A non-pneumatic tire includes: an inner annular portion; an outer annular portion; a plurality of coupling portions which couple the inner annular portion and the outer annular portion to each other and are provided independently of one another in a tire circumferential direction; at least one annular overall reinforcing layer embedded entirely in the outer annular portion in a tire width direction; and at least one annular partial reinforcing layer embedded only in a part of the outer annular portion in the tire width direction, wherein the outer annular portion includes a connecting region to which the plurality of coupling portions are connected, and a non-connecting region to which the plurality of coupling portions are not connected, in the tire width direction, and wherein the partial reinforcing layer overlaps the non-connecting region in a tire radial direction when viewed from the tire circumferential direction.

A non-pneumatic tire includes: an inner annular portion; an outer annular portion; a plurality of coupling portions which couple the inner annular portion and the outer annular portion to each other and are provided independently of one another in a tire circumferential direction; at least one annular overall reinforcing layer embedded entirely in the outer annular portion in a tire width direction; and at least one annular partial reinforcing layer embedded only in a part of the outer annular portion in the tire width direction, wherein the outer annular portion includes a connecting region to which the plurality of coupling portions are connected, and a non-connecting region to which the plurality of coupling portions are not connected, in the tire width direction, and wherein the partial reinforcing layer overlaps the non-connecting region in a tire radial direction when viewed from the tire circumferential direction.

A tire includes a radially inner annular rim with a central axis, an annular shearband disposed radially outward from the inner rim, an annular supporting structure disposed radially outward from the inner rim, the supporting structure radially interconnecting the inner rim and the shearband, and an annular tread disposed radially outward from the shearband. The supporting structure includes a plurality of spokes each having a radially outer teardrop loop and a radially inner triangular structure with a radially inner vertex of the teardrop loop and a radially outer vertex of the triangular structure converging at a single location. A ratio of a maximum radial height of the teardrop loop to a maximum circumferential width of the teardrop loop is in a range between 0.99 and 0.50.

A wheel assembly that includes an outer rim assembly with a first outer rim portion, a second outer rim portion, and a plurality of outer cross members extending between the first and second outer rim portions, a tire assembly secured to the outer rim assembly, and at least a first bump stop assembly. The tire assembly includes an outer main body portion that includes first and second outer side wall portions and an outer contact portion extending transversely between the first and second outer side wall portions. The first bump stop assembly includes a first inner rim portion, a second inner rim portion and an inner main body portion. The inner main body portion includes first and second inner side wall portions and an inner contact portion extending transversely between the first and second inner side wall portions. The inner contact portion is coupled to the outer contact portion.

A system in accordance with the present invention cures and manufactures a partially-cured tire assembly. The system includes: a functional wheel member being slid into a corresponding annular, radially inner surface of the partially-cured tire assembly; a plurality of elongate spacer members; a first annular curing platen for axially securing the wheel member and spacer members relative to each other; a second annular curing platen for axially securing the wheel member and spacer members relative to each other; and a plurality of elongate inserts for creating a substantially smooth, uniform outer cylindrical surface formed by a radially outer surface of each insert and flap members of the tire assembly positioned by the radially outermost surfaces of the spacer members.

A system in accordance with the present invention cures and manufactures a partially-cured tire assembly. The system includes: a functional wheel member being slid into a corresponding annular, radially inner surface of the partially-cured tire assembly; a plurality of elongate spacer members; a first annular curing platen for axially securing the wheel member and spacer members relative to each other; a second annular curing platen for axially securing the wheel member and spacer members relative to each other; and a plurality of elongate inserts for creating a substantially smooth, uniform outer cylindrical surface formed by a radially outer surface of each insert and flap members of the tire assembly positioned by the radially outermost surfaces of the spacer members.

A nonpneumatic tire has at least one spoke loop structure connected to a shear band, wherein the spoke loop structure has a plurality of loops extending inward from the shear band, and wherein each loop is connected to a wheel. A method for forming the nonpneumatic tire includes the step of forming a base and loop subassembly by providing a base having a plurality of grooves, inserting a layer of elastomer strip into each groove and forming a loop between each of the grooves; and inserting the base and loop subassembly which has a plurality of flexible loops extending inward from a shearband so that the base is positioned adjacent the shear band; curing the base and loop subassembly formed from a strip of elastomeric material into the shearband; providing a wheel, and then connecting each loop to the wheel.

A nonpneumatic tire has at least one spoke loop structure connected to a shear band, wherein the spoke loop structure has a plurality of loops extending inward from the shear band, and wherein each loop is connected to a wheel. A method for forming the nonpneumatic tire includes the step of forming a base and loop subassembly by providing a base having a plurality of grooves, inserting a layer of elastomer strip into each groove and forming a loop between each of the grooves; and inserting the base and loop subassembly which has a plurality of flexible loops extending inward from a shearband so that the base is positioned adjacent the shear band; curing the base and loop subassembly formed from a strip of elastomeric material into the shearband; providing a wheel, and then connecting each loop to the wheel.

A shear band that may be used e.g., in a non-pneumatic tire is provided. The shear band uses interlaced reinforcing elements positioned within a shear layer of elastomeric material. A variety of configurations may be used to create the interlaced positioning of the reinforcing elements including e.g., a horizontal diamond or vertical diamond configuration. The shear layer formed from a rubber composition having a very low hysteresis reinforced with silica.

A shear band that may be used e.g., in a non-pneumatic tire is provided. The shear band uses interlaced reinforcing elements positioned within a shear layer of elastomeric material. A variety of configurations may be used to create the interlaced positioning of the reinforcing elements including e.g., a horizontal diamond or vertical diamond configuration. The shear layer formed from a rubber composition having a very low hysteresis reinforced with silica.