A stabilizer link of the present invention includes connecting parts that has a housing which supports a ball stud to be connected to the first or second structure so as to be swingable and rotatable, wherein the ball stud has a stud part extending from a spherical part and the housing houses a support member to support a spherical part of the ball stud in a spherical space so as to be slidable, wherein the support member includes: an opening where the spherical space is open for the stud part; a lubricant receiving part in a concave shape that faces the opening; and a wall surface that forms the spherical space for the spherical part to slide thereon and has recessed grooves formed on both sides or one side of a portion of the wall surface having the maximum inner radius about the central axis of the spherical space.

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 ball joint includes: a ball stud including a stud portion having one end portion connected to a structural member and another end portion, to which a ball portion is integrally joined; a housing made of metal and configured to support the ball portion to allow swinging and rotating movement of the ball portion; and a ball seat made of plastic and interposed between the housing and the ball portion. The ball seat includes a plurality of protrusions jutting out from the ball seat and inserted into a plurality of through holes formed in a bottom portion of the housing. The protrusions having pierced through the through holes are staked at their distal portions. The protrusion of the ball seat has a large diameter portion, whose diameter is larger than an inner diameter of the through hole, at its proximal portion proximal from the distal portion thereof.

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 swivelable and pivotable clip fastener for attaching two or more articles together is disclosed. The articles being attached may include electrical or fluid conduits or a substrate. The swivelable and pivotable clip fastener comprises a ball and socket construction for attaching a first article to a second article. The swivelable and pivotable clip fastener is easy to use. The clip fastener may be produced by additive manufacturing or a one-shot injection molding process. The ball and socket arrangement allows 360 degrees of rotation and pivoting of one article relative to the other. One or more slots are formed in the ball. The socket includes anti-release arms that are offset from one another. Optionally, the ball may be formed from a first material and the socket may be formed from a second material. A flash gate may attach the ball to the socket when the ball and socket are formed.

A ball joint (28) includes a socket assembly (60) that provides a locking feature designed to work in combination with the ball stud to retain a rotatable connection between the ball stud (30) and the ball socket. The socket assembly includes a socket housing (62) and an elastic retaining member (82) that cooperate to prevent ball stud disengagement under operating loads. The socket housing includes a sidewall (65) that has an extended length relative to some conventional socket housings, and the elastic member is disposed in a circumferential groove formed in an outer surface of the ball socket at a location corresponding to the extended length.

An insulated bearing includes an outer ring, an inner ring, and a plurality of rolling elements. At least one of the outer ring and an inner ring is made of metal, the plurality of rolling elements are provided between the outer ring and the inner ring, so as to be freely rolled, and at least one of the outer ring and an inner ring is coated with an insulating layer. The insulating layer is formed of a mixture in which silicon carbide and/or aluminum nitride as an additive are/is dispersed in aluminum oxide as a base matrix. The content of the additive is 1 to 40 mass % with respect to the total amount of the mixture.

The ball joint assembly includes a housing that has an inner wall which surrounds an open bore that extends along a central axis. The ball joint assembly further includes a ball stud with a ball portion that is received in the open bore of the housing and with a shank portion that projects out of the open bore through an open end of the housing. At least one bearing is also disposed in the open bore. The at least one bearing has a curved bearing surface which is in slidable contact with the ball portion of the ball stud for allowing the ball stud and the housing to rotate and articulate relative to one another. The bearing is made as a single, monolithic piece of nylon 4/6.

A ball joint is disclosed. The ball joint comprises: a ball stud comprising a ball; a bearing supporting the ball of the ball stud by surrounding same; a case bushing accommodating the bearing and one portion of the ball stud; a ball joint mounting case made of carbon fiber reinforced plastic (CFRP), accommodating the case bushing and coupling to a suspension arm; and a case cap accommodated inside the case bushing.

A control arm including a frame, a mounting structure on the frame, and a ball-and-socket joint on the frame. The ball-and-socket joint includes an insert formed of a resilient plastic material bonded in a complementary receptacle or socket of the frame. A ball portion of a ball-and-socket joint pin is rotatably arranged in the insert. A plastic material coating is provided on the ball portion and a metal coating is provided on the plastic material coating. When placed in the insert the metal coating of the ball portion contacts an inner surface of the insert.