초록 ▼

A motor has a rotor and a stator. The stator is made up of a plurality of separate electromagnet core segments disposed coaxially about an axis of rotation. The core segments are affixed, without ferromagnetic contact with each other, to a non-ferromagnetic support structure. The rotor is configured

A motor has a rotor and a stator. The stator is made up of a plurality of separate electromagnet core segments disposed coaxially about an axis of rotation. The core segments are affixed, without ferromagnetic contact with each other, to a non-ferromagnetic support structure. The rotor is configured in an annular ring that at least partially surrounds the annular stator to define two parallel axial air gaps between the rotor and stator respectively on opposite axial sides of the stator. Permanent magnets are distributed on each side of the rotor annular ring that faces an air gap. Preferably, each stator electromagnet core segment has a pair of poles aligned in a direction generally parallel to the axis of rotation with pole faces generally perpendicular to the axis of rotation. A winding is formed on a core portion that links the poles to produce, when energized, magnetic poles of opposite polarity at the pole faces.

대표청구항 ▼

1. A rotary electric motor comprising:a rotor disposed in an annular ring configuration about an axis of rotation and comprising a plurality of permanent magnet elements; anda stator comprising a plurality of separated electromagnet core segments disposed coaxially about the axis of rotation to form

1. A rotary electric motor comprising:a rotor disposed in an annular ring configuration about an axis of rotation and comprising a plurality of permanent magnet elements; anda stator comprising a plurality of separated electromagnet core segments disposed coaxially about the axis of rotation to form an annular stator ring bounded by an inner and outer diameter;wherein the annular rotor ring at least partially surrounds the annular stator to define two axial air gaps between the rotor and stator respectively on opposite axial sides of the stator. 2. A rotary electric motor as recited in claim 1, wherein each stator electromagnet core segment comprises a pair of poles aligned in a direction generally parallel to the axis of rotation, the poles having respective pole faces generally perpendicular to the axis of rotation. 3. A rotary electric motor as recited in claim 2, wherein the pole pair of each core segment is joined by a ferromagnetic linking portion having a winding formed thereon to develop, when energized with current, magnetic poles of opposite polarity in the pole pair, and wherein reversal of direction of current flow through the winding effects reversal of magnetic polarities of the pole pair. 4. A rotary electric motor as recited in claim 2, wherein the rotor annular ring has a U-shaped cross section with two side portions formed of ferromagnetic material connected by a cross portion, an inner surface of each of the side portions having mounted thereon a plurality of permanent magnets distributed along the surface and facing the respective axial air gap, the cross portion being radially separated from the outer diameter of the stator. 5. A rotary electric motor as recited in claim 4, wherein the plurality of permanent magnets successively alternate in polarity along the rotor ring. 6. A rotary electric motor as recited in claim 5, wherein the number of permanent magnets on the two side portions are equal to each other and are respectively in axial alignment with each other, the axially aligned permanent magnets being of opposite magnetic polarity. 7. A rotary electric motor as recited in claim 5, wherein the rotor permanent magnets on each side portion are separated from contact with each other, andeach permanent magnet is a magnetic dipole having one magnetic polarity at a surface at the air gap and the opposite magnetic polarity at a surface opposite from the air gap, thereby forming a magnetic polar orientation in the axial direction. 8. A rotary electric motor comprising:a rotor disposed in an annular ring configuration about an axis of rotation and comprising a plurality of permanent magnet elements that successively alternate in polarity along the rotor ring; anda stator comprising a plurality of separated electromagnet core segments disposed coaxially about the axis of rotation to form an annular stator ring bounded by an inner and outer diameter, each stator electromagnet core segment comprising a pair of poles aligned in a direction generally parallel to the axis of rotation, the poles having respective pole faces generally perpendicular to the axis of rotation;wherein the annular rotor ring at least partially surrounds the annular stator to define two axial air gaps between the rotor and stator respectively on opposite axial sides of the stator, the rotor annular ring having a U-shaped cross section with two side portions formed of ferromagnetic material connected by a cross portion, an inner surface of each of the side portions having mounted thereon a plurality of permanent magnets distributed along the surface and facing the respective axial air gap, the cross portion being radially separated from the outer diameter of the stator, and the number of permanent magnets on the two side portions are equal to each other and are respectively in axial alignment with each other, the axially aligned permanent magnets being of opposite magnetic polarity;the rotor permanent magnets on each side portion are separat ed from contact with each other;each permanent magnet is a magnetic dipole having one magnetic polarity at a surface at the air gap and the opposite magnetic polarity at a surface opposite from the air gap thereby forming a magnetic polar orientation in the axial direction; andadditional permanent magnets, having magnetic polar orientations in directions perpendicular to the axial direction are mounted on the side portions in the spaces separating adjacent the dipole permanent magnets. 9. A rotary electric motor as recited in claim 3, wherein the stator further comprises a non-ferromagnetic support structure to which the core segments are affixed without ferromagnetic contact with each other. 10. A rotary electric motor as recited in claim 4, wherein the rotor cross portion is formed of non-ferromagnetic material. 11. A rotary electric motor as recited in claim 1, wherein said axial air gaps are substantially parallel to each other. 12. A rotor for a rotary electric motor comprising:an annular ring, concentric with an axis of motor rotation, having a U-shaped cross section comprising side portions connected by a cross portion;a plurality of permanent magnets distributed along an inner surface of each of the side portions and facing in the axial direction to form at least one axial air gap;and wherein:the cross portion has an inner surface facing in a radial direction;each side portion is formed of ferromagnetic material;the permanent magnets at each side portion inner surface are separated from contact with each other;each permanent magnet is a magnetic dipole having one magnetic polarity at the surface of the side portion and the opposite magnetic polarity at a surface of the permanent magnet axially opposite from side portion surface; and additional permanent magnets are mounted on the side portions in spaces separating adjacent dipole magnets, said additional permanent magnets having magnetic polar orientations in a plane perpendicular to the axis.