SU81283A1 - The method of switching on a three-phase asynchronous motor - Google Patents

Description

The subject of the invention is a method for incorporating a three-phase asynchronous motor with a phase rotor into a single-phase network.

The existing methods for switching three-phase asnnchronous scouting devices into a single-phase network are associated with the introduction of additional active II reactances, which are complicated by the scheme of electric drives of this type.

When applying the proposed method, these disadvantages are eliminated, as a result of which the possibilities of using three-phase asynchronous motors, in particular, in electric traction, are expanded.

According to the proposed method, to impede the start of a three-phase asynchronous motor from a single-phase network with the required starting torque, the two phase windings of the motor are connected in series with each other with the same ends and are connected to the single-phase network, the winding of the third phase is connected in parallel to the network only during start-up.

In the drawing, an electric circuit for connecting the stator windings of the motor for axle 1 is shown, this method is described.

Phases in II of C – Z connections in series with ends y and Z and connected to terminals A and B of the network.

Phase ah of the stator is connected to the terminals of the network only for the duration of the start.

Phases II-C-Z form together one winding, the axis of which is perpendicular to the axis of the winding Ax. The result is two mutually-zerendic windings connected in a network and in parallel, the currents in which do not coincide in phase, as a result of which the formation of a rotating magnetic field and the starting moment takes place.

Analytically, currents and starting torque can be determined by applying the method of symmetrical components to the circuit. In this case, it is possible to establish that the magnitudes of the phase currents of the motor and the starting moment depend on the resistance X0 of the motor zero sequence. This necessitates the use of a phase-rotor motor and does not allow for the implementation of the proposed switching method for asynchronous motors, with a squirrel cage rotor.

The starting current in the a-x phase is significantly greater than in the other two phases (2.5-3.5 times), however, since this phase is turned off after starting and cools down during engine operation, it can be allowed to have a slightly larger unheated load. nook time

It is possible to accomplish phase a-x with an increase in the number of turns and thereby reduce the starting current, but this will change the starting time.

The reversal is induced either by switching the ends of phase a-X, or by spawning clips b and c, or, finally, by switching the linear wire A from clip a to clip y, as a result of which phase b-y becomes starting, and phases a-x and c-z -workers

Subject invention

The method of switching a three-phase asynchronous motor with a phase rotor into a single-phase network, is distinguished by the fact that, in order to obtain starting torque without using additional (active or reactive) resistance, two phase windings of the stator, sequentially one after another with one another, one copsamp, include in a single-phase network, the winding of the third phase only connects to the network for the duration of the start-up.