| CPC H02K 3/12 (2013.01) [H02K 1/16 (2013.01); H02K 5/04 (2013.01); H02K 7/003 (2013.01); H02K 7/116 (2013.01)] | 5 Claims |
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1. An energy-saving three-phase brushless direct-current machine, comprising
a hub casing,
wherein said hub casing is a hollow shell, comprising a hub; and an upper hub cover and a lower hub cover screwed at the left side and the right side of said hub, respectively; and, at the centers of said upper hub cover and said lower hub cover, a first shaft sleeve is penetratingly provided separately;
a machinery body,
wherein said machinery body is deposited in said hub casing and is a hollow shell, comprising a central machinery tube; and an upper machinery cover and a lower machinery cover at the left end and the right end of said central machinery tube, respectively; at the center of said upper machinery cover, a second shaft sleeve is penetratingly provided; and a plurality of planetary sleeves are penetratingly provided around said second shaft sleeve;
a machinery motor,
wherein said machinery motor is deposited in said machinery body and comprises a stator and a rotor; said stator is fitted in said central machinery tube and has a stator core; said stator core comprises a plurality of slots obtained along the periphery of a central through-hole, and a plurality of main poles each of which bounded by two of said slots; three empty slots, not penetrated by wire, are contained in said slots and positioned at an angle of 120 degrees to each other; each of said slots comprises a first starting area, a second starting area, and a third starting area; said first starting area has a first depth, said second starting area has a second depth, and said third starting area has a third depth; a distance from said first starting area of each one of said slots to an opening end of said one of said slots is greater than a distance from said second starting area of said one of said slots to said opening end of said one of said slots, and a distance from said third starting area of said one of said slots to said opening end of said one of said slots is small than a distance from said second starting area of said one of said slots to said opening end of said one of said slots; said rotor is penetratingly deposited in said stator to rotate and has a rotor core, comprising a plurality of silicon steel sheets stacked together; each of said silicon steel sheets is provided with a shaft hole at center to be deposited with a central shaft to be integrated with said rotor core; the end of said central shaft is coaxially obtained with a ring of motor teeth to move concertedly; and a plurality of magnets radially magnetized are obtained around and spaced on the periphery of said rotor core;
a stator coil,
wherein said stator coil is bidirectionally wound through each of said slots except said empty slots; said stator coil comprises a first-phase main winding, a second-phase main winding, and a third-phase main winding; an end of said first-phase main winding, an end of said second-phase main winding, and an end of said third-phase main winding are connected in parallel to a common point with the other end of said first-phase main winding, the other end of said second-phase main winding, and the other end of said third-phase main winding connected to a control point of a controller to switch between three-phase windings by said controller; said first-phase main winding is spanned over a number of said slots, selected from a group consisting of two of said slots and two of said slots together with one of said empty slots, to be wound around said first starting area; said second-phase main winding is spanned over a number of said slots, selected from a group consisting of two of said slots and two of said slots together with one of said empty slots, to be wound around said second starting area; said third-phase main winding is spanned over a number of said slots, selected from a group consisting of two of said slots and two of said slots together with one of said empty slots, to be wound around said third starting area; said first-phase main winding, said second-phase main winding, and said third-phase main winding are wound in a forward-winding direction and continuously wound in a reverse-winding direction by turning back after reaching a terminal point; said stator coil of said first-phase main winding, said stator coil of said second-phase main winding, and said stator coil of said third-phase main winding are alternately obtained on a front surface and a back surface of said stator core; and
a set of planetary gears,
wherein said set of said planetary gears is located between said upper hub cover and said upper machinery cover and comprises an upper support, a gear ring, and a plurality of planetary teeth; said upper support is penetratingly provided with a third shaft sleeve; said gear ring is provided with a ring of inner teeth at inner circle of said gear ring and a ring of clutch teeth at outer circle of said gear ring to be fitted in said upper hub cover; and each of said planetary gears is rotatably obtained on said upper support through a bearing and a shaft center as facing said upper machinery cover of said machinery motor to surround the periphery of said ring of said motor teeth, and meshes with said ring of said motor teeth, and said ring of said inner teeth of said gear ring, separately.
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