Universal Joint With Protective Shield

What is claimed is: 1 . A constant velocity joint comprising: a ring having a ring axis and adapted for fixation to a flange of a powertrain component; a shaft having a shaft axis not constrained to be coincident with the ring axis, the shaft coupled to the ring such that a rotational speed of the shaft and a rotational speed of the ring are constrained to be equal; a flexible boot fixed to the ring and to the shaft to seal a cavity containing a lubricating fluid; and a protective shield having a rigid portion fixed to the ring and extending axially over the flexible boot and having a flexible portion fixed at an outer edge to the rigid portion and contacting the shaft at an inner edge of the flexible portion. 2 . The constant velocity joint of claim 1 wherein the protective shield comprises at least two circumferential segments each fixed to the ring by bolts and a washer. 3 . The constant velocity joint of claim 1 wherein the flexible portion defines a plurality of truncated conical panels having alternating orientation. 4 . A universal joint comprising: a ring having a ring axis; a shaft coupled to the ring and having a shaft axis non-coincident with the ring axis; a flexible boot fixed to the ring and to the shaft; a rigid shield fixed to the ring and extending axially over the flexible boot; and a flexible shield fixed at an outer edge to the rigid shield and contacting the shaft at an inner edge. 5 . The universal joint of claim 4 wherein the rigid shield comprises multiple circumferential segments. 6 . The universal joint of claim 4 wherein the flexible shield defines a plurality of truncated conical panels having alternating orientation. 7 . The universal joint of claim 4 wherein the flexible shield comprises multiple circumferential segments. 8 . The universal joint of claim 7 wherein each circumferential segment defines a plurality of truncated conical panels having alternating orientation. 9 . The universal joint of claim 4 wherein an instantaneous rotational speed of the ring with respect to the ring axis is constrained to be equal to an instantaneous rotational speed of the shaft with respect to the shaft axis at all rotational positions of the shaft. 10 . The universal joint of claim 9 further comprising: six balls each configured to roll within a respective convex groove in the shaft and within a respective concave groove in the ring. 11 . A vehicle driveshaft comprising: a shaft having a shaft axis and adapted for fixation at a first end to a differential; a ring adapted for fixation to a transmission and coupled to a second end of the shaft to rotate about a ring axis non-coincident with the shaft axis; a flexible boot fixed to the ring and to the shaft; a rigid shield fixed to the ring and extending axially over the flexible boot; and a flexible shield fixed at an outer edge to the rigid shield and contacting the shaft at an inner edge of the flexible shield. 12 . The driveshaft of claim 11 wherein the rigid shield comprises multiple circumferential segments. 13 . The driveshaft of claim 11 wherein the flexible shield defines a plurality of truncated conical panels having alternating orientation. 14 . The driveshaft of claim 11 wherein the flexible shield comprises multiple circumferential segments. 15 . The driveshaft of claim 14 wherein each circumferential segment defines a plurality of truncated conical panels having alternating orientation.