Patent ID: 6396182
Filing Date: 2002-05-28
Classification: H02K,Y10T

Abstract:
A rotor of cylindrical configuration for use in an electrical device, said rotor having a cylindrical outer peripheral surface and a central axis of rotation, comprising:a rotor drive shaft in axial alignment with said central axis; stacked laminations forming a plurality of magnetically conductive segments arrayed around said central axis with each of said segments spanning a circumferential sector of said cylindrical configuration and each having a radially outer surface and opposite end surfaces disposed generally normal to said central axis; a plate magnet disposed radially of said rotor between each adjacent pair of said segments, each of said magnets having major planar side surfaces which extend generally radially of said rotor and face said segments on each side of the respective magnet, said magnets being magnetized through their thicknesses so that their magnetic poles are at said major planar side surfaces which face said segments, said magnets being so disposed that poles of the same polarity face each side of each of said segments; said stacked laminations of each segment being connected with one another radially outward of said shaft; first and second abutment supports mounted on said drive shaft at opposite ends of said segments, said first abutment support being fixed to a portion of said drive shaft that is adjacent to one of said opposite end surfaces of said segments and providing an axially fixed support in abutment with said adjacent one of said opposite end surfaces, said second abutment support being in abutment engagement with said other of said opposite end surfaces and being in engagement with said shaft adjacent the other of said opposite end surfaces and being axially supported in such abutment engagement with said other of said opposite end surfaces by said engagement of said second abutment support with said shaft for compressing said laminations of said segments between said abutment supports, whereby said laminations forming said segments are compressed axially of said rotor between said first and second abutment supports in tight alignment solely by axial forces transmitted to said shaft by said first and second abutment supports; and said segments, said abutment supports and said drive shaft thereby forming a rigid rotor that provides high torque output in an electric device using said rotor.