A ball socket assembly, dust boot assembly therefor, and method of construction thereof are provided. The ball socket assembly includes a housing with an inner bore extending along a central axis. A bearing is disposed in the inner bore. A ball portion of a ball stud is disposed in sliding engagement with the bearing and a shank portion extends outwardly from the housing. A dust boot assembly having a tubular wall extends along the central axis between a distal end disposed about the shank portion and a proximal end in sealed engagement with the housing. The dust boot proximal end has an annular flange extending radially outwardly from the central axis. The annular flange has a cylindrical outer surface, a lower surface and an upper shoulder. An annular metal ring is disposed about and substantially encapsulates the cylindrical outer surface, lower surface and upper shoulder of the annular flange.

A ball socket assembly, bearing therefor, and method of construction thereof are provided. The ball socket assembly includes a housing with an inner bore extending between a closed first end region and an open second end region. A fiber-reinforced bearing is disposed in the inner bore. The bearing has a lower portion presenting a lower bearing surface having a first radius of curvature and an upper portion presenting an upper bearing surface having a second radius of curvature that is greater than the first radius of curvature. The lower bearing surface and the upper bearing surface surround a ball cavity in which a spherical ball portion of a ball stud is disposed. The housing second end region is plastically deformed radially inwardly to impart a bias on the bearing upper portion that causes the second radius of curvature to be biased substantially equal to the first radius of curvature.

The socket assembly includes a housing with an inner bore which extends between open first and second ends. A ball stud is partially disposed within the inner bore of the housing and includes shank, ball and protrusion portions with the shank portion extending out of the housing through the first end. A first bearing is disposed in the inner bore and includes a passage. The protrusion portion of the ball stud extends into the passage, and the passage is shaped to cooperate with the protrusion portion to allow the ball stud to rotate relative to said housing in one rotational direction by a greater magnitude than in another rotational direction. A cover plate closes the second open end of the housing, and a spring is disposed between the cover plate and the first bearing and biases the first bearing into contact with the ball portion of the ball stud.

The socket assembly includes a housing with an inner bore that extends from a wall at a closed end to an open end. A ball stud is received in the inner bore, and a shank portion of the ball stud projects out through the open end. A backing bearing is movably disposed in the inner bore. The backing bearing presents a bearing surface which is in sliding contact with a ball portion of the ball stud. An exit bearing is locked into a fixed position within the inner bore and has another bearing surface which is in sliding contact with the ball portion. A spring is positioned between the wall and the backing bearing and imparts a preload force against the backing bearing. The wall is deformed to preload the spring against the backing bearing and reduce clearances between components in the socket assembly.

The ball socket assembly includes a housing with an open interior which extends along an axis. A bearing is disposed in the open interior of the housing and has a curved primary contact surface which surrounds the axis and surrounds a stud ball opening. A stud ball is disposed in the opening and is in sliding contact with the primary contact surface for allowing rotation of the stud ball relative to the bearing. The stud ball has an equator and is in sliding contact with the bearing on both sides of the equator. A stud is operably connected with the stud ball. A shoe is further provided and has a pair of supplemental contact surfaces that are biased against the stud ball. The shoe provides the stud with a predetermined rotational torque and also adjusts for wear in the assembly to maintain the performance of the socket assembly.

A mounting apparatus for vehicle suspension ball joints that are firmly affixed for operation, are easily adjustable in a generally vertical direction for precise tuning of suspension geometry for dynamic performance in multiple axes using an array of cylindrical shims tuned to match fastener distance and height with a socket that has mounting bolts that engage a scalloped cap.

A method for producing a ball joint (18) and/or a chassis component (19), in which a joint ball (1) is made, in which the joint ball (1) is placed in an injection-molding die, in which the joint ball (1) is partially overmolded with a plastic material, and in which the plastic material is hardened to form an injection-molded joint housing (2) for the joint ball (1). A joint housing (2) is formed using the joint ball without a joint pin (10), and the joint ball (1) has respective pole surfaces (3, 4) on two sides remote from one another.

A closure element (1, 28) for a ball joint (16) in a vehicle. The closure element has a receptacle (2, 29) for accommodating an electronic component (6). To be able to reduce the effort and cost of creating an interface, between the closure element and the electronic component, the closure element (1, 28) has a receptacle (2, 29) which is made of a plastic material and is injection-molded onto one side (3) of the closure element (1).

A ball joint for a chassis of a vehicle. The ball joint has an inner joint portion (2) and a slide bearing (7). The inner joint portion (2) is movably fitted in the slide bearing (7). The ball joint further has a closure element (5) for closing a joint housing. The slide bearing (7) and the closure element (5) are connected to one another. To reduce the number of components and/or the number of assembly steps, the ball joint (1) is characterized in that the slide bearing (7), for the inner joint portion (2), is made as a single, one-piece plastic component (6).

A three-point suspension link has a housing supported by a ball joint so as to be rotatably and swivelably movable relative to an axle connection of the link. The link further has a captive securing arrangement functioning as a stop and extending perpendicular to the central axis of the axle connection so as to prevent a separation of the housing and axle connection in the event of failure of the ball joint. The captive securing arrangement extends perpendicular to the central axis of the axle connection operatively in two spatial directions. The three-point suspension link is formed as an axle guide link for guiding a rigid axle.