A bicycle disc wheel comprises a first disc panel and a second disc panel. The first disc panel has a first side outer surface and a first side inner surface and the second disc panel has a second side outer surface and a second side inner surface. The first side outer surface radially extends from a first disc panel outer perimeter to a center opening and the second side outer surface radially extends from a second disc panel outer perimeter to the center opening. The second side inner surface faces the first side inner surface. A brace is coupled to the first side inner surface and the second side inner surface that provide radial and axial structural support to the disc panels.

A bicycle disc wheel comprises a first disc panel and a second disc panel. The first disc panel has a first side outer surface and a first side inner surface and the second disc panel has a second side outer surface and a second side inner surface. The first side outer surface radially extends from a first disc panel outer perimeter to a center opening and the second side outer surface radially extends from a second disc panel outer perimeter to the center opening. The second side inner surface faces the first side inner surface. A brace is coupled to the first side inner surface and the second side inner surface that provide radial and axial structural support to the disc panels.

The present invention is directed to airless tires. Exemplary airless tires include a hub configured for attachment to an axle and includes a hub support extending away from the hub. Such exemplary airless tires also include a heel configured around the hub and connected at a distal end of the hub support, whereby the heel includes an elastomer base oriented in a ring around a circumference of the hub support. Such exemplary airless tires also include elastomeric tubes extending radially outward from the heel. Other exemplary airless tires include a centerless hub assembly configured for attachment to an axle and a heel configured around the centerless hub assembly. The heel in such exemplary airless tires includes an elastomer base oriented in a ring around a circumference of the centerless hub assembly. These other exemplary airless tires include elastomeric tubes extending radially outward from the heel.

The present invention is directed to airless tires. Exemplary airless tires include a hub configured for attachment to an axle and includes a hub support extending away from the hub. Such exemplary airless tires also include a heel configured around the hub and connected at a distal end of the hub support, whereby the heel includes an elastomer base oriented in a ring around a circumference of the hub support. Such exemplary airless tires also include elastomeric tubes extending radially outward from the heel. Other exemplary airless tires include a centerless hub assembly configured for attachment to an axle and a heel configured around the centerless hub assembly. The heel in such exemplary airless tires includes an elastomer base oriented in a ring around a circumference of the centerless hub assembly. These other exemplary airless tires include elastomeric tubes extending radially outward from the heel.

The present invention is directed to airless tires. Exemplary airless tires include a hub configured for attachment to an axle and includes a hub support extending away from the hub. Such exemplary airless tires also include a heel configured around the hub and connected at a distal end of the hub support, whereby the heel includes an elastomer base oriented in a ring around a circumference of the hub support. Such exemplary airless tires also include elastomeric tubes extending radially outward from the heel. Other exemplary airless tires include a centerless hub assembly configured for attachment to an axle and a heel configured around the centerless hub assembly. The heel in such exemplary airless tires includes an elastomer base oriented in a ring around a circumference of the centerless hub assembly. These other exemplary airless tires include elastomeric tubes extending radially outward from the heel.

A vehicle wheel arrangement may have a wheel with a wheel hub and a carrier element for mounting the wheel on a vehicle part and/or for the arrangement of a power-transmitting unit. The wheel hub may have a joining portion, which in a joined state of the vehicle wheel arrangement corresponds with a joining portion of the carrier element. Surface profiles of the joining portions are configured such that, in the joined state of the vehicle wheel arrangement, the wheel hub and the carrier element are connected to one another in form-fitting fashion at least in a circumferential direction of the wheel hub axis. Furthermore, a method can be used to produce a vehicle wheel arrangement having a wheel hub comprised of fiber-reinforced composite and a carrier element.

A mounting portion of a disc includes a flat plate portion having a pressing surface to be pressed against a hub of an axle, and a plurality of nut support portions protruding from the flat plate portion to a side opposite to the pressing surface in an axial direction of the disc, and having an annular shape as viewed from the axial direction. A bolt hole is provided to penetrate the nut support portion in the axial direction. The nut support portion includes a bulging portion curving to bulge outward in a radial direction of the nut support portion, and a protruding portion disposed adjacent to the bulging portion in a circumferential direction of the nut support portion, and protruding inward in the radial direction of the nut support portion with respect to the bulging portion.

A mounting portion of a disc includes a flat plate portion having a pressing surface to be pressed against a hub of an axle, and a plurality of nut support portions protruding from the flat plate portion to a side opposite to the pressing surface in an axial direction of the disc, and having an annular shape as viewed from the axial direction. A bolt hole is provided to penetrate the nut support portion in the axial direction. The nut support portion includes a bulging portion curving to bulge outward in a radial direction of the nut support portion, and a protruding portion disposed adjacent to the bulging portion in a circumferential direction of the nut support portion, and protruding inward in the radial direction of the nut support portion with respect to the bulging portion.

A composite wheel assembly and method of construction thereof is provided. The composite wheel assembly includes a wheel having an inwardly facing surface, an outwardly facing surface, a generally cylindrical barrel portion, and a plurality of apertures formed about a central hub aperture. At least one wheel cladding is fixedly bonded to at least one of the inwardly facing surface, the outwardly facing surface, and the generally cylindrical barrel portion. The wheel cladding increases the stiffness and/or strength of the wheel between about 2-16% or greater as compared to the wheel not having the at least one cladding.

A composite wheel assembly and method of construction thereof is provided. The composite wheel assembly includes a wheel having an inwardly facing surface, an outwardly facing surface, a generally cylindrical barrel portion, and a plurality of apertures formed about a central hub aperture. At least one wheel cladding is fixedly bonded to at least one of the inwardly facing surface, the outwardly facing surface, and the generally cylindrical barrel portion. The wheel cladding increases the stiffness and/or strength of the wheel between about 2-16% or greater as compared to the wheel not having the at least one cladding.