There is provided a saddle-ridden type vehicle. The vehicle includes frame members, pivot shaft supports, a swing arm, first and second support members, a rear cushion unit and a link mechanism. A first link member has one end portion pivotably connected to a rear end portion of the rear cushion unit, the other end portion located at a front lower side relative to the rear end portion and extending to a position at a rear side relative to a rear end portion of each frame member, and a swing arm connection unit. A second link member has one end portion pivotably connected to the other end portion of the first link member and the other end portion pivotably connected to the second support member. A cushion unit connection portion of the swing arm is pivotably connected to a swing arm connection portion of the first link member.

A straddled vehicle including a frame structure having a frame body, a rear arm swingably supported by the frame structure, a driving wheel rotatably supported by the rear arm, a drive motor supported by the frame structure or the rear arm, and an electric power generation unit supported by the frame body but not by the rear arm. The electric power generation unit includes: an electric power generation engine arranged with an offset toward a first direction from a center of the straddled vehicle with respect to a left-right direction, not overlapping the drive motor in a side view; and an electric power generator further in a second direction, opposite to the first direction, than the electric power generation engine, overlapping the electric power generation engine, but not overlapping the drive motor, in the side view. The electric power generator is driven by the electric power generation engine to generate electric power.

A frame of a vehicle includes a front fork unit pivotably connected to a head tube of a vehicle body mechanism, a crank axle disposed on the front fork unit for two front-wheel cranks to be pivoted thereon. Two front wheels are pivotably disposed on the cranks, respectively. A front-wheel counteracting mechanism is pivotably connected between each of the cranks and the front fork unit to transmit an impact force to the cranks so as to cause opposite upward and downward movements of the front wheels to thereby keep the front wheels in contact with the ground and to render movement of the vehicle steady and safe.

A damper apparatus includes an adjusting bolt including a head part rotatably stored in an adjusting bolt storage part formed in a base part, and a male thread part including a tip end formed in a male thread shape. An adjusting member includes: a female thread part, which is a part in a female thread shape fastened to the male thread part of the adjusting bolt and movably provided along an axis line of the adjusting bolt; a tapered surface part with which the tip end of a push rod comes into contact and formed in a tapered shape with respect to the axis line of the adjusting bolt; and wall parts rising from both ends of the tapered surface part with reference to the circumferential direction of the adjusting bolt, and interposing the push rod therebetween.

An axle bearing carrier assembly having a swing arm of unitary construction that operatively associates with an adjustable tension plate for selectively connecting one of two different types of axle bearing carriers to the swing arm.

In a saddle riding vehicle including a vehicle body frame, a swing arm that supports a rear wheel, a pivot shaft that swingably supports the swing arm on the vehicle body frame, and a regulator for an electric system, the regulator is supported by a stay and the regulator is disposed, in a vehicle side view, posterior to the pivot shaft and inferior to an upper surface of the swing arm.

An oscillation-type vehicle includes a front vehicle body that suspends a front wheel in a steerable manner, a rear vehicle body that suspends left and right drive wheels, and an oscillation mechanism that causes the front vehicle body and the rear vehicle body to oscillate relative to each other. The oscillation-type vehicle being capable of carrying out drive control of the left and right drive wheels such that the drive wheels behave differently from each other in response to oscillation of the oscillation-type vehicle, wherein the drive control of the left and right drive wheels is carried out using information on the oscillation and information on a speed of vehicle.

An electric vehicle includes a battery having a housing. The housing includes a rear side which is defined as a side facing away from a forward travelling direction of the electric vehicle. The electric vehicle further includes a frame, a motor having a housing, and a pivot shaft stack-up assembly co-aligned along a pivot shaft axis. The pivot shaft stack-up assembly includes first and second portions of the frame, a swingarm extending therebetween, and an idler bracket. A shock mount is integral with the battery housing. The shock mount extends from the rear side of the battery housing. The battery housing is configured as a stressed chassis member in which each of the motor housing, the frame, and the pivot shaft stack-up assembly are aligned thereof. The shock mount provides a path along which a load is directed to the battery housing.

A kit for relocating the rider position on a motorcycle or a trike with a standard-length subframe, a standard-length swing arm, standard-length side panels, a standard-length seat, a standard drive, and a standard-length exhaust, includes an extended subframe, an extended swing arm, extended side panels, an extended seat, an extended drive conversion, and an exhaust extender. The extended subframe is extended from the standard-length subframe. The extended swing arm is extended from the standard-length swing arm. The extended side panels are extended from the standard-length side panels. The extended seat is extended from the standard-length seat. The extended drive conversion is for extending the length of the standard drive. The exhaust extender is for extending the length of the standard-length exhaust. Whereby, when the kit is installed on the motorcycle or the trike, the rider position on the motorcycle or the trike is relocated backwards.

A straddled vehicle including a rear wheel, a first rear arm rotatably supporting the rear wheel, a vehicle body frame and a first reinforcing component. The vehicle body frame includes a head pipe, a main frame connected to the head pipe, a pivot support portion connected to the main frame, the pivot support portion including a pivot shaft swingably supporting the first rear arm and a pivot support frame supporting the pivot shaft, and a first rear frame extending rearward from the main frame, the first rear frame being connected to the main frame on a more inner side than the first rear arm in a right-and-left direction of the straddled vehicle. The first reinforcing component is separated from the first rear frame, the first reinforcing component being disposed outside the first rear arm in the right-and-left direction, and being connected to the pivot support portion and the first rear frame.