A double-stator includes outer and inner stators each having magnetic poles. Outer-stator and inner-stator windings are connected in series in phases, thereby generating winding magnetomotive force. Outer magnets and inner magnets of a rotor are arranged in a rotor core in the circumferential direct
A double-stator includes outer and inner stators each having magnetic poles. Outer-stator and inner-stator windings are connected in series in phases, thereby generating winding magnetomotive force. Outer magnets and inner magnets of a rotor are arranged in a rotor core in the circumferential direction, the outer and inner magnets being alternated between a radially outward portion and a radially inward portion, at a pitch equal to that of the poles of the outer and inner stators so as to be magnetized so that a radially outer side thereof will serve as N poles or S poles and that a radially inner side thereof will serve as S poles or N poles. The rotor core includes outer poles formed between the outer magnets circumferentially adjacent to each other in the radially outward portion, and inner poles formed between the inner magnets circumferentially adjacent to each other in the radially inward portion.
대표청구항▼
1. A double-stator motor, comprising: a housing;a shaft which is rotatably supported by the housing;a rotor which is connected to the shaft and rotates integrally with the shaft;an outer stator which is arranged radially outward of the rotor and fixed to the housing, and which has a three-phase oute
1. A double-stator motor, comprising: a housing;a shaft which is rotatably supported by the housing;a rotor which is connected to the shaft and rotates integrally with the shaft;an outer stator which is arranged radially outward of the rotor and fixed to the housing, and which has a three-phase outer-stator winding; andan inner stator which is arranged radially inward of the rotor and fixed to the housing, and which has a three-phase inner-stator winding, whereinthe outer stator and the inner stator each have magnetic poles, the number of which is the same as that of the rotor, and the outer-stator winding and the inner-stator winding are connected in series in each of the phases, thereby generating winding magnetomotive force so that the magnetic poles, which are radially opposed to each other via the rotor and located at the same circumferential position, come to have the same polarity,the rotor includes:a rotor core which is configured by stacking a plurality of annular core sheets made of a soft magnetic material;a plurality of outer magnets which are embedded in a radially outward portion of the rotor core; anda plurality of inner magnets which are embedded in a radially inward portion of the rotor core,the outer magnets and the inner magnets are arranged in the rotor core in the circumferential direction, the outer magnets and the inner magnets being alternated between the radially outward portion and the radially inward portion, at a pitch equal to that of the poles of the outer stator and the inner stator so as to be magnetized so that a radially outer side thereof will serve as N poles or S poles and that a radially inner side thereof will serve as S poles or N poles, andthe rotor core includes:a plurality of outer poles which are made of a soft magnetic material and are each formed between the outer magnets circumferentially adjacent to each other in the radially outward portion, anda plurality of inner poles which are made of a soft magnetic material and are each formed between the inner magnets circumferentially adjacent to each other in the radially inward portion. 2. The double-stator motor according to claim 1, wherein the outer poles and the inner poles are provided with magnetic cavities, respectively, so as to be located at a circumferentially center portion of the respective poles, magnetic permeability of the outer poles and the inner poles being ensured to be lower than that of the soft magnetic material. 3. The double-stator motor according to claim 2, wherein the magnetic cavity has a recessed shape formed by recessing an radially outer peripheral surface of the outer pole radially inward at the circumferentially center portion thereof, andthe magnetic cavity has a recessed shape formed by recessing an radially inner peripheral surface of the inner pole radially outward at the circumferentially center portion thereof. 4. The double-stator motor according to claim 2, wherein each of the outer poles has a hollow serving as the magnetic cavity at a circumferentially center portion of the pole, and an outer bridge, which is extended in the circumferential direction, formed in a radially outermost portion of the rotor core with respect to the hollow, andeach of the inner poles has a hollow serving as the magnetic cavity at a circumferentially center portion of the pole, and an inner bridge, which is extended in the circumferential direction, formed in a radially innermost portion of the rotor core with respect to the hollow. 5. The double-stator motor according to claim 2, wherein the outer magnets and the inner magnets are ferrite magnets. 6. The double-stator motor according to claim 1, wherein the double-stator motor is used for an in-wheel motor which is installed into a wheel of an electric car to directly drive an axle of the electric car.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (5)
Stridsberg Lennart,SEX, Brushless DC motors/generators.
Fukushima, Akira; Kusase, Shin; Maekawa, Takeo; Kondou, Keiji, Multi-gap rotating electric machine having phase coils formed of substantially U-shaped electric conductor segments.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.