The saddle-riding motor vehicle (1; 107; 207) comprises a rear driving wheel (5; 105; 205) and a front steered wheel (7; 107; 207). The front steered wheel (7; 107; 207X, 207Y) is connected to a rotatable arm (9; 109; 209X, 209Y) provided with a rotary motion about a steering axis (A-A). A wheel support (37; 137) is connected to the rotatable arm (9; 109; 209) with the interposition of a suspension (17; 117; 217X, 217Y) comprising a shock absorber (22; 122). The suspension (17; 117) comprises a Tchebycheff four-bar linkage.

A tricycle has a forward oriented fork member (20) supported for rotation about a steering axis (14) of the tricycle, a handle bar (50) mounted to the fork member, a cargo unit (24) supported by the fork member, and a pair of transversally spaced linkages (30), wherein each linkage at a proximal end is linked to the fork member and at a distal end supports a respective front wheel (16) of the tricycle. The cargo unit and the linkages are shiftable between respective forward and backward end positions to thereby transform the tricycle to a wheel cart and vice versa.

A traveling vehicle includes a vehicle body, a left swing part, a right swing part, a holding body, and a suspension device. The left swing part rotatably supports a left front wheel. The right swing part rotatably supports a right front wheel. The left swing part and the right swing part are supported on the vehicle body. The holding body for supporting the suspension device is formed in a U-shape so as to sandwich the suspension device in a front-back direction. A support shaft provided in the suspension device is supported on the holding body on both sides in the front-back direction. The suspension device is rotatable about the support shaft. The suspension device is arranged at a position higher than the left swing part and the right swing part, and extends and contracts in conjunction with swings of the left swing part and the right swing part.

A compactable bicycle comprising a frame including a first and second frame portions wherein the frame is unfoldable to a use position for riding by the rider and is foldable to a storage position for storage. The bicycle includes: a rear brake, a rear brake lever, a rear break cable passes through a first cable guide, and a brake cable biasing member that is positioned to urge the rear brake cable back through the first cable guide to be between the first cable guide and the rear brake lever; front and rear wheel connectors to hold the front and rear wheels together; a crank, a front sprocket, a rear cassette, rear sprockets, a chain, and a derailleur; a chain guide that is positioned to engage the chain and to limit a lateral angle of the chain relative to the rear sprocket; or first and second frame element locking surfaces and apertures, and a plunger movable to a clamping position and to a release position.

A position adjusting system for use in a vehicle includes a seat for supporting a rider, a rear wheel and a steerable front wheel, a steering arrangement including a handle bar for allowing the rider to control the steerable wheel, and a hub for interconnecting the components of the wheeled vehicle. The steerable wheel is steerable about at least two axes. The position adjusting system includes an adjustable seat support movably connected to the hub, an adjustable handle bar support movably connected to the hub, and a releasable position locking system configured to lock the position of the components of the vehicle relative to the hub. The hub includes a first portion and second portion, wherein the first and second portions are moveably connected to one another, such as by pivoting, sliding, or a combination of pivoting and sliding.

A bicycle comprising a frame; a handlebar assembly attached to an upper steering tube of the frame in such a way that at least the relative rotation between the two with respect to an upper axis is allowed, but the relative displacements between both in the directions perpendicular to the upper axis are restricted; a fork attached to a lower steering tube of the frame so that it has the same degrees of freedom relative to the lower axis between the fork and the lower steering tube as the degrees of freedom relative to the upper axis between the handlebar assembly and the upper steering tube; and a means for rotation transmission for transmitting at least partially a rotation of the handlebar assembly with respect to the upper tube into a rotation of the fork with respect to the lower steering tube.

A position adjusting arrangement for use in a vehicle includes a seat for supporting a rider, a rear wheel and a front wheel, a steering arrangement including a handle bar for allowing the rider to control the steerable wheel, and a hub for interconnecting the components of the wheeled vehicle. The position adjusting arrangement includes an adjustable seat support arrangement movably connected to the hub, an adjustable handle bar support arrangement movably connected to the hub, and a releasable position locking arrangement configured to lock the position of the components of the vehicle relative to the hub. The hub may include a first portion and second portion, wherein the first and second portions are moveably connected to one another, such as by pivoting, sliding, or a combination of pivoting and sliding.

A front fork (4) of a motor vehicle, comprising a first lining (24), a first stem (28) and a second lining (48), wherein the first stem (28) slides axially inside the first lining (24) along a first sliding axis, the first stem (28) and the first lining (24) are associated one to one hub (32) for rotatably housing the rotation pin of an axle journal of a wheel and the other to a steering column (40) by means of a bracket (44), or vice versa, the second lining (48) is integral in rotation with the first lining (24), is arranged so that, with respect to a projection plane perpendicular to the first sliding axis, the projection area of the first lining (24) is eccentrically contained in the projection area of the second lining (48), and is integrally attached to said hub (32) or to said steering column (40).

A suspension assembly for a vehicle includes a swing arm having a proximal end configured to be pivotally connected to a frame of the vehicle, and a distal end configured to support a ground-engaging member of the vehicle. The suspension assembly also includes a rocker link pivotally connected to the swing arm about a rocker link pivot axis from which first and second portions of the rocker link extend in divergent directions. The suspension assembly also includes a linking arm configured to be pivotally connected to the frame, and pivotally connected to the first portion of the rocker link. The suspension assembly also includes a shock absorber that is at least one of: pivotally connected to the linking arm, and configured to be pivotally connected to the frame. The shock absorber is pivotally connected to the second portion of the rocker link.

A drivetrain system for a reverse trike configured to transmit power from the motor to the rear wheel includes a first and a second drive chain being the only two drive chains utilized. A jackshaft has at one end a first universal joint connected to a first jackshaft sprocket and at an opposite end has a second universal joint connected to a second jackshaft sprocket. The first drive chain is connected between the motor output sprocket and the first jackshaft sprocket. The second drive chain is connected between the second jackshaft sprocket and the rear wheel drive sprocket. The first jackshaft sprocket is rotatably attached to the frame and configured to be movable away from and towards the motor output sprocket. The second jackshaft sprocket is rotatably attached to the frame and configured to be movable away from and towards the rear wheel drive sprocket.