A multi-panel skirt system for a flatbed includes two pair of forward and aft skirt panels with each pair located on an opposite lateral sides of the flatbed. In each pair, the forward skirt panel extends along the lateral side edge generally in the lengthwise direction between a leading edge and a trailing edge, which is located adjacent to and aligned with or positioned laterally inboard of the lateral side edge of the flatbed. An aft skirt panel extends along the lateral side edge generally in the lengthwise direction between a leading edge and a trailing edge aft of the forward skirt panel, which trailing edge is located adjacent to and aligned with or positioned laterally inboard of the lateral side edge. The leading edge of the aft skirt panel is positioned laterally inboard of the trailing edge of the forward skirt panel.
A preferred multi-panel skirt system for a cargo enclosure includes two pair of forward and aft skirt panels with each pair located on an opposite lateral sides of the enclosure. In each pair, the forward skirt panel extends along the bottom wall generally in the lengthwise direction between a leading edge and a trailing edge, which is located adjacent to and aligned with or positioned laterally inboard of a lateral side edge of the enclosure. An aft skirt panel extends along the bottom wall generally in the lengthwise direction between a leading edge and a trailing edge aft of the forward skirt panel, which trailing edge is located adjacent to and aligned with or positioned laterally inboard of the lateral side edge of the enclosure. The leading edge of the aft skirt panel is positioned laterally inboard of the trailing edge of the forward skirt panel.
A rear fairing assembly for a cargo enclosure includes a fairing bracket configured to be coupled to an enclosure wall of the cargo enclosure. In addition, the rear fairing assembly includes a separate fairing skin supported relative to the enclosure wall via the fairing bracket.
A preferred multi-panel skirt system for a cargo enclosure includes two pair of forward and aft skirt panels with each pair located on an opposite lateral sides of the enclosure. In each pair, the forward skirt panel extends along the bottom wall generally in the lengthwise direction between a leading edge and a trailing edge, which is located adjacent to and aligned with or positioned laterally inboard of a lateral side edge of the enclosure. An aft skirt panel extends along the bottom wall generally in the lengthwise direction between a leading edge and a trailing edge aft of the forward skirt panel, which trailing edge is located adjacent to and aligned with or positioned laterally inboard of the lateral side edge of the enclosure. The leading edge of the aft skirt panel is positioned laterally inboard of the trailing edge of the forward skirt panel.
B62D 37/02 - Stabilising vehicle bodies without controlling suspension arrangements by aerodynamic means
F16M 13/02 - Other supports for positioning apparatus or articlesMeans for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
A preferred multi-panel skirt system for a cargo enclosure includes two pair of forward and aft skirt panels with each pair located on an opposite lateral sides of the enclosure. In each pair, the forward skirt panel extends along the bottom wall generally in the lengthwise direction between a leading edge and a trailing edge, which is located adjacent to and aligned with or positioned laterally inboard of a lateral side edge of the enclosure. An aft skirt panel extends along the bottom wall generally in the lengthwise direction between a leading edge and a trailing edge aft of the forward skirt panel, which trailing edge is located adjacent to and aligned with or positioned laterally inboard of the lateral side edge of the enclosure. The leading edge of the aft skirt panel is positioned laterally inboard of the trailing edge of the forward skirt panel.
A rear fairing assembly for a cargo enclosure includes a fairing bracket configured to be coupled to an enclosure wall of the cargo enclosure. In addition, the rear fairing assembly includes a separate fairing skin supported relative to the enclosure wall via the fairing bracket.
A nose fairing for a cargo enclosure may generally include a nose body configured to extend outwardly from a front wall of the enclosure. The nose body may include an upper nose wall, a lower nose wall and a leading edge region extending between the upper and lower nose walls. The upper nose wall may include a concave region that terminates at the leading edge region such that the nose fairing transitions directly from the concave region of the upper nose wall to the leading edge region. The lower nose wall may include a convex region that terminates at the leading edge region such that the nose fairing transitions directly from the convex region of the lower nose wall to the leading edge region. The leading edge region may define a radius of curvature that differs from a radius of curvature of the convex region of the lower nose wall.
A nose fairing for a cargo enclosure may generally include a nose body configured to extend outwardly from a front wall of the enclosure. The nose body may include an upper nose wall, a lower nose wall and a leading edge region extending between the upper and lower nose walls. The upper nose wall may include a concave region that terminates at the leading edge region such that the nose fairing transitions directly from the concave region of the upper nose wall to the leading edge region. The lower nose wall may include a convex region that terminates at the leading edge region such that the nose fairing transitions directly from the convex region of the lower nose wall to the leading edge region. The leading edge region may define a radius of curvature that differs from a radius of curvature of the convex region of the lower nose wall.
A nose fairing for a cargo enclosure may generally include a nose body configured to extend outwardly from a front wall of the enclosure. The nose body may include an upper nose wall, a lower nose wall and a leading edge region extending between the upper and lower nose walls. The upper nose wall may include a concave region that terminates at the leading edge region such that the nose fairing transitions directly from the concave region of the upper nose wall to the leading edge region. The lower nose wall may include a convex region that terminates at the leading edge region such that the nose fairing transitions directly from the convex region of the lower nose wall to the leading edge region. The leading edge region may define a radius of curvature that differs from a radius of curvature of the convex region of the lower nose wall.
A side-view mirror assembly for a vehicle is disclosed. The mirror assembly may generally include a mirror housing configured to support a mirror. The mirror housing may define an airfoil shape have a first side surface and a second side surface extending between a forward edge and an aft edge. In addition, the mirror housing may be movable between a first position, wherein the mirror housing is aerodynamically aligned with an airflow flowing past the vehicle, and a second position, wherein the mirror reflects a rearwardly extending side-view of the vehicle.
A side-view mirror assembly for a vehicle is disclosed. The mirror assembly includes a mirror housing configured to support a mirror. The mirror housing defines an airfoil shape having a first side surface and a second side surface extending between a forward edge and an aft edge. The mirror housing is movable between a first position, wherein the mirror housing is aerodynamically aligned with an airflow flowing past the vehicle, and a second position, wherein the mirror reflects a rearwardly extending side-view of the vehicle . When in the first position, the mirror housing is oriented relative to the airflow such that a thmsting force is generated in the direction of travel of the vehicle. This thrusting force reduces the drag force generated by other portions of vehicle and the mirror assembly.
B60R 1/06 - Rear-view mirror arrangements mounted on vehicle exterior
B60R 1/074 - Rear-view mirror arrangements mounted on vehicle exterior with remote control for adjusting position by electrically powered actuator for retracting the mirror arrangements to a non-use position alongside the vehicle
B62D 35/00 - Vehicle bodies characterised by streamlining
A side-view mirror assembly for a vehicle is disclosed. The mirror assembly may generally include a mirror housing configured to support a mirror. The mirror housing may define an airfoil shape have a first side surface and a second side surface extending between a forward edge and an aft edge. In addition, the mirror housing may be movable between a first position, wherein the mirror housing is aerodynamically aligned with an airflow flowing past the vehicle, and a second position, wherein the mirror reflects a rearwardly extending side-view of the vehicle.
In certain embodiments of the present invention, a vehicle trailer is described that includes a shelf component that extends from the rear wall of the trailer and that defines a sloped surface.
In accordance with certain embodiments of the present disclosure, a mirror assembly for a vehicle is described. The mirror assembly includes a housing defining an aerodynamic shape. The housing includes a first curved wall, a second curved wall, a bottom portion, and a top portion. The first and second curved walls extend from the bottom portion to the top portion and intersect one another to form a leading edge of the housing. The housing is dimensionally configured so that a thrust force is generated in a travel direction of the vehicle when a crossflow from the vehicle is directed around the housing.
G02B 7/182 - Mountings, adjusting means, or light-tight connections, for optical elements for prismsMountings, adjusting means, or light-tight connections, for optical elements for mirrors for mirrors
An apparatus for reducing the drag of a trailer is provided. The apparatus can further include a pair of fairings configured to be positioned on opposite sides of a trailer in front of wheels on the bottom of a trailer, a pair of fairings configured to be positioned on opposite sides of a trailer behind the wheels on the bottom of a trailer, with both pairs of fairings placed and shaped to direct the air smoothly around the wheels and tires and through the center of the trailer. The apparatus can also include a ramp in front of the suspension components, aerodynamically shaped wings on the axles, and a rear diffuser, such components configured to direct air smoothly between the trailer suspension and the ground. The directed high energy air from the apparatus results in a reduced trailer base drag.
A vehicle trailer is provided. The vehicle trailer includes one or more side wall fairings having a leading edge and trailing edge. Each side wall fairing has an upward incline and downward incline. The side wall fairings can be utilized with one or more other components that are described herein.
In accordance with certain embodiments of the present disclosure, a mirror assembly for a vehicle is described. The mirror assembly includes a first curved wall, a second curved wall, a bottom portion, and a top portion. The first curved wall and second curved wall each extend from the bottom portion to the top portion and are joined to one another along a respective first side of each of the first curved wall and the second curved wall. The first curved wall, second curved wall, bottom portion, and top portion define an area comprising a reflecting surface. Each respective second side of each of the first curved wall and the second curved wall extends beyond the plane defined by the area and assists in a reduction in drag when fluid flow contacts the mirror assembly.
In accordance with certain embodiments of the present disclosure, a mirror assembly for a vehicle is described. The mirror assembly includes a first curved wall, a second curved wall, a bottom portion, and a top portion. The first curved wall and second curved wall each extend from the bottom portion to the top portion and are joined to one another along a respective first side of each of the first curved wall and the second curved wall. The first curved wall, second curved wall, bottom portion, and top portion define an area comprising a reflecting surface. Each respective second side of each of the first curved wall and the second curved wall extends beyond the plane defined by the area and assists in a reduction in drag when fluid flow contacts the mirror assembly.
G02B 7/182 - Mountings, adjusting means, or light-tight connections, for optical elements for prismsMountings, adjusting means, or light-tight connections, for optical elements for mirrors for mirrors
In accordance with certain embodiments of the present disclosure, a vehicle trailer is provided. The vehicle trailer includes a roof and a floor separated from each other by a pair of opposing walls that extend along the length of the floor. The roof, floor, and walls define a space accessible by a trailer door with each of the walls having a front edge and a rear edge and having a height that extends from the floor to the roof. The height is substantially the same along at least a portion of the length of the walls. The vehicle trailer further includes a pair of side wall fairings having a leading edge and trailing edge. Each side wall fairing is positioned on a different wall from the other adjacent to the rear edges of each of the walls such that the leading edge of each side wall fairing contacts the wall and the trailing edge of each side wall fairing does not contact the wall. Each side wall fairing has an upward incline and downward incline. The side wall fairings can be utilized with one or more other components that are described herein.
A rain gutter component for managing airflow over a cargo enclosure is described, the rain gutter comprising a sloped surface extending between a leading edge and a trailing free edge, the rain gutter component being configured to be positioned adjacent to a roof of the cargo enclosure such that including the leading edge contacts the roof when secured to the cargo enclosure in an operating aerodynamic configuration, the rain gutter component extends from the leading edge across a first portion of the roof and then decreases as the rain gutter component extends towards the trailing free edge along a second portion of the roof, wherein the rain gutter component is adapted to be non-movably attached to the cargo enclosure such that the portion of the rain gutter component contacting the roof is maintained in a fixed position relative to the roof.
A vehicle trailer is provided. The vehicle trailer includes a pair of side wall fairings having a leading edge and trailing edge. Each side wall fairing is positioned on a different wall from the other adjacent to the rear edges of each of the walls such that the leading edge of each side wall fairing contacts the wall and the trailing edge of each side wall fairing does not contact the wall. Each side wall fairing has an upward incline and downward incline. The side wall fairings can be utilized with one or more other components that are described herein.
In certain embodiments of the present invention, a vehicle trailer is described that further includes a shelf component. The shelf component is separate from the rain gutter component. The shelf component extends from the rear wall of the trailer and includes a sloped surface.
In accordance with certain embodiments of the present disclosure, an apparatus for reducing the drag of a trailer is provided. The apparatus can include an aerodynamic rain gutter component having a front edge and rear edge which is positioned on the roof adjacent to the rear edge of the roof such that the front edge of the rain gutter component contacts the roof and the rear edge of the rain gutter component does not contact the roof. The apparatus can further include a pair of fairings configured to be positioned on opposite sides of a trailer in front of wheels on the bottom of a trailer, a pair of fairings configured to be positioned on opposite sides of a trailer behind the wheels on the bottom of a trailer, with both pairs of fairings placed and shaped to direct the air smoothly around the wheels and tires and through the center of the trailer. The apparatus can also include a ramp in front of the suspension components, aerodynamically shaped wings on the axles, and a rear diffuser, such components configured to direct air smoothly between the trailer suspension and the ground. The directed high energy air from the apparatus results in a reduced trailer base drag.
B60P 1/64 - Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading the load supporting or containing element being readily removable
An apparatus for reducing the drag of a trailer is provided. The apparatus can further include a pair of fairings configured to be positioned on opposite sides of a trailer in front of wheels on the bottom of a trailer, a pair of fairings configured to be positioned on opposite sides of a trailer behind the wheels on the bottom of a trailer, with both pairs of fairings placed and shaped to direct the air smoothly around the wheels and tires and through the center of the trailer. The apparatus can also include a ramp in front of the suspension components, aerodynamically shaped wings on the axles, and a rear diffuser, such components configured to direct air smoothly between the trailer suspension and the ground. The directed high energy air from the apparatus results in a reduced trailer base drag.
A trailer fairing for reducing aerodynamic drag from trailer landing gear and/or wheel assembly is disclosed. The fairing may be directly connected to the forward facing structural supports of the landing gear, and an air tank may be located between the fairing and the cargo storage area. A single fairing may be used to reduce the drag from both the trailer landing gear and wheel assembly. The fairing may include a tapered front section and/or a rear section. The fairing may have rounded, oval, angled, and/or tapered sections. A plurality of fairings may also be used.
