SU974513A1 - Three-phase two-speed winding of electric machines - Google Patents

Description

(5) THREE-PHASE TWO-SPEED WINDING .. ELECTRIC MACHINES

The invention relates to continuous switching windings of multi-speed electric machines of alternating current.

The three-phase two-speed winding of AC electric machines with the ratio of the number of pairs of papus 2: 3, which, when the number of pole pairs is a multiple of three, is known, is connected in a T-shape for three-phase power supply C and.

The disadvantage of this winding is a relatively large number of pins (10 pins) per speed selector.

A three-phase pole-switching winding is known with a ratio of numbers, 5 pairs of poles 2: 3, which is made of 12 identical coil groups connected T-shaped to three parallel branches 2.

The winding has a relatively small number of 20 conclusions 3 conclusions).

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.

Claims (3)

Closest to the proposed is a 2-speed winding. The winding with the ratio of the numbers of the per poles 2: 3 contains 12 coil groups connected in a T-shaped pattern. The odd coil winding groups are interconnected in three parallel branches with two oppositely connected coil groups in each branch, the serial numbers of which are 1-7) 9-3, 5-11, and three even coil groups are connected to the middle points of these branches, respectively. serial numbers t, 12, 3, and the coil groups 2, 10.6 are made with a copper cross section of the winding wire three times larger than the other coil groups and connected in series-counter with respect to the coil groups A, 12, 8 The winding is double layered metricity has three of independent output for each number of poles 3J. 39 The disadvantage of this winding is the limited scope of application determined by the number of slots that are multiples of 12, as well as the two-layer design, which complicates oi5MOTKy. The aim of the invention is to expand the field of application of the winding for the number of slots Z 5 and simplify the winding. This goal is achieved by the fact that each of the 12 coil winding groups is made of two concentrically arranged coils with steps along the grooves of the coils of the odd coil groups larger by one slot division compared to the coils of the even coil groups, and with respect to each odd coil group one additional coil, which are designated respectively with sequence numbers T, 3, 5, 7, 9 and made with a cross section of copper winding wire three times larger than the main coils Kami windings and with the number of turns in each coil, equal to 0.15 of the number of turns of the main coil, and the additional coils are connected together in series in three coils with sequence numbers l -5 -9, C 7 -i, which are connected respectively to the interconnect points of the odd coil groups 1–5–9 and 3–7–11 form two independent leads for the number of pairs of poles, and the third output is the pin from the coil group 6. Figure 1 shows the connection diagram of the three-phase two-speed elements winding with a pole ratio of 2: 3 to Z 2 shows a three-phase 2-speed winding circuit with pole numbers 2p and dl. The three-phase two-speed winding with the ratio of the numbers of pole pairs 2: 3 for the number of slots Z 5 contains 12 main coil groups and 6 additional coils concentrically arranged with respect to the coils of odd coil groups (Fig. Each of the 12 main coil groups is made of two concentrically arranged coils, and the steps along the grooves of the coils of the odd coil groups into one groove division are larger than 4 compared with the corresponding coils of the even coil groups. The main coil winding groups are located in 48 slots about The odd coil winding groups are interconnected in three parallel branches with two oppositely connected coil groups in each branch, the serial numbers of which are 1-7, 9-3, 5-11. Three even coil groups are connected to the middle points of these branches serial numbers 4,12,3, forming in the points of connection of coil groups 1-7-4, 9-3-12, 5-11-3 conclusions for the number of pairs of poles, B, C. Even coil groups with serial numbers 2 , 10.6 are made with a cross-section of copper winding wire three times larger (wound in three wires compared to with other coil winding groups and are connected in series with even coil groups 4,12,8 (fig.i. The additional coils of the winding, labeled with sequence numbers 1, 3, 5, 7, 9, 11, are made of three times larger cross-section of copper winding wire (three windings are wound compared to coils of odd coil groups and placed in two layers in six grooves. The number of turns in each additional coil is equal to 0.15 of the number of turns of the main coil. The coils are interconnected in series into two groups with sequence numbers 1-5 E and 3-7-11, which are connected respectively to the interconnection points of odd coil groups. 1 -5-9 and 3-7-11, about calling two pins A, Cg for the number of pairs of poles, and the third output of B is the CONCLUSION of the coil group 6. The winding has independent leads for each number of poles. It is applicable for the number of slots and a multiple of 54 and contains 30 coils, of which 24 coils are located single layer, and 6 coils - in two layers. The use of the winding with the number of pole pairs is 100 and at 66.6%. In the winding, the steps in the grooves of the coils of even and odd coil groups differ by one slot division, which ensures uniform distribution of these groups on boring machines with the same spatial axes OMe scheniem sequentially arranged coil groups equal to 60 and 90 electrical degrees, or 4.5 grooving dividing (Figure 2). The inclusion of additional coils in phases A and C provides a symmetrical system of EMF windings, and, consequently, the symmetry of the currents in the phases for a given number of pole pairs. With respect to the number of pairs of poles, the main coil winding groups are performed with steps along grooves approaching a diametrically shaped line. This almost eliminates the EMF asymmetry in parallel winding phase branches at which does not exceed In the proposed winding (Fig. 2) the internal coils of even and odd coil groups, made with groove steps at 10 and, can be performed with groove steps, respectively, and. With this, the symmetry of the EMF and currents is not violated in both parallel branches x and in the phases of the winding for both numbers of pairs of poles. This allows induction to be increased at about 10% without changing the induction at. The proposed winding is distinguished by the simplicity of its design with a small number of elements, a minimum number and independence of conclusions for both pole positions of the engine. It can be used in multi-speed asynchronous motors, in a machine with an internal cascade, in machines with a contactless change in the number of pole pairs. Three-phase two-speed winding of electric machines with a ratio of pole pair numbers of 2: 3, containing 12 coil groups evenly distributed over the machine bore, in which odd coil groups are interconnected in three parallel branches with two opposing coil groups in each parallel branch whose serial numbers are 1-7, 9-3, 5-11, and three even coil groups with serial numbers 4,12,8 are connected to the middle points of the parallel branches, forming at the junction points ushechnyh groups 1-7-, 03.09.12, 5-11-8 conclusions for the number of pole pairs, and the coil group 2,10,6 formed with a cross section of the winding wire of copper is three times larger compared to. the remaining coil groups and are connected in series-counter to the coil groups t, 12.8, which is designed to expand the field of application of the winding for the number of grooves and simplify the winding, each of the 12 coil winding groups is made of two concentrically arranged coils with steps along the grooves of coils of odd coil groups larger by one slot division compared to coils of even coil groups, and with respect to each odd coil group there is concentrically one additional cable the carcass, which are labeled with the serial numbers l, 3. 5, 7, 9, P, respectively, and are made with a copper cross section of the winding wire three times larger than the main coils and with the number of turns in each additional coil equal to 0.15 of turns of the main coil, the additional coils being connected to each other in series in two groups with the sequence numbers of the coils in groups 1-5 -9, 3-7 -P, which are connected respectively to the connection points between the odd coil groups and 3-7-11 agrees with these groups to va independent output for the number of pole pairs and the third terminal is output from the coil groups with a sequence number 6. Sources infbrmatsii, so received attention in the examination 1.H.Seqnenz. Die Wicklungen elektrlschec Haschtnen. Band JTT, Vienna, 19S4, c. 87-88. 2. USSR author's certificate tf «O8 23, cl. H 02 K 3/28, 1971. 3. Authors certificate of the USSR W 50886, cl. H 02 K 3/28, 1971. G, VT g 8 Ks as a "Ieg 53: 5:55 c;" yr "S: S {; Rft fK