SU788278A1 - Three-phase/single-phase combined winding of electric machines - Google Patents

Description

The invention relates to the field of windings of electrical AC machines, for example, single-machine frequency and phase converters. 5

Known three-phase-single-phase combined windings with the number of pairs of poles in relation p ^ / p ^ = · 4, containing 12 coil groups included in two parallel branches, the zero points of which are clamps for the magnetization circuit £ 1) ·

The disadvantage of such a winding is the high consumption of copper due to the low winding coefficient for an alternating 15 _p 2 “2-pole field.

The closest in technical essence and the achieved result to the proposed three-phase single-phae winding of the combined type σ with the number of 20 pairs of poles in relation to Pg / p ^ ”containing 12 coil groups included in two parallel branches with zero points, which are output terminals, in phases of which the beginning of the first and second groups are input terminals, the end of the first group is connected to the end of the eighth, the end of the second group to the end of the seventh, and the beginning of the seventh and eighth groups are connected in 3Q points to zero, and the numbers of the phase groups are four are distributed at intervals in four groups [2].

Disadvantages - such a winding - limited scope.

The purpose of the invention is the expansion of the scope by obtaining the numbers of pairs of poles in relation to Pj / p ^ -4 ·

This goal is achieved by the fact that the beginning of the ninth and the end of the fourth group are the input terminal of the third phase, the end of the ninth group is connected to the beginning of the tenth, the beginning of the fourth group is connected to the end of the third, the beginning of the third, seventh and twelfth groups are connected to one zero point, and the end of the tenth , the beginning of the eighth and one of the eleventh groups - to another zero point.

In FIG. 1 shows a detailed diagram of the proposed winding; in FIG. 2nd simplified scheme; in FIG. 3 star EMF for 2p ^ ® 2 - pole field; in FIG. 4 - EMF diagram for 2p ^ “2 - pole field.

The winding is made single-layer in 24 grooves and contains 12 coils. In a simplified diagram of the connection of the winding coils (see Fig. 2), the letters n and k denote the beginning and end of the coil, the phases Cl and C2 are made as in the known winding, and the phase СЗ is formed by the beginning of the ninth and end of the fourth coils, the end of the ninth the coil is connected to the beginning of the tenth, and the beginning of the fourth coil is connected to the end of the third. The beginning of the third, seventh and twelfth coils are connected te one zero point, and the end of the tenth, the beginning of the eighth and eleventh coils are connected to another zero point. Of. EMF diagrams constructed by the EMF star (coil numbers are assigned to the EMF vectors), it can be seen that there is no alternating voltage at the zero points 01 and 02. The upper row of arrows in FIG. 1 shows the directions of alternating current in the coils when feeding the winding through the terminals Cl, C2, C3 with a three-phase current, the number of poles of the alternating field is 2p ^ =. 2. The lower row of arrows in FIG. 1 shows the direction of the direct current supplied to the winding through the zero points 01 and 02, whence it follows that 2p ₂ ^ 8.

The proposed winding is symmetrical, and the direct current does not close into an alternating current circuit.

The winding winding coefficient for a 2p ^ -2 - pole alternating field is 0.893, while the known winding has K _offz - 0.631. Thus, the use of copper of the proposed winding is 1.42 times higher than in the known winding.

Compared with the known one, the proposed winding has an extended scope, since it allows one to obtain the number of pole pairs with respect to p ^ / p ₄ 4. The proposed winding can be used, for example, on a stator of an asynchronous-synchronous single-machine frequency converter 50/200 Hz to simultaneously create a rotating 2p ^ = 2 - pole field of the induction motor and 2ρ _ζ - 8 - pole field of excitation of the inverted syn5 generator.

Claims (2)

The Cl and C2 phases are made in the same way as in the known winding, while the СЗ phase is formed by the beginning of the ninth and the end of the fourth coil, the end of the ninth coil is connected to the beginning of the tenth, and the beginning of the fourth coil is connected to the third end. The beginnings of the third, seventh, and twelfth coils, b, one zero point, and the end of the tenth, beginning of the eighth and eleventh coils, are connected to another zero point. From the EMF diagram constructed from the EMF stars (the EMF vectors are assigned the numbers of the coils), it can be seen that the alternating voltage at zero points 01 and 02 is absent. The upper row of arrows in FIG. Figure 1 shows the directions of the alternating current in the coils when powering the winding through the terminals C1, C2, Sz by a three-phase current, the number of poles of the alternating field is 2p-2. The bottom row of arrows in FIG. Figure 1 shows the directions of the direct current supplied to the winding through zero points 01 and 02, from which it follows that 2p 8. The proposed winding is symmetrical and the direct current is not connected to the alternating current circuit. The winding winding coefficient K for a 2p sr2 - pole alternating field is equal to 0.893, while the known winding has a KOPJJ - 0.631. Thus, the use of copper in the proposed winding is 1.42 times higher than in the known winding. Compared with the known, the proposed winding has an extended scope, as it allows to obtain the number of pole pairs in the ratio - 4. The proposed winding can be used, for example, on the stator of an asynchronous-synchronous single-machine frequency converter 50/200 Hz for simultaneous creation of a rotating 2p 2 - a pole floor of an asynchronous motor and 2 ru - 8 - pole field of excitation of an inverted synchronous generator. Claims of the invention The combined three-phase-single-phase winding of electric machines comprising 12 coil groups included in two parallel branches with zero points, being clamps for a bias circuit, in two phases of which the beginnings of the first and second groups are input terminals, the end of the first group is connected the end of the eighth, the end of the second group is connected with the end of the seventh, and the numbers of the groups are alternated with an interval of four groups, characterized in that, in order to expand the field of application by obtaining the numbers of plr poles the ratio of -1, the beginning of the ninth and the end of the fourth group are the input terminal of the third phase, the end of the ninth group is connected to the beginning of the tenth, the beginning of the fourth group is connected to the end of the third, beginning of the third, seventh and twelfth groups are connected to one zero point and the end tenth, beginning of the eighth and eleventh groups - to another zero point. Sources of information taken into account in the examination 1.Popov V.I. Efficiency of single-frequency frequency converters with combined windings.- Lime universities, series Electromechanics, 1972, № bc. 640. 2. Authors certificate of the USSR 382198, cl. H 02 K 3/00, 1973. 11 12 1 g 7 in S fO Oj NW fig 2 Fa ch