The aerodynamic fairing assembly attaches to the existing hardware of the swinging doors of conventional trailers to improve the aerodynamics. The fairing assembly includes left and right folding fairing panels that mount to the existing door hinges and two sets of lock arms that mount to the existing bar lock mechanism of a conventional box style trailer. The folding fairing panels manually fold between stowed and deployed positions.

Systems and methods effective to reduce a drag coefficient in a vehicle are described. A system methods may receive first air directed towards an air intake structure at a first speed. The air intake structure may transform the first air into second air of a second speed. The system may direct the second air from the air intake structure to a tunnel structure. The tunnel structure may include an entrance and an exit, where a cross-sectional area of the entrance may be less than a cross-sectional area of the exit. The tunnel structure may expand the second air into expanded air. A third speed of the expanded air may be less than the second speed of the second air. The system may create a second drag coefficient, where the second drag coefficient may be less than the first drag coefficient.

Systems and methods effective to reduce a drag coefficient in a vehicle are described. A system methods may receive first air directed towards an air intake structure at a first speed. The air intake structure may transform the first air into second air of a second speed. The system may direct the second air from the air intake structure to a tunnel structure. The tunnel structure may include an entrance and an exit, where a cross-sectional area of the entrance may be less than a cross-sectional area of the exit. The tunnel structure may expand the second air into expanded air. A third speed of the expanded air may be less than the second speed of the second air. The system may create a second drag coefficient, where the second drag coefficient may be less than the first drag coefficient.

A lower aerodynamic screen of a front shield of a motor vehicle includes lateral air guides shaped to channel air passing under the aerodynamic screen towards front disc brakes of the vehicle, wherein each air guide is defined by two substantially vertical lateral walls and by an upper wall linked to upper edges of the lateral walls, the air guide being provided, downstream relative to a direction of flow of the air, with a window defined by rear edges of the lateral walls and the upper wall, from which the air emerges towards the disc brakes, the air guide further including a flap that is movable between a position in which it blocks the window and a position in which it is retracted from the window.

A rear spoiler device for a vehicle at least includes an air-guiding element (25) for lengthening the contour, in particular of a side surface (3) of the vehicle (1), in a travel position, and a displacement device for displacing the air-guiding element (25) between the travel position and a home position. A front end (54) of the air-guiding element (25) is provided for bearing against the side surface (3) of the vehicle (1) in the travel position. At least one sealing element (61) for sealingly bearing against the side surface (3) is provided on the front end (54) of the air-guiding element (25), and the displacement device is provided for pressing the sealing element (61) against the side surface (3) in the travel position.

An active drag-reduction system has first 22 and second 24 fluid outlets located on a vehicle 10 adjacent to a low pressure (drag) region 12, wherein fluid ejected from the second fluid outlet 24 is at a higher pressure/ejection velocity than from the first fluid outlet 22. Turbulent and/or low pressure regions adjacent to vehicles are not uniform, but rather have a varying intensity. For instance, the centre of a region may have a lower pressure and/or more turbulent nature than the periphery of the region. The system injects relatively higher pressure air or relatively higher speed air into the relatively lower pressure/more turbulent part of the low pressure/turbulent region, and relatively lower pressure air or relatively lower speed air into the relatively higher pressure/less turbulent part of the low pressure/turbulent region, compared to each other.

An aerodynamically effective attachment part or spoiler extension is disclosed. The spoiler extension includes a guide arrangement having a first guide element formed between the spoiler extension and a base body of the spoiler arrangement. Transfer of the spoiler extension is guided from a release position, in which the spoiler extension is detachable from the base body, along at transfer direction into a locking position, in which the spoiler extension is secured on the base body. The spoiler extension includes a securing element able to secure the spoiler extension automatically on the base body of the spoiler arrangement in the locking position.

An air deflector for a motor vehicle cab, the air deflector comprising an air inlet surface comprising at least one air inlet configured to receive an inlet airflow, an air outlet surface comprising at least one air outlet configured to expel an outlet airflow, at least one air duct for circulating an airflow, the at least one air duct connecting the at least one air inlet to the at least one air outlet, wherein the at least one air duct is a Venturi tube configured to increase the speed of the airflow circulating in the at least one air duct.

A laterally extending aerodynamic deflector panel disposed upstream in front of an otherwise exposed uppermost portion of a vehicle wheel assembly, and arranged to divert headwinds from otherwise impinging upon drag-magnified uppermost wheel surfaces to thereby minimize overall vehicle drag.

A vehicle lower structure includes: an introducing port into which air is introduced, the introducing port being provided to a front part of a vehicle; an air outlet from which the air blows, the air outlet being provided to an underfloor downward of a bumper cover in a vehicle-vertical direction, the bumper cover being located at the front part of the vehicle; and a spat provided frontward in a vehicle-longitudinal direction of a front wheel, the spat including: a front wall protruding from a front edge of the air outlet in the vehicle-longitudinal direction toward a vehicle-downward direction in the vehicle-vertical direction; and a rear wall protruding from a rear edge of air outlet in the vehicle-longitudinal direction toward the vehicle-downward direction, and the spat opening at both sides of the air outlet in a vehicle-width direction.