Abstract: A boot assembly for an articulating joint is provided, including an inner layer and an outermost layer. The inner layer is constructed from a first material and the outermost layer is constructed from a second material that is different from the first material. The outermost layer at least partially covers the inner layer, and the second material includes a self-repairing polymer.

Abstract: A boot assembly for an articulating joint is provided, including an inner layer and an outermost layer. The inner layer is constructed from a first material and the outermost layer is constructed from a second material that is different from the first material. The outermost layer at least partially covers the inner layer, and the second material includes a self-repairing polymer.

Abstract: A constant velocity joint includes an outer race and an inner race arranged within the outer race. The joint includes a cage arranged between the outer race and inner race and a rolling element arranged between the outer race and inner race. The cage includes relatively flat portions on an outer face the cage surrounding window areas that hold the rolling elements in place.

Abstract: A constant velocity joint has an outer part, an inner part, a plurality of balls, and a cage having windows for retaining the balls in the ball tracks of the outer and inner parts. The cage retains the balls in a plane. Corresponding pairs of outer and inner ball tracks guide the balls. Corresponding pairs of outer and inner ball tracks that are axially straight alternate with corresponding pairs of outer and inner ball tracks forming angles of intersection with respect to an axis. The outer part and the inner part operate in a normal axial range, there being at least one energy absorption surfaces located in the outer extended axial range or the inner extended axial range of either part. The energy absorption surface interferes with at least one of the balls when the joint is operated beyond the normal axial range.

Abstract: A constant velocity joint has an outer part, an inner part, a plurality of torque transmitting balls, and a cage having windows for retaining the balls in the ball tracks of the outer and inner parts. The balls are retained in a plane by the cage and guided by corresponding pairs of outer and inner ball tracks. The outer and inner ball tracks form angles of intersection with respect to an axis where the angles are identical in size but set in opposite directions to one another. The outer part and the inner part operate in a normal axial range, there being at least one energy absorption surfaces located in the outer extended axial range or the inner extended axial range. The energy absorption surface interferes with at least one of the torque transmitting balls when the joint is operated beyond said normal axial range.

Abstract: A constant velocity joint has an outer part, an inner part, a plurality of torque transmitting balls, and a cage having windows for retaining the balls in the ball tracks of the outer and inner parts. The balls are retained in a constant velocity plane by the cage and guided by corresponding pairs of outer and inner ball tracks. The cage has an outer spherical face guided in contact by an inner bore of the outer part and inner concave face rotatably guided in contact by the convex face of the inner part. The outer part having a normal axial range, an extended axial range, and at least one energy absorption surfaces located in the extended axial range. Wherein the energy absorption surface interferes with at least one of the torque transmitting balls when the joint is operated beyond said normal axial range.

Abstract: A crash optimized propeller shaft includes a swaged tube to connect ends having disparate diameters. The variable diameter tube creates a stress concentration zone which allows the shaft to collapse or buckle in a controlled and predictable manner in response to predetermined loads.

Abstract: A constant velocity joint with an outer part having innerly a normal range, an extended range, and a plurality of outer bores circumferentially spaced between a plurality of longitudinally extending tracks, Each track having a bottom spaced between two oppositely disposed sidetracks. An inner part is disposed within said outer joint part, having a plurality of sides circumferentially spaced between a plurality of trunions, each trunion having a top and an inner race. Also, a plurality of rollers each having an inner bore are mounted on said inner race of each trunion, whereby angular and axial displacement occur between the inner joint and the outer joint. Wherein at least one energy absorption surfaces is located in the extended range on the outer part. The energy absorption surface interferes with at least one of the rollers when the joint is operated beyond said normal range.

Abstract: To protect a joint from exposure to contaminants and loss of lubricant disposed within a joint a traditional joint includes a sealing system. Typically the sealing system includes a boot and a boot cover. To produce a more effective joint, the sealing system of the present invention further includes a shield to protect the boot and the boot cover from exposure to contaminants by providing a barrier therebetween. The joint of the present invention includes a shield having several embodiments including an elastomer sleeve, a rigid cylindrical tube and a thermoplastic second boot.

Abstract: A constant velocity joint includes an outer race and an inner race arranged within the outer race. The joint includes a cage arranged between the outer race and inner race and a rolling element arranged between the outer race and inner race. The cage includes relatively flat portions on an outer face the cage surrounding window areas that hold the rolling elements in place.

Abstract: A constant velocity joint has an outer part, an inner part, a plurality of torque transmitting balls, and a cage having windows for retaining the balls in the ball tracks of the outer and inner parts. The balls are retained in a plane by the cage and guided by corresponding pairs of outer and inner ball tracks. The outer and inner ball tracks form angles of intersection with respect to an axis where the angles are identical in size but set in opposite directions to one another. The outer part and the inner part operate in a normal axial range, there being at least one energy absorption surfaces located in the outer extended axial range or the inner extended axial range. The energy absorption surface interferes with at least one of the torque transmitting balls when the joint is operated beyond said normal axial range.

Abstract: A constant velocity joint has an outer part, an inner part, a plurality of torque transmitting balls, and a cage having windows for retaining the balls in the ball tracks of the outer and inner parts. The balls are retained in a constant velocity plane by the cage and guided by corresponding pairs of outer and inner ball tracks. The cage has an outer spherical face guided in contact by an inner bore of the outer part and inner concave face rotatably guided in contact by the convex face of the inner part. The outer part having a normal axial range, an extended axial range, and at least one energy absorption surfaces located in the extended axial range. Wherein the energy absorption surface interferes with at least one of the torque transmitting balls when the joint is operated beyond said normal axial range.

Abstract: A constant velocity joint has an outer part, an inner part, a plurality of balls, and a cage having windows for retaining the balls in the ball tracks of the outer and inner parts. The cage retains the balls in a plane. Corresponding pairs of outer and inner ball tracks guide the balls. Corresponding pairs of outer and inner ball tracks that are axially straight alternate with corresponding pairs of outer and inner ball tracks forming angles of intersection with respect to an axis. The outer part and the inner part operate in a normal axial range, there being at least one energy absorption surfaces located in the outer extended axial range or the inner extended axial range of either part. The energy absorption surface interferes with at least one of the balls when the joint is operated beyond the normal axial range.

Abstract: A constant velocity joint with an outer part having innerly a normal range, an extended range, and a plurality of outer bores circumferentially spaced between a plurality of longitudinally extending tracks, Each track having a bottom spaced between two oppositely disposed sidetracks. An inner part is disposed within said outer joint part, having a plurality of sides circumferentially spaced between a plurality of trunions, each trunion having a top and an inner race. Also, a plurality of rollers each having an inner bore are mounted on said inner race of each trunion, whereby angular and axial displacement occur between the inner joint and the outer joint. Wherein at least one energy absorption surfaces is located in the extended range on the outer part. The energy absorption surface interferes with at least one of the rollers when the joint is operated beyond said normal range.

Abstract: An improved constant velocity joint includes an outer race and an inner race arranged within the outer race. The joint includes a cage arranged between the outer race and inner race and a rolling element arranged between the outer race and inner race. The constant velocity joint outer race has a reduced diameter and a reduced head length for reduced weight, reduce packaging and easier installation into a vehicle driveline system.

Abstract: A crash optimized bracket for removably affixing a propeller shaft to a motor vehicle. The bracket includes an elongated member having a plurality of weakened slots to allow the bracket and the propeller shaft to tear from the vehicle upon impact in a controlled and predictable manner in response to predetermined loads.

Abstract: A flexible propeller shaft coupling affixes a propeller shaft to a drive line module or component. The coupling includes a flexible annular member having a plurality of recesses disposed about a common axis for receiving respective retention members and a plurality of bosses disposed about the common axis adapted to mate with a driveline module flange. A retaining member connects the coupling to the propeller shaft and the drive line module flange. The retaining member prevents the propeller shaft from decoupling from the vehicle in the event of a joint or fastener failure.

Abstract: An improved propeller shaft includes first and second ends affixable to a Mono-Block High Speed Fixed Joint and a Plunging Type VL Constant Velocity Joint, respectively. The first and second ends are separated by a connecting tube. The Plunging Joint functions to allow the engine and the power take-off unit to move without causing the connecting tube to move and to further allow the engine to move backwards in the first moments of impact.

Abstract: A crash optimized propeller shaft includes a swaged tube to connect ends having disparate diameters. The variable diameter tube creates a stress concentration zone which allows the shaft to collapse or buckle in a controlled and predictable manner in response to predetermined loads.

Abstract: An improved propeller shaft assembly includes a first constant velocity joint, a second constant velocity joint, and a propeller shaft having a first end including a corresponding first flange adapted to receive and be operatively coupled with the first constant velocity joint, and a second end including a corresponding second flange adapted to receive and be operatively coupled with the second constant velocity joint, wherein the second flange is not adapted to receive the first constant velocity joint thereby preventing improper installation of the propeller shaft in a motor vehicle.