Patent ID: 6986544
Filing Date: 2006-01-17
Classification: B62D

Abstract:
1. An aerodynamic drag reduction device for use on a trailing vehicle or trailing vehicle component of a multiple component ground vehicle comprising: a plurality of adjacent surfaces attached to the forward facing exterior surface of said trailing vehicle or trailing vehicle component of a multiple component ground vehicle, a means for attaching said plurality of adjacent surfaces to said trailing vehicle or trailing vehicle component of a multiple component ground vehicle, said plurality of adjacent surfaces are distributed over a majority of the exterior forward facing exterior surface of said trailing vehicle or trailing vehicle component of a multiple component ground vehicle, said plurality of adjacent surfaces are symmetrically positioned about the said vehicles vertical plane of symmetry, said plurality of adjacent surfaces are positioned in the gap region between the aft facing base exterior surface of a leading vehicle or vehicle component and the forward facing front exterior surface of a trailing vehicle or vehicle component, said plurality of adjacent surfaces are aligned in planes or surfaces that are parallel to the longitudinal axis of the vehicle or vehicle component, said plurality of adjacent surfaces are approximately equally spaced from one another across the said forward facing surface, said plurality of adjacent surfaces extend forward from the said forward facing surface of the trailing vehicle or vehicle component a distance between 10 and 50% of the longitudinal gap distance between the said aft facing base exterior surface of the leading vehicle or vehicle component and the said forward facing exterior surface of the said trailing vehicle or vehicle component, each of said adjacent surfaces are vertically aligned to be approximately perpendicular to the flow direction of the local cross flow in the gap region between the said leading vehicle or vehicle component and the said trailing vehicle or vehicle component, each of said plurality of adjacent surfaces are substantially parallel to one another, each of said plurality of adjacent surfaces are positioned at approximately the same vertical position on said vehicle, each of said adjacent surfaces extend forward an equivalent distance from the exterior forward facing surface of the said trailing vehicle or vehicle component, each of said adjacent surfaces are separated from said adjacent surface a distance that is approximately equal to the distance the said surfaces extend forward from the exterior forward facing surface of the said trailing vehicle or vehicle component, each of said adjacent surfaces extends vertically over a majority of the height of the forward facing surface of the said trailing vehicle or vehicle component, each of said adjacent surfaces have a thickness of less than 1.0 inches, each of said adjacent surfaces may vary in forward extent, each of said adjacent surfaces may vary in vertical extent, each of said adjacent surfaces may vary in forward extent along its vertical extent, each of said adjacent surfaces being attached to the said forward facing exterior surface of the said trailing vehicle or vehicle component and being separated from and substantially parallel to one another allow each said adjacent surface to interact with the flow entering the gap region between the said aft facing exterior surface of the leading vehicle or vehicle component and the said forward facing exterior surface of the trailing vehicle or vehicle component and allow each of said adjacent surface to generate a vortex of equivalent strength and rotational velocity thereby the pressures on the surface of the said forward facing exterior surface of the said trailing vehicle or vehicle component is changed to a substantially lower value.