SU14890A1 - Device for controlling the speed and power factor of an induction motor through a three-phase collector machine driven by a synchronous exciter incorporated in its rotor - Google Patents

Description

The present invention relates to devices for controlling the speed and power factor of an asynchronous motor through a three-phase collector machine driven into its rotor, driven by a synchronous exciter, in which the device for controlling the speed and power factor of the asynchronous motor applied is applied to a synchronous exciter having on the rotor two drivers. mutually offset by 90 °, one of which serves to regulate the speed and the other to regulate the number of revolutions and the power of the asynchronous motor.

In FIG. 1 shows a diagram of the proposed device, and FIG. 2 is a diagram of a modified part of the same device.

The main asynchronous motor on the side of the stator & is powered by a three-phase

network a, and from the side of the rotor & j through the contact rings with connected to the stator & three-phase collector machine on the same shaft, the rotor of which, in addition to the collector /, has three more contact rings d, powered by a synchronous exciter L, driven by an auxiliary synchronous motor r, powered from a common network a. The rotor of the synchronous exciter b has two excitation windings b b i, located at an angle of 90 ° and feeding independently of each other from the direct current source. One of these excitation windings serves to create a longitudinal magnetic flux and thus to regulate the engine speed (or power factor), and the other creates a transverse field, and thus is designed to regulate the power factor (or speed) of the main asynchronous motor.

A modification of the device for controlling the speed and the power factor of an induction motor according to FIG. 2, is that the rotor of the synchronous driver H has an ordinary three-phase winding, in which two phase windings m and those connected at zero point form one winding exciter and the third phase winding is the second excitation winding. Both field windings are independently powered from a DC source, one of which serves to control the engine speed, and the other: ha to regulate its power factor. Due to the fact that the constant excitation current in both windings can be controlled independently of each other, an independent regulation of both the speed and the power factor of the induction motor can be achieved.

The subject of the natent.

1. A device for controlling the rotational speed and power factor of an induction motor through a three-phase collector machine driven into its rotor, excited by a synchronous exciter, characterized by the fact that the synchronous exciter h on the rotor has two excitation windings A and I, which are mutually offset 90 °, one of which is designed to regulate the speed, and the other to regulate the power factor of the induction motor (Fig. 1).

2. The modification of the characterized c. 1 device, distinguished by the fact that the rotor of the synchronous exciter has a conventional three-phase winding, in which two phase windings m and% form one excitation winding, and the third phase winding is another excitation winding (Fig. 2),