An individually phased pawl drive mechanism includes a plurality of pawls each including a plurality of protrusions forming at least one slot between a corresponding pairing of the plurality of protrusions; a pawl carrier member sized and configured for receipt of the plurality of pawls; a drive ring carrier member including a plurality of circumferentially displaced teeth; wherein rotation in one direction causes a first one of the plurality of circumferentially displaced teeth to engage a first one of the plurality of pawls, the primary pawl; and wherein continued rotation is permitted if the drive force is sufficient to cause deflection of the pawl carrier member relative to the drive ring carrier member, thereby causing one or more subsequent ones of the plurality of secondary pawls each to be brought into engagement in succession with a corresponding one of the plurality of circumferentially displaced teeth.

An individually phased pawl drive mechanism includes a plurality of pawls each including a plurality of protrusions forming at least one slot between a corresponding pairing of the plurality of protrusions; a pawl carrier member sized and configured for receipt of the plurality of pawls; a drive ring carrier member including a plurality of radially displaced teeth; wherein rotation in one direction causes a first one of the plurality of radially displaced teeth to engage a first one of the plurality of pawls, the primary pawl; and wherein continued rotation is permitted if the drive force is sufficient to cause deflection of the pawl carrier member relative to the drive ring carrier member, thereby causing one or more subsequent ones of the plurality of secondary pawls each to be brought into engagement in succession with a corresponding one of the plurality of radially displaced teeth.

An apparatus and methods are provided for a portal spindle assembly for a vehicle front suspension. The portal spindle assembly comprises a spindle portion that is rotatably coupled with upper and lower connecting arms. A leading-edge portion is rotatably coupled with a steering rod-end joint, such that moving the steering rod-end joint rotates the spindle assembly with respect to the upper and lower connecting arms. An inboard case and an outboard case support a pinion gear assembly that is meshed with an output gear assembly for communicating torque from a constant velocity joint to a front wheel coupled to the output gear assembly. The pinion gear assembly is aligned along a pinion axis disposed at an angle with respect to a hub axis of the output gear assembly. The angle facilitates a suspension geometry that provides a camber change of the front wheel that eliminates a change in track width.

A spline connection having a hub with a toothing profile on the inner circumference, an axle journal having a toothing profile on an outer circumferential portion, a shoulder for axial support and/or abutment against the hub, and a tensioning device for axially bracing the axle journal with the hub. The hub has a constant toothing profile and the axle journal has a first portion and a second portion with different toothing profiles. The first portion is arranged on the insertion side to be further away from the shoulder than the second portion and has a constant toothing profile with play with respect to the toothing profile of the hub. The second portion is arranged on the shoulder side and has a toothing profile which has reduced tooth spaces compared with the first portion and which is play-free with respect to the toothing profile of the hub.

A vehicle axle assembly including an axle housing, carrier assembly, and first and second axle shafts. The axle housing is formed from an upper beam and a lower beam that are positioned in a clam-shell arrangement. The carrier assembly includes a carrier housing and a differential that includes a ring gear arranged in meshing engagement with a pinion. The first and second axle shafts extend outwardly from the differential in opposite directions. The pinion is rotatably supported by a self-lubricating cartridge pinion input bearing and the outboard ends of the first and second axle shafts are rotatably supported by self-lubricating and unitized grease wheel end bearings. These bearings do not require lubrication from oil contained inside the axle housing allowing for a reduced oil fill level in the axle housing, creating less viscous losses and better efficiency.

A flanged inner ring for wheel hub bearings is disclosed, wherein a tubular supporting body for the bearing is coaxial with an axis (X), and is provided with a flange, transverse to the axis (X), is provided with a plurality of threaded through holes distributed around the axis (X), and is axially delimited by an outer annular mounting surface and by an inner surface axially facing an outer ring of the bearing.

A hub motor assembly includes a hub axle, a hub shell, a motor unit, a cycloidal speed reducer, and a one-way clutch unit. When an output shaft of the motor unit rotates in a first direction about an axial line, a cycloidal wheel of the cycloidal speed reducer is driven to produce an eccentric cycloidal motion relative to the axial line, to thereby drive rotation of the hub shell in the first direction. When the output shaft rotates in a second direction opposite to the first direction, the hub shell is prevented from rotating with the output shaft.

A wheel bearing arrangement for a motor vehicle includes a wheel hub. The wheel hub is connected to a wheel flange. A multi-row rolling element bearing is mounted on the wheel hub. The bearing has an outer ring and at least one inner ring which is axially prestressed by a collar of the wheel hub. A zinc flake coating is formed on at least part of the wheel bearing arrangement to improve corrosion protection.

A wheel bearing unit for a motor vehicle, having a wheel hub, a wheel bearing flange, and a wheel bearing for pivot mounting of the wheel hub on the wheel bearing flange. The wheel hub has a passage opening for mounting a shaft journal attached to the wheel hub by a screw connection element, and an inner toothing is formed, on an inner circumferential surface delimiting the passage opening, for rotationally fixed interaction with an outer toothing of the shaft journal, and the passage opening extends through a contact shoulder, which is formed so as to have contact with a contact surface of the screw connection element, with the formation of an orifice.

Hub bearing constant velocity joint in which a radially outer, annular, element of the joint is engaged with an annular hub of a hub bearing unit with a flange at a first end thereof by means of a clamping system including a screw element assembled inside the annular joint element and able to be operated on the outer side through the annular hub so as to screw it inside a second end of the hub until it prestresses the rolling bodies of the hub bearing unit, while the transmission of torque is ensured by a splined coupling between the joint element and the second end of the hub; the screw element is axially locked against an annular shoulder formed on the inside of the joint element, on the opposite side to the annular hub, by means of an elastic ring engaged with at least one annular seat formed on the inside of the joint element.