SU110273A1 - Single-pole single-machine frequency converter - Google Patents

Description

For frequency conversion, in a number of cases, electric machine converters are used, which are units consisting of individual machines, one of which is a motor, and the second is a collector or synchronous generator.

The proposed converter is one machine that does not contain sliding contacts, does not have windings on the rotor and is therefore more reliable in operation than the known frequency converters.

FIG. 1 shows a diagram of the proposed frequency converter (upper part); in fig. 2 is a cross-section of its rotor.

The converter consists of a cylindrical magnetically conducting case / (Fig. 1), inside of which there are two or more stators assembled from electrical steel sheet, with windings laid into slots. On the shaft 4 mounted rotors 5 n 6, made according to the type of rotor inductor mashin and having the form of stars.

The sets of stators and rotors have different numbers of poles, with one of the sets acting as an engine, and the others as a generator.

When the stator winding of the motor is connected to the AC network and its rotor rotates synchronously in the machine, a unipolar constant-direction magnetic flux is generated, which excites secondary emf in the stator windings of the generators. different frequencies, the value of which depends on the number of poles of these windings.

In order to ensure the asynchronous start of the converter on the rotor 5 (Fig. 2) of the motor, a short-circuited squirrel cage 7 winding 7 is arranged. For this, grooves are pressed into the iron sheets of the rotor into which the rods are laid.

If necessary, the phase winding can be laid in the slots of the rotor

rings connected to the ptsskovy resistors. This winding works only during the start-up period, after which the rings are short-circuited and the brushes are lifted, as in conventional asynchronous motors with a phase-rotor.

To compensate for the magnetizing current parallel to the stator winding of one of the generators, capacitors can be connected. In this case, the machine can work as a contactless synchronous compensator. The regulation of the magnetizing current can be done by changing the capacitance value and connecting an adjustable throttle in series or parallel to the capacitance. Artificial resonant tuning of the circuit is also possible, in which the maximum magnetic flux and, accordingly, the maximum leading current delivered to the primary network are ensured.

Fundamentally, it can also be placed between stater packs.

magnetizing ring excitation coils and knocking down the machine with direct current.

Subject invention

Claims (2)

1. A single pole single frequency inverter consisting of two or more separate stators and rotors with different numbers of poles covered by a common axial magnetic flux, characterized in that one of the stators and the corresponding rotor are used as a synchronous motor. 2. The converter according to claim 1, with a short-circuited winding mounted on the rotor to complete the asynchronous start. 3- Converter p. 1 with the installation of the capacitor and the throttle parallel to the stator winding of the generator for controlling the output voltage and compensating for the reactive power consumed from the network. FIG. 2