SU81213A1 - Electric drive - Google Patents

Description

The subject of the invention is an electric drive consisting of an alternating current generator, rotating at a constant speed and excited by alternating current from a variable frequency driver, and an induction motor, the stator winding of which is connected to the stator winding of the generator.

Similar electric drives, t application for prpioda sul :) vy screws. A significant disadvantage of such drives is the need for switches in the main circuit to change the direction of rotation of the engine.

In the proposed electric drive, the reversal of the asynchronous motor is carried out without switching in the main circuit, as a result of which the reliability of operation of the reverse drive system will be significantly increased.

This is achieved by making the stator windings of the exciter, in which symmetric systems of electromotive forces are induced in them when they are crossed by a two-pole and four-pole magnetic field, and also by the fact that the phase sequence of electromotive forces induced in the stator windings changes when switching the stator windings of the exciter from bipolar excitation to quadrupole.

FIG. 1 is a schematic diagram of the proposed electric drive; in fig. 2-diagram of the stator and rotor windings of the generator and the stator windings of the exciter; in fig. 3- vector diagrams of electromotive forces induced in the windings of the stator of the exciter.

IG induction generator (Fig. 1) feeds asynchronous (or synchronous) motors AD. Instead of two BP engines, it is also possible to use one dual-feed DDJ engine. turning it on, as shown by the dotted line.

The rotor circuit of the generator is connected to the AC exciter VG, the excitation winding of which is made so that in a air gap one can receive either a bipolar or quadripolar magnetic field. The points of the rotor winding of the exciter corresponding to a two-pole system are derived to the Yao-As rings, and the corresponding four-pole system to the rings.

The causative agent articulates with the DV engine, which permits a change in the speed limits over a wide range.

The winding of the generator (stator and rotor) and the stator winding of the exciter are carried out according to the same scheme (Fig. 1 and 2), which can easily be obtained from the usual four-pole winding by the time factor; the latter in two identical parts. The axis of the three coils. The input of Tsikh to each part of the winding (coils / -3-5 and 4-6-2) must have a spatial shift of 120 ° (the beginnings of the windings are conventionally marked with asterisks).

The reversal of motors connected to the stator winding of the IG generator is carried out by changing the order of alternating electromotive forces induced in the generator stator. The order of phase alternation depends on the number of poles of the magnetic field excited in the rotor circuit of the driver.

The change in the order of phase alternation is illustrated by vector diagrams of electromotive forces induced in this circuit when excited in the air gap of a bipolar field exciter (Fig. 3A) and a 4-pole floor (Fig. 36J.

Since the rotor winding of the generator is made absolutely identical to the stator winding of the exciter, the exact poles of both machines will always be the same. In this case, the direction of rotation of the magnetic field of the generator relative to the rotor with changes in the number of poles of the exciter remains unchanged, since it obviously depends only on the direction of rotation of the exciter rotor.

The rotor and generator magnetic field must rotate in opposite directions. A change in the number of poles of the magnetic generator of the generator is accompanied by a corresponding change in the order of phase alternation and reversal of the motors.

Subject invention

An electric drive consisting of an alternator, an alternating current exciter and an induction motor, characterized in that, in order to change the direction of rotation of the motor without switching in the stator or generator rotor, the exciter winding is the same with the stator and generator rotor windings in order to induce a symmetrical system of electromotive forces in it at the intersection of both two and four-pole magnetic fields, and the exciter rotor winding is made switchable from two x on four poles.

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