A continuously variable planetary gear set is described having a generally tubular idler, a plurality of balls distributed radially about the idler, each ball having a tiltable axis about which it rotates, a rotatable input disc positioned adjacent to the balls and in contact with each of the balls,
A continuously variable planetary gear set is described having a generally tubular idler, a plurality of balls distributed radially about the idler, each ball having a tiltable axis about which it rotates, a rotatable input disc positioned adjacent to the balls and in contact with each of the balls, a rotatable output disc positioned adjacent to the balls opposite the input disc and in contact with each of the balls such that each of the balls makes three-point contact with the input disc, the output disc and the idler, and a rotatable cage adapted to maintain the axial and radial position of each of the balls, wherein the axes of the balls are oriented by the axial position of the idler.
대표청구항▼
What is claimed is: 1. A continuously variable drive train system comprising: a continuously variable transmission (CVT) comprising: a plurality of balls arrayed angularly about a longitudinal axis, at least some of the plurality of balls having a respective axis of rotation; and a substantially cy
What is claimed is: 1. A continuously variable drive train system comprising: a continuously variable transmission (CVT) comprising: a plurality of balls arrayed angularly about a longitudinal axis, at least some of the plurality of balls having a respective axis of rotation; and a substantially cylindrical component mounted coaxially about the longitudinal axis, the cylindrical component located radially inward of the balls and configured to support a rolling motion of the balls; a rotatable cage configured to be rotatable about a longitudinal axis of the drive train, the rotatable cage configured to support the plurality of balls axially and radially, the rotatable cage configured to be selectively, operationally coupled or uncoupled to a load; a microcomputer configured to receive signals, process the signals, and output command signals; a speed sensor configured to provide to the microcomputer signals indicative of an output speed; wherein the microcomputer is configured to determine, based at least in part upon the signal indicative of the output speed, and output a signal indicative of a desired transmission ratio for the CVT; means for receiving the output signal indicative of the desired transmission ratio; and means for adjusting the axis of rotation of the plurality of balls to adjust a transmission ratio of the CVT to the desired transmission ratio, wherein the means for adjusting the axis of rotation are in communication with the means for receiving the output signal indicative of the desired transmission ratio. 2. The continuously variable drive train system of claim 1, further comprising means for adjusting an axial position of the cylindrical component. 3. The continuously variable drive train system of claim 1, further comprising a pedal sensor configured to provide to the microcomputer a signal indicative of a position of an accelerator pedal. 4. The continuously variable drive train system of claim 3, wherein the microcomputer is further configured to determine and output the signal indicative of the desired transmission ratio for the CVT based at least in part upon the signal indicative of the position of the accelerator pedal. 5. The continuously variable drive train system of claim 1, further comprising means for determining a selected transmission mode and providing a signal indicative of a selected transmission mode to the microcomputer. 6. The continuously variable drive train system of claim 5, wherein the microcomputer is further configured to determine and output a signal indicative of the desired transmission ratio based at least in part upon the signal indicative of the selected transmission mode. 7. The continuously variable drive train system of claim 6, wherein the selected transmission mode comprises a manual transmission mode. 8. The continuously variable drive train system of claim 1, wherein the means for receiving the output signal indicative of the desired transmission ratio comprises a motor controller. 9. The continuously variable drive train system of claim 1, wherein the means for adjusting the axis of rotation of the plurality of balls comprises a motor. 10. A system for controlling a transmission ratio in a drive train, the system comprising: a plurality of balls arrayed angularly about a longitudinal axis, each of the balls having an axis of rotation; a cylindrical component configured to provide radial support for the balls and located radially inward of the balls; a rotatable cage configured to be rotatable about a longitudinal axis of the drive train, the rotatable cage configured to support the plurality of balls axially and radially, the rotatable cage configured to be selectively, operationally coupled or uncoupled to a load; a first sensor configured to detect an output speed; means for determining a desired transmission ratio based at least in part on the detected output speed; a motor configured to facilitate an adjustment in the axis of rotation of the balls to, thereby, achieve the desired transmission ratio; and a motor controller, in communication with the means for determining the desired transmission ratio, the motor controller configured to command the motor to facilitate the adjustment in the axis of rotation of the balls. 11. The system of claim 10, wherein the means for determining a desired transmission ratio comprises a look up table. 12. The system of claim 10, wherein the means for determining a desired transmission ratio and the motor controller are coupled integrally.
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