A sprocket support body is rotatably mounted on a hub axle of a bicycle rear hub assembly. The sprocket support body comprises at least ten external spline teeth configured to engage with a bicycle rear sprocket assembly. Each of the at least ten external spline teeth has an external-spline driving surface and an external-spline non-driving surface. The at least ten external spline teeth has an external-spline major diameter equal to or smaller than 34 mm. The sprocket support body is free of external spline teeth having another external-spline major diameter that is different from the external-spline major diameter.

A sprocket support body is rotatably mounted on a hub axle of a bicycle rear hub assembly. The sprocket support body comprises at least ten external spline teeth configured to engage with a bicycle rear sprocket assembly. Each of the at least ten external spline teeth has an external-spline driving surface and an external-spline non-driving surface. The at least ten external spline teeth has an external-spline major diameter equal to or smaller than 34 mm. The sprocket support body is free of external spline teeth having another external-spline major diameter that is different from the external-spline major diameter.

The invention relates to a stable one piece wheel, which is particularly suitable for cycles having an increased system weight such as electrically powered bicycles or cargo bikes, and a method producing said vehicle wheel. Said vehicle wheel comprises an annular portion (110), a plurality of spokes (120) and a hub portion (130) integrally formed by mould injection of fibre reinforced or carbo nano tubes containing thermoplastic, wherein each of the plurality of spokes (120) comprise a substantially Z-shaped cross section with a middle leg (122) and a pair of outer legs (121, 123), wherein the angle (γ) enclosed by each of the pair of outer legs and the middle leg is greater than a right angle and wherein the length of the middle leg (122) increases from the annular portion (110) toward the hub portion (130).

The invention relates to a stable one piece wheel, which is particularly suitable for cycles having an increased system weight such as electrically powered bicycles or cargo bikes, and a method producing said vehicle wheel. Said vehicle wheel comprises an annular portion (110), a plurality of spokes (120) and a hub portion (130) integrally formed by mould injection of fibre reinforced or carbo nano tubes containing thermoplastic, wherein each of the plurality of spokes (120) comprise a substantially Z-shaped cross section with a middle leg (122) and a pair of outer legs (121, 123), wherein the angle (γ) enclosed by each of the pair of outer legs and the middle leg is greater than a right angle and wherein the length of the middle leg (122) increases from the annular portion (110) toward the hub portion (130).

Cassette (1) for a bicycle transmission system, which comprises a first sprocket (P1) and a second sprocket (P2) smaller than the first sprocket (P1) and a support structure (S) the sprockets (P1, P2), being the inner edges (CI1, CI2) of the sprockets (P1, P2) configured by grooved surfaces (P11, P21), being the support structure (S) provided with two engagement surfaces (S1, S2) complementary of the grooved surfaces (P11, P21) of the grooved sprockets (P1, P2), such that tangential forces (T) can be transmitted between the sprockets and the support structure (S), comprising the cassette at least a spacer (E1-2, E2-3, E3-4 . . . ) between sprockets (P1, P2), wherein the base line (B2) of the second sprocket (P2) is smaller than the average diameter (D1) of the grooved surface (P11) of the first sprocket (P1), extending the spacer (E1-2) between the first sprocket (P1) and the second sprocket (P2) at least from the grooved surface (P11) of the first sprocket (P1) to at least the base line (B2) of the second sprocket (P2), such that the spacer (E1-2) allows to exert axial forces (A) on the first sprocket (P1).

A bicycle hub assembly includes a hub shell including a braking surface. A coaster brake shoe is accommodated in the hub shell and cooperates with the braking surface to generate braking force. A motor is accommodated in the hub shell and configured to be controlled for at least changing or maintaining a gear ratio.

Wheel hub arrangement for a drive with rotated drum that has a stationary shaft (13); a hollow drum (19, 20) arranged by bearings around it, a wheel drum (32) that includes a hub of the driven wheel, and freewheels, inner sleeve (21, 22) which are arranged around the stationary shaft (13) by bearings, and placed partially in the cavity of the drum (19, 20). The wheel hub arrangement for a drive with rotated drum for bicycles, street stepper vehicles, wheelchairs and tricycles.

Apparatus is for connecting a drive unit to a wheel to enable the drive unit to drive rotation of the wheel about a central axis of the wheel. The apparatus comprises: a drive member (10), a mounting member (12), a drive element (16) and preventing means (15, 36, 38). The drive member (10) is for mounting to the wheel such that rotation of the drive member (10) about the central axis drives rotation of the hub about the central axis. The mounting member (12) is mounted on the drive member and rotatably independent of the drive member with respect to the central axis. The drive element (16) has a drive element axis that is fixedly disposed in relation to the mounting member, and is for coupling to the drive unit such that the drive unit can drive rotation of the drive element about the drive element axis. The preventing means is for preventing rotation of the mounting member (12) about the central axis. The drive member (10) includes coupling means (10d) for coupling with the drive element, so that the rotation of the drive element (16) drives rotation of the drive member (12). The drive member (10) has a first surface for facing away from the wheel when the drive member (10) is mounted on the wheel. The coupling means (10d) and the drive element (16) are at least partially located in a recessed region in the first surface.

Apparatus is for connecting a drive unit to a wheel to enable the drive unit to drive rotation of the wheel about a central axis of the wheel. The apparatus comprises: a drive member (10), a mounting member (12), a drive element (16) and preventing means (15, 36, 38). The drive member (10) is for mounting to the wheel such that rotation of the drive member (10) about the central axis drives rotation of the hub about the central axis. The mounting member (12) is mounted on the drive member and rotatably independent of the drive member with respect to the central axis. The drive element (16) has a drive element axis that is fixedly disposed in relation to the mounting member, and is for coupling to the drive unit such that the drive unit can drive rotation of the drive element about the drive element axis. The preventing means is for preventing rotation of the mounting member (12) about the central axis. The drive member (10) includes coupling means (10d) for coupling with the drive element, so that the rotation of the drive element (16) drives rotation of the drive member (12). The drive member (10) has a first surface for facing away from the wheel when the drive member (10) is mounted on the wheel. The coupling means (10d) and the drive element (16) are at least partially located in a recessed region in the first surface.

A brake system for an electric wheel drive unit has a housing that can be attached securely to the vehicle frame. The housing has a flange region and a shaft-like wheel carrier region secured to the flange region. A first brake component is connected to the housing and includes a first support part attached directly on a radial outer side of the wheel carrier region and a first brake disc element rotationally fixed to the first support part. A second brake component is rotatably mounted relative to the housing and has a second support part and a second brake disc element rotationally fixed to the second support part. A hydraulic actuation device is provided with one or more pressure pistons arranged. A sliding element is provided for moveably coupling the pressure pistons with one of the brake disc elements.