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.

Disclosed is a tricycle component, and in particular to a reverse tricycle support structure in which two steering wheels are arranged in the front and a driving wheel is arranged in the back. The reverse tricycle support structure includes a frame, a front two-wheel fixing bracket and a rear flat fork. The frame includes a frame rear section, a frame middle section and a frame front section, the frame front section is fixedly connected to the front two-wheel fixing bracket, the frame rear section is movably connected to the rear flat fork, the front two-wheel fixing bracket is fixed on two front wheels, an upper end of a rear center single shock absorption member is hingedly fixed on the frame, and a lower end of the rear center single shock absorption member is hingedly fixed on the rear flat fork.

Disclosed is a tricycle component, and in particular to a reverse tricycle support structure in which two steering wheels are arranged in the front and a driving wheel is arranged in the back. The reverse tricycle support structure includes a frame, a front two-wheel fixing bracket and a rear flat fork. The frame includes a frame rear section, a frame middle section and a frame front section, the frame front section is fixedly connected to the front two-wheel fixing bracket, the frame rear section is movably connected to the rear flat fork, the front two-wheel fixing bracket is fixed on two front wheels, an upper end of a rear center single shock absorption member is hingedly fixed on the frame, and a lower end of the rear center single shock absorption member is hingedly fixed on the rear flat fork.

A motorcycle includes: a front swing arm that includes upper arms and lower arms; a fork holder; a front fork; and a front cushion unit. The fork holder of a front-wheel suspension device includes a pair of left and right sideward extended portions which extend in the vehicle width direction. The front ends of the left and right upper arms are attached to the left and right sideward extended portions though connecting shafts, respectively.

Disclosed is a tricycle component, and in particular to a reverse tricycle support structure in which two steering wheels are arranged in the front and a driving wheel is arranged in the back. The reverse tricycle support structure includes a frame, a front two-wheel fixing bracket and a rear flat fork. The frame includes a frame rear section, a frame middle section and a frame front section, the frame front section is fixedly connected to the front two-wheel fixing bracket, the frame rear section is movably connected to the rear flat fork, the front two-wheel fixing bracket is fixed on two front wheels, an upper end of a rear center single shock absorption member is hingedly fixed on the frame, and a lower end of the rear center single shock absorption member is hingedly fixed on the rear flat fork.

A saddle-type vehicle includes a link-type suspension system configured to make a vehicle support a driving wheel, and a motor configured to rotate the driving wheel. The driving wheel driven by the motor is a steered wheel. The link-type suspension system includes a swing arm having a pair of left and right arm portions that swingably supports the steered wheel. The motor is placed on one of left and right sides of a steering center axis in a width direction of the vehicle. A shock absorber is mounted on another arm portion of the swing arm, the another arm portion being placed on another of the left and right sides of the steering center axis in the width direction of the vehicle.

A saddle-type vehicle includes a link-type suspension system configured to make a vehicle support a driving wheel, and a motor configured to rotate the driving wheel. The driving wheel driven by the motor is a steered wheel. The link-type suspension system includes a swing arm having a pair of left and right arm portions that swingably supports the steered wheel. The motor is placed on one of left and right sides of a steering center axis in a width direction of the vehicle. A shock absorber is mounted on another arm portion of the swing arm, the another arm portion being placed on another of the left and right sides of the steering center axis in the width direction of the vehicle.

A saddle-type vehicle includes a link-type suspension system configured to make a vehicle support a driving wheel, and a motor configured to rotate the driving wheel. The driving wheel driven by the motor is a steered wheel. The link-type suspension system includes a swing arm having a pair of left and right arm portions that swingably supports the steered wheel. The motor is placed on one of left and right sides of a steering center axis in a width direction of the vehicle. A shock absorber is mounted on another arm portion of the swing arm, the another arm portion being placed on another of the left and right sides of the steering center axis in the width direction of the vehicle.

A saddle-type vehicle includes a link-type suspension system configured to make a vehicle support a driving wheel, and a motor configured to rotate the driving wheel. The driving wheel driven by the motor is a steered wheel. The link-type suspension system includes a swing arm having a pair of left and right arm portions that swingably supports the steered wheel. The motor is placed on one of left and right sides of a steering center axis in a width direction of the vehicle. A shock absorber is mounted on another arm portion of the swing arm, the another arm portion being placed on another of the left and right sides of the steering center axis in the width direction of the vehicle.