RU1817198C - Asynchronous polyphase motor - Google Patents

Abstract

Usage: in the field of electrical machines, namely in multipolar induction motors x. The inventive device consists of a stator 1 with teeth 2-19 and a rotor 20 with teeth 21-35. : / - ... .-. . /: - L; : J. ..: .... ... 2. : a three-phase winding 36 is laid on the stator, a three-phase short-circuited winding 37 is laid on the rotor. The windings 36, 37 are formed by coils 38-55 and 56-70, one on each tooth. Each phase in the motor consists of phase zones. In the stator winding, the phase zone is formed by three coils, and in the rotor winding, by five coils. Within the phase zone, all coils are turned on according to end to end, beginning to beginning. The number of teeth on the stator or rotor is related to the number of phase zones and the number of coils in the phase zone with a Z-msn cross section, where m is the number of phases in the winding. In turn, the number of stator and rotor teeth is related by the ratio zi. ± hi 22 ± P2. 2 sludge, 20 36 s

Description

The invention relates to the field of electrical machines, in particular to multi-pole asynchronous motors, and can be used, for example, in a low speed electric drive.

The purpose of the invention is to simplify the design and manufacturing technology of the engine by reducing the number of coils on the stator and rotor.

This goal is achieved in that in a known induction motor containing a stator with zi teeth, with a mi-phase winding connected to a star, and a 22-tooth rotor with a t2-phase short-circuited or resistance-closed winding, each phase of the stator and rotor windings is made in the form of serially connected u, P2 phase zones, each of which is formed respectively by Si and $ 2 serially connected coils located on adjacent teeth, one on each tooth of the stator and rotor, and connected according to the end with the end, beginning with Achal: number of teeth and the number of phase zones ni, n2 bonded relation zi ± ni z2 ± ri2, wherein the same number of phase zones the number of phases and the number of coils in the phase areas Si. 82 should be different: with m - odd, all phase zones are connected to the motor terminals with beginnings, if S is odd, and with S - even coils of adjacent phase zones belonging to different phases are connected to the motor terminals with opposite ends, with t even, the number of phase zones must be even and coils of phase zones with odd numbers included in one phase are connected to the motor terminals with opposite ends relative to coils of phase zones with even numbers with S odd, and with S - even coils of adjacent phase zones with identical serial numbers belonging to different phases are connected by opposite ends with respect to each other.

Analogs and other technical solutions are not known, which describe an induction motor with windings formed by coils, one on each tooth, so that the number of teeth and the number of phase zones Ш, П2 are related by the ratio zi ± Hz 22 ± P2, with the same number of phase zones, the number of phases and the number of coils in the phase zones of Si, 82 should be different.

In FIG. 1 shows a section through an induction motor; Fig. 2 is a connection diagram of stator and rotor windings, magnetomotive forces of the windings at an arbitrary point in time.

As an example, an asynchronous motor with a three-phase winding on the stator and a short-circuited three-phase winding on the rotor is considered. The number of tooth poles on the stator is assumed to be 18, and the rotor - 15.

The motor consists of a stator 1 with teeth 2-19 of FIG. 1 and a rotor 20 with teeth 21-35, a three-phase winding 36 is laid on the stator, a three-phase short-circuit winding 37 is laid on the rotor. The windings 36, 37 are formed by coils 38-55 and 56-70 FIG. 1, one on each tooth. Each phase in the motor consists of phase zones. In the stator winding, the phase zone is formed by three coils, and in the rotor winding, by five coils. Within the phase zone, all coils are turned on according to end to end, beginning to beginning. So, for example, the first phase zone of phase A is formed by coils 39, 40, 41, the second zone of phase A by coils 48, 49, 50. The coils of the 1st phase zone are included as follows: end of coil 48 with end 49, beginning 49 with beginning 50. Since S, the number of coils in the phase zone, is odd, the phase zones are switched counterclockwise: the end of the 1st phase zone is connected to the beginning of the 2nd phase zone. The number of teeth on the stator or rotor is related to the number of phase zones n and the number of coils in the phase zone by the ratio Z nsm, where m is the number of phases in the winding. In turn, the number of stator and rotor teeth is related by the ratio zi ± m Z2 ± P2. In the considered variant, zi 18, P2 2, Z2 15, n g 1, i.e. This condition is satisfied.

Claims (1)

The claims Asynchronous multi-pole motor containing stator with ZL teeth, with mi - phase winding and rotor with Z2 teeth with t2 - phase winding connected in a star, characterized in that, in order to simplify the design and manufacturing technology, by reducing the number of coils, each phase of the stator and rotor winding is made in the form of series-connected u and P2 phase zones, each of which form respectively Si and $ 2 series-connected coils located on adjacent teeth, one on each tooth of the stator and rotbrew and connected according to the end with the end, the beginning with the beginning, the number of teeth and the number of phase zones u and P2 are connected by the ratio zi ± 1 22 ± P2, moreover, with the same number of phase zones, the number of phases and the number of coils in the phase zones of Si and 5g should be different, with m-odd all phase zones are connected to the motor terminals with a start, if S is odd, and with S-odd coils adjacent phase zones, belonging to different phases, are connected to the motor terminals by opposite ends, and if m is even, the number of phase zones in one phase must also be even and the phase zone coils with odd numbers entering into one phase are connected to motor terminals opposite end relative with respect to the coils of phase zones with even numbers at S - odd, and at S - the coils of adjacent phase zones with identical sequence numbers belonging to different phases are connected, with the opposite ends being 1 - but one another, L w and "" 4 I 7 H 5 Ґ3i 1ShShShShShD Lj ; Sj) g C D Lj