A saddle riding vehicle includes: a body frame having a head pipe and a main tube extending from the head pipe; an engine disposed below the main tube; a down frame extending downward from the body frame and disposed in front of the engine; and a radiator disposed in front of the engine and on a side of the down frame, wherein an opening which opens rearward is formed in a fan shroud which covers a rear surface of the radiator, a radiator fan is disposed in the opening, and a front surface of the radiator fan is disposed such that an axis of the radiator fan is inclined toward an outside with respect to a direction in which a surface of a core of the radiator is directed so as to increase a gap with respect to the core from an outer side toward an inner side.

A cargo bicycle which can be driven using muscle power and/or an electric drive, with at least one pick-up area in or on which or at least one swap body and/or an additional load can be or is positioned and with at least one driver area which is positioned in front of the pick-up area in regard to the direction of travel of the cargo bicycle and which includes at least one seat unit, one pedal unit, one steering unit, one flashing roof element at least over the driver area and one at least area by area limiting floor plate of a floor unit in the driver area in the direction of the travel surface. The floor plate and roof element include at least an area by area distance to one another which is at least the body size of an operator.

A luggage rack for a motorcycle has a central body, a first wing element to one side of the central body, with a first fin extending at a right angle from the first wing element at an end of the first wing element, a second wing element to an opposite side of the central body, with a second fin extending at substantially a right angle from the second wing element at an end of the second wing element, a first and a second planar panel, spaced equally apart, parallel, and oriented vertically, extending downward and forward, each planar panel having a first notch facing forward at the forward extremity, and each planar panel having a second notch at a position rearward from the first notch, the second notch for each panel having a spring-loaded locking mechanism.

A straddled vehicle includes a front wheel, a front fork, a cover, a brake, a brake hose, and a protector. The front fork rotatably supports the front wheel. The cover is disposed in front of the front fork. The brake is attached to the front wheel. The brake hose is connected to the brake and extends upward behind the cover. The protector is attached to the brake hose. The brake hose includes a first hose, a second hose, and a shrink tube. The second hose is provided separately from the first hose. The shrink tube is disposed behind the cover and connects the first hose and the second hose. The protector is disposed behind the cover and covers the shrink tube.

A straddled vehicle includes a front wheel, a front fork, a cover, a brake, a brake hose, and a protector. The front fork rotatably supports the front wheel. The cover is disposed in front of the front fork. The brake is attached to the front wheel. The brake hose is connected to the brake and extends upward behind the cover. The protector is attached to the brake hose. The brake hose includes a first hose, a second hose, and a shrink tube. The second hose is provided separately from the first hose. The shrink tube is disposed behind the cover and connects the first hose and the second hose. The protector is disposed behind the cover and covers the shrink tube.

An aerodynamically optimized drag-reduction appartus and method for optimal minimization of the drag-induced resistive forces upon a terrestrial vehicle, where the drag-induced resistive moments on wheel surfaces pivoting about the stationary point of ground contact are reduced, and the vehicle propulsive forces needed to countervail the resistive forces on the wheel are reduced. The drag reduction apparatus includes: a streamlined fairing or wind deflector positioned on a vehicle to shield the faster moving upper wheel surfaces from headwinds; an engine exhaust pipe disposed on a vehicle whereby exhaust gases deflect headwinds to shield the faster moving upper wheel surfaces of an automotive wheel; an automotive spoked wheel having streamlined oval-shaped wheel spokes; a wheel assembly with a streamlined tailfin rotatably attached to a wheel spoke; a wheel with a tapered spoke having a thin aerodynamic profile near the rim and tapering to a round profile toward the central hub; and a tire having streamlined tread blocks arranged in an aerodynamic pattern.

A panel assembly for a motor vehicle includes a first panel element and a second panel element that is connected to the first panel element. The first panel element has a fastening extension that is connected to a receiving section on the second panel element by way of a connector. The fastening extension further has a latch that is to interlock with a locking opening in the receiving section of the second panel element.

A panel assembly for a motor vehicle includes a first panel element and a second panel element that is connected to the first panel element. The first panel element has a fastening extension that is connected to a receiving section on the second panel element by way of a connector. The fastening extension further has a latch that is to interlock with a locking opening in the receiving section of the second panel element.

A solar-powered vehicle that includes a body having opposing sides and defining a cavity; two or more wheels; a first and second solar panel assembly respectively disposed on the opposing sides of the body; one or more electric motor disposed within the cavity of the body between the first and second solar panel assemblies, the one or more electric motors configured to rotate at least one of the two or more wheels; and one or more electric battery disposed within the cavity of the body between the first and second solar panel assemblies, the one or more electric batteries configured to power the one or more electric motors and to be charged by electric current generated by the first and second solar panel assemblies.

A rideable golf bag cart/cycle (10) is a personal riding golf cart/cycle adapted to transport a single rider (13) and a golf bag (12) for use on a golf course. The cart/cycle (10) is generally symmetrical about a longitudinal plane (16) and includes a frame (18) with a seat (20), a front wheel and steering components (22), a rear wheel (24), an inclined bag support structure (26) extending between the legs of the rider (13), and a motor/control subassembly (28). A collapsed mode (30) in some embodiments is achieved by folding down the handlebars (72) and pivoting the running boards (56) up against the frame (16). An enhanced embodiment (118) includes a canopy (122) and a deluxe multifunctional console (124).