A snow and rain deflector assembly for vehicles for preventing whiteout conditions on snow covered roads caused, by commercial vehicles. The snow and rain deflector assembly for vehicles includes a sleeve assembly including a sleeve having a side wall and a bottom; a sleeve support assembly in communication with the sleeve and adapted to removably mount the sleeve to a vehicle such as a trailer; a panel support member removably fastened to and depending from the sleeve assembly; and panels secured to and depending from the panel support member.

A mudflap for a truck or a trailer, the mudflap comprising a frame, attached to a support in the vehicle, a front side being oriented toward the wheel, and a rear side oriented away from the wheel, the frame having a left upright, a right upright, a top cross member, a bottom cross member, a plurality of louvers, each louver having ends fixedly attached to the left and right uprights, each louver comprising a first louver portion having a leading free edge and a second louver portion, the second louver portion extending from the first louver portion, the first louver portion being inclined with regard to a horizontal direction by a first angle comprised between 40? and 55?, and the second louver portion being inclined with regard to first louver portion by a second angle.

An deflection system for a vehicle to deflect flying debris may comprise an elongated support assembly configured to be supported on the vehicle such that the support assembly extends laterally with respect to the vehicle, and a deflection structure extending downwardly from the support assembly. The deflection structure may comprise a plurality of deflection elements including a first deflection element and a second deflection element positioned rearwardly of the first deflection element. The first deflection element may comprise a plurality of deflection bristles and the second deflection element may comprise at least one deflection panel.

Embodiments provide an aerodynamic fairing system that may comprise a base configured to mount to a vehicle, an arm coupled to the base at a proximate end and extending laterally, and a fairing mounted to the arm having an inboard and an outboard surface. The fairing outboard surface may provide an aerodynamic outer surface to direct flow to an angle to the rear. The arm may a fixed or adjustable length arm. The arm may provide a mounting area for a mud flap such that aerodynamic system may act as a mud flap hanger. Embodiments also provide an adjustable mud flap hanger.

An inwardly slanting aerodynamic trailer skirt disposed underneath a semitrailer, induces air to flow laterally inward underneath the trailer body to increase air flow in-between the trailing wheel sets, thereby causing increased air pressure to be developed immediately behind the trailer to yield a reduction in overall vehicle drag. An inwardly slanting mud flap disposed underneath a semitrailer, induces air to flow laterally inward underneath the trailer body to yield a reduction in overall vehicle drag.

A fender assembly having a non-metallic fender panel configured in a curved manner generally prevents material from accumulating on surfaces thereof, reduces weight of the vehicle, and provides a necessary level of protection from flying rocks and other debris that the wheels of a truck may generate. A non-metallic material is used to form the fender panel, which has a desired level of strength, durability, pliability and coefficient of friction. By carefully selecting this material, the fabrication and installation of the fender assembly is further simplified, thus providing additional efficiency. When applied to a cement mixer truck, the curved fender assembly is particularly beneficial as it provides the necessary level of protection, while also discouraging a build-up of concrete on any surface since the non-metallic material will not generally allow concrete to adhere to the surface.

Embodiments provide an aerodynamic fairing system that may comprise a base configured to mount to a vehicle, an arm coupled to the base at a proximate end and extending laterally, an a fairing mounted to the arm having an inboard and an outboard surface. The fairing outboard surface may provide an aerodynamic outer surface to direct flow to an angle to the rear. The arm may a fixed or adjustable length arm. The arm may provide a mounting area for a mud flap such that aerodynamic system may act as a mud flap hanger. Embodiments also provide an adjustable mud flap hanger.

A mud flap assembly includes a mud flap with a mounting surface and an exposed surface, where the exposed surface is on an opposite side of the mud flap from the mounting surface. A foam tape is adhesively mounted to the mounting surface and a spring clip contacts the exposed surface of the mud flap when the mud flap is mounted to a vehicle so as to compress the foam tape.

A spray protection device (1) for a wheeled vehicle (20) having at least one wheel (21) standing on the ground, said device (1) comprising a spray shield (2), suitable for being arranged at least in part behind the wheel (21), and connection means (3) for connecting the shield (1) to said vehicle (20), the spray shield (2) presenting a face suitable for facing towards the wheel (21) to be protected and an opposite face, referred to as the back of the shield (2), the connection means (3) for connecting the shield (2) to the vehicle (20) being configured, when the shield (2) is coupled to the vehicle (20), to enable the shield (2) to move between a high position, at a distance from the ground, and a low position, close to the ground. The device (1) comprises resilient shield (2) return means in the high position and a surface carried by the shield (2) and suitable for being exposed to the airflow generated when the wheeled vehicle (20) is moving forwards, said surface being configured, under the action of said airflow, to enable the shield (2) to move in a direction that is opposite to the direction of the return force.

A mud flap adapted to be attached behind a wheel or outside a wheel of a vehicle, particularly useful in association with large trucks or tractor trailers, which facilitates the redirected flow of water, mud, snow and roadway debris to and down the exterior surface of the mud flap. The mud flap is adapted to be attached to a vehicle behind a wheel thereof, using conventional technology, and includes a panel defined by an interior surface intended to be positioned approximal a tire and an opposing exterior surface. The panel has a plurality of annular apertures extending through the panel. A plurality of elbow tubes extend from the exterior surface of the panel at each of the apertures, and a plurality of lip structures defined by an arced perimeter, extend from the interior surface of the panel. The elbow tubes of the disclosed technology include a body extending with a downward curvature relative to the panel when the panel is attached to the vehicle. In this configuration, water, snow, ice and roadway debris flow down the interior surface of the panel, are collected by the lips and redirected through the elbow tubes, down the exterior surface of the panel.