SU393796A1 - - Google Patents

Description

SINGLE-PHASE ASYNCHRONOUS MOTOR

one

The invention relates to the field of electrical engineering and can be used in single-phase asynchronous motors of alternating current of small mopdnosti, with pronounced poles that do not contain switchable starting elements.

Single-phase AC motors with pronounced poles without switchable starting elements, time shift of magnetic fluxes passing along parts of pole pieces that are shifted in space in the plane of rotation of the rotor, necessary for generating a rotating magnetic zero during start-up, are known due to additional losses -selected in special screens, for example, in short-circuited coils or in the elements of the stator magnetic circuits.

In these electric motors, the additional notiers needed to create the rotating magnetic fields at the start are distinguished in the stationary structural elements and are almost independent of the operating conditions. Since the magnitude of the additional losses is commensurate with the values of useful capacity, then k.n.d. known electric motors are low, therefore, electric motors have increased dimensions and low power per unit weight, which significantly limits their field of application.

The purpose of the invention is to increase the efficiency. single-phase asynchronous electric motor that does not have switchable starting elements. This is achieved by the fact that the phase-shifting element is located on the rotor under one of the stators, the phase-shifting element is designed as a part of the rotor magnetic core of steel with coercive force different from the other part of the rotor magnetic circuit. The phase-shifting element is designed as a conductive cylinder fixed on the surface of the rotor magnetic core or an additional short-circuited winding placed in the slots of the rotor magnetic core.

FIG. 1 shows an electric motor with a phase-shifting element in the form of a conductive cylinder; in fig. 2 - the same with the phase-shifting element in the form of an additional short-circuited winding.

The motor has two axially shifted axially and circumferentially stator / and 2 with windings and rotor 3, with magnetic core 4 and short-circuited winding 5. Conductive phase-shifting element 6, made in the form of a cylinder, is placed on the part of the rotor magnetic circuit. The motor windings are connected to a single-phase network. When the electric motor is turned on, a magnetic flux is excited in it, which, passing through the split tips, is divided into currents shifted in space. The flow of one of the stators passes through the conductive phase-shifting element 6, which is absent in the magnetic peep of the other stator. As a result, the additional losses in the scrap change the phase of this stream relative to the phase of the stream of the other stator. Therefore, the magnetic fluxes passing along the parts of the pole pieces shifted in opposite directions, except for the shift in space, are also shifted in time.

The magnetic flux shifted in time and in space forms a rotating magnetic field, under the action of which the rotor rotates. The direction of rotation of the field and the rotor is determined by the direction of shift of the trailing flow, which is the flow piercing the screen.

When performing a part of the rotor magnetic circuit under one of the stators of steel with a different coercive force due to the different part of the other part of the rotor magnetic circuit, the temporary shift of the stator flux occurs due to various active energy losses in the magnetic circuits of these stators.

In this case, the role of the phase-shifting element is played by one of the rotor magnetic cores.

The phase-shifting element can be made in the form of an additional short-circuited winding 7 located under one of the stators (Fig. 2).

The motor has a higher efficiency. compared to the known ones, since the losses in the phase-shifting element are not constant.

In the starting mode, they are the largest, and with increasing rotational speed of the rotor they decrease due to reduced slip.

Subject invention

Claims (4)

1. A single-phase asynchronous electric motor containing two stators displaced axially and circumferentially relative to each other with windings and a phase-shifting element located in the magnetic circuit of one of the stators and a common rotor with a magnetic circuit and a short-circuited winding, characterized in that, in order to improve K. PD, phase shifting element is located on the rotor under one of the stators. 2. An electric motor as claimed in Claim 1, characterized in that the phase-shifting element is designed as a conducting cylinder fixed on the surface of the rotor magnetic circuit. 3. An electric motor according to claim 1, characterized in that the phase-shifting element is designed as a part of the rotor magnetic core of steel with coercive force different from the other part of the rotor magnetic circuit. 4. An electric motor according to claim 1, characterized in that the phase-shifting element is designed as an additional short-circuited winding placed in the slots of the rotor magnetic core. Note: 1. The priority of clause 3 is to be calculated from 2.HI.1971. 2. The priority of claim 4 is calculated from 15.P1.1971.