SU1309203A1 - Synchronous electric motor - Google Patents

Abstract

The invention relates to electrical engineering, in particular to electric drives with low rotational speeds. The aim of the invention is to enhance the functionality by obtaining low synchronous speed. To do this, a cylindrical inductor 1 is made with a three-round ring winding 3, which creates a magnetic field that runs along the motor axis. The teeth 2 of the inductor are a multi-thread screw cut, made in such a way that, at the pole division distance of the winding, the teeth move along the helix by the amount of one tooth division. The rotor 6 is made with teeth arranged longitudinally along the forming cylinder, and their number is equal to the number of teeth of the inductor. When the device operates, the zones of maximum magnitude of the magnetic field of the inductor move along helical lines of cutting teeth. The rotor teeth tend to position themselves in zones of maximum field and, following the movement of these zones, drive the rotor into rotational motion with speed. by growth, defined as fp f-2 / Z, where f is the power supply frequency, Z is the number of rotor teeth. 1 hp f-ly, 2 ill. o (L SLE O QO GO o CO g. / 7

Description

This invention relates to electrical engineering and can be used in electric drives rotating at low speed,

The purpose of the invention is to enhance the functionality by obtaining a low synchronous rotational speed.

FIG. 1 shows a synchronous motor, a longitudinal section in FIG. 2 shows section A-A in FIG. one.

The electric motor contains an inductor 1 (stator) with teeth 2 in the form of a multi-way screw thread and an annular distributed winding 3j laid in grooves 4. Teeth 2 are bent along helical lines by the size of one tooth division at the distance of one pole division of the winding.

A longitudinal groove 5 is made in the inductor to make the inter-joint connections. The secondary element (rotor) 6 is made in the form of a magnetically conducting cylinder with teeth 7, located along the longitudinal axis of the rotor, and the number of teeth of the rotor is equal to the number of inductor teeth.

The magnetic cores of the stator and rotor of the electric motor can be made massive, and at high frequency of the power supply network - blended. A damper can be installed between the rotor teeth.

The motor works as follows

When connecting the winding electro-. the motor its rotor occupies a position in which the teeth of the rotor are opposite to those places - the teeth of the screw thread of the stator, which coincide with the magnetic poles on the stator.

The three-phase distributed winding located in the annular slots of the station creates a sinusoidal electromagnetic field running along the stator rod, due to which the rotor teeth and the stator interact with each other, causing the rotor to rotate by means of a screw cutting the teeth on the stator.

During the period of excitation, the sinusoidal field moves E into two poles dividing the winding along the length of the stator. In this case, the rotor is rotated into two tooth divisions due to the presence

five

50

five

0

.

screw cut on the stator, the teeth of which are bent by one. division over the pole division distance of the winding, i.e. the rotor rotates synchronously with the frequency .2 Z where fp is the rotor speed; f - mains frequency; Z - the number of teeth of the stator

(or rotor).

Thus, the proposed electric motor allows to obtain a synchronous frequency of rotation, which

2 times less than the frequency

network, and can be used in electric drives and electrical mechanisms to obtain a low frequency of rotation of the output shaft. At the same time, the need for a mechanical gearbox disappears.

The use of the proposed low-speed electric motor, with the exclusion of a mechanical gearbox from the design, will reduce the labor-intensiveness of manufacturing and the cost of electromechanisms,. ;

Claims (2)

Invention Formula 1, A synchronous electric motor comprising an inductor with a three-phase ob- annular grooves in which the said winding is laid, the screw cutting is performed so that at a distance of one pole division of the winding is offset by the amount of one tooth division, and the teeth of the secondary th element arranged along the generatrices of the cylinder, and their number is equal to the number of teeth of the inductor,   2. An electric motor as claimed in Claim 1, characterized in that, in order to increase the torque, the screw thread is made multi-pass, Editor A. Sabo Compiled by S. Vengrazhanovsk Tehred A. Kravchuk Proofreader A. Zimokosov Order 1802/50 Circulation 661 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 2