A non-pneumatic wheel having one or more features for protecting edges of a support structure located radially between a wheel hub and an annular shear band. A softer material is provided along certain edges of the support structure for providing resistance to damages from incidental impact. One or more electrically conductive features may also be provided to reduce or prevent the accumulation of electrical charge on a vehicle using the non-pneumatic wheel.

A non-pneumatic tire has an inner annular body centered on a rotation axis portion, an outer annular body provided radially outward of the inner annular body, a wheel portion including a connecting member elastically deforming and for connecting the inner annular body and the outer annular body, and a tread portion provided radially outward of the outer annular body and in contact with a road. The non-pneumatic tire is provided with an electrode portion which is in contact with the tread portion and is provided on the radially inner side of tread portion, and a wiring portion which connects the electrode portion and the inner annular body and is formed of a conductor. A part of the wheel portion is formed of a nonmetallic material, and the electrode portion is formed of a conductor having a prescribed width in tire width direction and a prescribed length in tire circumferential direction.

A non-pneumatic tire is provided that has a hub with a central axis. A supporting structure is located outward from the hub in a radial direction, and a shear band is located outward from the supporting structure in the radial direction. Tread is located outward from the shear band in the radial direction. A static discharge element extends from a first radial end of the supporting structure to a second radial end of the supporting structure. The first radial end is located closer to the central axis than the second radial end in the radial direction. The static discharge element is electrically conductive to conduct electricity through the supporting structure.

A non-pneumatic tire is provided that has a hub with a central axis. A supporting structure is located outward from the hub in a radial direction, and a shear band is located outward from the supporting structure in the radial direction. Tread is located outward from the shear band in the radial direction. A static discharge element extends from a first radial end of the supporting structure to a second radial end of the supporting structure. The first radial end is located closer to the central axis than the second radial end in the radial direction. The static discharge element is electrically conductive to conduct electricity through the supporting structure.

A method of forming a non-pneumatic tire is provided that includes the steps of providing an outer shear band ring (12) that has an inner diameter. An intermediate section (14) is provided that has a supporting structure. An outer diameter (102) of the intermediate section (14) in the uncompressed state is greater than the inner diameter (70) of the outer shear band ring (12). The intermediate section is compressed from the uncompressed state to a compressed state, and is inserted inside of the outer shear band ring (12). Compression of the intermediate section is released when the intermediate section is inside of the outer shear band ring, and the intermediate section (14) moves from the compressed state to a state of interference fit with the outer shear band ring (12).

Embodiments of collapsible wheels and methods of making collapsible wheels are generally described herein. Other embodiments may be described and claimed.

Embodiments of collapsible wheels and methods of making collapsible wheels are generally described herein. Other embodiments may be described and claimed.

A wheel assembly includes a hub for attachment to a rotatable axle, a plurality of first friction plates each engaging a first surface of one part of a plurality of parts of a tire assembly, a plurality of second friction plates each engaging a second surface of the one part of a plurality of parts of a tire assembly, the second surface being radially opposite the first surface, and a plurality of radial cable members each connecting the hub to the tire assembly such that each radial cable member extends radially away from the hub, bends circumferentially adjacent a corresponding second friction plate, bends radially outward and back circumferentially adjacent a corresponding first friction plate, and radially inward to a first point of intersection with the same radial cable member.

A wheel assembly includes a hub for attachment to a rotatable axle, a plurality of first friction plates each engaging a first surface of one part of a plurality of parts of a tire assembly, a plurality of second friction plates each engaging a second surface of the one part of a plurality of parts of a tire assembly, the second surface being radially opposite the first surface, and a plurality of radial cable members each connecting the hub to the tire assembly such that each radial cable member extends radially away from the hub, bends circumferentially adjacent a corresponding second friction plate, bends radially outward and back circumferentially adjacent a corresponding first friction plate, and radially inward to a first point of intersection with the same radial cable member.

A wheel assembly includes a hub for attachment to a rotatable axle, a plurality of first friction plates each engaging a first surface of one part of a plurality of parts of a tire assembly, a plurality of second friction plates each engaging a second surface of the one part of a plurality of parts of a tire assembly, the second surface being radially opposite the first surface, and a plurality of radial cable members each connecting the hub to the tire assembly such that each radial cable member extends radially away from the hub, bends circumferentially adjacent a corresponding second friction plate, bends radially outward and back circumferentially adjacent a corresponding first friction plate, and radially inward to a first point of intersection with the same radial cable member.