RU166023U1 - NON-CONTACT BIOTATIVE ELECTROMECHANICAL CONVERTER - Google Patents

Abstract

1. Non-contact bi-rotational electromechanical converter containing a stator magnetic circuit with a multiphase ring winding and two rotor inductors with permanent magnets installed with the possibility of structural independence of rotation, characterized in that one of the two active sides of the ring winding is made with phase transposition relative to the other. A non-contact bi-rotational electromechanical converter according to claim 1, characterized in that the stator magnetic circuit is made combined, consisting of two magnetic circuits connected by a non-magnetic element and covered by a common ring winding.

Description

The utility model relates to the field of electrical engineering, in particular to electrical machines, and can be used as a drive motor in industrial mechanisms with two-way counter-rotation of working bodies (drives of screws for underwater and aircraft, electric fans without rectifier and guide devices, etc.).

An asynchronous electric motor is known from the prior art (USSR Author's Certificate No. 1403243, НКК 5/16, 17/02, publ. 06/15/1988 Bull. No. 22), containing a stator with a ring winding and two rotors - internal and external, mutually combined rotation element.

The closest in technical essence is a magnetoelectric transducer (RF Patent 112536, Н02К 16/2, 21/12, publ. 10.01.2012 Bull. No. 1), containing an armature with a ring winding, an inductor in the form of two coaxial cylinders with permanent magnets, structurally united by a rotation element.

A disadvantage of the known devices is the inability to obtain bidirectional (counter) rotation of the rotors necessary for the operation of a number of technical objects.

The technical result is achieved by eliminating the constructive connection of the rotors and performing one of the active sides of the common multiphase ring winding with phase transposition.

In FIG. 1 is a structural diagram of a non-contact birotative electromechanical converter; FIG. 2 and 3 are variants of the transposition of the phase sections (using the example of a three-phase winding, where A, B, C are the phase groups of the annular stator winding), in FIG. 4 is a diagram of a combined magnetic circuit.

The non-contact bi-rotational electromechanical converter (Fig. 1) contains a stator with a magnetic circuit 1 and an annular winding 2 with active sides 3 and 4, two rotor inductors with permanent magnets 5 and 6, mounted with the possibility of structural independence of rotation, one of the two active sides of the annular winding made with a phase transposition relative to another, the stator magnetic circuit is combined, consisting of two magnetic circuits, combined by a non-magnetic element and covered by a common ring winding.

Non-contact birobot electromechanical Converter operates as follows. When an alternating supply voltage is applied to the annular winding and phase currents flow, each of the active sides of the winding forms a rotating magnetic field, which rotors entrain through the interaction that takes place. Since the directions of rotation of the fields are opposite due to the phase transposition on one of the active sides of the common ring winding, the rotors are carried away in mutually opposite directions.

To eliminate the mutual influence of the processes occurring in the joint back of the stator, which is common for both rotors, the magnetic circuit is combined (Fig. 4), consisting of two independent magnetic circuits 7 and 8, united by a non-magnetic element 9 and covered by a common ring winding 10.

Claims (2)

1. A non-contact bi-rotational electromechanical converter containing a stator magnetic circuit with a multiphase ring winding and two permanent magnet rotors-inductors installed with the possibility of structural independence of rotation, characterized in that one of the two active sides of the ring winding is made with phase transposition relative to the other. 2. The non-contact bi-rotational electromechanical converter according to claim 1, characterized in that the stator magnetic circuit is made combined, consisting of two magnetic circuits connected by a non-magnetic element and covered by a common ring winding.

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