An adjustable rear wheel hood system has a movable hood, so to be longitudinally adjusted to accommodate shrinking wheels (due to wear), or other requirements. A longitudinal slot is aligned between the rear wheel hood and the deck, and after adjusting the hood-to-rear wheel separation to a desired amount, the hood is secured to the deck via a shaped protuberance and securing mechanism, preventing lateral movement of the hood.

An adjustable rear wheel hood system has a movable hood, so to be longitudinally adjusted to accommodate shrinking wheels (due to wear), or other requirements. A longitudinal slot is aligned between the rear wheel hood and the deck, and after adjusting the hood-to-rear wheel separation to a desired amount, the hood is secured to the deck via a shaped protuberance and securing mechanism, preventing lateral movement of the hood.

A foot support is directly supported by a structurally stressed but removable part of a vehicle frame. In particular, a foot support assembly includes a frame member and a foot support, such as a foot peg. The frame member forms a part of the load-bearing structure of the frame assembly, and the foot support is mounted to the frame member without any intervening brackets or components therebetween. The frame member is fixed at each end to a respective frame component and is configured to bear a portion of the load supported by the frame assembly. In some applications, frame components may include stressed engine members, such as a crankcase.

A foot support is directly supported by a structurally stressed but removable part of a vehicle frame. In particular, a foot support assembly includes a frame member and a foot support, such as a foot peg. The frame member forms a part of the load-bearing structure of the frame assembly, and the foot support is mounted to the frame member without any intervening brackets or components therebetween. The frame member is fixed at each end to a respective frame component and is configured to bear a portion of the load supported by the frame assembly. In some applications, frame components may include stressed engine members, such as a crankcase.

A motorcycle with a reduced number of parts for a step structure to achieve a compact and simple structure. The motorcycle includes an engine main body of an engine, which exerts power for driving a rear wheel. The engine is mounted on a body frame with a main step on which a rider's foot is placed being supported on the body frame. An exhaust muffler, to which exhaust gas from the engine main body is introduced, is supported by a muffler stay attached to the body frame. A muffler stay, which is attached to attachment portions provided in a body frame above a main step, extends downwardly toward the rear from the attachment portions and functions as a heel guard for a rider placing his/her foot on the main step.

A motorcycle with a reduced number of parts for a step structure to achieve a compact and simple structure. The motorcycle includes an engine main body of an engine, which exerts power for driving a rear wheel. The engine is mounted on a body frame with a main step on which a rider's foot is placed being supported on the body frame. An exhaust muffler, to which exhaust gas from the engine main body is introduced, is supported by a muffler stay attached to the body frame. A muffler stay, which is attached to attachment portions provided in a body frame above a main step, extends downwardly toward the rear from the attachment portions and functions as a heel guard for a rider placing his/her foot on the main step.

The invention is directed to an inertial sensor attachment structure including: a floating bracket which is fixed to a vehicle body frame via a vibration absorbing member; an inertial sensor attached to a first attachment surface of the floating bracket; and an ABS unit attached to a second attachment surface of the floating bracket.

The invention is directed to an inertial sensor attachment structure including: a floating bracket which is fixed to a vehicle body frame via a vibration absorbing member; an inertial sensor attached to a first attachment surface of the floating bracket; and an ABS unit attached to a second attachment surface of the floating bracket.

A personal mobility vehicle or scooter includes a least one swivel caster wheel supported at the rear of the scooter. The scooter has a body that includes a deck and a handlebar assembly. The scooter includes at least one front wheel with the deck extending between the at least one front wheel and the at least one swivel wheel. The scooter can also include an angled rear portion supporting a rear swivel caster wheel such that the pivot axis of the swivel wheel is inclined with respect to the top surface of the deck. Embodiments of the scooter also include a swivel braking assembly configured to apply a braking force to the at least one swivel wheel.

A personal mobility vehicle or scooter includes a least one swivel caster wheel supported at the rear of the scooter. The scooter has a body that includes a deck and a handlebar assembly. The scooter includes at least one front wheel with the deck extending between the at least one front wheel and the at least one swivel wheel. The scooter can also include an angled rear portion supporting a rear swivel caster wheel such that the pivot axis of the swivel wheel is inclined with respect to the top surface of the deck. Embodiments of the scooter also include a swivel braking assembly configured to apply a braking force to the at least one swivel wheel.