SU1045331A1 - Three-phase three-rate pole-reversible winding of a.c. machine - Google Patents

Abstract

Three-speed POLYUSOPEREKLYUCHAEMAYA THREE-PHASE ALTERNATING CURRENT MACHINES WINDING, -sosto conductive core of twelve identical coil groups uniformly distributed on the bore of the machine, and six dopolnitelndh coils concentrically arranged with respect to even the coil groups and indicated respectively sequence numbers 2, 4, b, c , 10, 12, in which the main even-numbered coil groups are interconnected in three parallel branches with two counter-included coil groups in each branch, the sequence number and which are in parallel branches x 10–4, 6–12, 2–8, and the odd coil groups are interconnected two in number from each other since then by the numbers 1–7, 9–3, 5–11, and are connected by middle points to the points connections of two even coil groups in parallel branches with serial numbers of coils 1–7–4–10, 3–9–6–12, 5–11–2–8 B connection points, with even and odd coil groups in points the connections are interconnected according to each other, and the additional coils are connected to the main coil groups, so that in order to expand the area with change, increase the use of the winding, and improve engine performance, the main part of the winding is made of twelve identical coil groups, with two coils in each coil group, and additional coils with order numbers, 2, 4, 6, 8, 10, 12 are made fs with the number of turns three times smaller and the copper cross section three times larger than the coils of the main coil groups, are interconnected in series and connected to the connecting point of even coil groups with numbers 4-8-12, and rel. The links to these coil-1 groups are included according to the complementary order numbers of the head Katuli with the order numbers 2,6,10, and the conclusions: q for the winding for the number of pairs of poles p 2 are W.DUCTS from the connection points: the main coil groups 1-7-4-10, 00 3-9-6-12, 5-11-2-8, for p 4 combined leads from the coil groups 1 and 7, 9 and 3 ;; 5 and 11, and for p 3 the combined outputs of the coil groups If 9, 5 and .7j 3, 11 and the output from the initial point are consecutively soy; the additional ones {W x coils.

Description

The invention relates to multi-speed pole-switchable windings of electric machines of alternating current.

The three-phase three-speed winding is known with a ratio of the numbers of pairs of 2: 3: 4 1,

The winding has a large number of leads to the rotational speed switch (15 outputs), which complicates switching equipment.

The three-phase pole-switching winding of alternating current machines for the ratio of the number of pole-pairs 2: 3: 4, consisting of 12 identical coil groups connected in a T-shape with three parallel branches, is known. L switching frequency rotation uses 11 pins 12.

The disadvantages of this winding are the relatively large number of leads and the asymmetry of the currents in the phases when the number of pole pairs is a multiple of three.

Known three-phase three-speed. winding with the ratio of the numbers of pairs of poles 2; 3: 4, containing 12 coil groups, connected in a T-shape with three parallel branches / In the winding, the number of leads is reduced by disconnecting two coil groups with the number of poles, a multiple of three, without a significant reduction in power developed by the engine. The winding is performed on machines with a number of slots that are a multiple of 12, and has 10 terminals per speed selector switch 3 ..

The disadvantage of this winding is the asymmetry of the currents in the phases when the number of pairs of poles is a multiple of three.

The closest in its essence and the achieved result to the proposed is a three-phase three-speed winding, which is made of twelve main identical coils uniformly distributed along the machine bore and six additional coils concentrically located with respect to even coils: M and labeled respectively 21 4, b8, lol2 in which the main even-numbered coils are interconnected in, three, parallel branches with two L counter-activated coils in each branch, are serial Omer which 10-4, 6-12, 2-8, and the odd coils are interconnected by two oppositely with the sequence Zami prefecture, 9-3, 5-11. The points of connection of odd coils are connected with middle points of parallel branches formed by odd coils to which additional coils 4, 8, 12 are connected, and additional coils 2,6, 10 are connected in series with each other and connected to the point of connection of even coils 4-12-8 . The winding is single-layered, has 10 outputs and independent inputs for two poles, It is feasible when the number of times and 3b and a multiple of 3-6 4.

The disadvantage of this winding is the limited scope for the number of grooves and the relatively low use of copper winding, which is 66.6% with the numbers of pole pairs, p 3 and p 4, which reduces the use of the engine size, degrades its performance,

The purpose of the invention is to expand the field of application for the number of slots, increase the use of the winding and improve engine performance.

This goal is achieved by the fact that the tr, ex-phase three-pole pole-switchable winding of alternating current machines, consisting of twelve identical coil groups uniformly distributed over the machine bore, and six-additional coils concentrically located with respect to the even-coil groups and labeled respectively numbers 2 4 b. 8f10, 12, in which the main even-numbered coil groups are interconnected in, three parallel branches with two counter-connected coil groups in each ve vi, the serial numbers of which are in parallel branches x 10–4, 6–12, 2–8, and the odd coil groups are interconnected in two opposite numbers from the order numbers 1–7, 9–3, 5–11 and connected by means of points to the points of connection of two even-numbered coil groups in parallel branches with serial numbers of coils 1–7–4–10, 3–9–6–12, 5–11–2–8 at the points of the coupling, and even. the odd coil groups at the junction points are connected between, according to themselves, and the additional coils are connected to the main coil groups, the main part of the winding is made of two adcedent identical coil groups, with two coils in each group, uniformly distributed along the machine bore, and additional coils with sequence numbers 2, 4, 6, 8, 10, 12; concentrically located with respect to the main even coil groups, made with the number of turns three times smaller and the copper cross section three times larger than the coils of the main coil groups, connected in series and connected to the connecting point of even coil groups with sequential 4-8-12, and with respect to these coil groups, additional coils with serial numbers 4 8 12 and counter coils with serial numbers 2, -6, 10 are connected with winding terminals for the number of pairs of fields sov p 2 are the pins from the connection points of the main coil groups 1-7-4-10, 3-9-6-12, 5-11-2-8 and for the p 4 combined pins from the coil groups 1 and 7, 9 and 3 , 5iI, and for p 3 the combined conclusions from the coil groups 1, 9, 5 and 7, 3, 11 and the output from the starting point of series-connected additional coils. ,

FIG. Figure 1 shows a diagram of the connection of elements of a three-phase three-speed winding with the ratio of the numbers of pairs of poles 2; 3: 4; in fig. 2 — a three-phase, three-speed pole-switched winding circuit is developed with pole numbers 4, & 8 dl. . A three-phase three-speed winding with a ratio of the numbers of pairs of the 2s3; 4 pluses contains twelve main coil groups and six additional coils. The main coil groups are the same, evenly distributed along the bore of the machine and contain two concentrically arranged coils. In relation to the main even coil groups, additional coil windings are concentrically located, designated respectively by serial numbers 2, 4, 8, 10, 12 (Fig. 2) and made with a number of turns three times smaller and a copper cross section three times larger (wound in three wires) compared to the coils of the main coil groups. The main even coil winding groups are interconnected in three parallel branches with two oppositely connected coil groups in each branch, the serial numbers of which are in branches x 10–4, 6–12, 2–8, and the main odd coil groups are connected in e each with order numbers 1-7, 9-3, 5-11. The junction points of the odd coil groups are connected to the middle points of the parallel branches formed by the even-numbered coil groups with the numbers of the coil groups at the junction points 1-7-4-10, 3-9-6-12, 5-11-2-8, and even numbered coil groups included according to odd coil groups. All additional coils are interconnected in series and connected to the junction point of even-coil groups 4-8-12 with co-switching with respect to these coil groups of additional coils 2, b, 10 and consonant. - coils 4 to 12 (fig, 1). The winding has ten outputs. Conclusions D4, 6x ,, C made of dots

connections of the main coil groups 1-7-4-10, 3-9-6-12, 5-li-2-8, and output from the starting point of series-connected additional coils. From the main odd coil groups 1, 9, 5, 7, 3, il, conclusions are drawn, denoted respectively Hell (A (,, C8), Ab, e8, (Ab, A8) Sat.C8

(Camping, B8) Sat. -

This three-speed winding is 5 single-layer and is used for the number of slots and a multiple of 60. The engine with the numbers of pairs of poles p 2 and 3 is carried out at interconnected outputs DD /

0 / Ab-B9 // b-C8 / Ab and outputs Ag / C -Sg / Cg- / c This provides independent winding inputs for p 2 and p 3 and the connection of the phases into a star with four parallel branches and D-shaped 5 but respectively with three parallel branches. With p 2, three-phase power is supplied to the A4i 1 terminals, and with p 3 to the connected terminals (6 / A8 / Sat 88/6-Ce / Sat and output 6b).

With p 4, the winding is connected into a star with two parallel branches, a. the power is supplied to the connected two terminals:, / S (5, Ba // b-B8 / Sb, C9Mb-C0 / Sb. The connection circuit of the elements of the winding being designed provides the symmetry of the currents in the phases for all values numbers of poles. The PRS is achieved by including all additional coils in phase B, which are performed with a smaller step along the slots

0 and have a smaller winding ratio compared with the main coil groups (Fig. 2). This makes it possible to obtain a nearly symmetric three-phase EMF winding system

5 T-shaped phase connection, the error of which does not exceed 1.5%. Prir 2 and p 4 symmetry of the phases in phases is achieved by the symmetric inclusion of identical coil

0 groups in each of the phases of the winding.

In the winding, a high utilization of winding copper is obtained, C-leaving 80% (for each number of pairs of poles, which is 13.4% higher than p) and p 3 ip 4 than the known ones. This is achieved by performing a winding with winding copper main coil groups and additional coils equal to 4: 1, the winding contains twenty four coils of the main coil groups and six additional coils and can be drawn with the number of grooves. The resulting ratio of winding elements equal to 4; 1 is optimal to ensure the same and most higher than all values of numbers for the use of winding copper, three-speed pole-switching

0 windings with the ratio of the numbers of pairs of poles 2s3: 4 in the presence of ten pins and independence of the inputs for two poles. So in the prototype, the ratio of these elements is 2; 1 and

5 using copper winding

 and p 4 lower by 13.4%. If, however, the winding is performed with an element ratio greater than 4: 1, then with this circuit design of the winding connection, the symmetry of the currents in the phases of the CW cannot be achieved.

Increasing the use of winding copper provides an improvement in the harmonic composition of the magnetizing force curve, an increase in the power developed by the motor, and an improvement in the motor performance. Shown in FIG. 2 winding is performed with two concentrically located coils in each coil group. With steps along the grooves of coils y, 9. and Ij-j 7. These coils can be performed with other groove steps, for example, with steps lj; ll will increase induction in the car. The main coil winding groups can also be performed with single II coils, the groove step is equal to / 2. At the same time, the connection circuit of the elements and the energy indices of the winding are preserved.

The proposed three-speed winding is characterized by simplicity of design, a small number of leads, high use of a winding, and independent inputs for the numbers of pairs of poles p 2 and. The winding can be used in multi-speed asynchronous motors, in machines with an internal cascade and in adjustable asynchronous motors with a contactless change in the number of pairs of poles.

The economic effect of the implementation of the proposed winding will be achieved due to increased use of winding copper, which will increase the power of the engine in 3 and 12-15%. Performing all additional winding coils with the same cross-section of copper will reduce the complexity of winding manufacturing, A small number of winding leads and independence of inputs for two poles, they will simplify the switching equipment, expanding the field of application of the winding for machines with internal cascade and other machines of special purpose Nowadays, in engines with a ratio of pole pair numbers of 2: 3s4, two separate windings are used, one of which is two speed. Using these engines, the proposed winding will increase the engine power by 2530% and reduce the labor intensity of winding manufacturing by 30-35 % compared to the base engine

AQ / AS

9 5 Cg / Ae Ss / Aff

//

.t

.

FIG. /

/ 2 8

O 6 Be Cg / Cg A Bg / As B As / Cg C

Fig: g C / Agv / Cg

Claims (1)

THREE-PHASE THREE-SPEED SEMI-SWITCHING WINDING OF AC MACHINES, consisting of twelve main identical coil groups evenly distributed over the machine bore, and six additional coils concentrically located with respect to even coil groups and marked with, respectively, 4> * serial numbers _t 8 ^{ζ, x} 1012, wherein even the overwhelming burden coil group are interconnected in three parallel branches with two counter included in the coil groups of each branch to sequence numbers which are in parallel branches 10–4, 6–12, 2–8, and the odd reel groups are interconnected two by one with the same order numbers 1–7, 9–3, 5–11, and are connected by midpoints to the points of connection of two even reel groups of groups in parallel branches with serial numbers of coils 1-7-4-10, 3-9-6-12, 5-11-2-8 at the points of connection, with even and odd reel groups in the connection points are connected to each other according to, and additional coils are connected to the main coil groups, it is clear that, in order to expand the scope of application, increasing the use of the winding, and improving the characteristics of the motor, the main part of the winding is made of twelve identical coil groups, with two coils in each coil group, and additional coils with serial numbers, 2, 4 ^Ζ , b ¹ *, 8 ^f , 10 ^/ , 12 ^Ζ βηποπηθηη with the number of turns of it three times smaller and the cross-section of copper three times greater than the coils of the main coil groups, connected together in series and connected to the junction point of even coil groups with serial numbers 4-8-12, in relation to according to these coil groups, additional coils with serial numbers 4 {8 ^ 12 ^, and counter-coils with serial numbers 2 (b, u {a, and the winding leads for the number of pole pairs p = 2 are the conclusions from the connection points of the main coil groups 1-7) are connected to these coil groups -4-10, 3-9-6-12, 5-11-2-8, for p = 4-combined conclusions from the coil groups 1 and 7, 9 and 3> 5 and 11, and for p = 3 the combined conclusions IE coils groups 1, 9, 5 and 7, 3, 11 and the conclusion from the starting point of the series-connected additional coils.