Cylindrical transverse flux switch reluctance linear motor with modular stator

Abstract

The invention discloses a novel cylindrical transverse flux switch reluctance linear motor with a modular stator and belongs to the field of new motor design. Compared with the conventional longitudinal flux switch reluctance linear motor, the novel cylindrical transverse flux switch reluctance linear motor with the modular stator in the invention can better form an effective magnetic circuit andhas smaller output pulsation. The novel cylindrical transverse flux switch reluctance linear motor in the invention consists of a U-shaped modular stator, a stator winding, a stator spacer, a spacer fixing screw, a rotor ferromagnetic ring and a rotor shaft, wherein the modular stator and the stator spacer are placed in sequence on the cross section; the rotor ferromagnetic ring is sleeved on therotor shaft, and a salient pole on the rotor ring is fastened at the opening of the U-shaped modular stator; two adjacent stator windings in the peripheral direction are wound in an opposite direction; all windings in the longitudinal direction are wound in the same direction; and all the windings are connected in series to ensure simultaneous energization. The magnetic flux of the motor of the invention is a transverse magnetic flux, the stator part is a modular stator, which brings convenience for production and assembly; meanwhile, the motor has the advantages of large average output, smalloutput pulsation, simple structure, easiness for maintenance, high reliability and the like.

Description

technical field [0001] The invention relates to the field of novel motor design, in particular to a switched reluctance linear motor. Background technique [0002] In recent years, linear motors have been increasingly used in rail transit, maglev systems, aviation systems, and military industries. Among them, the switched reluctance linear motor has become a research hotspot in recent years due to its solid structure, high reliability, good fault tolerance, no permanent magnet material, and concentrated stator winding. The large normal force caused by the inherent structural defects of the traditional unilateral switched reluctance linear motor often causes a large friction force between the mover and the track, which will affect the service life of the motor. The bilateral switched reluctance linear motor can reduce the normal force by virtue of its bilateral stator structure, but as long as there are irregularities in the bilateral air gap caused by the manufacturing and ...

AI Technical Summary

Problems solved by technology

In the traditional longitudinal flux cylindrical switched reluctance linear motor, because part of the magnetic flux direction is parallel to the motor shaft, the eddy current loss of the motor is increased. In addition, due to the large magnetic flux leakage in the stator mover slot, the electromagnetic output of the motor is less saturated. Faster, reducing the output volume ratio of the motor

However, the existing transverse flux cylindrical switched reluctance linear motor lacks the optimization of the relationship between the effective magnetic circuit and the average output force and the output pulsation, so the average output force of the motor may not be high and the output pulsation may be large

Images