A connector having a spring configured to change a dimension such as diameter or length in response to a change in a force applied to it, wherein the spring is biased in a radial or longitudinal direction towards a natural dimension. The connector including a dimension control portion configured to restrict the change in dimension in a direction away from the bias of the spring.

The present utility relates a locking mechanism of movable equipment, including: a first torsion spring, enclasping the movable equipment; a first connection assembly, wherein one end of the first torsion spring is fixed with the first connection assembly; and a switch, fixed with the other end of the first torsion spring, wherein when the switch is rotated, the first torsion spring is twisted, and a diameter of an inner hole of the first torsion spring is increased to release the locking of the movable equipment. The present utility model is advantageous for reducing the production cost of the movable equipment.

A bipod for a rifle traditionally has a release button/bracket in the front of the adjustable leg. To release the adjustable leg the shooter must reach forward and push the button/bracket. This forces the shooter to lose the aligned shooting position on the target. The present invention provides a rearward facing lever that the shooter can depress with his free arm while maintaining the shooting position and his finger on the trigger. The lever can be folded up to a neutral position for use in the prior art fashion or for storage. The lever has a pivot arm that pulls the stopper in a ring bracket rearward out of the traditional locking grooves located along the adjustable leg. The invention is suited for either a retrofit or factory new embodiment.

According to one aspect of the present invention there is provided an adjustable mechanism for connecting two or more shafts, including at least a first shaft having an external surface with an outer diameter and a second shaft which is hollow at a first end, wherein a spring is anchored to the first end of the second shaft, the spring having an inner diameter of similar dimensions to the outer diameter of the first shaft, the spring configured such that when a force is applied to the spring its inner diameter is greater than the outer diameter of the first shaft so that the second shaft can move over the first shaft to a desired position relative to the first shaft, and when the force is no longer applied to the spring it is biased to return to its original inner diameter to bear against the external surface of the first shaft.

A steering device for small vehicles has a transverse control arm which is situated on a height-adjustable handlebar formed form two telescopic tubes. The inner tube has at least two openings or grooves which are formed at different heights and into which a latching element mounted in the outer tube can latch into position. A height-adjustment and locking device in the form of a clamping sleeve surrounds the two tubes at their connection point and is displaceable along the inner tube in the direction of the outer tube against the force of a spring. The locking device is provided, on its inner side, with a conically tapering end portion which engages around the outer tube and, in the relaxed state of the spring, acts on an outer surface of the latching element, which protrudes radially outward through an opening in the outer tube, and presses the latching element radially inward.

A linear motion assembly including a component having a longitudinal axis and adapted to translate along the longitudinal axis, and a bearing comprising a spiral body including a substrate and a low friction material, wherein the bearing extends around the component and provides a low friction interface for translation of the component, and wherein the bearing is adapted to prevent longitudinal translation of the component in a locked condition and permit longitudinal translation of the component in an unlocked condition. In an embodiment, the bearing is adapted to transition between the locked and unlocked conditions upon circumferential translation of an axial end of the spiral body, longitudinal translation of an axial end of the spiral body, or a combination thereof.

A telescoping pipe fitting has a telescoping pipe body with an inner pipe and an outer pipe movably sleeved outside the inner pipe. One end of the inner pipe is at least provided with two non-slip sheets. An elastic member configured to extrude the non-slip sheets to stretch outwards and cling to the inner wall of the outer pipe is positioned between the non-slip sheets. The length of the telescoping pipe fitting can be changed only when a user applies an external force that overcomes the frictional force between the inner pipe and the outer pipe. When the external force is withdrawn, the entire length of the telescoping pipe fitting is fixed and unchanged.

A linear motion assembly including a component having a longitudinal axis and adapted to translate along the longitudinal axis, and a bearing comprising a spiral body including a substrate and a low friction material, wherein the bearing extends around the component and provides a low friction interface for translation of the component, and wherein the bearing is adapted to prevent longitudinal translation of the component in a locked condition and permit longitudinal translation of the component in an unlocked condition. In an embodiment, the bearing is adapted to transition between the locked and unlocked conditions upon circumferential translation of an axial end of the spiral body, longitudinal translation of an axial end of the spiral body, or a combination thereof.