Patent ID: 8232703
Filing Date: 2012-07-31
Classification: H02K,Y10T

Abstract:
1. An embedded magnet motor comprising a rotor, an axis of the rotor being referred to as a rotor axis, wherein the rotor includes a rotor core, radial magnets, a number of said radial magnets is expressed by P/2, first inclined magnets, a number of said first inclined magnets is expressed by P/2, and second inclined magnets, a number of said second inclined magnets is expressed by P/2, wherein the rotor core includes radial accommodating slots, a number of said radial accommodating slots is expressed by P/2, first inclined accommodating, a number of said first inclined accommodating slots is expressed by P/2, and second inclined accommodating, a number of said second inclined accommodating slots is expressed by P/2, and the radial accommodating slots, the first inclined accommodating slots, and the second inclined accommodating slots extending entirely through the rotor core in the axial direction, wherein the radial accommodating slots extend substantially in a radial direction of the rotor core, and the first inclined accommodating slots and the second inclined accommodating slots extend linearly to be inclined with respect to the radial direction, wherein each pair of an inclined accommodating slot and the associated second inclined accommodating slot form a V-shaped accommodating slot, the V-shape pointing radially outward of the rotor core, the radial accommodating slots and the V-shaped accommodating slots being arranged alternately in the circumferential direction of the rotor core, each of the radial accommodating slots accommodating one of the radial magnets, each of the first inclined accommodating slots accommodating one of the first inclined magnets, and each of the second inclined accommodating slots accommodating one of the second inclined magnets, wherein each of the radial magnets is located between one of the first inclined magnets and one of the second inclined magnets, wherein each radial magnet and the circumferentially adjacent first inclined magnet form one of a north pole and a south pole, and each radial magnet and the circumferentially adjacent second inclined magnet form the other one of the north pole and the south pole, and as a result, north poles, a number of said north poles is expressed by P/2 and south poles, a number of said south poles is expressed by P/2 are formed, that is, the number of magnetic poles of the rotor is expressed by P, wherein the rotor core is formed by laminating a plurality of core sheets in the axial direction, each core sheet including preformed radial accommodating slots, a number of said preformed radial accommodating slots is expressed by P/2, the preformed radial accommodating slots being distributed in the circumferential direction of the core sheet, the radial accommodating slots being formed by laminating the preformed radial accommodating slots, wherein the radial dimension of the preformed radial accommodating slots is greater than the radial dimension of the radial magnets, wherein each core sheet includes a projection projecting at least in one of the preformed radial accommodating slots, and when a direction perpendicular to the radial direction is referred to as a width direction, each projection projects from only one of widthwise sides of the preformed radial accommodating slot, and wherein the projections are located at least at some parts of each radial accommodating slot along the axial direction, and as a result, the projections restrict the radial magnets from moving radially inward.