A rear wheel fixing mechanism for a bicycle is provided that includes an axle, a rear hub body, and a first clamp. The rear hub body is rotatably mounted around the axle about a rotational center axis. The first clamp is configured to exert a first clamping force in a perpendicular direction with respect to the rotational center axis onto a first clamping portion of the axle to mount the axle on a frame of the bicycle.

This bicycle stand installation adapter (1) is equipped with: affixed bodies (11) to be affixed to left and right chain stays (8) constituting parts of the frame (7) of a bicycle (100) with quick-release skewers; affixing pieces (12) that are affixed to the affixed bodies (11) and extend along the chain stays (8); and spacers (25) to be interposed between left and right rear end parts (10) and the corresponding affixing pieces (12), the left and right rear end parts (10) being located at the back end of the frame (7). The affixing pieces (12) are affixed to both ends (5) of a substantially C-shaped dual-leg kickstand (2) to be installed on the rear end parts (10).

A quick-release device includes a tube having multiple holes defined through the wall in the first end thereof, and a seat is connected to the second end of the tube. A sleeve is located in the first end of the tube. Multiple stop members are located in the tube and movably engaged with the holes respectively. Each stop member has an inclined face defined in the underside thereof. A lever includes a cam portion pivotably mounted to the first end of an axle which extends through the tube. An end member is movably connected to the first end of the tube and is secured to the second end of the axle. When pivoting the lever, the end member is moved toward the seat or moved away from the seat to be the secure status or the release status.

A skewer assembly for securing a component to a first portion of a bicycle has a bolt, a housing, and a first lock member. The bolt detachably attaches the component to the first portion of the bicycle. The housing is supported relative to the bolt. The first lock member supported by the housing such that: when the skewer assembly is in an upright orientation, the first lock member inhibits tightening of the bolt; and when the skewer assembly is at least partly displaced from the upright orientation, the first lock member is displaced to allow tightening of the bolt.

The invention solves the issue of stiff mounting of a wheel to a bicycle frame. The essential feature of the invention is that in the seating nests of the axle are bulges and hollows with slanting surfaces. The outer contour of the axle's wall section, which is parallel to the wheel symmetry plane which goes through the slanting surface, has a non-circular shape, preferably the shape of a regular polygon or similar to a regular polygon or an irregular polygon or the shape of an irregular closed curve.

A cycle carrier structure mounted on a cycle comprises an integral bifurcated structure comprising a pair of limbs which are connected at their ends to complementary projections (6, 13) mounted on the ends of a skewer (12) by way of quick release connectors. The bifurcated structure (1) is pivotably connected at the interconnection between the limbs to one end of an adjustable strut (2). The strut (2) is connected at its other end to a seat post (10) by a quick release coupling (3). The bifurcated structure (1) has apertures (7) which can receive a pin (34) of a pannier (29) to secure the pannier (29) to the carrier frame (1). A hook (36) engages a limb of the bifurcated structure (1) to provide additional stability. The bifurcated structure (1) may be an integral component, for example a moulded, hollow component of composite material or alloy.

A rotation calculating system, comprising: a first optical characteristic acquiring device, configured to acquire optical characteristics for at least one feature of a first target device; and a calculating unit, configured to calculate rotation for a first rotating device based on the optical characteristics of the feature of the first target device. The first rotating device is a wheel, and the first target device is the wheel.

An axle assembly for a vehicle includes an axle shaft having a bolt end and a lever end. The axle assembly includes a cam assembly coupled to the lever end of the axle shaft. The cam assembly includes a cam housing, a cam follower shaft coupled to the cam housing, and the cam follower shaft is located within the axle shaft. The cam follower shaft does not extend the full length of the axle shaft. The cam shaft is coupled to the cam follower shaft, and a lever is coupled to the cam assembly. The lever is rotatable from an open position to a closed position, and an angle of maximum rotation for the lever between the open position and the closed position is less than 180 degrees.

A suspension assembly for a cycle having improved stability includes a steering fork having a steering axis, a first arm, and a second arm, each of the first arm and the second arm having a fixed pivot and a shock pivot, the space between the first arm and the second arm defining a wheel opening. A shock link has a shock link fixed pivot and a shock link floating pivot. A shock absorber has a shock gas spring comprising a shock spring body a shock gas piston having a first gas piston area, a spring unit has a spring gas spring comprising a spring body and a spring gas piston having a second gas piston area. The first gas piston area is not equal to the second gas piston area. A mechanical trail distance increases as the suspension assembly compresses relative to a fully extended state.

A suspension assembly for a cycle having improved stability includes a steering fork having a steering axis, a first arm, and a second arm, each of the first arm and the second arm having a fixed pivot and a shock pivot, the space between the first arm and the second arm defining a wheel opening. A shock link has a shock link fixed pivot and a shock link floating pivot. A shock absorber has a shock gas spring comprising a shock spring body a shock gas piston having a first gas piston area, a spring unit having a spring gas spring comprising a spring body and a spring gas piston having a second gas piston area. A gas pressure inside the shock gas spring is equal to a predetermined pressure for a user's body weight to produce optimal ride conditions for the user's body weight. A mechanical trail distance increases as the suspension assembly compresses relative to a fully extended state.