SU32036A1 - Two-layer winding of stators and rotors of three-phase AC machines - Google Patents

Description

The present invention relates to a device of a two-layer winding of stators and rotors of three-phase AC machines with an even number of grooves per pole and phase, made in a special way from two series-connected parts, and has the aim of destroying higher harmonics. The latter should lead to a decrease in the reactance of the winding and to an improvement in its electrical properties.

In FIG. 1, 2, 3, 4, 5 and 6 represent the various ways of laying the proposed winding, shown in two projections; FIG. 7,8, 9-schemes of laying the winding in the slots.

The said winding consists of two series-connected parts — the main and additional-stacked in the same grooves, the main part being in the form of an ordinary single-layer three-phase coil winding with an even number of grooves per pole and phase with the arrangement of frontal connections in two planes (or in any other modification of head-on joints) and contains whenever possible

more close to 100 (/ 3 + l) -f 73.205% 302

all turns. The additional part contains the remaining 26.795% and is also performed in the form of an ordinary single-layer coil winding with the location of the frontal connections in two planes (or in any other modification of the frontal connections), but with the number of slots per pole and phase twice and with the number of pairs of poles twice as large, and its coils are switched alternately in opposite directions, as is done, for example, with the inclusion of an ordinary three-phase coil winding, by half the number of pairs of poles in asynchronous machines with two rotational speeds. Both parts are located relative to the other in such a way that the sides of the coils of the main and additional parts lying in the same groove belong necessarily to different phases, and the sides of the coils of the same phase lying in adjacent grooves flow in the same direction. . The additional portion of the winding is laid in the slots or so that all sides of its coils lie on the bottom of the slots, as in FIG. 3, or in such a way that the part is laid on the bottom, and the part under the wedge, covering the lae, as in FIG. 1, 2 and 4.

To clarify the styling in FIG. 7, 8, and 9 show the arrangement of the strings of the coils of the main and additional parts, referring to the first method of implementation, for two, four and six slots per pole and phase.

The advantage of the described winding over the existing ones is the ability to destroy the fifth and seventh higher harmonic forces of both the electromotive and the magnetomotive forces. It is known from the general theory of the windings of AC machines that the amplitudes of higher harmonics, other things being equal, are proportional to the winding coefficients for them. The values of these latter, calculated for the numbers of grooves per pole and phase equal to two, four and six, assuming that the distribution of turns between the main and additional parts are kept exactly in the above relation, are given in the attached table. Together with them are also given the coefficients, and the integral ratios of winding

coefficients for higher harmonics to the same for the main wave.

The subject matter of the invention.

Claims (2)

1. A two-layer winding of stators and rotors of r-phase AC machines with an even number of grooves per pole and phase, made of two series-connected parts, characterized in that in order to obtain an electromotive force close to sinusoidal, one part of the winding is of the usual type single-layer coil winding, while BpiMH as the second part consists of: a winding made for twice the number of pole pairs compared to the first part and included for half the number of pole pairs, and these two parts are They are arranged relative to each other in such a way that the sides of the coils of both parts belonging to different phases lie in each slot. 2. The form of winding according to claim 1, characterized in that the ratio of the number of turns between the first part and the second is approximately equal to the ratio (to unity). inr. FIG. I p -R fi.-. frrn-gt71l B  I --i j jl | i - ЩЩ 4.J, 5 §Pi J-rkkiSiS Fig.8