A steering system includes a front fork, a front wheel, a handlebar, two bar ends, and two steering members. The handlebar includes a support bar and two elbows disposed at two opposite ends of the support bar. The two bar ends each includes a grip and a linkage; the linkage fits through the corresponding elbow and connects with the grip. Each of the steering members connects the corresponding bar end to the front fork, so that the swing direction of the grips determines the turning direction of the front fork and thus the travel direction of the front wheel. A bicycle using the steering system is also provided. The steering system and the bicycle of the present invention utilize swinging of the grips of the bar ends connected to the two elbows extending from the handlebar to control the travel direction of the front wheel.

A fork bracket of a steered wheel suspension device includes a steering shaft boss portion, a pair of fork clamp portions, and a plate-shaped portion. Into the steering shaft boss portion, a steering shaft is internally inserted on a center in a right-left direction. The pair of the fork clamp portions clamps each of a pair of forks on a position away from the steering shaft boss portion to right and left. The plate-shaped portion couples the steering shaft boss portion to the pair of the fork clamp portions. The plate-shaped portion includes a thick portion on a front end side and a thin portion on a rear end side in an area between the steering shaft boss portion and the pair of the fork clamp portions. The thick portion is disposed from the center to each of the pair of the fork clamp portions.

A fork bracket of a steered wheel suspension device includes a steering shaft boss portion, a pair of fork clamp portions, and a plate-shaped portion. Into the steering shaft boss portion, a steering shaft is internally inserted on a center in a right-left direction. The pair of the fork clamp portions clamps each of a pair of forks on a position away from the steering shaft boss portion to right and left. The plate-shaped portion couples the steering shaft boss portion to the pair of the fork clamp portions. The plate-shaped portion includes a thick portion on a front end side and a thin portion on a rear end side in an area between the steering shaft boss portion and the pair of the fork clamp portions. The thick portion is disposed from the center to each of the pair of the fork clamp portions.

The invention relates to a vehicle (10), e.g. of the scooter type, comprising: a deck (12); tail gear (30) having single contact means (32); a steering assembly (16) comprising at least a steering column (18) having a first axis (X1), the first axis and the plane of the support forming a first angle (a1); nose gear (22); the nose gear being mounted to pivot relative to the deck about a second axis (X2); the steering column being arranged in such a manner that pivoting the steering column about the first axis causes the nose gear to pivot about the second axis; and the first and second axes sloping relative to each other, thereby defining a second angle (a2).

The invention is characterized by the fact that the first angle (a1) is not variable while the vehicle is in use.

The invention relates to a vehicle (10), e.g. of the scooter type, comprising: a deck (12); tail gear (30) having single contact means (32); a steering assembly (16) comprising at least a steering column (18) having a first axis (X1), the first axis and the plane of the support forming a first angle (a1); nose gear (22); the nose gear being mounted to pivot relative to the deck about a second axis (X2); the steering column being arranged in such a manner that pivoting the steering column about the first axis causes the nose gear to pivot about the second axis; and the first and second axes sloping relative to each other, thereby defining a second angle (a2).

The invention is characterized by the fact that the first angle (a1) is not variable while the vehicle is in use.

Discloses methods and apparatus for headset transmissions mounted to a steerer tube rotationally mounted relative to a head-tube and headset of a cycle frame. A first transmission member mounts about a rotational axis of the steerer tube. The first transmission member rotates with the steerer tube about the rotational axis, and can also translate relative to the steerer tube to transmit a first displacement force to or from a handle bar mounted device. The first displacement force is transmitted to the first transmission member from an interior of the steerer tube. A second transmission member mounts about the rotational axis of the steerer tube. The second transmission member is rotationally isolated to rotate relative to the first transmission member, and can translate with the first transmission member. The second transmission member allows transmission of a second displacement force, from the first displacement force, to a cycle frame mounted device.

Discloses methods and apparatus for headset transmissions mounted to a steerer tube rotationally mounted relative to a head-tube and headset of a cycle frame. A first transmission member mounts about a rotational axis of the steerer tube. The first transmission member rotates with the steerer tube about the rotational axis, and can also translate relative to the steerer tube to transmit a first displacement force to or from a handle bar mounted device. The first displacement force is transmitted to the first transmission member from an interior of the steerer tube. A second transmission member mounts about the rotational axis of the steerer tube. The second transmission member is rotationally isolated to rotate relative to the first transmission member, and can translate with the first transmission member. The second transmission member allows transmission of a second displacement force, from the first displacement force, to a cycle frame mounted device.

The front wheel suspension device for a saddle-ride type vehicle, includes a front fork having a lower end supporting a front wheel; a steering member rotatably supported by a body frame, and rotated about a rotational axis in accordance with operation of a handlebar; and a link member composed of an upper link and a lower link. The upper link of the link member has one end rockably connected to the steering member. The lower link has an upper portion rockably connected to the other end of the upper link and a lower portion rockably connected to an upper end of the front fork. A handlebar grip portion is formed at both ends of the handlebar in a vehicle width direction with the handlebar grip portion being disposed between the upper link and the lower link in a side view.

The front wheel suspension device for a saddle-ride type vehicle, includes a front fork having a lower end supporting a front wheel; a steering member rotatably supported by a body frame, and rotated about a rotational axis in accordance with operation of a handlebar; and a link member composed of an upper link and a lower link. The upper link of the link member has one end rockably connected to the steering member. The lower link has an upper portion rockably connected to the other end of the upper link and a lower portion rockably connected to an upper end of the front fork. A handlebar grip portion is formed at both ends of the handlebar in a vehicle width direction with the handlebar grip portion being disposed between the upper link and the lower link in a side view.

A press-fit device for bicycle stein comprises a main body and two press-fit sets. The main body has a front-fork hole and a handlebar hole arranged at two ends thereof respectively. The front-fork hole and the handlebar hole have a receiving groove respectively for fluidly communicating therewith. Each press-fit set includes a driving block which has a first inclined guiding surface and a through hole with inner threads for passing through the first inclined guiding surface. A guiding block has a second inclined guiding surface and a guiding hole for passing through the second inclined guiding surface. The first and the second inclined guiding surfaces are respectively formed a tapered side and a divergent side. A press-fit block includes a trepanning hole and two inclined end surfaces. A press-fit screw is passed through the guiding hole and the trepanning hole and screwed with the inner threads.