A three-layer soft rubber shock absorbing wheel including a hub. An outer surface of the hub is bonded with a hard body, a first layer of tread and a second layer of tread having a hardness lower than that of the first layer of tread. The hard body, the first layer of tread, and the second layer of tread are arranged from inside to outside in sequence. The second layer of tread is bonded in a concave surface portion on an outer surface of the first layer of tread. The first layer of tread and the second layer of tread are both elastic bodies. The hard body is configured to have an I-shaped structure body. The three-layer soft rubber shock absorbing wheel is a wheel body made by bonding three layers of materials with different hardness.

A flexible wheel may include a flexible tire section which is deformable in a radial direction from a circumference thereof, and an anti-bending guide section coupled with the flexible tire section. The anti-bending guide section is connected to a driving shaft, and the flexible tire section and the anti-bending guide section are concentric. The flexible tire section includes a ring-shaped outer layer, one or more inner layers, and a plurality of spokes. In addition, the anti-bending guide section includes a plurality of plates, a hub, and a plurality of guides.

A non-pneumatic tire and radio frequency identification tag combination is provided. The combination includes a ground-contacting annular tread, a central rim and at least one spoke disk disposed between the rim and the tread. The at least one spoke disk includes an inner ring mounted on the central rim, an outer ring, and a plurality of spokes extending radially between the inner ring and the outer ring. A shear band is disposed between the outer ring of the at least one spoke disk and the tread. A radio frequency identification tag is attached to the inner ring or the outer ring of the at least one spoke disk.

A process for making a wheel assembly for a lightweight vehicle includes the steps of: (a) providing a wheel which includes a rim having a recessed outer surface, (b) disposing a foam tire core on the wheel such that an inner annular surface of the foam tire core is in abutment with the recessed outer surface of the rim, (c) applying an adhesive agent on at least one of an inner surface of a rubber casing and an outer annular surface of the foam tire core, and (d) wrapping the rubber casing on the foam tire core such that the inner surface of the rubber casing is brought into press engagement with the outer annular surface of the foam tire core.

A hub (300) for a non-pneumatic wheel (102) and the non-pneumatic wheel (102) incorporating such hub (300). The hub (300) includes an annular receiver (302) with a plurality of projections (312) and grooves (318) arranged in an alternating manner along the circumferential direction of the hub (300). The grooves (318) are configured to receive tension-transmitting elements or spokes (106) of the non-pneumatic wheel (102). The annular receiver (302) may be manufactured from a single sheet of metal that .sub.2 is folded and welded to create the projections (312) and grooves (318).

Polyurethane elastomeric compositions for making tires, methods for making said tires and tires made of said polyurethane elastomers. Said tires are in particular suitable for use as tires for low speed vehicles such as bicycle tires.

A non-pneumatic tire includes a generally annular inner ring that attaches to a wheel, a generally annular outer ring, and an interconnected web between the generally annular inner ring and the generally annular outer ring. The interconnected web defines a plurality of openings circumferentially spaced around the tire and radially spaced at varying distances from an axis of rotation, so as to support a load by working in tension. The interconnected web includes a plurality of web elements having a varying thickness, including a first plurality of web elements above the axis of rotation and a second plurality of web elements below the axis of rotation. The varying thickness is configured to facilitate buckling of the interconnected web. When a load is applied, the first plurality of web elements are subjected to a tensile force while the second plurality of web elements buckle.

The invention is a solid green tire.

A non-pneumatic tire assembly includes a non-pneumatic tire. The non-pneumatic tire includes an inner circumferential ring and an outer circumferential ring defining an annular space and a cylindrical space inside the inner circumferential ring. A plurality of partitions connect the circumferential rings within the annular space. A ground-contacting tread is located on the outer circumferential ring. A rim, including a plurality of pieces, is located within the cylindrical space. The non-pneumatic tire assembly further includes a hub that is removably connected to the rim.

A non-pneumatic tire is described that includes a ground contacting annular tread portion, a shear band, wherein the shear band is formed of a first and second inextensible layer, and a low modulus material positioned between the first and second inextensible layer. The non-pneumatic tire further includes a connecting web positioned between a hub and the shear band, wherein the connecting web is formed of one or more spokes extending from an inner ring to an outer ring, wherein the one or more spokes are formed from a material reinforced with a three dimensional spacer structure.