The present embodiments provide a wake convergence device that allows for the increase in pressure of the low pressure region created behind the “square-shaped” trailing edge of a trailer. The present embodiments also reduce the effect of the trailing edge tip vortices and re-streamlines the flow sh
The present embodiments provide a wake convergence device that allows for the increase in pressure of the low pressure region created behind the “square-shaped” trailing edge of a trailer. The present embodiments also reduce the effect of the trailing edge tip vortices and re-streamlines the flow shedding off the sides and top of the semi-trailer. The wake convergence device mounts to an existing trailer with aerodynamic brackets and hinges in a manner that will not impede a trailer's current practical function for loading and unloading of its payload. The wake convergence device efficiently manages the trailer's trailing edge flow because of its positioning that allows a gap between the wake convergence device and the trailer sides or top.
대표청구항▼
1. A wake convergence device for a vehicle having a vehicle top and first and second vehicle sides each extending from the vehicle top, the vehicle including a vehicle leading edge, a vehicle trailing edge, and a vehicle longitudinal axis, the wake convergence device comprising: a top panel position
1. A wake convergence device for a vehicle having a vehicle top and first and second vehicle sides each extending from the vehicle top, the vehicle including a vehicle leading edge, a vehicle trailing edge, and a vehicle longitudinal axis, the wake convergence device comprising: a top panel positioned above and spaced from the vehicle top, the top panel including a top panel leading edge that transitions from forward of the vehicle trailing edge to aft of the vehicle trailing edge;a first side panel positioned beside and spaced from the first vehicle side and including a first side panel leading edge that transitions from forward of the vehicle trailing edge to aft of the vehicle trailing edge; anda second side panel positioned beside and spaced from the second vehicle side and including a first side panel leading edge that transitions from forward of the vehicle trailing edge to aft of the vehicle trailing edge. 2. The wake convergence device of claim 1, wherein the top panel includes a top panel axis extending collinearly with the top panel leading edge at a center of the top panel, the top panel further comprising: a first top panel end that extends forward of the top panel axis; anda second top panel end that extends forward of the top panel axis. 3. The wake convergence device of claim 1, wherein: the first side panel includes a first side panel axis extending collinearly with the first side panel leading edge at a center of the first side panel, the first side panel further comprising at least one first side panel end that extends forward from the first side panel axis; andthe second side panel includes a second side panel axis extending collinearly with the second side panel leading edge at a center of the second side panel, the second side panel further comprising at least one second side panel end that extends forward from the second side panel axis. 4. The wake convergence device of claim 1, wherein: a portion of the top panel forward of the top panel trailing edge angles toward the vehicle longitudinal axis;a portion of the first side panel forward of a first side panel trailing edge angles toward the vehicle longitudinal axis; anda portion of the second side panel forward of a second side panel trailing edge angles toward the vehicle longitudinal axis. 5. The wake convergence device of claim 1, wherein each of said first and second side panels rotates approximately 225° from a deployed position to a stowed position. 6. The wake convergence device of claim 1, wherein the top panel includes two top panel halves, each top panel half joined to a vehicle door at an aft end of the vehicle. 7. The wake convergence device of claim 6, wherein each top panel half moves with the respective vehicle door and positions above the vehicle when the vehicle door is opened full swing. 8. The wake convergence device of claim 1, wherein the top panel is hingedly attached to the vehicle top and rotates toward the vehicle leading edge. 9. The wake convergence device of claim 1, wherein the top panel, the first side panel, and the second side panel are formed from planar materials. 10. The wake convergence device of claim 1, wherein the vehicle is a 53 foot semi-trailer. 11. A wake convergence device for a vehicle having a vehicle top and first and second vehicle sides each extending from the vehicle top, the vehicle including a vehicle leading edge, a vehicle trailing edge, and a vehicle longitudinal axis, the wake convergence device comprising: a top panel positioned above and spaced from the vehicle top, the top panel including a top panel leading edge that transitions from forward of a vehicle trailing edge to aft of the vehicle trailing edge, the top panel including a top panel axis extending collinearly with the top panel leading edge at a center of the top panel, the top panel further comprising: a first top panel end that extends forward of the top panel axis;a second top panel end that extends forward of the top panel axis;a first side panel positioned beside and spaced from the first vehicle side and including a first side panel leading edge that transitions from forward of the vehicle trailing edge to aft of the vehicle trailing edge, wherein the first side panel includes a first side panel axis extending collinearly with the first side panel leading edge at a center of the first side panel, the first side panel further comprising at least one first side panel end that extends forward from the first side panel axis; anda second side panel positioned beside and spaced from the second vehicle side and including a second side panel leading edge that transitions from forward of the vehicle trailing edge to aft of the vehicle trailing edge, wherein the second side panel includes a second side panel axis extending collinearly with the second side panel leading edge at a center of the second side panel, the second side panel further comprising at least one second side panel end that extends forward from the second side panel axis. 12. The wake convergence device of claim 11, wherein: the first side panel is hingedly attached to the first vehicle side so that the first side panel rotates toward the vehicle leading edge; andthe second side panel is hingedly attached to the second vehicle side so that the second side panel rotates toward the vehicle leading edge. 13. The wake convergence device of claim 12, wherein each of the first and second side panels rotates to approximately 225° from a deployed position to a stowed position. 14. The wake convergence device of claim 11, wherein: a portion of the top panel forward of the top panel trailing edge angles toward the vehicle longitudinal axis;a portion of the first side panel forward of a first side panel trailing edge angles toward the vehicle longitudinal axis; anda portion of the second side panel forward of a second side panel trailing edge angles toward the vehicle longitudinal axis. 15. The wake convergence device of claim 11, wherein the top panel includes two top panel halves, each top panel half joined to a vehicle door at an aft end of the vehicle. 16. The wake convergence device of claim 15, wherein each top panel half moves with the respective vehicle door and positions above the vehicle when the vehicle door is opened full swing. 17. The wake convergence device of claim 11, wherein the top panel is hingedly attached to the vehicle top and rotates toward the vehicle leading edge. 18. The wake convergence device of claim 11, wherein the top panel, the first side panel, and the second side panel are formed from planar materials. 19. The wake convergence device of claim 11, wherein the vehicle is a 53 foot semi-trailer. 20. A method of directing streamline flow to a rear of a vehicle having a vehicle top and first and second vehicle sides each extending from the vehicle top, the vehicle including a vehicle leading, a vehicle trailing edge, and a vehicle longitudinal axis, the method comprising: positioning a top panel above the vehicle top so that the top panel is spaced from the vehicle top, a top panel leading edge transitioning from forward of a vehicle trailing edge to aft of the vehicle trailing edge so that at least one top panel end extends forward from a top panel axis extending collinearly with the top panel leading edge at a center of the top panel;positioning a first side panel along the first vehicle side, a first side panel leading edge transitioning from forward of a vehicle trailing edge to aft of the vehicle trailing edge so that at least one first side panel end extends forward from a first side panel axis extending collinearly with the first side panel leading edge at a center of the first side panel; andpositioning a second side panel along the second vehicle side, a second side panel leading edge transitioning from forward of a vehicle trailing edge to aft of the vehicle trailing edge so that at least one second side panel end extends forward from a second side panel axis extending collinearly with the second side panel leading edge at a center of the second side panel. 21. The method of claim 20 further comprising hingedly attaching each of the first side panel and the second side panel to the first vehicle side and the second vehicle side, respectively, so that the first side panel and the second side panel each rotate to approximately 225° from a deployed position to a stowed position. 22. The method of claim 20, wherein positioning a top panel above the vehicle top further comprises joining a pair of top panel halves to a pair of a vehicle doors at an aft end of the vehicle so that each top panel half moves with the respective vehicle door and positions above the vehicle when the vehicle doors are opened full swing. 23. The method of claim 20, wherein positioning a top panel above a top of the vehicle further comprises hingedly attaching the top panel to the vehicle top so that the top panel rotates toward the vehicle leading edge.
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이 특허에 인용된 특허 (102)
Turner Douglas A. (Costa Mesa CA), Aero deflector for vehicles.
Bassett David A. (1708 Corwin Dr. Silver Spring MD 20910) Bassett Marlin R. (2665 Fisher Rd. Warsaw NY 14569) Schroeder John C. (2287 Shawnee Trail Okemos MI 48864-2527), Method and apparatus for reducing drag on a moving body.
Smith, Andrew F.; Horrell, Charles M.; Grossmann, Jeffrey J.; Feldman, Jonathan R.; Bruccoleri, Alexander R., Rear-mounted aerodynamic structure for truck cargo bodies.
Smith, Andrew F.; Horrell, Charles M.; Grossmann, Jeffrey J.; Feldman, Jonathan R.; Bruccoleri, Alexander R., Rear-mounted aerodynamic structure for truck cargo bodies.
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