SU888283A1 - Three-phase / single-phase combined winding for electric machines - Google Patents

Description

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

Known combined windings of AC machines, made in the form of parallel branches of the pole p ^, each of which consists of spatially shifted coils and has the conclusions of the midpoints, which are the beginnings of the phases ‘of the pole p ^. The angle between the axes of the coils of the same branch is equal to rad., And the number of turns in the coil is proportional to the angle of shift of the coil relative to the axis of the branch £ 1 j.

The disadvantages of the windings are the complexity of the design, large losses in the branches from the surge currents, limited scope.

A three-phase-single-phase combined winding with the numbers of pole pairs in relation to ρ <χ / ρ ^ 6 is also known, containing 12 uniformly distributed parts included in two parallel branches with zero leads, which are clamps for the pole of p ^, in the phases of which the beginning of the first and the second groups are clamps of the phases, the end of the first group is connected to the end of the eighth, the end of the second to the end of the seventh, and the beginning of the seventh and eighth groups are connected to the zero terminals, and the numbers of the phase groups alternate with an interval of four groups [21.

The main disadvantage is the low use of copper.

This winding is the closest to the invention in terms of technical nature and the achieved result. The purpose of the invention is the improvement of the use of copper by increasing the winding coefficient for the pole - NOSTI Rd_.

The goal is achieved in that each part is made of three concentric coils with steps 4 ^ + 4, 4 ^ + 2, 4 * and ^ _and in one phase branch the inner coils of the groups of the first and second are connected in series, the outer and middle coils of the parts of the first and counter included in the eighth, and in the other branch, the counter-connected inner coils of the parts of the eighth and seventh, the outer and middle coils of the parts of the second and the counter-included seventh, · the beginning of the branches form a phase clamp, and the ends are connected to the indicated -fg zero terminals, and the end of the inner coil parts w The second and the beginning of the inner coil of the seventh part are interconnected, and the part numbers of the phases alternate with an interval of four parts, where “pole division for the pole P2.

In FIG. 1 shows a diagram of the proposed winding; in FIG. 2 - EMF diagram for the polarity p = 1; in FIG. 3 - EMF diagram for the pole P2 ⁼ 6.

The winding (Fig. 1) is made of three-phase, two-layer in Ζ = 36 grooves and contains 12 coil groups (parts ^) _; . with numbers from 1 to 12. Each group contains three concentric coils with steps 4 ^ 0 = 12, ^^^ + 2 - 14, 4 ^ + 4 = = 16, where / ρ '/ χ = Ζ / Σρ ^^ 3 - pole division for pole 6. In the C phase C1, in one branch, the inner coils of the groups of the first and second are connected in series, the outer and middle coils of the groups of the first and opposite eighths; in the other branch, the inner coils of the eighth and seventh groups are counterclosed, the outer and middle coils of the second and counterclockwise seventh groups. The beginning of the branches form the C1 phase clamp, and the ends are connected to the zero terminals 0 and 0 *. The end of the inner coil of the second group and the beginning of the inner coil of the seventh group are interconnected. Other phases are performed similarly and the numbers of their groups alternate with an interval of four groups.

IS

For the pole p ^ = 6 (Fig. 3), the EMF vectors are proportional to K _V6 = = 0.866 + 0.866 = 1.732 and Ku $ = 0. Internal coils with K ^. ₆ = 0 are taken out of the circuit between 0 and. 0 'as a result of which the winding coefficient increases, the poles P2 = 6 Κ _ο5 · £ = 0.866.

The upper row of arrows in FIG. indicates the directions of the currents during the winding through the terminals Cl, C2, the lower one at the brewer 0 and O ^{1 with a} single-phase current, and the tannin of the winding through the no-phase current.

Performing the winding = 36 and Y = 14, we will have K, θ »667. Consequently

3S. On the EMF diagrams, the EMF vectors of the outer and middle coils are assigned group numbers, and the internal coils are assigned the same numbers with a dash.

For the polarization p = 1 (Fig. 2), the EMF vectors are proportional to the shortening coefficients K ^ = 0.985 + 0.94 = 1, 925 and K ^ = 0.866. It can be seen from the diagram that at the zero terminals 0 and 0 ¹ this EMF field does not induce. The winding coefficient for the pole Ρη ⁼ 1 is equal to "0.90.

for no food CZ according to the prototype with 1 = 36 and Y = 14, we will have K _{0 <?} = 0.90 and K _o ^^ = 0.667. Therefore, the winding according to the invention has 0.866:: 0.667 = 1.3 times the best use of copper. In addition, it is more reliable in operation and has a lower copper consumption compared to the winding of the prototype due to the smaller protrusion of the frontal parts.

Claims (2)

(54) THREE-PHASE-SINGLE-PHASE COMBINED COUPLER FOR ELECTRICAL MACHINES The invention relates to the field of coil windings for AC electric machines, such as single-frequency inverters and number of phases. Combined windings of alternating current machines are known, made in the form of parallel branches of polarity p, each of which consists of spatially shifted coils and has findings of middle points, which are the beginning of the phases of polarity rd, the angle between the axes of the coils of the same branch of the 0 , 0. rad., and the number of turns in the coil is proportional to the angle of shear of the coil relative to the axis of the branch UI The disadvantages of the windings are the complexity of the design, the large losses in the branches from the equalizing currents, limited scope. Also known is a three-phase-single-phase aligned winding with numbers of pole pairs in relation 6, containing 12 evenly distributed parts, included in two parallel branches with zero leads, which are clamps for polarity PA, in phases of which the beginning of the first and second groups are clamps of phases, the end the first group is connected to the end of the eighth, the end of the second to the end of the seventh, and the beginning of the seventh and eighth groups are connected to zero points, and the numbers of the groups of phases alternate with an interval of four groups of G23. The main disadvantage is the low use of copper. This winding is closest to the invention in its technical essence and the achieved result. The purpose of the invention is to improve the use of copper by increasing the winding coefficient for polarity of the objective. The goal is achieved by the fact that each part is made up of three concentric coils with steps 4Eo + 4, Vfj + Z, 4 and in one phase of the phase are connected 8 in series the inner coils of the first groups and the second, outer and middle coil parts of the first and counter-included eighth, and in the other branch - counter-turned on internal coils of the eighth and seventh parts, outer and middle coil of the second and counter-included seventh, beginning branches minutes to form Phase clamp, and the ends are connected to said zero nym vyv &amp; ladies, wherein an end portion of the second inner coil and the inner coil portion beginning sed my interconnected parts and the number of phases alternate with intervals in four parts, where. pole division for P2 polarity. FIG. 1 is a diagram of a proposed winding; in fig. 2 - diy. gram EMF for polarity p 1; .on FIG. 3 - EMF diagram for polarity p, 2 D. The winding (fig.) Is made three-phase, two-layer in 2 36 slots and contains 12 coil groups (parts numbered from 1 to 2. Each group contains three concentric coils with steps, A, 1 tq + f Z / 2p W 3 - pole 16, where r 2 / 2p 2 6. For faddling for a polarity of p 36 C1 in one branch, the inner coils of the first and second groups are connected in series, the outer and middle coils of the first and opposite groups the eighth; in the other branch - counter-inserted internal coils, ki groups of the eighth and seventh, outer and middle the coils of the second group and the seventh included seventh. The beginning of the branches form a phase C1 clamp, and the ends are connected to the zero terminals O and O. The end of the inner coil of the second group and the beginning of the inner coil of the seventh group are interconnected. Other phases are similar and their group numbers alternate with -interval in four groups.-On the diagrams of the EMF to the vectors of the EMF of the outer and middle coils are assigned the number of groups, and the inner coils - the same numbers with a stroke. For the polarity p 1 (.fig. 2), the EMF vectors are proportional to the coefficients of shortening 0.985 + 0,, 925 and 0.866. From the diagram it can be seen that at the zero outputs O and O is the field. EMF does not suggest. Winding factor for polarity P- is equal to 1 0.90. For polarity p. 6 (Fig. 3J. The EMF vectors are proportional to the Ku 0,866 + 0,, 732 and K 0. Internal coils with K, O are out of the circuit between O and. O, as a result of which the winding coefficient for polarity Pn 6 Qgr 0.866 increases. The top row of arrows on Fig. 1 shows the directions of the currents when powering the winding through terminals C1, C2, Sz by three-phase current, and the lower one when powering the winding through terminals O and about single-phase current .When performing the prototype with Z. 36 and U 14, we will have 90 and To 0.667. Therefore, the winding according to the invention has 0.866:: 0.667 1.3 times the best use of copper. In addition, it does not It is more reliable in operation and has a lower copper consumption compared to the prototype winding due to the smaller overhang of frontal parts. Formula of Invention Three-phase-single-phase combined winding for AC electric machines with the ratio of the number of pole pairs 6, two-layer, containing 12 evenly distributed parts connected in phases into two parallel branches with zero leads, which are terminals for polarity p., characterized in that, in order to improve the use of copper and increase the winding reliability, each part of it is made from three concentric coils with steps АТл + А,,. and in one phase branch, the inner coils of the first and second parts, the bore and middle coils of the first and oppositely connected eighth parts are connected in series, and the other branch - the included internal coils of the eighth and seventh parts, the outer and middle coils of the second and oppositely included seventh coils. The beginnings of the branches form the MMF mm phase, and the ends are connected to the indicated zero terminals, with the end of the inner coil of the second part and the beginning of the inner coil of the seventh part interconnected, and the numbers of the phases are alternated with an interval of four parts, where Tp is the pole division for the polarity of the p .. Sources of information taken into account during the examination 1. USSR author's certificate No. 243033, cl. H 02 K 3/00, 1973. 2. USSR author's certificate number 382198, cl. H 02 K 3/00, 1973.