A flywheel operated vehicle. The engine drives the flywheel using a differential axle, while also driving a pair of other differentials each of which is connected to a respective drive wheel. The rotation of half shafts of the pair of differentials are controlled to determine the extent of power tra
A flywheel operated vehicle. The engine drives the flywheel using a differential axle, while also driving a pair of other differentials each of which is connected to a respective drive wheel. The rotation of half shafts of the pair of differentials are controlled to determine the extent of power transferred from the flywheel to the drive wheels during acceleration, and determines the power transferred from the drive wheels to the flywheel during deceleration of the vehicle. The flywheel can be tilted about a roll axis of the vehicle to counteract roll tendencies of the vehicle when turning a sharp corner.
대표청구항▼
1. Apparatus for a vehicle driven by a rotary power source, comprising: a flywheel adapted for rotation, said flywheel rotating about a vertical axis so that left and right turns of the vehicle are not affected by gyroscopic effects of the rotating flywheel, where the flywheel is operatively coupled
1. Apparatus for a vehicle driven by a rotary power source, comprising: a flywheel adapted for rotation, said flywheel rotating about a vertical axis so that left and right turns of the vehicle are not affected by gyroscopic effects of the rotating flywheel, where the flywheel is operatively coupled to the vehicle to accelerate the vehicle;a main multi-shaft mechanism having a pair of half shafts and a drive shaft, one said half shaft driven by the rotary power source, and another said half shaft for driving drive wheels of the vehicle; anda drive shaft of said main multi-shaft mechanism connected to said flywheel for driving said flywheel and for being driven by said flywheel. 2. The apparatus of claim 1, further including a pair of multi-shaft mechanisms driven by respective drive shafts, each said main multi-shaft mechanism of said pair having two half shafts and a drive shaft, one half shaft of a first main multi-shaft mechanism of said pair of main multi-shaft mechanisms connected to drive a first drive wheel, one half shaft of a second multi-shaft mechanism of said pair of multi-shaft mechanisms connected to drive a second drive wheel, and a half shaft of said main multi-shaft mechanism driving the drive shafts of both said multi-shaft mechanisms of said pair of multi-shaft mechanisms. 3. The apparatus of claim 1, further including one or more bearings for mounting said main multi-shaft mechanisms for pivotal movement, whereby said flywheel pivotally moves with pivotal movement of said main multi-shaft mechanism. 4. The apparatus of claim 3, further including a driven gear externally attached to said main multi-shaft mechanism, and a motor connected to a drive gear, where said drive gear meshes with said driven gear so that the motor can be actuated to pivotally move said main multi-shaft mechanism. 5. The apparatus of claim 4, further including a program controlled computer and a sensor for sensing roll characteristics of the vehicle, and wherein said program controlled computer controls the pivotal movement of said flywheel as a function of the roll characteristics of the vehicle. 6. The apparatus of claim 3, wherein said main multi-shaft mechanism includes a half shaft enclosed by a tubular housing, and said bearing is mounted around said tubular housing. 7. The apparatus of claim 6, further including a computer for controlling one or more brakes as a function of the energy to be transferred to and from said flywheel. 8. The apparatus of claim 6, further including a generator connectable to at least one said control half shaft so that rotary movement thereof drives said generator. 9. The apparatus of claim 2, wherein each said multi-shaft mechanism of said pair of multi-shaft mechanisms includes a control half shaft, and further including a respective brake associated with the control half shaft of each multi-shaft mechanism of said pair of multi-shaft mechanisms. 10. The apparatus of claim 1, further including an auxiliary power source for spinning up said flywheel, and a clutch for connecting and disconnecting said flywheel with respect to said main multi-shaft mechanism, and a computer for controlling said clutch so that said flywheel can be taken off line and spun up by said auxiliary power source. 11. The apparatus of claim 10, further including a drive wheel connected to said auxiliary power source, where said drive wheel is frictionally engaged with said flywheel. 12. The apparatus of claim 11, further including a mechanism to move the drive wheel radially along a surface of said flywheel. 13. Apparatus for a vehicle driven by a rotary power source, comprising: at least one drive wheel for moving said vehicle on a ground surface;a source of power for accelerating the vehicle;a flywheel having a mass and when spinning providing sufficient energy to accelerate the vehicle;a main multi-shaft mechanism having a drive shaft, a first half shaft and a second half shaft;said source of power driving said first half shaft;said drive shaft of said main multi-shaft mechanism connected to said flywheel to spin said flywheel when the first half shaft of said main multi-shaft mechanism is driven by said source of power; andsaid second half shaft of said main multi-shaft mechanism for driving said at least one drive wheel. 14. The apparatus of claim 13, further including a wheel multi-shaft mechanism having a drive shaft, a first half shaft and a second half shaft, the first half shaft of said wheel multi-shaft mechanism for driving said drive wheel, the drive shaft of said wheel multi-shaft mechanism driven by the second half shaft of said main multi-shaft mechanism, and the second half shaft of said wheel multi-shaft mechanism connected to a controller for controlling a rotational speed of said second half shaft. 15. The apparatus of claim 14, wherein said wheel multi-shaft mechanism comprises a first wheel multi-shaft mechanism and said drive wheel comprises a first drive wheel, and further including a second wheel multi-shaft mechanism and a second drive wheel, said second wheel multi-shaft mechanism having a drive shaft, a first half shaft and a second half shaft, the first half shaft of said second wheel multi-shaft mechanism for driving said second drive wheel, the drive shaft of said second wheel multi-shaft mechanism driven by the second half shaft of said main multi-shaft mechanism, and the second half shaft of said second wheel multi-shaft mechanism connected to a controller for controlling a rotational speed of the second half shaft of said second wheel multi-shaft mechanism. 16. The apparatus of claim 13, wherein said first and second half shafts of said main multi-shaft mechanism are collinear with an axis, and further including means for rotating the main multi-shaft mechanism about said axis to thereby pivot said flywheel about said axis. 17. The apparatus of claim 13, wherein said main multi-shaft mechanism comprises one of a differential having a ring, pinion and spider gear, or a planetary gear system having sun and planetary gears. 18. A method of accelerating a vehicle with a flywheel, comprising: using rotary energy of a power source to drive a first shaft of a main multi-shaft mechanism;using the rotating energy of the first shaft of the main multi-shaft mechanism to drive a second shaft of the main multi-shaft mechanism to spin a flywheel connected to said second shaft; andusing the rotating energy of the first shaft of the main multi-shaft mechanism to drive a third shaft of the main multi-shaft mechanism for driving at least one wheel of the vehicle.
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