A bicycle disc wheel comprises a first disc panel and a second disc panel. The first disc panel has a first side outer surface and a first side inner surface and the second disc panel has a second side outer surface and a second side inner surface. The first side outer surface radially extends from a first disc panel outer perimeter to a center opening and the second side outer surface radially extends from a second disc panel outer perimeter to the center opening. The second side inner surface faces the first side inner surface. A brace is coupled to the first side inner surface and the second side inner surface that provide radial and axial structural support to the disc panels.

A vehicle wheel has spokes, on which cover elements are provided for a space between the spokes. The cover elements deform according to the temperature in such a way that, at higher temperatures, a passage of air through a region of the space between the spokes is possible, which is covered by the cover element at lower temperatures. In this way, the cover elements do not entirely cover the respective spaces between the spokes, and a rigid cap element is provided per intermediate space in addition to a cover element deforming according to the temperature. Alternatively, two cover elements are provided in each space between the spokes, next to one another in the circumferential direction of the wheel, wherein in the deformed state, one of the cover elements is curved outwards and the other cover element is curved inwards towards the vehicle.

An aerodynamically optimized drag-reduction appartus and method for optimal minimization of the drag-induced resistive forces upon a terrestrial vehicle, where the drag-induced resistive moments on wheel surfaces pivoting about the stationary point of ground contact are reduced, and the vehicle propulsive forces needed to countervail the resistive forces on the wheel are reduced. The drag reduction apparatus includes: a streamlined fairing or wind deflector positioned on a vehicle to shield the faster moving upper wheel surfaces from headwinds; an engine exhaust pipe disposed on a vehicle whereby exhaust gases deflect headwinds to shield the faster moving upper wheel surfaces of an automotive wheel; an automotive spoked wheel having streamlined oval-shaped wheel spokes; a wheel assembly with a streamlined tailfin rotatably attached to a wheel spoke; a wheel with a tapered spoke having a thin aerodynamic profile near the rim and tapering to a round profile toward the central hub; and a tire having streamlined tread blocks arranged in an aerodynamic pattern.

Embodiments described herein provide aerodynamic bicycle rims and wheels. Embodiments can include a bicycle rim that is wider than the width of the tire proximate to the outer edge of the rim and is shaped so that there is a tangent line tangent to the rim and the tire. The tangent line can be tangent to the rim on the sidewall or elsewhere on the rim. The widest part of the rim can be radially inward from the outer edge of the rim or elsewhere on the rim and the tangent line can be tangent at the widest part of the rim or elsewhere on the rim.

A wheel with flexible spokes, including a rim and hub, and spokes between the rim and hub made of fibrous material that causes the spokes to be both lighter in weight and stronger than comparable steel spokes. The spokes are also flexible and resilient such that they can bend while retaining their integrity and strength.

An arrangement of wheels for a bi-directional vehicle may decrease the drag coefficient for the vehicle regardless of a direction of travel of the vehicle. A pair of wheels, each wheel of the pair having a configuration of fins to promote a desired aerodynamic effect, when located at a leading end of the vehicle promotes airflow laterally outboard of the vehicle body. In contrast, the same pair of wheels, when located at a trailing end of the vehicle promotes airflow laterally inboard of the vehicle body.

A variable aerodynamic wheel includes: a spoke wheel having a plurality of spokes connecting a hub and a rim together are spaced apart from each other, and a plurality of through spaces defined between the plurality of spokes to allow air to pass therethrough; a variable flap rotatably disposed in the plurality of through spaces of the spoke wheel, and configured in a shape to cover an associated through space so as to open or close the associated through space according to a rotation angle thereof; and a drive unit disposed in the spoke wheel, and connected to the variable flap such that the rotation angle of the variable flap is adjusted as rotational power is transmitted.

A longitudinally tapered wheel spoke having a thin aerodynamic cross-sectional profile proximate to the wheel rim and tapering to a round profile toward the central hub, with the tapered section optimized to minimize drag against a combined headwind and crosswind impinging upon the primary vehicle-drag-inducing uppermost region of the wheel assembly.

A wheel-well closure system for a motor vehicle has a wheel-arch delimiting a wheel-well and a wheel mounted in the wheel-well, the system comprising: a support structure connected to the wheel-arch; and a cover connected to the support structure and covering the wheel-well; wherein the cover is made of a flexible material and is secured to the wheel arch; wherein the system comprises a continuous annular part secured to the wheel facing the cover and rotating with the wheel about a horizontal axis; and wherein the support structure comprises an arm extending radially in front of the continuous annular part and against the cover, a steering movement of the wheel about a vertical axis causing the continuous annular to push the support structure and stretch the cover outside the wheel-well.

A vehicle wheel for a vehicle has a plurality of spokes, lamellac, blades, wheel segments or similar which are arranged on an outer side of the vehicle wheel, a kinematic system, via which the contour of the outer side of the vehicle wheel can be changed, and a slide element which is adjustable between an inner position and an outer position. The spokes, lamellae, blades, wheel segments or similar are hinged on the slide element and are adjustable together with the slide element.