A joint assembly includes a first member having splines formed therein. A second member includes splines formed thereon and is coupled to the first member. The splines of the first member engage the splines of the second member. An access window is formed on the first member. A ring retains the first member to the second member. A seal extends across a joint between the first member and the second member and covers the access window. A portion of the ring is accessible through the access window following removal of the seal, where the ring can be manipulated to release the first member from the second member.

A vehicle steering device includes a positioning clip configured to align a pinion shaft with a joint portion of a steering shaft, wherein the pinion shaft includes a torsion bar and a tubular member having the torsion bar inserted thereinto, an upper end of the torsion bar is axially further away from the joint portion than an upper end of the tubular member, the positioning clip includes an inserted portion to be inserted into the tubular member, and a gap between the inserted portion and the tubular member is sealed.

A coupling is provided that includes a shaft, a hub, a retainer and a fastener. The shaft includes a plurality of shaft splines. The shaft splines are arranged circumferentially about an exterior of the shaft. The hub includes a plurality of hub splines, a hub bore and a hub fastener aperture. The hub splines are arranged circumferentially about the hub bore. The hub splines are mated with the shaft splines. The shaft is within the hub bore. The retainer includes a plurality of retainer splines, a retainer bore and a retainer fastener aperture. The retainer splines are arranged circumferentially about the retainer bore. A first of the retainer splines circumferentially overlaps and is axially next to a first of the shaft splines. The shaft is within the retainer bore. The fastener is within the hub fastener aperture and the retainer fastener aperture. The fastener connects the retainer to the hub.

A shaft coupling for connecting an upper shaft with a lower shaft within a pumping system is designed to handle a large tensile load between the upper and lower shafts. In some embodiments, the upper shaft includes a shaft ring groove and the coupling has a body and a first receiving chamber within the body that receives an end of the upper shaft. The coupling also includes an upper internal groove extending into the body from the first receiving chamber and an upper split ring that is configured to be compressed into a position occupying both the upper internal groove and the shaft ring groove of the upper shaft. Set screws compress the upper split ring into the shaft ring groove of the upper shaft. In another embodiment, the coupling includes a plurality of locking screws that extend through the body into corresponding lock screw grooves in the upper and lower shafts.

A transmission arrangement for a vehicle includes an axial direction and a radial direction, a rotatable gear wheel having radially outer teeth for meshing engagement with a further gear member, and axially protruding engagement members, a first annular transmission member arranged next to the gear wheel and having corresponding axially protruding engagement members in torque transmission engagement with the engagement members of the gear wheel, and an annular groove provided in a radially facing surface, a second annular transmission member in torque transmission engagement with the first annular transmission member and having an annular groove provided in a radially facing surface and arranged radially overlapping with the annular groove of the first annular transmission member such that said annular grooves jointly define an annular space, and a locking member located within said annular space for axial locking of the first and second annular transmission members relative to each other.

A transmission arrangement for a vehicle includes an axial direction and a radial direction, a rotatable gear wheel having radially outer teeth for meshing engagement with a further gear member, and axially protruding engagement members, a first annular transmission member arranged next to the gear wheel and having corresponding axially protruding engagement members in torque transmission engagement with the engagement members of the gear wheel, and an annular groove provided in a radially facing surface, a second annular transmission member in torque transmission engagement with the first annular transmission member and having an annular groove provided in a radially facing surface and arranged radially overlapping with the annular groove of the first annular transmission member such that said annular grooves jointly define an annular space, and a locking member located within said annular space for axial locking of the first and second annular transmission members relative to each other.

An operation handle which is linked to a shaft body and which is configured to operate the shaft body, the operation handle includes a handle main body, and a linking clip. The handle main body includes a cylindrical shape shaft body retaining portion fitted over the shaft body. The shaft body retaining portion includes a pair of clip-holding grooves. The linking clip includes a base portion and a pair of elastic legs which face each other via the base portion. Each of the pair of elastic legs includes a locking portion. The pair of elastic legs are inserted into the pair of the clip-holding grooves and the shaft body retaining portion is interposed from both sides by the pair of elastic legs and the linking clip is mounted in the shaft body retaining portion.

The invention relates to an impeller receptacle, in particular for an impeller of a fan, comprising at least one rotationally symmetrical body. The rotationally symmetrical body has a first end face, a second end face and a lateral face, wherein at least one radial bore extends radially from the lateral face into the rotationally symmetrical body and an assembly recess extends from the first end face into the radial bore. A detent ball having a ball diameter and a spring are arranged in the at least one radial bore, wherein the detent ball can be pressed radially outwards by means of the spring. The radial bore has at least one first, inner radial bore diameter and a second, outer radial bore diameter, the second, outer radial bore diameter being smaller than the ball diameter.

A top drive for well operations having a gearbox, a traction motor connected to the gearbox so that a motor shaft of the traction motor extends into the gearbox, a quill extending into the gearbox, a gear train positioned within the gearbox and mechanically connected between the traction motor shaft and the quill, and a connector positioned in the gear train, wherein in a coupled configuration the connector communicates torque through the gear train, and wherein in a decoupled configuration the connector does not communicate torque through the gear train. A method for operating a top drive by applying a first torque to a quill with two traction motors, disconnecting one of the traction motors from the quill, and applying a second torque less than the first torque to the quill with the non-disconnected traction motor.

A planetary gear train for a wind power plant includes a planetary stage rotating in a gear train housing, a spur gear stage downstream of the planetary stage, a sun wheel shaft which is non-rotatably connected to a sun wheel of the planetary gear stage, and a hollow shaft which is coaxially surrounded by a spur gear of the spur gear stage and is non-rotatably connected to the spur gear. The sun wheel shaft and the hollow shaft are non-rotatably connected to each other by a toothed coupling, with an outer toothing of the sun wheel shaft meshing with an inner toothing of the hollow shaft. The planetary gear train includes oil-guide ducts which produce a connection between an oil inlet connected to the gear train housing, on the one hand, and the toothed coupling and the axial contact surface, on the other hand.