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 that includes a ball stud; a second shaft having an end that defines a bore; 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; a centering device engaging the ends of the first and the second shaft, a portion of the centering device being rotatably received within the bore, the centering device comprising: a socket portion having an outer wall defining a socket that receives the ball stud and the outer wall includes a slot formed therein to provide clearance for a neck of the first shaft end, and a biasing mechanism disposed within the socket portion between the ball stud and an inside of the socket portion to axially bias the centering device into the second shaft; and a bushing device disposed in the bore to facilitate rotation of the second shaft about the centering device. 2. The joint assembly of claim 1 , wherein the centering device further comprises a shaft portion that extends into the bore of the second shaft. 3. A double cardan joint comprising: a first shaft having an end that includes a ball stud; a second shaft having an end, the first shaft and the second shaft being oriented at an angle relative to one another, the angle being between approximately 43° and approximately 83′; a first inner ring coupled to the first shaft; a second inner ring coupled to the second shaft; a first universal joint coupled to the first shaft; a second universal joint coupled to the second shaft; a sleeve coupled to the first and second universal joints, the first and second universal joints disposed within the sleeve; and a centering device engaging the end of the first shaft and the end of the second shaft, the centering device comprising a socket portion having an outer wall defining a receiving socket that receives the ball stud and a biasing mechanism disposed within the receiving socket that axially biases the centering device into the second shaft. 4. The double cardan joint of claim 3 , further comprising: a first set of bearing pins projecting from the first universal joint into the sleeve; and a second set of bearing pins projecting from the second universal joint into the sleeve, the first and second set of bearings pins establishing a jointed connection between the first and second universal joints and the sleeve for rotation of the sleeve in response to rotation of the first and second universal joints about their respective axes. 5. The double cardan joint of claim 3 , wherein the second shaft end comprises a bore to rotatably receive a portion of the centering device. 6. A double cardan joint comprising: a driven shaft having an end that includes a ball stud; a driving shaft having an end; a first universal joint coupled to the driven shaft; a second universal joint coupled to the driving shaft; a sleeve coupled to the first and second universal joints, the first and second universal joints disposed within the sleeve; a centering device engaging the end of the driven shaft and the end of the driving shaft, the centering device comprising a socket portion having an outer wall defining a receiving socket that receives the ball stud and a biasing mechanism disposed within the receiving socket that axially biases the centering device into the driving shaft; a first set of bearing pins projecting from the first universal joint into the sleeve; and a second set of bearing pins projecting from the second universal joint into the sleeve, the first and second set of bearings pins establishing a jointed connection between the first and second universal joints and the sleeve for rotation of the sleeve in response to rotation of the first and second universal joints about their respective axes, the driven shaft end comprises a bore to rotatably receive a portion of the centering device, and the outer wall includes a slot formed therein to provide clearance for a neck of the driven shaft end.