A generator with relatively high (Length/Diameter) aspect ratio, which may be mounted within the rotating mast of a helicopter, and which may generate power that is conditioned by a rotating power conditioning unit and delivered to the rotating rotor blades without the use of slip rings, is disclose
A generator with relatively high (Length/Diameter) aspect ratio, which may be mounted within the rotating mast of a helicopter, and which may generate power that is conditioned by a rotating power conditioning unit and delivered to the rotating rotor blades without the use of slip rings, is disclosed. The generator may be arranged to take advantage of the available space within the mast. Temperature of the mast and generator may be controlled by varying the wall thickness of the mast wall and using cooling fins on the mast and a cooling dome.
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1. An onboard aircraft electrical generator comprising: a main mast including a central main shaft and an outer most rotary housing disposed about the central main shaft, said main mast having a lower end spaced from a main engine;said outer most rotary housing having a central elongated axis, said
1. An onboard aircraft electrical generator comprising: a main mast including a central main shaft and an outer most rotary housing disposed about the central main shaft, said main mast having a lower end spaced from a main engine;said outer most rotary housing having a central elongated axis, said outer most rotary housing adapted to drive an aircraft blade assembly, and said outer most rotary housing having an upper end proximal to and connected to the aircraft blade assembly, a lower end distal from the aircraft blade assembly and operatively connected to the main engine, and a varied cross-sectional thickness at points along the elongated axis;a first assembly disposed within the outer most rotary housing, said first assembly including an armature element or a field element, and having associated electrical terminals; anda second assembly disposed within the first assembly, said second assembly including a field element or an armature element. 2. The electrical generator of claim 1, wherein the outer most rotary housing has a tapered cross-sectional thickness. 3. The electrical generator of claim 2, wherein the outer most rotary housing has a cross-sectional thickness at the lower end which is greater than a cross-sectional thickness at the upper end. 4. The electrical generator of claim 2, wherein the outer most rotary housing has a cross-sectional thickness at the upper end which is greater than a cross-sectional thickness at the lower end. 5. The electrical generator of claim 1, further comprising a rectifier assembly disposed at the upper end of the outer most rotary housing, said rectifier assembly electrically connected to the electrical terminals associated with the first assembly. 6. The electrical generator of claim 1, further comprising a cooling housing contacting the upper end of the outer most rotary housing. 7. The electrical generator of claim 6, further comprising one or more cooling fins extending from the cooling housing. 8. The electrical generator of claim 6, further comprising a rectifier assembly disposed at the upper end of the outer most rotary housing and disposed within the cooling housing. 9. The electrical generator of claim 6, further comprising a modular rectifier bridge disposed at the upper end of the outer most rotary housing and disposed within the cooling housing. 10. The electrical generator of claim 1, further comprising one or more cooling fins extending from the outer most rotary housing. 11. The electrical generator of claim 1, wherein the first assembly includes dual three-phase armature elements electrically displaced from each other by an equal number of degrees. 12. The electrical generator of claim 1, wherein the first assembly includes two armature elements connected in series and spaced longitudinally along the central elongated axis. 13. The electrical generator of claim 12, wherein the two armature elements are six-phase armatures. 14. The electrical generator of claim 1, wherein the first assembly includes two armature elements connected in parallel and spaced longitudinally along the central elongated axis. 15. The electrical generator of claim 1, wherein the second assembly is adapted to rotate in a counter direction to rotation of the first assembly. 16. The electrical generator of claim 1, wherein the first assembly is disposed within and fastened to the outer most rotary housing, wherein said first assembly extends more than half of a distance between the outer most rotary housing upper end and lower end measured along the central elongated axis; andwherein said second assembly is disposed within the first assembly relative to the central elongated axis. 17. The electrical generator of claim 1, wherein the first assembly includes one or more sets of balanced poly-phase armature elements. 18. The electrical generator of claim 16, wherein the outer most rotary housing has a tapered cross-sectional thickness. 19. The electrical generator of claim 16, wherein the outer most rotary housing has a cross-sectional thickness at the lower end which is greater than a cross-sectional thickness at the upper end. 20. The electrical generator of claim 16, wherein the first assembly includes dual three-phase armature elements electrically displaced from each other. 21. The electrical generator of claim 16, wherein the first assembly includes two armature elements connected in series and spaced longitudinally along the central elongated axis. 22. The electrical generator of claim 21, wherein the two armature elements are six-phase armatures. 23. The electrical generator of claim 16, wherein the first assembly includes two armature elements connected in parallel and spaced longitudinally along the central elongated axis. 24. The electrical generator of claim 16, wherein the second assembly is adapted to rotate in a counter direction to rotation of the first assembly.
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