Assembly (1) comprising at least one vehicle wheel (2), adapted to rotate about a vehicle wheel axis (X2) and adapted to perform a rolling movement on an advancement surface for the vehicle; at least one further rotating member (4), which can be operatively connected to said vehicle wheel (2); at least one transmission (6) adapted to transmit kinetic power between said vehicle wheel (2) and said at least one further rotating member (4); wherein said transmission (6) achieves a transmission ratio other than +1; at least one braking device (18) acting on said at least one further rotating member (4) in order to brake said vehicle wheel (2) by means of a braking action acting on said at least one further rotating member (4) which is transmitted to the vehicle wheel (2) by means of said transmission (6).

The present disclosure provides a hub unit including a fixing shaft disposed along a rotation center shaft; a hub body rotatably disposed at the fixing shaft through a bearing and having space inside; a brake disk fixed in the hub body by a bracket and formed in a circumference direction on a basis of the fixing shaft; a fixing member where one side of which is fixed to the fixing shaft; a caliper formed at the other side of the fixing member and a part of the brake disk is inserted into the caliper; and a brake pad where both inside surfaces of the brake pad are contacted with both side surfaces of the brake disk.

An axle system includes an axle stub, a first connecting section and a second connecting section, wherein the axle stub is embodied on its outer side so as to be essentially rotationally symmetrical about a stub axis and has two ducts which extend parallel to the stub axis in certain regions, wherein the connecting sections lie in a connecting plane which is oriented orthogonally with respect to the stub axis, wherein the axle stub has an attachment region for securing a brake carrier which extends parallel to the connecting plane.

A pulsar ring which is a detection target ring includes an annular base wall having pickup holes and a plurality of ring attachment portions protruding from an outer peripheral edge portion of the base wall and being fixed, together with a disc attachment portion of a brake disc, to a wheel of a vehicle wheel assembly. Regions corresponding to positions between adjacent ring attachment portions in an inner peripheral edge portion of the base wall are bent to form reinforcing ribs.

The vehicle power device includes: a wheel bearing; and an electric motor including a stator and a rotor. The vehicle power device includes a rotor casing that is a cover member covering the electric motor and a part of the wheel bearing, the part being located on an inboard side with respect to the hub flange, such that a separated space is defined inside the cover member. A seal member configured to prevent entry of moisture from a press-fitting part where a hub bolt is press-fitted into a bolt hole provided in the hub flange is disposed near the press-fitting part. The hub flange is formed with an annular groove coaxial with the hub bolt in an area where a head of the hub bolt comes into contact with an inboard-side surface of the hub flange, and the seal member having a ring shape is disposed in the annular groove.

An in-wheel working device may include a motor part configured to generate power, a first speed reduction part including a sun gear connected to a driving shaft of the motor part and configured to rotate with the driving shaft, a planetary gear configured to rotate along a circumference of the sun gear, and a carrier configured to rotate with the planetary gear, a second speed reduction part installed in series to the first speed reduction part, and configured to perform speed reduction through a gear ratio while rotating with the carrier axially connected to the second speed reduction part, a hub part spline-coupled to the second speed reduction part, and configured to rotate with the second speed reduction part, and a wheel member connected to the hub part, and configured to rotate with the hub part.

A vehicle spindle and a method of attaching the spindle to a portion of an axle half shaft housing. The spindle has an inner surface, an outer surface, one or more bearing journals on the outer surface of the spindle and a radially protruding portion circumferentially extending from at least a portion of the outer surface of an axially inboard end portion of the spindle. Prior to attaching the spindle to the axle half shaft housing, the one or more bearing journals are ground, a clocking angle for the radially protruding portion of the spindle is determined and the spindle is aligned to the determined clocking angle. Once the spindle is aligned to the determined clocking angle, the axially inboard end portion of the spindle is attached to an axially outboard end portion of the axle half shaft housing using one or more welds.

A wheel may include a centerless rim with a rail with a driving feature, where the rail protrudes towards a middle of the centerless rim in a first plane. The wheel may also include a stationary hub positioned along a second plane generally parallel with the first plane. The wheel may additionally include a roller guide assembly that includes a support member coupled to the stationary hub and configured to bridge the rail, and first and second roller guides coupled to the support member and positioned to roll along the centerless rim adjacent to and on either side of the rail. The wheel may additionally include a spring positioned to bias the first roller guide against the centerless rim.

Aspects of the present disclosure are directed to, for example, drive systems for transport devices. In one example embodiment, a drive system is disclosed including at least two drive wheels, at least one wheel bearing, at least one rim of the at least one of the drive wheels mounted by means of the at least one wheel bearing, at least one drive of the at least one of the drive wheels is arranged within the at least one wheel bearing, and at least one braking device coupled to at least one of the drive wheels. The at least two drive wheels are aligned on a common first axis, the drive wheel axis of rotation, which is angled relative to a second axis, the pendulum axis, and a third axis, a pivot axis, is likewise arranged at an angle relative to the first and second axes.

A knuckle apparatus for a vehicle suspension system, may include a bearing device having an assembly end portion protruding and extending from a center thereof; and a knuckle device having a plurality of brackets connected to a suspension system component, the brackets being coupled through the assembly end portion.