SU100960A1 - Frequency converter - Google Patents

Description

The subject of the invention is a frequency converter with a magnetic system of a three-phase transformer OR an autotransformer composed of a fixed magnetic core without air gaps and of sectional windings, each section of which is connected to the fixed collector plates. rotatable brushes.

Known converters of this kind have a relatively complex magnetic system, made in the form of a cylindrical core with a pazamn (like an asynchronous machine without an air gap), in which the windings connected to the collector are located.

The proposed converter has a simpler to manufacture magnetic system, made according to the strength of the magnetic system of a three-bar transformer, all KOTOpoiro rods are located in one

PLANE.

The drawing shows the device of the Converter made according to the invention.

A three-core core 1, assembled from transformer steel and having all three rods of equal cross-section, was placed in three windings .2 in accordance with the number of phases of the network. The winding of each phase consists of a series of sections. The pins from each section are attached to the fixed collector plates 3 as follows: the end of the first section and the second section are connected to one plate, the end of the second section and the beginning of the third section are connected to the next section; the first phase winding is connected from the beginning ; ioM windings of the second phase, and so on. Thus, all sections, and consequently, the three coils are connected in series with each other.

Three rotating brushes 4 are placed on the surface of the collector 3, shifted relative to each other by 120 °. The brushes are electrically connected to the three contacts of the rings 5. The brushing apparatus is driven by a motor 6 having a wide range of speed control. The power of this engine is determined by the brush friction on the collector, the brush friction on the slip rings and the maximum speed of rotation.

The frequency converter is connected to a power source (a three-phase network) on the side of the three terminals from the windings (ABC}, and the load is on the side of the rotating brushes via slip rings (abc).

In this case, with stationary brushes on "ontaky rings," the voltage frequency fi will be equal to the frequency of the network /.

During rotation of the brushes, the frequency of the voltage on the rings is determined by the difference or the sum of the frequency of the network voltage and the frequency of rotation of the brushes (depending on the "direction of rotation of the brushes and the sequence of switching on the phases of the winding). Therefore, for example, when changing the speed of rotation of the brushes from O to 3000 revolutions per minute and the frequency of the mains supply 50 Hz, the frequency and output of the converter (abc) will vary from 50 Hz to O or 50 to 100 Hz.

Subject invention

A frequency converter with a magnetic system of a three-phase transformer or autotransformer, made up of a fixed magnetic core without air gaps and of sectioned windings, sections of which are connected to plates of a fixed collector having rotatable brushes, of which in order to simplify the fabrication of the magnetic system, the latter is made by the type of magnetic system of a three-pole transformer, all the rods of which are located in one plane.