What is disclosed is a drive device for a bicycle driven by an electric motor, having a main frame having a swing arm bearing, and a rear linkage element arranged at the swing arm bearing. The drive device has a pedal crank as a first drive for providing a first drive force, having a first drive shaft, a center electric motor as a second drive for providing a second drive force, and an output element having an output shaft, configured to receive the first and/or second drive forces and transfer same to the bicycle wheel to be driven. The center axis of the output shaft is radially distanced from the center axis of the first drive shaft and the output shaft is arranged relative to the swing arm bearing such that a radial distance between the center axis of the swing arm bearing and the center axis of the output shaft is smaller than a radial distance between the center axis of the swing arm bearing and the center axis of the first drive shaft.

What is disclosed is a drive device for a bicycle driven by an electric motor, having a main frame having a swing arm bearing, and a rear linkage element arranged at the swing arm bearing. The drive device has a pedal crank as a first drive for providing a first drive force, having a first drive shaft, a center electric motor as a second drive for providing a second drive force, and an output element having an output shaft, configured to receive the first and/or second drive forces and transfer same to the bicycle wheel to be driven. The center axis of the output shaft is radially distanced from the center axis of the first drive shaft and the output shaft is arranged relative to the swing arm bearing such that a radial distance between the center axis of the swing arm bearing and the center axis of the output shaft is smaller than a radial distance between the center axis of the swing arm bearing and the center axis of the first drive shaft.

A high performance motorcycle having a frame, engine suspension, and rear wheel drive system that enables rider foot positioning close to the longitudinal centerline of the motorcycle and an overall aerodynamic profile. The engine suspension, centering and damping system allows for lateral movement while damping vibration and unwanted oscillations. The rear wheel drive includes a driven pulley axially disposed on a rear wheel axle, a drive pulley configured to receive motive output from the motorcycle engine, an idler pulley disposed above a line between the axes of rotation of the drive pulley and the rear wheel axle, and a belt or chain disposed around and operatively connecting the drive pulley, the driven pulley and the idler pulley, wherein the idler pulley and the drive pulley configured so as to provide substantially constant tension to a belt or chain over the range of travel of the rear suspension.

A high performance motorcycle having a frame, engine suspension, and rear wheel drive system that enables rider foot positioning close to the longitudinal centerline of the motorcycle and an overall aerodynamic profile. The engine suspension, centering and damping system allows for lateral movement while damping vibration and unwanted oscillations. The rear wheel drive includes a driven pulley axially disposed on a rear wheel axle, a drive pulley configured to receive motive output from the motorcycle engine, an idler pulley disposed above a line between the axes of rotation of the drive pulley and the rear wheel axle, and a belt or chain disposed around and operatively connecting the drive pulley, the driven pulley and the idler pulley, wherein the idler pulley and the drive pulley configured so as to provide substantially constant tension to a belt or chain over the range of travel of the rear suspension.

A bicycle trailer has a frame with a hitch portion that comprises first and second yoke arms with respective first end and second end portions. Skewer engagement latches can be coupled to the second end portions of the yoke arms. The skewer engagement latches can have stops that pivot between stop open and closed positions. In the stop open positions, respective end portions of a bicycle skewer can inserted into or separated from the latches. In the stop closed positions, respective end portions of the bicycle skewer, if positioned in respective latches, are retained coupled to the yoke arms by the latches. The stops are moved between open and closed positions by an actuator, such as by respective cable portions attached to the stop portions. Desirably the actuator simultaneously moves the stops between the open and closed positions. The latches can have skewer engagement surfaces that are least in part spherical.

A swing arm structure for a saddle riding vehicle including: a pivot section swingably supported by a vehicle body frame of the saddle riding vehicle; an arm section extending from the pivot section toward a rear side of a vehicle body of the saddle riding vehicle and configured to support an axle of a rear wheel of the saddle riding vehicle at a rear section; and a first reinforcement section formed of a carbon fiber reinforced resin in which carbon fibers are oriented uniformly in a vehicle body forward/rearward direction, wherein the first reinforcement section is installed on a lower surface of the arm section.

A swing arm structure for a saddle riding vehicle including: a pivot section swingably supported by a vehicle body frame of the saddle riding vehicle; an arm section extending from the pivot section toward a rear side of a vehicle body of the saddle riding vehicle and configured to support an axle of a rear wheel of the saddle riding vehicle at a rear section; and a first reinforcement section formed of a carbon fiber reinforced resin in which carbon fibers are oriented uniformly in a vehicle body forward/rearward direction, wherein the first reinforcement section is installed on a lower surface of the arm section.

A rear suspension system for bicycles, such as freeride, downhill and trail-style mountain bikes. The suspension system includes a rear suspension for coupling the rear wheel of the bicycle to the bicycle frame, a rear shock absorber disposed entirely in front of the seat tube of the frame and a linkage for operatively coupling the rear suspension to the rear shock absorber. The linkage intersects the longitudinal axis of the seat tube for transmitting rear suspension forces around the seat tube to the rear shock absorber. The seat tube is preferably continuous and is disposed so that the bicycle seat is adjustable over a full range of seat positions. Additionally, the seat tube and rear suspension system are configured so that the rear wheel and rear suspension will not contact the seat tube, seat, or bicycle rider even when the rear suspension system is in a fully compressed, forward position.

There is provided a bicycle assembly including a front frame portion having at least one front frame support member. The bicycle assembly also includes a rear frame portion having at least one upper rear frame support member and at least one lower rear frame support member. At least one junction member is removably coupled with the front frame support member, the junction member having a lower frame member coupling end portion and an upper frame member coupling end portion. The lower rear frame support member is coupled with the lower frame member coupling end portion. The upper rear frame support member is coupled with the junction member between the lower frame member coupling end portion and the upper frame member coupling end portion. There is thereby provided a modular bicycle frame assembly wherein components may be removed and replaced to accommodate user biomechanics and terrain aspects.

There is provided a bicycle assembly including a front frame portion having at least one front frame support member. The bicycle assembly also includes a rear frame portion having at least one upper rear frame support member and at least one lower rear frame support member. At least one junction member is removably coupled with the front frame support member, the junction member having a lower frame member coupling end portion and an upper frame member coupling end portion. The lower rear frame support member is coupled with the lower frame member coupling end portion. The upper rear frame support member is coupled with the junction member between the lower frame member coupling end portion and the upper frame member coupling end portion. There is thereby provided a modular bicycle frame assembly wherein components may be removed and replaced to accommodate user biomechanics and terrain aspects.