A direct-drive brushless DC motorization apparatus is provided. The apparatus includes an outer rotor having poles constructed with segments of forty or forty-four permanent magnets alternatively magnetized north and south. The outer rotor is adapted to be part of a wheel and is rotatable with respe
A direct-drive brushless DC motorization apparatus is provided. The apparatus includes an outer rotor having poles constructed with segments of forty or forty-four permanent magnets alternatively magnetized north and south. The outer rotor is adapted to be part of a wheel and is rotatable with respect to an axis of the wheel. The outer rotor is mounted about a stator core of ferromagnetic material and is separated from the stator core by a clearance gap. The stator core has forty-two slots, and adjacent slots are separated by teeth. A three-phase winding with coils of insulated wire is wound around the teeth of the stator core. The three-phase winding is divided in two sets of consecutive teeth for each of the three phases, with each of the two sets of a same phase being diametrically opposed in the stator core.
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1. A direct-drive brushless DC motorization apparatus comprising: an outer rotor with forty or forty-four poles constructed with segments of permanent magnet material alternatively magnetized north and south, said outer rotor rotatable about an axis of a wheel;an inner stator core of ferromagnetic m
1. A direct-drive brushless DC motorization apparatus comprising: an outer rotor with forty or forty-four poles constructed with segments of permanent magnet material alternatively magnetized north and south, said outer rotor rotatable about an axis of a wheel;an inner stator core of ferromagnetic material spaced inwardly of said outer rotor and defining a clearance gap with said outer rotor such that said outer rotor is rotatable about said inner stator core, said inner stator core having forty-two slots and defining teeth between said slots; anda three-phase winding with coils of insulated wire being wound around said teeth of said inner stator core, said three-phase winding being divided in two sets of consecutive teeth for each of said three phases, with each of said two sets of a same phase being diametrically opposed in said inner stator core;wherein said outer rotor, said inner stator core, and said three-phase winding is configured to operate under a motorization mode and/or an energy recuperation mode;wherein said inner stator core has a hub supporting a stator yolk, and wherein structural elements extend radially outwardly from said hub with said structural elements being positioned circumferentially between centers of each set of said teeth of the same phase. 2. The brushless DC motorization apparatus of claim 1, wherein said two sets of said consecutive teeth each include seven consecutive teeth. 3. The brushless DC motorization apparatus of claim 1, wherein said inner stator core has an outer diameter ranging between 150 mm and 350 mm. 4. The brushless DC motorization apparatus of claim 3, wherein said outer diameter of said inner stator core ranges between 150 mm and 250 mm. 5. The brushless DC motorization apparatus of claim 1, wherein said outer rotor has forty poles and said inner stator core has forty-two slots. 6. The brushless DC motorization apparatus of claim 1, wherein said outer rotor has forty-four poles and said inner stator core has forty-two slots. 7. The brushless DC motorization apparatus of claim 1, wherein said inner stator core is adapted to be secured to an axle of a vehicle. 8. The brushless DC motorization apparatus of claim 1, wherein said outer rotor is adapted to be operatively connected to a freewheel of a bicycle. 9. The brushless DC motorization apparatus of claim 1, wherein each phase comprises fourteen consecutive teeth. 10. A direct-drive brushless DC motorization apparatus powered wheel comprising: an outer rotor with forty poles or forty-four poles constructed with segments of permanent magnet material alternatively magnetized north and south, said outer rotor rotatable about an axis of the wheel;a plurality of spokes projecting radially outwardly from an outer surface of said outer rotor;an inner stator core spaced inwardly of said outer rotor and defining a clearance gap with said outer rotor such that said outer rotor is rotatable about said inner stator core, said inner stator core having forty-two slots and defining teeth between said slots;said inner stator core secured to an axle of the wheel; anda winding with coils being wound around said teeth of said inner stator core, said winding including multiple phases and being divided in sets of seven consecutive teeth for each of said phases, with each of said sets of a same phase being diametrically opposed in said inner stator core;wherein said outer rotor, said inner stator core, and said three-phase winding is configured to operate under a motorization mode and/or an energy recuperation mode. 11. The brushless DC motorization apparatus of claim 10, wherein said outer rotor has forty poles or forty-four poles and forty-two slots. 12. The brushless DC motorization apparatus of claim 10, wherein said inner stator core has an outer diameter ranging between 150 mm and 350 mm. 13. The brushless DC motorization apparatus of claim 12, wherein said outer diameter of said inner stator core ranges between 150 mm and 250 mm. 14. The brushless DC motorization apparatus of claim 10, wherein said inner stator core is adapted to be secured to an axle of a vehicle. 15. The brushless DC motorization apparatus of claim 10, wherein said inner stator core has a hub supporting a stator yolk, said hub including structural elements diametrically between centers of each set of said teeth of the same phase. 16. An electric bicycle, comprising: a wheel positioned along an axle extending along an axis;a direct-drive brushless DC motorization apparatus secured to said wheel, said DC motorization apparatus including:an outer rotor with forty or forty-four poles constructed with segments of permanent magnet material alternatively magnetized north and south, said outer rotor rotatable about said axis of said wheel;an inner stator core of ferromagnetic material spaced inwardly of said outer rotor and secured to said axle of said wheel, said inner stator core defining a clearance gap with said outer rotor such that said outer rotor is rotatable about said inner stator core, said inner stator core having forty-two slots and defining teeth between said slots; anda three-phase winding with coils of insulated wire being wound around said teeth of said inner stator core, said three-phase winding being divided in two sets of consecutive teeth for each of said three phases, with each of said two sets of a same phase being diametrically opposed in said inner stator core;wherein said outer rotor, said inner stator core, and said three-phase winding is configured to operate under a motorization mode and/or an energy recuperation mode;wherein said inner stator core has a hub supporting a stator yolk, and wherein structural elements extend radially outwardly from said hub and diametrically between centers of each set of said teeth of the same phase. 17. The electric bicycle of claim 16, wherein said wheel includes spokes projecting radially from said outer rotor, and said bicycle further including pedals. 18. The electric bicycle of claim 16, wherein said outer rotor includes forty poles or forty-four poles and forty-two slots. 19. The brushless DC motorization apparatus of claim 16, wherein said three-phase winding is divided in two sets of seven consecutive teeth for each of said three phases.
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이 특허에 인용된 특허 (7)
Dubé´, Jean-Yves; Larose, Pascal, Energy management system for motor-assisted user-propelled vehicles.
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