Variable speed accessory drive

The invention claimed is: 1. A variable speed drive mechanism comprising: a shaft extending along a central axis; a fixed disk concentric with and attached to the shaft, and rotatable with the shaft about the central axis; a plurality of pulley segments supported by the fixed disk and moveable relative to the fixed disk in a radial direction relative to the central axis; a moveable disk concentric with the shaft and rotatably moveable about the shaft relative to the fixed disk, wherein the moveable disk defines a spiral groove having a center concentric with the shaft on the central axis; wherein each of the plurality of pulley segments includes a guided groove portion engaged with and moveable along the spiral groove, such that rotation of the moveable disk about the shaft and relative to the fixed disk rotates the spiral groove about the central axis relative to the plurality of pulley segments, thereby moving the guided groove portion of each of the plurality of pulley segments along the spiral groove to move each of the plurality of pulley segments radially relative to the central axis; a drive actuator coupled to the moveable disk and operable to rotate the moveable disk relative to the fixed disk, wherein the drive actuator includes: a ball-screw mechanism interconnecting the shaft and the moveable disk, wherein the ball-screw mechanism is operable to convert linear movement directed along the central axis into rotational movement of the moveable disk about the central axis and relative to the fixed disk; wherein the ball-screw mechanism includes a drive portion concentric with and attached to the shaft, rotatable with the shaft about the central axis, and slideably moveable over the shaft along the central axis and relative to the moveable disk; and wherein the ball-screw mechanism includes a ballnut extending along the central axis, concentric with the shaft, and radially spaced from the shaft, wherein the ballnut is fixedly attached to and rotatable with the moveable disk, and wherein a radially inner surface of the ballnut defines a helical groove having a center concentric with the shaft on the central axis. 2. The variable speed drive mechanism set forth in claim 1 wherein the fixed disc includes a plurality of slots, with each of the plurality of slots extending radially outward relative to the central axis, and wherein each of the plurality of slots supports one of the plurality of pulley segments. 3. The variable speed drive mechanism set forth in claim 2 wherein each of the plurality of pulley segments includes a guided slot portion engaged with and moveable within a respective one of the plurality of slots in the fixed disk in response to rotation of the moveable disk relative to the fixed disk. 4. The variable speed drive mechanism set forth in claim 1 wherein each of the plurality of pulley segments includes an outer circumferential surface radially spaced from the guided groove portion a respective radial distance. 5. The variable speed drive mechanism set forth in claim 4 wherein the respective radial distance of each of the plurality of pulley segments is different from the respective radial distance of all of the other pulley segments. 6. The variable speed drive mechanism set forth in claim 5 wherein the respective radial distance of each of the plurality of pulley segments is sized so that the outer circumferential surface of the plurality of pulley segments substantially defines an annular surface concentric with the shaft when the guided groove portions of the plurality of pulley segments are engaged with the spiral groove. 7. The variable speed drive mechanism set forth in claim 1 wherein the ball-screw mechanism includes at least one ball supported by the drive portion and engaged with and moveable along the helical groove of the ballnut, such that linear movement of the drive portion along the central axis moves the at least one ball along the helical groove of the ballnut, thereby rotating the ballnut and the moveable disk relative to the fixed disk. 8. The variable speed drive mechanism set forth in claim 7 wherein the ball-screw mechanism includes a force provider coupled to the drive portion and operable to apply a force to the drive portion to move the drive portion linearly along the central axis. 9. The variable speed drive mechanism set forth in claim 1 further comprising a biasing device coupled to the drive actuator and operable to bias the drive actuator into a default position. 10. An engine for a vehicle, the engine comprising: an accessory device having an accessory pulley; a crankshaft; a variable speed drive mechanism coupled to the crankshaft; an endless rotatable device interconnecting the variable speed drive mechanism and the accessory pulley of the accessory device, and operable to transmit rotation therebetween; an adjustable tensioner biasing against the endless rotatable device and operable to maintain a constant tension in the endless rotatable device; wherein the variable speed drive mechanism includes: a shaft coupled to the crankshaft for rotation with the crankshaft about a central axis; a fixed disk concentric with and attached to the shaft, and rotatable with the shaft about the central axis; a plurality of pulley segments supported by the fixed disk and moveable relative to the fixed disk in a radial direction relative to the central axis; a moveable disk concentric with the shaft and rotatably moveable about the shaft relative to the fixed disk, wherein the moveable disk defines a spiral groove having a center concentric with the shaft on the central axis; wherein each of the plurality of pulley segments includes a guided groove portion engaged with and moveable along the spiral groove, such that rotation of the moveable disk about the shaft and relative to the fixed disk rotates the spiral groove about the central axis relative to the plurality of pulley segments, thereby moving the guided groove portion of each of the plurality of pulley segments along the spiral groove to move each of the plurality of pulley segments radially relative to the central axis; a drive actuator coupled to the moveable disk and operable to rotate the moveable disk relative to the fixed disk; wherein the fixed disc includes a plurality of slots, with each of the plurality of slots extending radially outward relative to the central axis, and wherein each of the plurality of pulley segments includes a guided slot portion engaged with and moveable within a respective one of the plurality of slots in the fixed disk in response to rotation of the moveable disk relative to the fixed disk; wherein the drive actuator includes a ball-screw mechanism interconnecting the shaft and the moveable disk, wherein the ball-screw mechanism is operable to convert linear movement directed along the central axis into rotational movement of the moveable disk about the central axis and relative to the fixed disk; wherein the ball-screw mechanism includes a ballnut extending along the central axis, concentric with the shaft, and radially spaced from the shaft, wherein the ballnut is fixedly attached to and rotatable with the moveable disk, and wherein a radially inner surface of the ballnut defines a helical groove having a center concentric with the shaft on the central axis; wherein the ball screw mechanism includes a drive portion concentric with and attached to the shaft, rotatable with the shaft about the central axis, and slideably moveable over the shaft along the central axis and relative to the ballnut and the moveable disk; and wherein the ball screw mechanism includes at least one ball supported by the drive portion and engaged with and moveable along the helical