A bicycle rim is made with a plurality of layered, each of which is formed of structural fibres incorporated in a polymeric material. The rim has a radially outer peripheral channel with an upper bridge extending between the wings for holding a tyre. The peripheral channel comprises an inner layered structure, extending between wings and at least one wrapping layered structure, wound on the inner layered structure at least at the end of the wings, the inner layered structure and the wrapping layered structure being included in the plurality of layered structures.

A bicycle rim is made with a plurality of layered, each of which is formed of structural fibres incorporated in a polymeric material. The rim has a radially outer peripheral channel with an upper bridge extending between the wings for holding a tyre. The peripheral channel comprises an inner layered structure, extending between wings and at least one wrapping layered structure, wound on the inner layered structure at least at the end of the wings, the inner layered structure and the wrapping layered structure being included in the plurality of layered structures.

The invention relates to a vehicle wheel assembly, comprising 1) a wheel rim having two opposed circular rim flanges; 2) an outer tire having two beads secured at the circular rim flanges; 3) an inlay; 4) a non-pneumatic inner tire comprising expanded thermoplastic polyurethane (E-TPU), which inner tire is enclosed by the outer tire, the inlay and the wheel rim. The inner tire in the assembly is in a compressed state S1, which state is compressed as compared to a relaxed state S2 when the inner tire is not enclosed by the outer tire, the compression being such that the cross-sectional surface area SA of the inner tire, which area is perpendicular to the plane of the tire, is smaller in state S than in state S2.

A wheel assembly for a tire includes a circular hub member for securing to a rotatable axle of a vehicle, an annular first rim piece for engaging the tire, the first rim piece being secured to a first axial end of the circular hub member, an annular second rim piece for engaging the tire, the second rim piece being secured to an opposite second axial end of the circular hub member, a plurality of cylindrical bolts for engaging both the first rim piece and the second rim piece, the cylindrical bolts each engaging the first rim piece, the second rim piece, and a spoke structure of the tire; and a threaded tension bolt for varying a radial position of a first axial end of one of the cylindrical bolts relative to a first elongate opening of the first rim piece.

A rim for a vehicle wheel, the rim comprising: a circumferential tire bed surface, the tire bed surface comprising: a circumferential first bead seat and a circumferential second bead seat laterally spaced from said first bead seat, said first bead seat configured to support a first bead of a mating tire and said second bead seat configured to support a second bead of said mating tire; a circumferential rim well laterally positioned between said first bead seat and said second bead seat; wherein said rim well comprises a circumferential first step edge laterally inwardly offset from said first bead seat and a circumferential first spacer region laterally positioned between said first bead seat and said first step edge; at least a portion of said first spacer portion is radially inboard of said first bead; said first step edge extending radially inwardly from said first spacer region; wherein said first step edge is configured to provide for lateral alignment registration and/or visual alignment and placement of a first edge of a mating rim strip, said rim strip is a circumferential element that radially outwardly overlaps said rim well and extends laterally inwardly from said first edge.

A portal box assembly for mounting a wheel to an off road vehicle in a lifted and extended wheelbase position. The assembly includes a portal gear box having an input shaft opening for an input shaft, and an output shaft extending from an output shaft opening. The portal gear box also includes a set of gears effective to transmit power from the input shaft to the output shaft, and optionally to reduce the gear ratio. The assembly is mountable to the vehicle in an extended wheelbase position in which the output shaft is positioned below and forward of the input shaft when the assembly is used to mount a forward wheel, and in which the output shaft is positioned below and rearward of the input shaft when the assembly is used to mount a rear wheel.

An aerodynamic bicycle rim, the bicycle rim comprising a circumferential clincher portion adapted to seat a clincher bicycle tire, a nose a set of sidewalls, each sidewall extending radially from the nose to a respective circumferential outer edge to form a rim body having a maximum rim body width that is greater than a maximum width of the clincher bicycle tire and spaced radially inward of the clincher portion and radially outward from a centerline of the rim body. The aerodynamic bicycle rim seats the clincher bicycle tire to form an asymmetrical cross-sectional shape in which the widest part of the rim body is spaced from a centerline of the asymmetrical cross-sectional shape and there is a tangent line tangent to the clincher bicycle tire and a sidewall of the set of sidewalls, the tangent line tangent to the sidewall radially inward from the respective circumferential outer edge.

An aerodynamic bicycle rim, the bicycle rim comprising a circumferential clincher portion adapted to seat a clincher bicycle tire, a nose a set of sidewalls, each sidewall extending radially from the nose to a respective circumferential outer edge to form a rim body having a maximum rim body width that is greater than a maximum width of the clincher bicycle tire and spaced radially inward of the clincher portion and radially outward from a centerline of the rim body. The aerodynamic bicycle rim seats the clincher bicycle tire to form an asymmetrical cross-sectional shape in which the widest part of the rim body is spaced from a centerline of the asymmetrical cross-sectional shape and there is a tangent line tangent to the clincher bicycle tire and a sidewall of the set of sidewalls, the tangent line tangent to the sidewall radially inward from the respective circumferential outer edge.

A wheel for vehicles is provided. The wheel has a rim of sheet metal having on its axially outer side an outer flange, an outer bead seat, an outer retaining hump, and a rim well connected to the outer bead seat through the outer retaining hump. The wheel has a disc of sheet metal having a cover part and a connection part axially protruding from the cover part. The connection part of the disc is fixed to a radially inner surface of the rim. At least one formation of additive material is formed on at least one of the rim and the disc, the at least one formation defining a steep thickness change with respect to a surrounding region of sheet metal.

An aerodynamic bicycle rim comprising: a circumferential outer portion comprising a circumferential outer surface, the circumferential outer portion adapted to seat a bicycle tire; a nose; and a set of sidewalls, each sidewall extending radially from the nose of the aerodynamic bicycle rim to a corresponding transition to the circumferential outer surface to form a rim body having a maximum rim body width that is greater than a maximum width of the bicycle tire. The aerodynamic bicycle rim is operable to seat the bicycle tire so that the aerodynamic bicycle rim and the bicycle tire form an asymmetrical cross-sectional shape.