Axle-Less Pat.

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Claims

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What I claim is:

1. An electromagnetic rotating assembly comprising:

(a) a support structure having a plurality of rotor assemblies moveably mounted thereon and one common stator assembly fixedly mounted on said support assembly,

(b) said plurality of rotor assemblies comprising at least a first rotor assembly and a second rotor assembly connected to one another and collectively rotatable relative to said stator assembly,

(c) said plurality of rotor assemblies further comprising a third rotor assembly rotatably mounted relative to said first and second rotor assemblies and said stator assembly,

(d) said first, second and third rotor assemblies disposed in a substantially stacked array and each comprising an annular configuration including an open interior portion,

(e) said stator assembly disposed within said open interior portion in concentrically surrounded relation by said first, second and third rotor assemblies,

(f) said stator assembly comprising a plurality of conductive segments each disposed in spaced relation to said first, second and third rotor assemblies to define an air gap there between; each of said conductive segments of said stator assembly having a sufficient longitudinal dimension to extend along said entire air gap in transverse orientation to each of said first, second and third rotor assemblies, and

(g) at least one power takeoff assembly connected in driven relation to at least one of said plurality of rotor assemblies and located exteriorly of said plurality of rotor assemblies and said stator assembly.

2. An assembly as recited in claim 1 wherein one of said first and second rotor assemblies comprises a plurality of conductive segments collectively disposed in a continuous, annular array and structured to define an armature of a motor.

3. An assembly as recited in claim 2 wherein the other of said first and second rotor assemblies comprises a plurality of elongated conductors extending along the length thereof and disposed and structured to define an armature of a generator.

4. An assembly as recited in claim 3 wherein said third rotor assembly comprises a plurality of conductive segments collectively disposed in a continuous, angular array and structured to define an armature of a motor;

said third rotor assembly rotatable relative to said first and second rotor assemblies and independent thereof.

5. An assembly as recited in claim 4 wherein the other of said first and second rotor assemblies comprises a plurality of elongated conductors extending continuously along a portion of the length thereof;

said other of said first and second rotor assemblies further comprising at least one conductive segment structured equivalently to said conductive segments of said motor armature and electrically connected thereto.

6. An electric rotating assembly comprising:

(a) a support structure including at least one rotor assembly movably mounted thereon and at least one stator assembly fixedly mounted thereon,

(b) said rotor assembly comprising a plurality of conductive segments disposed in immediately adjacent, spaced relation to one another and collectively disposed in an annular configuration defining an open interior portion,

(c) said stator assembly comprising a plurality of conductive segments wherein predetermined adjacent ones of said conductive segments are of opposite polarity,

(d) said stator assembly disposed within said open interior portion in concentrically surrounded relation by said rotor assembly,

(e) said stator assembly further comprising at least two stator portions spaced apart in substantially opposing relation to one another, each of said stator portions comprising a plurality of said conductive segments extending along the length thereof,

(f) said rotor assembly disposed in spaced relation to said stator assembly to define an air gap between said conductive segments of said rotor assembly and said stator assembly during rotation of said stator assembly; said air gap comprising a varying transverse dimension along the length of each of said stator portions, and

(g) said stator assembly and support structure cooperatively structured to define an axle-less assembly defined by the absence of a centrally disposed shaft.

7. An assembly as recited in claim 6 wherein said one rotor assembly is disposed and structured to project a magnetic field inwardly towards a center portion of said support structure.

8. An assembly as recited in claim 6 wherein said one stator assembly is disposed and structured to project a magnetic field outwardly therefrom.

9. An assembly as recited in claim 6 further comprising mounting means for movably securing said one rotor to said support structure in a manner which maintains a consistent dimension of said air gap.

10. An assembly as recited in claim 9 wherein said mounting means comprises a bearing assembly.

11. An assembly as recited in claim 6 further comprising a commutation assembly disposed and structured to alternate magnetic orientation of predetermined portions of said rotor assembly when in aligned relation with predetermined portions of said stator assembly such that relative rotation therebetween is substantially constant.

12. An assembly as recited in claim 6 wherein each of said plurality of conductive segments of both said rotor assembly and said stator assembly are structured to generate magnetic flux across said air gap, wherein said one rotor assembly and said one stator assembly define a motor absent a central axle.

13. An assembly as recited in claim 12 further comprising a commutation assembly disposed and structured to alternate magnetic orientation of predetermined portions of said rotor assembly when in aligned relation with predetermined portions of said stator assembly such that relative rotation there between is substantially constant.

14. An electric rotating assembly comprising:

(a) a support structure including at least one rotor assembly movably mounted thereon and at least one stator assembly fixedly mounted thereon,

(b) said rotor assembly comprising a plurality of conductive segments disposed in immediately adjacent, spaced relation to one another and collectively disposed in an annular configuration defining an open interior portion,

(c) said stator assembly comprising a plurality of conductive segments wherein predetermined adjacent ones of said conductive segments are of opposite polarity,

(d) said stator assembly disposed within said open interior portion in concentrically surrounded relation by said rotor assembly,

(e) said stator assembly further comprising at least two primary stator portions disposed in spaced apart, substantially opposing relation to one another and at least two secondary stator portions disposed in spaced apart, substantially opposing relation to one another; each of said primary and said secondary stator portions comprising a plurality of magnetic segments extending along the respective lengths thereof,

(f) said rotor assembly disposed in spaced relation to said stator assembly to define an air gap between said conductive segments of said rotor assembly and said stator assembly during rotation of said rotor assembly, and

(g) said stator assembly and support structure cooperatively structured to define an axle-less assembly defined by the absence of a centrally disposed shaft.

15. An assembly as recited in claim 4 wherein said stator assembly comprises said plurality of conductive segments of said stator assembly disposed in adjacent, spaced relation to one another and collectively defining a continuous annular array disposed in surrounding relation to said central opening.

16. An assembly as recited in claim 15 wherein said stator assembly comprises at least two primary stator portions disposed in spaced apart, substantially opposing relation to one another and at least two secondary stator portions disposed in spaced apart, substantially opposing relation to one another; each of said primary and said secondary stator portions comprising a plurality of magnetic segments extending along the respective lengths thereof.

17. An electric rotating assembly comprising:

(a) a support structure including a plurality of rotor assemblies movably mounted thereon and at least one stator assembly fixedly mounted thereon,

(b) said stator assembly comprises a plurality of stator structures each disposed in cooperative alignment with a different one of said rotor assemblies so as to define an air gap there between,

(c) said plurality of rotor assemblies each rotationally connected so as to rotate relative to one another and relative to a correspondingly positioned one of said stator structures,

(d) said stator assembly disposed within said open interior portion in concentrically surrounded relation by said rotor assembly, and

(e) said stator assembly and support structure cooperatively structured to define an axle-less assembly defined by the absence of a centrally disposed supporting shaft.

18. An assembly as recited in claim 17 wherein each of said plurality of rotor assemblies are structured to rotate relative to one another at a different speed and torque and in the same or opposite directions.

19. An assembly as recited in claim 17 wherein each of said rotor assemblies comprises a plurality of conductive segments collectively disposed in a continuous annular configuration and in surrounding relation to a common open interior portion.

20. An assembly as recited in claim 19 wherein said plurality of stator structures are disposed within said open interior portion in concentrically surrounded relation by said plurality of rotor assemblies.

21. An assembly as recited in claim 20 wherein said plurality of rotor assemblies are disposed in a movably interconnected, stacked array and said plurality of stator structures are disposed in a fixed, interconnected stacked array.

22. An assembly as recited in claim 19 wherein each of said stator assemblies comprises a plurality of conductive segments disposed in operatively aligned relation to said conductive segments of a different one of said plurality of rotor assemblies, at least one of said plurality of rotor assemblies and a corresponding one of said pluralities of stator segments comprises respective conductive segments thereof being parallel to one another and disposed at a predetermined angular orientation relative to an upright orientation.

23. An assembly as recited in claim 22 wherein said predetermined angular orientation is between about 0 degrees and about 180 degrees.

24. An assembly as recited in claim 22 wherein said predetermined angular orientation is between about 45 degrees and about 135 degrees.

25. An assembly as recited in claim 22 wherein each of said stator assemblies comprises a plurality of conductive segments disposed in cooperatively aligned relation to said conductive segments of a different one of said pluralities of rotor assemblies, at least two of said pluralities of rotor assemblies and a corresponding one of said pluralities of stator assemblies comprise respective conductive segments thereof being parallel to one another and disposed at a predetermined angular orientation relative to an upright orientation.

26. An assembly as recited in claim 17 wherein one of said plurality of rotor assemblies is connected in driving relation to a first power takeoff assembly.

27. An assembly as recited in claim 26 wherein said first power takeoff assembly is located exteriorly of said plurality of rotor assemblies.

28. An assembly as recited in claim 26 wherein another of said plurality of rotor assemblies is connected in driving relation to a second power takeoff assembly.

29. An assembly as recited in claim 28 wherein said second power takeoff assembly is mounted exteriorly of an outer periphery of said plurality of rotor assemblies.

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