One aspect of the present invention is related to a ball socket assembly that includes a housing with an inner bore and at least one open end. The ball socket assembly also includes a ball stud which is partially received in the inner bore of the housing. An exit bearing supports the ball stud and is positioned in the inner bore adjacent the at least one open end. The exit bearing includes a plastic piece and a metal piece which are connected with one another. The metal piece has a semi-conical shape. The housing is deformed adjacent the at least one open end to capture the exit bearing within the inner bore. In operation, the metal piece reinforces the plastic piece to transfer forces between the ball stud and the housing.

The ball joint includes a metal ball stud which includes a ball section and a resin housing which rotatably supports the ball section of the ball stud. A limiting member configured to limit molding shrinkage of the housing is embedded in the housing at an interval with respect to an equatorial section of the ball section such that the limiting member is positioned to surround at least the equatorial section of the ball section.

The pivot joint assembly includes a housing with an opening which extends along an axis. A bearing is received in the opening and which has a cylindrical outer surface that is in slidable contact with another surface so that the bearing can slide in an axial direction relative to the housing. The bearing has a curved inner bearing surface. The pivot joint assembly also includes an inner ring with a curved outer surface that is in slidable contact with the curved inner bearing surface of the bearing so that the inner ring can rotate and articulate relative to the housing.

One aspect of the present invention is related to a ball socket assembly that includes a housing with an inner bore and at least one open end. The ball socket assembly also includes a ball stud which is partially received in the inner bore of the housing. An exit bearing supports the ball stud and is positioned in the inner bore adjacent the at least one open end. The exit bearing includes a plastic piece and a metal piece which are connected with one another. The metal piece has a semi-conical shape. The housing is deformed adjacent the at least one open end to capture the exit bearing within the inner bore. In operation, the metal piece reinforces the plastic piece to transfer forces between the ball stud and the housing.

The socket assembly includes a housing with an inner bore that extends along a central axis from a generally closed first end to an open second end. The socket assembly also includes a ball stud which includes a ball portion and a shank portion. The ball portion is received in the inner bore of the housing, and the shank portion projects out of the inner bore through the open second end. A backing bearing is disposed in the inner bore. The backing bearing has a curved bearing surface that is in slidable contact with the ball portion of the ball stud. The backing bearing includes a polymeric piece and a metal sleeve which surrounds the polymeric piece to resist radial expansion of the polymeric piece.

A radial ball joint (1, 50, 70) for a vehicle having a housing (2, 51) for holding a joint ball (11) of a ball stud (6) so that the ball stud can rotate and pivot. An upper bearing shell (7), made from a steel sheet, is arranged between an inside wall (10) of the housing (2, 51) and the joint ball (11). The upper bearing shell (7) is in contact with the joint ball (11) over a contact zone (21) to provide the joint ball (11) with a circumferential slide bearing between its equator (12) and its upper pole (13). The upper bearing shell (7) is in the form of an annular, circumferentially closed drawn component and has in the contact zone (21) with the joint ball (11). A number of lubrication grooves (14), pass through a wall (20) of the upper bearing shell (7), in an embossment manner.

The pivot joint assembly includes a housing with an opening which extends along an axis. A bearing is received in the opening and which has a cylindrical outer surface that is in slidable contact with another surface so that the bearing can slide in an axial direction relative to the housing. The bearing has a curved inner bearing surface. The pivot joint assembly also includes an inner ring with a curved outer surface that is in slidable contact with the curved inner bearing surface of the bearing so that the inner ring can rotate and articulate relative to the housing.

A ball pin connector includes a sleeve-like housing having a cavity with an elastic ball bearing. The elastic ball bearing is axially moveable between a lifted up position, and a lower locking position. Cooperating surface structures are provided on an inner wall of the housing and on an outer wall of the elastic ball bearing as a plurality of projecting surface structures arranged circumferentially distributed with gaps in between such that in a first rotational state of the elastic ball bearing within the housing the projecting surface structures are aligned to be able to come into engagement such that the elastic ball bearing is held in the lifted up position, and such that in a second rotational state of the elastic ball bearing the projecting surface structures of the elastic ball bearing are aligned with gaps of the projecting surface structures of the housing.

A ball joint assembly for a vehicle suspension includes a control arm configured to connect to or engage a frame of a vehicle, a ball, a taper connected to the ball, the taper configured to connect to or engage a steering knuckle that connects to a wheel of the vehicle, and/or a housing comprising an adapter system configured to connect to the control arm. The ball at least partially in the housing with grease at least partially between the ball and the housing. The housing, the ball, and the taper are configured for the housing and the ball to articulate relative to each other to provide a predetermined angularity of movement in all 360 degrees of orientation with a predetermined minimum pullout force in all 360 degrees of orientation.

A spherical bearing device includes a shaft member, a turnable body, and a bearing. The shaft member has a shaft body and a spherical body having a first engaging portion. The turnable body has a second engaging portion that is engaged with the first engaging portion in a first rotational direction about a first axis passing through a center of the spherical body, and allows other rotations. The bearing is provided with a first space and a second space. The first space accommodates the spherical body spherically slidably. The second space accommodates the turnable body such that the turnable body is turnable, and allows the shaft body to move.