A bicycle seat post assembly includes a lower seat support secured to the frame, an upper seat support secured to the seat and movable relative to the lower seat support, and an adjusting mechanism coupling the lower seat support to the upper seat support. The adjusting mechanism includes a powered actuator engageable with both the lower seat support and the upper seat support and configured to move the upper seat support relative to the lower seat support, and a coupling device selectively connecting the powered actuator to one of the lower seat support or the upper seat support. The coupling device has a connected state wherein the powered actuator is operatively connected to the one of the lower seat support or the upper seat support and a disconnected state wherein the powered actuator is operatively disconnected to the one of the lower seat support or the upper seat support.

The present disclosure may include a leg comprising first and second tubes, the first tube inside of the second tube, a lock mechanism within the second tube, the lock mechanism including a plug, a ramp, and bearings configured to roll along the ramp and contact the ramp and at least an interior wall of the first tube such that as the one or more bearings contact the ramp and the interior wall of the first tube, motion of the second tube relative to the first tube is inhibited, and a third tube inside of the second tube, and in response to the third tube being substantially disposed within the second tube, a proximate end of the third tube configured to push the one or more bearings towards the plug, reducing the interference of the one or more bearings with the interior wall of the first tube.

The present disclosure may include a leg comprising first and second tubes, the first tube inside of the second tube, a lock mechanism within the second tube, the lock mechanism including a plug, a ramp, and bearings configured to roll along the ramp and contact the ramp and at least an interior wall of the first tube such that as the one or more bearings contact the ramp and the interior wall of the first tube, motion of the second tube relative to the first tube is inhibited, and a third tube inside of the second tube, and in response to the third tube being substantially disposed within the second tube, a proximate end of the third tube configured to push the one or more bearings towards the plug, reducing the interference of the one or more bearings with the interior wall of the first tube.

An actuator for a ram air turbine system includes a piston rod that is cylindrical in shape and centered about a centerline, and stow lock pawls supported by the piston rod and able to move radially. Each of the stow lock pawls has a crown with a crown radius. The actuator further includes a lock bolt extending along the centerline radially within the piston rod and configured to be axially movable within the piston rod between a stowed position and a deployed position. The actuator further includes rollers radially outward from the centerline configured to be guided by the lock bolt and a cylinder having a mating surface with a mating radius. The cylinder is positioned radially outward from the piston rod and configured to be axially movable between the stowed position and the deployed position. A ratio of the crown radius of the stow lock pawls to the mating radius of the cylinder is less than 0.98.

A telescoping assembly includes a rod with a recess in the rod. A first collar surrounds the rod, and a detent extends through the first collar. A second collar surrounds at least a portion of the first collar. The second collar has a locked position biasing the detent radially inward through the first collar and against the recess in the rod and an unlocked position allowing the detent to move radially outward through the first collar and away from the rod.

A hold open rod may include: an inner member; an outer member configured to have the inner member slide in and out of the outer member; a locking mechanism including a portion attached to the outer member and a portion attached to the inner member; a locking plug configured to move axially along an axis of the inner, outer members; a locking dog configured to move radially between a locking position and an unlocking position and a release cable operatively connected to the locking plug and configured to move the locking plug to the unlocking position. A method of actuating a lock mechanism on a hold open rod may also be provided.

An automatic leg tube locking device including a hollow cylinder shaped guide switch and a circular truncated cone shaped guide post which are mutually matched for use. Through holes are evenly formed in the side surface of the guide switch, the through holes are adapted with locking shafts, a transmission mechanism is arranged between the guide switch and the guide post, so that the guide switch vertically moves along the inclined cylinder surface of the guide post and drives the locking shafts to move along the guide post when the guide switch and the guide post rotate relative to each other. A photography tripod, a unipod and a crutch are further provided. The automatic leg tube locking device, the photography tripod, the unipod and the crutch are capable of pulling the leg tube to any position and lock the leg tube automatically in a locking state.

A linear bearing clutch includes a first surface, a second surface, one or more contact elements, and a holding device. The first surface includes a tapered surface. The second surface includes a flat or curved surface. The holding device is configured to hold the one or more contact elements. The first surface is configured to permit motion of the one or more contact elements along a first direction of the second surface and restrict motion of the one or more contact elements in a second direction of the second surface, the second direction being opposite the first direction.

A telescopic pipe assembly that can be quickly locked is provided, which includes a first pipe fitting, a second pipe fitting, and a third pipe fitting that are sequentially connected and can move relative to each other in an axial direction. The second pipe fitting is provided with a main locking mechanism that limits a relative movement between the second pipe fitting and the first pipe fitting, and a secondary locking mechanism that limits a relative movement between the second pipe fitting and the third pipe fitting. The main locking mechanism and the secondary locking mechanism are respectively connected to an interlocking mechanism. When the main locking mechanism limits the relative movement between the second pipe fitting and first pipe fitting, the interlocking mechanism causes the secondary locking mechanism to limit the relative movement between the second pipe fitting and the third pipe fitting.

The present invention discloses a telescopic tube assembly for furniture supports. The telescopic tube assembly comprises a first tube body and a second tube body that are nested together and can slide relative to each other. A steel ball is installed on the first tube body, and the wall of the first tube body has a mounting hole to accommodate the steel ball. The second tube body is sleeved over the first tube body, and the wall of the second tube body has a steel ball hole corresponding to the steel ball. The outer side of the second tube body is equipped with a pressing plate for pressing the steel ball inward, and the outer wall of the second tube body is fitted with a protective cover that encloses the end of the pressing plate.