An assembly of a rotating component and a rotationally stationary component includes a first bearing portion located at the rotating component and rotatable therewith, and a second bearing portion located at the rotationally stationary component. The second bearing portion is supported at the rotationally stationary component and rotatably with the rotating component when in contact with the first bearing portion. The first bearing portion and the second bearing portion define a single point contact therebetween.

An actuator assembly for a variable turbine geometry (VTG) turbocharger is disclosed. The actuator assembly may include an actuator and an actuator linkage having a first end coupled to the actuator and a second end defining a linkage joint. The actuator assembly may further include a VTG lever having a ball stud bore extending through the VTG lever. Additionally, the actuator assembly may include a ball stud including a first end partially disposed within the linkage joint and a second threaded end extending axially through the ball stud bore. Furthermore, a nut may be aligned with the ball stud bore and movably attached to the VTG lever prior to extending the ball stud through the ball stud bore, wherein the ball stud engages with the nut and fastens the ball stud to the VTG lever to operatively couple the VTG lever to the actuator linkage.

A pressure supply unit for a brake system including a booster body that defines an axially extending cylinder. A piston is slideable within the cylinder. The piston defines a bore that receives a spindle. The spindle is rotationally fixed and axially moveable for providing the axial movement of the piston. A motor is positioned about the spindle and is configured to axially translate the spindle and piston. A ball and socket joint connects the piston and spindle while accommodating pivoting movement of the spindle. The ball and socket joint includes a ball at a front end of the spindle and a socket in the bore of the piston which receives the ball.

A spherical joint includes a body portion and a blocking portion. The body portion includes a ball portion and a joint portion. The ball portion and the joint portion have an inner surface that links the two portions together in an axial direction and an outer surface opposite to the inner surface. The outer surface of the ball portion includes a spherical surface. The body portion further includes a first section and a second section. Each of the first section and the second section intersects with the inner surface and the outer surface such that the two sections together define a gap. The blocking portion is detachably connected to the body portion and shaped to match the gap, so that the blocking portion blocks the gap to form a hollow spherical joint structure. Further disclosed in the present application are a spherical joint assembly and an ultrasonic imaging device.

In accordance with embodiments of the invention there is provided an extraction system, and extraction apparatus (30) and method therefore in for removing studs from sockets. The system is particularly advantageous for removing one or more studs (28) from the sockets (24) of bell cranks (16) of steering systems of vehicles such as an Off-highway Truck. In a particular arrangement the apparatus (30) comprises a frame member (32) adapted to be attached to a pivot joint (14) for extraction of the stud (28) from the socket (16). Furthermore, the apparatus 30 comprises actuator means (34) adapted to be selectively displaced between an extended condition and a contracted condition for applying a force to the stud (28) so as extract or at least loosen the stud (28) from the socket (36). In a particular arrangement, the actuator (34) comprises a hydraulic actuator. The system is adapted to remotely operate the extraction apparatus (30).

A ball and socket joint (1) having non-smooth interlocking surfaces (15) wherein projections (8) and corresponding voids (7) mate when the socket (9) and ball (2) are clamped together to prevent the ball from slipping out of position while the ball and socket joint is in use and under pressure.

The invention relates to an indirect rear viewing system for a motor vehicle having a supporting element for fastening at least one reflective element, wherein the supporting element has a coupling region for a position variable fastening/attachment to an adjusting element, which in turn can be attached to the vehicle, wherein the coupling region contacts a counter contact regions, of the adjusting element, wherein interlocking anti rotation means are present on the supporting element and on the adjusting element, wherein the anti rotation means are forming an index geometry, which, in a first operating state, permits an adjustment of the supporting element relative to the adjusting element about two axes of rotation, which are transverse to one another, and, in at least a second operating state, permits a basic position change of the supporting element relative to the adjusting element about a third axis of rotation which is aligned transversely to the two other axes of rotation.

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.

An articulated stand including a first part and a second part. The first part is configured for holding an electronic device. The first part includes a ball pivot with a chamber and a connector. The chamber defined through the ball pivot. The connector accommodated at least partially in the chamber. The connector configured to electrically connect with a cable connector. The second part including a ball housing portion receiving the ball pivot to form a ball joint.

A ball and socket joint, including a pin located on either the socket or the ball and a groove located on the other of the socket or ball, the pin configured to engage the groove and translate along the length of the groove when the ball is located in the socket. An attachment surface for attaching a device to the ball and socket joint is also provided, and the pin and groove are arranged to prevent rotation of the ball about an axis that is parallel to the plane of the groove and extends through the attachment surface when the ball is located in the socket. A ball and socket joint includes a locking nut, the locking nut including a partly circular internal cross section and a second flat surface.