SU875535A1 - Pole-switchable winding for 8-6-4 poles - Google Patents

Description

The invention relates to electrical engineering and can be used for multi-speed motors. 5

Known winding 8-6-4 poles, ^e containing phase 4 coil groups, two of which contain twice as many coils than the rest fl] · 10

The disadvantage of the known winding za- ^υ consists in a large number of terminals, which complicates the circuit of the switching device and increases the expense of wires.

Also known is a winding at 8-6-4 15 poles, containing 4 coil groups in each phase, the numbers of which are determined according to the expression (4t-3) + + 3t, where m is the phase number, t - takes values 0,1,2 and 3, while the 20th end (4sh-3) of the coil group is connected to the beginning (4t-3) +3, the end (4sh-3) +3 of the coil group is connected to the end (4t-3) + 6 and the beginning (4t-3 ) +6 of the coil group is connected to the end * 5 (4t-3) +9 [2].

The disadvantages of the known windings are that it does not provide engine start and high energy performance of the electric motor at 30 poles. In addition, it contains a large number of conclusions (equal to 15).

The purpose of the invention is improving the energy performance of the motor at 6 poles and reducing the number of switching conclusions from the winding.

This goal is achieved by the fact that the end (4l1-3) +3 of the coil group is connected to the end of (4t-3) +9 coil group, the beginning (4ш-3) +9 of the coil group is connected to the end (4t-3) +6 of the coil groups.

In FIG. 1 shows a detailed diagram of a winding; in FIG. 2 is a phase conjugation diagram.

The winding consists of 12 coil groups and has 11 leads (A ^ ... Cr.X.Y), while the leads X and Y are made from the combined principles of 1,5,9 and 7,1,3,3 coil groups. A phase-shifting element C is connected between the terminals Xi Y.

In each phase, the coil groups are connected as follows: end (4n> -3) with beginning (4t-3) +3, end (4t-3) +3 with end (4t-3) +9, beginning (4t-3 ) +9 with> end (4m-3) +6.

If the three-phase voltage is brought to the terminals Ad, V d, Sd, we obtain

2p-8, while the phases are connected in two stars.

If the voltages are applied to the combined conclusions of A., '„В _у and C4, Cg, we get 2p = 4, while the phases are connected into 4 parallel stars.

Finally, if the phase or linear voltage is applied to the combined conclusions of A ^, B ^, C ^ and A _y , By, Cy, we get 2p = 6. In this case, the current from the terminals A., B ^ flows to the terminals Ay, By, Cy in two directions - through the capacitor C and bypassing it. Half of the three-phase winding, through which currents flow, bypassing the capacitor, creates a magnetizing force spatially offset 90 ° relative to the magnetizing force from currents flowing through the other half of the three-phase winding and capacitor. ¹ Using a capacitor, phase currents can also be shifted by 90 ° in phase and, therefore, a circular rotating magnetic field can be formed in the motor.

The phase windings (Fig. 2) are connected by a double star circuit and a capacitor C is connected between the zero points. The terminals X and Y do not participate in the pole switching, so there are only 9 terminals on the switch.

When the number of grooves is a multiple of 24, the winding in question can be made single-layer. There are also obvious cases of using the winding as a two-speed one at 8-6, 8-4, 6-4 poles.

Claims (2)

2p-8, with the phases connected in two stars. Beli voltage to apply to the combined conclusions AJ, Ag, By, WuI C, Cg, we get, with the phases connected in 4 parallel to the star. Finally, if a phase or linear voltage is applied to the combined pins A, B, C, and A, we get. In the case of a current from the terminals AJ, V., Su flows to the terminals Ag., Bg-, Su in two directions - through the capacitor C and mine. Half of the three-phase winding through which the currents, mine capacitor, flow, creates a magnetizing force that is spatially shifted by 90 relative to the magnetizing. forces from currents flowing through the other half of the three-phase winding and capacitor. With the help of a capacitor, the phase currents can also be shifted by 90 and, therefore, a circular rotating magnetic field can be formed in the motor. The windings of the phases (Fig. 2) are connected according to a double star and capacitor C is connected between zero points. Conclusions X and Y in switching the poles are not involved, so the switch is only enough 9 pins. When the number of grooves in multiples of 24, we consider the winding can be performed and single-layer. There are also obvious cases of using a winding as a 2-speed winding for 8-6, 8-4, 6-4 poles. Claims of the invention Pole-switching winding for 8-6-4 poles containing 4 coil groups in phase, whose numbers are determined according to the expression (4m-3) + 3t, with the end (4t-3) of the coil group connected to the beginning (4t-3) +3 coil group, characterized in that, for the purpose of improving energy performance at a multiple of three poles and reducing the number of leads, the end (4t-3) +3 of the coil group is connected to the end (4t-3) +9 of the coil group , the beginning (4t-3) +9 of the coil group is connected to the end of (4t-3) +6 of the coil group, where m 1,2 and 3 is the phase number, t О, 1, 2 and 3. Sources of information taken into account in the examination 1. Kharitonov A.M. Multi-speed electric motors, SEI, 1954. 2. USSR author's certificate number 535665, cl. H 02 K 3/28, 1975.