Centering mechanism for double cardan joints

Having thus described the invention, it is claimed: 1. A joint assembly comprising: a first shaft having an end provided with a ball stud and extending along a first axis; a second shaft having an end and extending along a second axis; a first inner ring coupled to the first shaft; a second inner ring coupled to the second shaft; a sleeve coupled to the first and second inner rings, the first and second inner rings disposed within the sleeve; and a centering device engaging the ends of the first and second shafts and extending into the second shaft, the centering device configured to maintain the angular positions of the first and second shafts relative to the sleeve, the centering device including a socket portion having an outer wall defining a receiving socket that receives the ball stud and the receiving socket defines a socket path, the socket path having a different orientation than the second axis. 2. The joint assembly of claim 1 , wherein the receiving socket receives at least a portion of the first shaft such that the portion is translatable within the receiving socket along the socket path. 3. The joint assembly of claim 1 , wherein the socket path is substantially linear. 4. The joint assembly of claim 1 , wherein the socket path is substantially arcuate. 5. The joint assembly of claim 1 , wherein the socket path is substantially parabolic. 6. The joint assembly of claim 1 , wherein the centering device includes a shaft portion that extends from the socket portion and extends into a bore formed in the second shaft. 7. The joint assembly of claim 6 , further comprising a bushing disposed in the bore to facilitate rotation of the second shaft about the centering device. 8. The joint assembly of claim 6 , wherein the outer wall includes a slot formed therein to provide clearance for a neck of the first shaft end. 9. The joint assembly of claim 1 , wherein the first shaft and the second shaft are oriented at an angle relative to one another, the angle being between approximately 43° and approximately 83°. 10. The joint assembly of claim 1 , wherein the sleeve receives the first shaft end and the second shaft end through opposite open ends and the sleeve includes axially aligned openings disposed transverse to the opposite open ends. 11. The joint assembly of claim 10 , wherein the first inner ring and the second inner ring each carry a bearing pin that is received within bearings disposed in the axially aligned openings. 12. A method of assembling a joint assembly, the method comprising: providing a first shaft having an end and extending along a first axis; providing a second shaft having an end and extending along a second axis; providing a first inner ring and a second inner ring, each carrying a bearing pin that is spaced apart from the first shaft and the second shaft; providing a sleeve having two sets of axially aligned openings; rotatably coupling the first inner ring to the sleeve and the first shaft, the first inner ring disposed within the sleeve; rotatably coupling the second inner ring to the sleeve and the second shaft, the second inner ring disposed within the sleeve; receiving each bearing pin within bearings disposed in the axially aligned openings; and providing a centering device engaging the ends of the first and second shafts, the centering device configured to maintain the angular positions of the first and second shafts relative to one another, the centering device including a receiving socket defining a socket path, the socket path having a different orientation than the second axis.