Forward movement of a bicycle results when force is transfer from the chain or belt to a sprocket on a cassette. The cassette is splined to the cassette driver and causes the wheel of the bike to rotate when torque is applied from the cassette to the cassette driver. The cassette driver is typically made of a strong hard material such as steel to withstand the forces in parted thereon by the cassette. The present disclosure provide a hub configuration and method that enables the cassette driver to be made with construction of a lighter weight material such as aluminum yet still withstand the toque applied thereto.

A bicycle hub assembly comprises a hub axle, a hub shell, a sprocket support body, and a clutch. The sprocket support body is rotatably mounted on the hub axle to rotate about a rotational axis. The sprocket support body is rotatable relative to the hub axle and the hub shell about the rotational axis. The clutch has a first coupling state where a pedaling rotational force is transmitted from the sprocket support body to the hub shell in a first rotational direction during pedaling, a first release state where the hub shell is rotatable relative to the sprocket support body in the first rotational direction during coasting, and a second coupling state where a coasting rotational force is transmitted from the hub shell to the sprocket support body in the first rotational direction during coasting.

A bicycle hub assembly includes a hub axle, a hub shell, and a sprocket supporting member. The sprocket supporting member includes a tubular portion and a first tooth. The tubular portion includes an outer peripheral surface and an attachment portion provided only radially inward of the outer peripheral surface. The first tooth is configured to be attached to the attachment portion of the tubular portion. The first tooth includes a first surface and a second surface. The first surface is configured to face a mounting portion of a bicycle sprocket in a circumferential direction of the sprocket supporting member. The second surface is opposite to the first surface in the circumferential direction. The second surface is configured to face the mounting portion of the bicycle sprocket in the circumferential direction.

A freewheel hub for a bicycle is presented. The freewheel hub may include a hub axle, a hub sleeve which is mounted rotatably on the hub axle, and a driver which is mounted rotatably on the hub axle and can be connected to at least one sprocket arrangement. A freewheel device may be arranged between the hub sleeve and the driver. The free wheel device may include a first clutch ring, which is coupled or couplable to the hub sleeve in a torque-transmitting manner, a second clutch ring, which is coupled or couplable to the driver in a torque-transmitting manner. The two clutch rings have mutually facing axial toothings and a preload device which is designed and arranged to preload the two clutch rings axially towards one another, wherein the preload device has a spring arrangement with at least one spring element made of a plastic with a cellular structure.

A bicycle hub structure has a hub seat, an interlocking ring, a chainring seat, a shaft sleeve and a one-way bearing. The assembling space of the hub seat is installed with the interlocking ring by screw locking, and the chamber of the chainring seat is also screwed with the shaft sleeve. In particular, the inner surface of the interlocking ring and the control section of the shaft sleeve have been treated with special surface treatments to strengthen the hardness, which not only retaining the lightweight effect of the hub seat and the chainring seat and locally increasing the strength and hardness of the structure to avoid being scratched and worn by the one-way bearing. As result, a more stable transmission state is achieved and the durability of the structure is improved.

A bicycle hub apparatus may include a hub body and a freewheel body, and a first driving ring, a second driving ring, and third driving ring are sequentially located between the hub body and the freewheel body. The second driving ring is coupled inside the first driving ring to rotate around a shaft of the hub body simultaneously. A second lateral surface of the second driving ring facing to the third driving ring has a plurality of first engaging teeth, and a plurality of second engaging teeth protruding from a first surface of the third driving ring which faces to the second driving ring is configured to engage with the first engaging teeth of the second driving ring. The number of the second engaging teeth is a multiple of the first engaging teeth, to improve the engagement between the first engaging teeth and the second engaging teeth.

A bicycle ratchet hub assembly includes a ratchet unit and a damping unit located between the hub and the socket unit. The ratchet unit has a ratchet ring in the hub. Multiple recesses are defined in the seat and each have a pawl pivotably located therein. The damping unit is located between the axle and the hub, and includes a damping member which has slots defined therein. A pin protrudes from each of the pawls and movably extends through the corresponding slot. By the damping feature of the damping member, the damping member delays a period of time to begin to rotate, and the pins of the pawls move in the slots and the pawls are pivoted outward to be engaged with the ratchet teeth of the ratchet unit without using any resilient part. A magnetic driving device located in the hub to attract the pawls to be pivoted outward.

A transmission assembly installed on a freehub body of a bicycle is provided. The freehub body rotates about a rotation axis and is provided with a torque transmission portion on a radial outer side. The transmission assembly includes a first adapter having a main body portion connected to the torque transmission portion, a second adapter having a second connecting portion and a pressing portion connected to the second connecting portion, and a friction member. The main body portion is sleeved on the freehub body and includes a first connecting portion having a first thread portion. The second connecting portion has a second thread portion adapted to be screwed to the first thread portion of the first connecting portion. The friction member is disposed in an accommodation space formed by the pressing portion, the radial outer side of the freehub body and one side of the first connecting portion.

A bicycle cassette comprises a clampstyle connection for connecting the bicycle cassette to a bicycle hub driver body. The bicycle cassette is attached to a bicycle hub driver body by incorporating a clamp structure into one portion of the cassette, which then rigidly clamps onto the driver body of the bicycle hub. In addition, when combined with a bayonet style attachment structure between two parts of the cassette, it allows for the use of a smaller sprocket on one segment of the cassette. Specifically, it allows a small 9 or 10 tooth sprocket to overhang the cassette driver body on a bicycle hub, by attaching the small cog assembly to a larger cog assembly using a bayonet style attachment.

The present invention relates to a freewheel hub for a bicycle, comprising a freewheel device which optionally allows relative rotation between a hub sleeve and a driver or couples the hub sleeve and the driver in a torque-transmitting manner. The freewheel device has at least one first clutch ring and at least one second clutch ring, wherein the first clutch ring is coupled or coupleable to the hub sleeve in a torque-transmitting manner, and wherein the second clutch ring is coupleable or coupled to the driver in a torque-transmitting manner, and wherein the first and the second clutch ring are displaceable axially relative to the hub axle between an engaged position and a freewheel position. Provision is made here for at least one magnet arrangement accommodated in apertures in the first clutch ring to keep the clutch rings in the engaged position.