RU2017145731A - Universal Cascade Multi-phase Axial Magnetoelectric Generator - Google Patents

Claims (1)

Universal cascade multiphase axial magnetoelectric generator containing standardized stator and rotor modules, consists of front and rear covers with shaft bearings, the shaft itself, made in the form of a composite shaft structure consisting of a cylindrical part of the shaft with a key to connect to the drive, axles for installation into bearings , covers, and in the middle part - profile areas, in the form of a spur spur gear with twelve teeth, on which rotor blocks are placed through the extensions shaft shaft; each stator block consists of a conical twisted magnetic circuit, in the slots of which a six-pole single-phase concentrated winding is located, and the stator magnetic circuit is installed in an aluminum casing with four castings to be assembled on the studs of the whole structure; cascade or switching signal; the rotor module is made of a magnetically soft material in the form of a concave disk with a twelve-toothed hole in the middle for mounting on a shaft; segmental magnets with axial magnetization of rare-earth materials are installed on the rotor disk; the magnets form an out-pole inductor with alternating magnetic poles The longitudinal axes of which correspond to some axes of the twelve-toothed hole in the center of the rotor, characterized in that it has a unified multiphase modular design with rigid positioning of each rotor module on the generator shaft, with the possibility of rotation of the transverse axis of the subsequent rotor relative to the previous one, by the angle of shaft teeth division, which allows to improve the technology of manufacturing an electric machine through the use of standardized modules, reduce the consumption of construction materials, assembly time and testing generator, make it more maintainable, improve weight and size indicators and efficiency, as well as improve the quality of the output signal and reduce the magnetic flux of the end part of the stator magnetic circuit due to the conical shape of the module design and placing only a six-pole single-phase winding on the stator module, which will reduce the dissipation of the magnetic flux of the structure and increase the efficiency of the working part of the winding, as well as create a wide application by choosing the method , configuration and placement of the rotor modules on the shaft, making it either multi-pole, or multi-phase, or more powerful with a series-parallel connection outflow of the stator modules.