Patent ID: 7648419
Filing Date: 2010-01-19
Classification: F16D,Y10S

Abstract:
1. A joint arrangement comprising a longitudinal displacement unit and a counter track joint, wherein said longitudinal displacement unit is arranged radially outside said counter track joint, said counter track joint is a constant velocity joint with a drive-side end and a driven-side end; said counter track joint including an inner hub with first inner track grooves and second inner track grooves, an outer hub having an inner surface with first outer track grooves and second outer track grooves arranged distributed alternately around the outer hub axis, said first inner track grooves and said first outer track grooves, and said second inner track grooves and said second outer track grooves, respectively, being disposed opposite each other to form first and second track groove pairs; and an annular cage disposed between said inner hub and said outer hub and guided on said inner hub, said annular cage having windows which hold rollers engaged in the track grooves for transmitting torque, said longitudinal displacement unit is constructed as a roller guide arrangement with inner and outer roller guide tracks extending parallel to each other in opposing pairs, said roller guide arrangement serving to transmit torque and permitting displacement movements along a longitudinal axis, and an outer cage located radially outside of said outer hub for control of roller separation, said one-piece outer cage being axially displaceable, at least two balls, received in said outer cage, are provided in each track pair of said longitudinal displacement unit, and said at least two balls or said outer cage of said longitudinal displacement unit exhibit a maximum displacement which is limited by a stop member, said stop member being formed on an outer surface of the outer hub; the inner guide tracks of the displacement unit are formed on an outer surface of the outer hub, and the inner track grooves are formed on the outer surface of the inner hub distributed alternately around the inner hub axis, wherein the inner hub in an assembled state comprises first and second mutually interlocking elements located substantially one behind the other along the inner hub axis, the first inner track grooves are disposed on said first element and the second inner track grooves are disposed on said second element; the cage of the joint is provided on its inner surface with first insertion surfaces extending without undercuts from the driven-side end toward the drive-side end and second insertion surfaces extending without undercuts from the drive-side end toward the driven-side end, said first and second insertion surfaces being configured to permit the mutually interlocking elements of the inner hub to be inserted into the cage from opposite ends and connected to each other; the elements of the inner hub have first and second centering surfaces adjacent the first and second inner track grooves, said first and second centering surfaces guiding first and second guide surfaces which are provided adjacent the insertion surfaces on the inner surface of the cage; the elements of the inner hub each comprise a cylindrical section from which protrusions extend, each of which forms an inner track groove and a cage centering surface, and the first inner track grooves extend without any undercuts starting from said drive-side end towards said driven-side end, whereby its track base approaches the inner hub axis, and the second inner track grooves extend without any undercuts starting from said driven-side end towards said drive-side end, whereby its track base approaches said inner hub axis.