number of poles (2p 8) divided by the denominator

irreducible fractional number (q tO grooves per pole and phase, equal to 4, is an integer number, and the denominator of an irreducible fraction divided by the number of phases (m 3) is equal to a fractional number. Each phase of the winding is evenly spaced in the lower and upper layers

two-layer winding

 Laying winding (Fig. 2) is carried out in the following sequence.

First stack coil groups of phases A, B, C and coil groups of phases C,

A, B, which predominantly fill the bottom layer of a single-layer winding. Then, the top layer of the winding is filled with coil-shaped groups of a different shape, having the same number of turns in each coil-group.

A significant simplification of manufacturing and an increase in labor productivity in the laying of the proposed winding is achieved due to the possibility of using machine laying of the winding. When

The use of manual styling is also simplified due to the elimination of the step lifting operation, which is required when packing the known two-layer windings with a fractional number of slots per

pole and phase.

Claims (1)

The invention of the winding of an electric machine with a fractional number of grooves per pole and phase, containing concentric coils, grouped in coil groups and laid in one or two layers in grooves with the same number of conductors in each slot, characterized in that, in order to simplify each coil group has the same number of turns, the number of turns of concentric coils does not exceed the number of conductors in the groove and is a multiple of this number divided by the denominator of the irreducible fractional number of grooves per pole and phase, and the number of coils in the group is also the same. Mgoiflt / gunnltsn / chdo / zs / ei eulemshonsch 5i