The present invention relates to a bicycle with connector function and at least a number of subsystems. The bicycle includes a tube assembly including a frame with mutually fixed tube elements and movable tube elements, such as a steering pin and a handlebar, at least a first bicycle cassette, for holding at least a first of the number of subsystems, such as a bicycle control unit, of the bicycle for providing a respective function to the bicycle. The first bicycle cassette is arrangeable in at least a first tube element of the tube assembly, and includes a first cassette contact, including a number of contact poles, that is connectable with the at least first of the number of subsystems internal in the first bicycle cassette. A bicycle also includes a connector for connecting with the first cassette contact of the first bicycle cassette. The bicycle connector includes a first connector contact, including a number of contact poles, for connecting with the first cassette contact, and at least one output contact for connecting with a respective subsystem. The bicycle connector is arrangeable in the respective first tube element of the tube assembly.

A bicycle subassembly includes a bicycle component having a socket and a tube having a first tube portion received in the socket and a second tube portion extending outwardly from the socket. The tube includes a cold worked region spanning at least a portion of the first tube portion and at least a first portion of the second tube portion. The tube includes a non-cold worked region spanning at least a second portion of the second tube portion. Methods for making the tube and subassembly are also provided.

A bicycle subassembly includes a bicycle component having a socket and a tube having a first tube portion received in the socket and a second tube portion extending outwardly from the socket. The tube includes a cold worked region spanning at least a portion of the first tube portion and at least a first portion of the second tube portion. The tube includes a non-cold worked region spanning at least a second portion of the second tube portion. Methods for making the tube and subassembly are also provided.

Embodiments of the present invention include to a two-tier structural frame for a three-wheeled cargo bike. The structural frame can be the platform for the entire bike and includes both steering and suspension parts. The frame of the bike and its related suspension and steering parts provide stability, durability, and comfort while in motion under human pedal power, as well as motion from a hybrid of human pedal and electric-assisted power sources.

Embodiments of the present invention include to a two-tier structural frame for a three-wheeled cargo bike. The structural frame can be the platform for the entire bike and includes both steering and suspension parts. The frame of the bike and its related suspension and steering parts provide stability, durability, and comfort while in motion under human pedal power, as well as motion from a hybrid of human pedal and electric-assisted power sources.

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 vehicle component, comprising a first arm, a second arm, and a yoke portion that connects the first arm and the second arm, wherein at least one of the first arm, the second arm and the yoke portion comprises a tubular structure and an interior wall that divides the tubular structure into a first tubular chamber and a second tubular chamber.

A vehicle component, comprising a first arm, a second arm, and a yoke portion that connects the first arm and the second arm, wherein at least one of the first arm, the second arm and the yoke portion comprises a tubular structure and an interior wall that divides the tubular structure into a first tubular chamber and a second tubular chamber.

There is provided a vehicle body frame of a straddle-type vehicle. A tank rail extends rearward from a head pipe at an upper side of a power unit. A body frame has a pair of side frame parts extending downward from a rear end side of the tank rail, an upper coupling part couples upper parts of the side frame parts, and a lower coupling part couples lower parts of the pair of side frame parts. Front and rear mount parts support the power unit. Swing arm support parts are provided in the side frame parts. A link member connecting part connects a link member configured to couple the swing arm and a rear cushion each other. The rear mount part is formed at a front part of the lower coupling part, and the link member connecting part is formed at a rear part of the lower coupling part.

There is provided a vehicle body frame of a straddle-type vehicle. A tank rail extends rearward from a head pipe at an upper side of a power unit. A body frame has a pair of side frame parts extending downward from a rear end side of the tank rail, an upper coupling part couples upper parts of the side frame parts, and a lower coupling part couples lower parts of the pair of side frame parts. Front and rear mount parts support the power unit. Swing arm support parts are provided in the side frame parts. A link member connecting part connects a link member configured to couple the swing arm and a rear cushion each other. The rear mount part is formed at a front part of the lower coupling part, and the link member connecting part is formed at a rear part of the lower coupling part.