SU1697207A1 - Single-phase synchronous gear-motor - Google Patents

Abstract

The invention relates to electric machines of low power, namely, to synchronous motors with electromagnetic reduction. The aim of the invention is to increase the efficiency and the specific per unit volume of torque. A single-phase synchronous gear motor comprises a gear stator with a two-phase concentric winding consisting of three sections per pole, having a different pitch, and a gear rotor consisting of three identical packages spaced apart axes whose teeth are shifted relative to each other by an angle a 40 / p, where p is the number of pole pairs. In the grooves of each packet there is a short-circuited wave winding with a step corresponding to the pole division of the third harmonic. The stator winding sections are made with a different number of turns, the number of turns of the inner section is 23% more, and the middle section is 23% less than the number of turns of the outer section, while the outer and middle sections are connected in series and according to, and the inner section is connected to them in series counter 1 il.

Description

The invention relates to low-power electric machines and can be used to create low-speed synchronous electric drives.

The aim of the invention is to increase the efficiency of a motor moment per unit volume,

The drawing shows a two-phase concentric winding for the case where the number of winding grooves; per pole, is equal to six.

Kzzhda winding phase consists of three concentric sections 1, 2, 3 on each

the pole. All sections have different pitch and different number of turns. Moreover, the number of turns of the inner section 3 is 23% more, and the middle section 2 is 23% less than the number of turns of the outer section 1.

The outer 1 and middle 2 sections are connected in series and according to, and the inner section 3 is connected to sections 1, 2 in series and counter. The operation of a synchronous gear motor consists of the following.

A two-phase concentric winding connected to a single-phase network, with

Och XI Yu O

Xi

One of the phases of the winding is connected to the fly through a capacitor, excites a rotating magnetizing force (HC) in the air gap. This HC is determined mainly by the sum of the first and third harmonics. The first of them, interacting with the toothed fields of the rotor, creates a synchronous moment, and the second, interacting with the reaction field of the short-circuited wave winding of the rotor, creates an asynchronous torque. Under the action of this moment, the engine starts and synchronizes at a low rotational speed.

Since the amplitudes of the first and third harmonics in a motor according to the invention are commensurate in magnitude, the maximum asynchronous and synchronous moments are comparable. When choosing a critical slip equal to one, the electric motor according to the invention develops the maximum starting torque and the moment of entering synchronism, which provides increased efficiency and increased torque compared with the prototype.

Claims (1)

Claims of the Invention A single-phase synchronous gear motor comprising a gear stator with a two-phase concentric winding consisting of three sections per pole having different pitch and a gear rotor consisting of three identical packages spaced axially and the teeth of which are shifted relative to each other angle a 40 / p where p is the number of pairs of poles, in the grooves of each packet there is a short-circuited wave winding with a step corresponding to the pole division of the third harmonic, characterized in that increase of efficiency and specific per unit volume of engine torque; winding sections are made with different number of turns, the number of turns of the internal section is 23% more, and the middle section is 23% less the number of turns of the outer section, while the outer and middle sections are connected in series and according to, and the inner section is connected to them in series and counter.