A disk wheel, comprising a wheel rim (1) and a wheel spoke (2), the inner wall of the wheel rim outer edge (11) is matched with the first wheel spoke convex wall (9), the inner wall of the tire supporting wall (7) is attached to the strengthening wall (8), the groove (5b) is formed in the inner wall of the wheel rim round peak (5), the strengthening wall (8) is provided with the second wheel spoke convex wall (4) in interference fit to the groove (5b), and the groove (5b) is in interference fit to the second wheel spoke convex wall (4), so that the stability of axial matching between the wheel rim (1) and the wheel spoke (2) is guaranteed, and an axial stress, a circumferential stress and a radial stress of the disk wheel in the using process can be effectively addressed.

This non-pneumatic tire is provided with a tread ring, a wheel which is arranged radially inside of the tread ring, and spokes which are interposed between the tread ring and the wheel. Further, the wheel has a disc part to which the vehicle shaft is linked, and a rim part which is connected on the inner peripheral side to the disc part and is joined on the outer peripheral side to the spokes. In this configuration, the average thickness (T1) of the disc part is set to be greater than the average thickness (T2) of the rim part. In other words, the relation T1>T2 holds.

This non-pneumatic tire is provided with a tread ring, a wheel which is arranged radially inside of the tread ring, and spokes which are interposed between the tread ring and the wheel. Further, the wheel has a disc part to which the vehicle shaft is linked, and a rim part which is connected on the inner peripheral side to the disc part and is joined on the outer peripheral side to the spokes. In this configuration, the average thickness (T1) of the disc part is set to be less than the average thickness (T2) of the rim part. In other words, the relation T1<T2 holds.

A vehicle includes a vehicle body, at least one wheel includes an annular tire that rotates to drive the vehicle body along a main driving direction, a wheel gear disposed on an inner surface of the tire, and an in-wheel actuator that is connected to the wheel gear and that rotates to rotate the tire, and positioning devices that are fixed to the vehicle body and that rotate the at least one wheel relative to the vehicle body to change positions of the at least one wheel relative to the vehicle body, the at least one wheel being coupled to at least one positioning device so as to be rotatable.

An apparatus for assembling a non-pneumatic tire that includes a base and a plurality of elements that move relative to the base. The plurality of elements have a central axis, and the elements are disposed in a circumferential direction around the central axis and move in a radial direction towards and away from the central axis. A radial movement member, hub, and a plurality of spokes are also present. Each one of the spokes is disposed between adjacent ones of the elements. The elements and the spokes are moved inwards in the radial direction by the radial movement member towards the central axis so that the spokes are moved in the radial direction towards the hub. Adhesive engages the spokes and the hub at an attachment location of the spokes and the hub.

An apparatus for assembling a non-pneumatic tire that includes a base and a plurality of elements that move relative to the base. The plurality of elements have a central axis, and the elements are disposed in a circumferential direction around the central axis and move in a radial direction towards and away from the central axis. A radial movement member, hub, and a plurality of spokes are also present. Each one of the spokes is disposed between adjacent ones of the elements. The elements and the spokes are moved inwards in the radial direction by the radial movement member towards the central axis so that the spokes are moved in the radial direction towards the hub. Adhesive engages the spokes and the hub at an attachment location of the spokes and the hub.

A method for producing a drop centre rim and to a drop centre rim for vehicle wheels of commercial vehicles. The rim has a plurality of zones, which form an inner rim flange and an outer rim flange, an inner steep-tapered bead seat and an outer steep-tapered bead seat and a rim drop centre with a drop centre base, an inner drop centre flank and an outer drop centre flank between the steep-tapered bead seats, wherein one of the zones is provided as a disc attachment region for a wheel disc, and the drop centre rim has at least one partial zone with a reduced wall thickness relative to the other zones. It is envisaged that at least one of the steep-tapered bead seats, preferably both steep-tapered bead seats, has/have a section with a wall thickness reduction of more than 20% relative to the wall thickness in the zone provided as the disc attachment region, wherein the wall thickness reduction is produced during one of the profiling steps.

A method for producing a drop centre rim and to a drop centre rim for vehicle wheels of commercial vehicles. The rim has a plurality of zones, which form an inner rim flange and an outer rim flange, an inner steep-tapered bead seat and an outer steep-tapered bead seat and a rim drop centre with a drop centre base, an inner drop centre flank and an outer drop centre flank between the steep-tapered bead seats, wherein one of the zones is provided as a disc attachment region for a wheel disc, and the drop centre rim has at least one partial zone with a reduced wall thickness relative to the other zones. It is envisaged that at least one of the steep-tapered bead seats, preferably both steep-tapered bead seats, has/have a section with a wall thickness reduction of more than 20% relative to the wall thickness in the zone provided as the disc attachment region, wherein the wall thickness reduction is produced during one of the profiling steps.

An apparatus for assembling a non-pneumatic tire is provided that includes a plurality of elements that move relative to a base. The elements have a central axis that extends in a longitudinal direction, and the elements are disposed in a circumferential direction around the central axis. The apparatus also includes a radial movement member that moves in a radial direction, a hub, a shear band, and a plurality of spokes that are attached to the hub. The radial movement member moves outward in the radial direction and urges the elements to move relative to the base such that the elements urge the spokes to move outward in the radial direction. Adhesive engages the spokes and the shear band at an attachment location of the spokes and the shear band.

A scooter wheel assembly consists of a rim which holds a tire and said rim having as its axial hole two tapers meeting at its mid-plane. The rim accepts two hub halves of which each is a frustum, such that clamping forces across the opposed conical surfaces of the pair of frusta firmly enforce concentricity between the axle and the rim and its tire. The rim and tire are connected to the axle exclusively by frictional coupling. Advantageously for changing a rim or tire, the hub parts can be quickly disassembled with common tools.