Continuously variable transmission driving pulley

What is claimed is: 1. A driving pulley for a continuously variable transmission comprising: a first shaft having a plurality of axially extending first grooves; a fixed sheave disposed on the first shaft, the fixed sheave being axially and rotationally fixed relative to the first shaft; a second shaft disposed around the first shaft and having a plurality of axially extending second grooves, the first and second grooves being equal in number, at least some of the plurality of second grooves being angularly offset from corresponding first grooves of the plurality of first grooves; a plurality of ball bearings disposed radially between the first and the second shafts, each one of the plurality of ball bearings being disposed in one of the plurality of first grooves and in a corresponding one of the plurality of second grooves; a movable sheave disposed on the second shaft, the movable sheave being axially and rotationally fixed relative to the second shaft, the movable sheave and the second shaft being movable axially relative to the fixed sheave and the first shaft, the movable sheave and the second shaft being rotationally fixed relative to the fixed sheave and the first shaft by the plurality of ball bearings; at least one first seal disposed radially between the first and the second shafts and axially between the plurality of ball bearings and the fixed sheave; at least one second seal disposed radially between the first and the second shafts and axially between the plurality of ball bearings and an end of the second shaft, the movable sheave being disposed axially between the end of the second shaft and the fixed sheave; a cavity defined axially between the at least one first seal and the at least one second seal and radially between the first and the second shafts, the plurality of ball bearings being disposed in the cavity, the cavity being adapted to be filled at least in part with lubricant; a housing disposed on the first shaft, the housing being axially and rotationally fixed relative to the first shaft, the movable sheave being disposed axially between the housing and the fixed sheave; at least one weighted arm being pivotally connected to one of the movable sheave and the housing, the at least one weighted arm pivoting away from the first shaft and pushing against an other one of the movable sheave and the housing as a speed of rotation of the driving pulley increases, thereby moving the movable sheave and the second shaft axially toward the fixed sheave; and a spring biasing the movable sheave and the second shaft axially away from the fixed sheave. 2. The driving pulley of claim 1 , wherein: one of the housing and the first shaft has at least one key; an other of the housing and the first shaft has at least one keyway; and the at least one key is received in the at least one keyway. 3. The driving pulley of claim 2 , wherein: the first shaft has the at least one key; the housing has the at least one keyway; the at least one key is a plurality of keys forming external splines; and the at least one keyway is a plurality of keyways forming internal splines. 4. The driving pulley of claim 1 , further comprising at least one roller connected to the other one of the movable sheave and the housing, the at least one roller being aligned with the at least one weighted arm; wherein the at least one weighted arm pushes against the roller as the speed of rotation of the driving pulley increases. 5. The driving pulley of claim 4 , wherein the at least one weighted arm is pivotally connected to the movable sheave and the at least one roller is connected to the housing. 6. The driving pulley of claim 1 , wherein at least two of the plurality of ball bearings are disposed in each set of corresponding first and second grooves. 7. The driving pulley of claim 1 , wherein: half of the second grooves of the plurality of second grooves are angularly offset from the corresponding first grooves in a clockwise direction; and a remaining half of the second grooves of the plurality of second grooves are angularly offset from the corresponding first grooves in a counter-clockwise direction. 8. The driving pulley of claim 1 , wherein; the first grooves of the plurality of first grooves are equally spaced from one another; and the second grooves of the plurality of second grooves are unequally spaced from one another. 9. The driving pulley of claim 1 , wherein: the plurality of ball bearings moves toward the fixed sheave as the movable sheave and the second shaft move axially toward the fixed sheave; and the plurality of ball bearings moves away from the fixed sheave as the movable sheave and the second shaft move axially away from the fixed sheave. 10. The driving pulley of claim 1 , wherein the spring is compressed as the movable sheave and the second shaft move axially toward the fixed sheave. 11. The driving pulley of claim 10 , wherein the spring is disposed radially between the housing and the second shaft. 12. A continuously variable transmission comprising: the driving pulley of claim 1 ; a driven pulley having a fixed sheave and a movable sheave; and a belt disposed between the fixed and movable sheaves of the driving pulley and between the fixed and movable sheaves of the driven pulley, the belt transmitting torque from the driving pulley to the driven pulley. 13. A vehicle comprising: an engine; the continuously variable transmission of claim 12 , the driving pulley being operatively connected to the engine and being driven by the engine; and a propulsion element operatively connected to the driven pulley and propelling the vehicle. 14. The vehicle of claim 13 , wherein the propulsion element is an endless drive track and the vehicle is a snowmobile. 15. The driving pulley of claim 1 , further comprising lubricant disposed in the cavity and filling the cavity at least in part. 16. The driving pulley of claim 1 , wherein the housing includes an inner sleeve disposed radially between the first and second shafts. 17. The driving pulley of claim 16 , wherein the at least one second seal is disposed radially between the inner sleeve and the second shaft. 18. The driving pulley of claim 17 , wherein the cavity is defined radially between: the second shaft, and the first shaft and the inner sleeve. 19. The driving pulley of claim 16 , wherein the plurality of ball bearings is disposed axially between the at least one first seal and the inner sleeve. 20. A driving pulley for a continuously variable transmission comprising: a first shaft having a plurality of axially extending first grooves; a fixed sheave disposed on the first shaft, the fixed sheave being axially and rotationally fixed relative to the first shaft; a second shaft disposed around the first shaft and having a plurality of axially extending second grooves; a plurality of ball bearings disposed radially between the first and the second shafts, each one of the plurality of ball bearings being disposed in one of the plurality of first grooves and in a corresponding one of the plurality of second grooves; a movable sheave disposed on the second shaft, the movable sheave being axially and rotationally fixed relative to the second shaft, the movable sheave and the second shaft being movable axially relative to the fixed sheave and the first shaft, the movable sheave and the second shaft being rotationally fixed relative to the fixed sheave and the first shaft by the plurality of ball bearings; at least one fir