A front two-wheel leaning vehicle, including a handle, a steering shaft, a linkage mechanism and a load transfer mechanism. The load transfer mechanism includes a left-foot-placing part and a right-foot-placing part located between the left front wheel and the rear wheel, for left and right feet of the driver to be respectively placed thereon. The load transfer mechanism transfers a load to the left and right portions of the linkage mechanism through the left-foot-placing part and the right-foot-placing part, or through the right-foot-placing part and the left-foot-placing part, respectively. The steering shaft includes a handle adjusting mechanism configured to adjust, with respect to the left-foot-placing part and the right-foot-placing part, at least one of a handle height, which is a distance from a midpoint between the left and right front wheels to the grip, or an offset amount of the handle with respect to a rotation axis of the steering shaft.

A leaning vehicle having a linkage mechanism supported by a linkage support part. The linkage mechanism includes left and right side members and a lower cross member. The lower cross member has a front cross part, a rear cross part, a coupling part coupling the front and rear cross parts, and a foreign-matter-entering-suppression part. The left and right side members are respectively rotatable about left and right axes extending in a front-rear direction of a vehicle body frame. The front and rear cross parts are rotatable about an intermediate axis parallel to the left and right axes. The foreign-matter-entering-suppression part fills a gap between the linkage support part, or the left or right side member, and the coupling part. The coupling part has a recess configured to accommodate the foreign-matter-entering-suppression part when the front and rear cross parts rotate with respect to the linkage support part.

A handlebar stem connection mechanism for connecting a handlebar stem with a front wheel fork comprises a steerer tube connectible with the front wheel fork. Further, a handlebar stem tube connectible with the handlebar stem is provided, the handlebar stem tube surrounding the steerer tube. Using a clamping element arranged between the steerer tube and the handlebar stem tube, the steerer tube is clampingly connected with the handlebar stem tube. For fixing, in particular a screw is provided in the clamping element as the fixing element.

A handlebar stem connection mechanism for connecting a handlebar stem with a front wheel fork comprises a steerer tube connectible with the front wheel fork. Further, a handlebar stem tube connectible with the handlebar stem is provided, the handlebar stem tube surrounding the steerer tube. Using a clamping element arranged between the steerer tube and the handlebar stem tube, the steerer tube is clampingly connected with the handlebar stem tube. For fixing, in particular a screw is provided in the clamping element as the fixing element.

A motorcycle handlebar riser having upper and lower members. The upper member has a proximal end and a distal end. A first vertical plane laterally bisects the upper member. The upper member distal end has a bar bed to hold a handlebar. The upper member proximal end has a generally flat first attachment face oriented at a predetermined angle relative to the first vertical plane. The lower member has a proximal end and a distal end that releasably attaches to the motorcycle front fork. A second vertical plane laterally bisects the lower member. The lower member proximal end has a generally flat second attachment face oriented at a predetermined angle relative to the second vertical plane. The riser assembles in a first configuration when the attachment faces are axially aligned in one orientation and assembles in a second configuration when the attachment faces are axially aligned in a different orientation.

A bicycle handlebar stem or stem/handlebar assembly has an inclined linear travel approximately 45 degrees from horizontal. This inclined path mimics a rider's natural arm inclination and pitching moment. 45 degrees is nearly ideal for most dropped bar road bicycles but different style bicycles may have an ideal angle between 30 and 60 degrees.

A bicycle handlebar stem or stem/handlebar assembly has an inclined linear travel approximately 45 degrees from horizontal. This inclined path mimics a rider's natural arm inclination and pitching moment. 45 degrees is nearly ideal for most dropped bar road bicycles but different style bicycles may have an ideal angle between 30 and 60 degrees.

A stem that can be folded laterally instantaneously about a vertical or near-vertical axis for a bicycle that allows storage/transportation/parking and constituting an anti-theft system. The width of the bicycle is minimized at the handlebar and optionally makes it un-rideable. The foldable stem, supporting a handlebar, that instantaneously folds the handlebar along the bicycle, and is optionally ergonomically adjustable. The foldable stem includes a stem body secured in a hyperstatic manner by an optionally quick-release tightener to a steering pivot. The stem body directly or indirectly supporting at least one substantially vertical rotation bearing on which the stem arm can oscillate. The handlebar stem simplifies and optionally protects the storage, transport and parking of the bicycle.

The damping device according to the invention includes a pressing member, a shock absorption member and an adjustment member. The shock absorption member is disposed in an accommodation room defined between the pressing member and the handlebar seat. The shock absorption member are arranged in contact with the pressing member and the handlebar seat, so that when a rider is riding a bicycle on an uneven road causing the front fork tube to shake up and down, the invention disclosed herein would absorb the shock force as the pressing member presses against the shock absorbing member. The adjustment member is arranged to extend through the handlebar seat into the pressing member and contact the shock absorption member, so that the strain rate of the damping device can be adjusted by the adjustment member, thereby performing various degrees of shock absorption effects.

The damping device according to the invention includes a pressing member, a shock absorption member and an adjustment member. The shock absorption member is disposed in an accommodation room defined between the pressing member and the handlebar seat. The shock absorption member are arranged in contact with the pressing member and the handlebar seat, so that when a rider is riding a bicycle on an uneven road causing the front fork tube to shake up and down, the invention disclosed herein would absorb the shock force as the pressing member presses against the shock absorbing member. The adjustment member is arranged to extend through the handlebar seat into the pressing member and contact the shock absorption member, so that the strain rate of the damping device can be adjusted by the adjustment member, thereby performing various degrees of shock absorption effects.