This paper presents a new construction of SR motor for oscillatory and vibratory drives. As a result of a change to magnetic circuit shape magnetic pull is much reduced, and the mass ratio of rotor to stator and the electromagnetic torque meaningfully increases. These changes do not, however, deteriorate any of the other parameters of the motor. For the computation of an optimal shape of the magnetic circuit FEMM finite elements program was used and a genetic algorithm in MATLAB implemented. The computer simulation of an idle run was carried out and the results were compared with the previous prototype version of the motor.
Potential applications of concentrating tables were earlier investigated and the results of tests and analyses were summarised during former conferences. The prototype inertial-resilient drive system was of particular importance. Designs of generators utilising dynamic excitations employed in concentrating tables are compared in this paper. The operating principle and design options of these vibrating machines are outlined.
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