A cast aluminum wheel includes a rim element having an annular configuration defining an axis and a central element extending radially outwardly between the axis and the rim element. The rim element includes a wall extending circumferentially around the axis between a proximal bead and a distal bead. The central element includes a plurality of spokes extending radially outwardly toward the proximal bead and meets proximate the axis with adjacent of the plurality of spokes defining a cooperative feature therebetween for providing stiffness to the wheel. The spokes progressively increase in volume in a direction toward the axis from the rim element thereby providing increased mass of the spokes proximate the axis relative to the rim element.

A hub and a hub series are provided for at least partially muscle-powered bicycles. The hub includes a hub shell and a bearing unit for rotatably supporting the hub shell relative to an axle. The bearing unit includes two bearing rings having a take-up surface each and a raceway each. A bearing ring configured as an outer ring is oriented with its take-up surface to a bearing seat of the hub shell. A bearing ring configured as an inner ring is oriented with its take-up surface to the axle. Rolling members are disposed between the raceways of the bearing rings. The bearing ring includes a cut-out on its take-up surface for weight reduction so that the bearing ring is disposed spaced apart from the bearing seat and/or the axle in the region of the cut-out.

The invention is directed to a vehicle wheel (1) comprising a fiber reinforced polymer rim (2) for receiving a tire at its radially outer side (3). The rim (2) comprises an outer rim flange (4), an outer rim seat (5), a frusto-conical plane (6) inclined at an angle a relative to the rotational axis (7) of the wheel of between 1 and 90 Q, an inner rim seat (8) and an inner rim flange (9). A wheel hub (10) is connected to the rim (2) via a metal support element (11). The support element (11) is connected with the rim (2) through at least one connecting element (12) which extends through a radially elongated opening (13) in the frusto conical plane (6) of the rim (2) and is received in the support element (11). The support element (11) may alternatively be connected with the rim (2) through at least three connecting elements (12) which extend through radially elongated openings (13) in the support element (11).

A vehicle wheel system for motor vehicles includes a central wheel disc having an attachment flange for arrangement on a chassis component, and having a brake rotor which is provided coaxially with respect to a central rotational axis Ax and whose external circumference is secured to the wheel disc but is otherwise freely oriented in the radially inward direction. An aspect is a vehicle wheel system which is of lightweight construction and easy to maintain. The aspect is based on the brake rotor being secured in an exchangeable fashion by a plurality of support sections at its outer circumference with a detachable attachment and, for the purpose of conducting away heat, is secured in a thermally conductive fashion to a plurality of abutment sections on the circumference of the wheel disc, with the result that overall a modular design (MAB) is obtained.

A bicycle wheel hub that includes a hub shell having a first end and a second end. The bicycle wheel hub also includes a first flange adjacent the first end and configured for the attachment of a first plurality of spokes, and a second flange adjacent the second end configured for the attachment of a second plurality of spokes.

A hub for bicycles includes a hub shell which is rotatably supported relative to a hub axle by two roller bearings disposed on opposite ends of the hub shell, a rotor rotatably supported relative to the hub axle by two rotor bearings, and a freewheel device having an interacting hub-side freewheel component and a rotor-side freewheel component. The two freewheel components each have axial engagement elements and are axially movable relative to one another between a freewheel position and an intermeshing engaging position. The rotor is disposed in the same axial position both in the freewheel position and in the engaging position. A driving torque is transmitted in the engaging position. The hub-side freewheel component has an inner central receiving space with a bearing seat and a roller bearing received to rotatably support the hub shell. The hub-side freewheel component includes an appendix protruding outwardly from the axial body section.

A hub for bicycles with a hub shell rotatably supported relative to a hub axle by roller bearings and a rotor rotatably supported relative to the hub axle by at least two rotor bearings and with a freewheel device with two interacting freewheel components namely, a hub-side freewheel component and a rotor-side freewheel component. The two freewheel components are movable relative to one another in the axial direction between a freewheel position and an intermeshing engaging position in which a driving torque can be transmitted. The hub-side freewheel component is compact in configuration and a hub bearing to rotatably support the hub shell is integrated and configured therein. An outer ring of the hub bearing is configured in an axial body section of the hub-side freewheel component. A sealing unit protects the interior of the hub bearing from the entry of dirt and water.

The invention is directed to a method for producing a rim (2) comprising at least one three-dimensionally shaped layer of reinforcing fibers (26). In a first step a forming tool (25) is provided which comprises a three-dimensionally shaped outer contour. In a subsequent step a band of reinforcing fibers (26) is wound onto the forming tool (25) such that the reinforcing fibers follow the outer contour of the forming tool (25) and are arranged in at least one of reinforcing fibers. A draping device (27) is provided by which the band of reinforcing fibers (26) is preformed before the band of reinforcing fibers (26) is wound onto the forming tool (25).

The invention relates to a roll-up traction mat (10) for a vehicle (V) having at least one wheel (R1), said traction mat comprising a main track portion (12), and a track starter tab (20) that is fastened to one of the ends of the main track portion (12) by a hinge-forming connection portion (22) arranged to lower the track starter tab relative to the main track portion, by means of which the track starter tab can be positioned at the bottom of a rut (O) in which said wheel of the vehicle is stuck. The track starter tab comprising a plurality of transverse stiffener elements and a top face provided with studs. The track starter tab and the main track portion are constituted by at least one textile layer covered in a polymer layer.

A wheel includes a first hoop attached to a second hoop about a circumferential interface. The first and second hoops form at least part of an enclosed box structure positioned circumferentially around the wheel and adjacent to an outboard side of the wheel. The box structure may be formed at least in part by circumferential projections of the first hoop and the second hoop. The wheel may also include a central hub that optionally includes spokes. In some embodiments, the central hub may form part of the enclosed box structure. In some embodiments, a first hoop portion and a second hoop portion may be integral or unitary, with a box structure integrally formed between the hoop portions.