An aerodynamic drag reducing apparatus for use with vehicles having downstream surfaces that are not streamlined. The apparatus includes folding panels that extend rearward for use in a drag reducing configuration and collapse for use in a space saving configuration.
대표청구항▼
1. A method for reducing fuel consumption of a vehicle by reducing aerodynamic drag, the vehicle including a substantially vertical rear end portion, the method comprising: providing a drag reducing apparatus including an upper panel and a lower panel, the upper panel positioned above the lower pane
1. A method for reducing fuel consumption of a vehicle by reducing aerodynamic drag, the vehicle including a substantially vertical rear end portion, the method comprising: providing a drag reducing apparatus including an upper panel and a lower panel, the upper panel positioned above the lower panel and the drag reducing apparatus positioned adjacent the substantially vertical rear end portion of the vehicle;providing a first connecting structure between the upper panel and the lower panel of the drag reducing apparatus, the first connecting structure comprising: a first member hingedly mounted to the substantially vertical rear end portion of the vehicle;a second member pivotally connected to the first member and connected to the upper panel at a first joint; anda third member pivotally connected to the first member and connected to the lower panel at a second joint;moving the upper panel and the lower panel from a stowed position on the substantially vertical rear end portion outwardly and away from each other to a deployed position in which the upper panel and the lower panel define at least a portion of an aerodynamic structure with a rearwardly opening cavity; andcoordinating the moving of the upper panel and the lower panel with the first connecting structure. 2. The method of claim 1, further comprising moving the upper panel and the lower panel from the deployed position inwardly and toward each other to the stowed position. 3. The method of claim 1, wherein the upper panel and the lower panel are each oriented substantially vertically when the upper panel and the lower panel are in the stowed position. 4. The method of claim 1, wherein the substantially vertical rear end portion of the vehicle includes at least one door of the vehicle. 5. The method of claim 1, wherein the upper panel and the lower panel each substantially span the vehicle from a right side to a left side of the vehicle. 6. The method of claim 1, further comprising providing a second connecting structure between the upper panel and the lower panel of the drag reducing apparatus, the second connecting structure comprising: a fourth member hingedly mounted to the substantially vertical rear end portion of the vehicle;a fifth member pivotally connected to the fourth member and connected to the upper panel at a third joint; anda sixth member pivotally connected to the fourth member and connected to the lower panel at a fourth joint. 7. The method of claim 6, wherein the fourth member is a side panel, the fifth member is a first connecting panel, and the sixth member is a second connecting panel. 8. The method of claim 7, wherein the first and the second connecting panels are each a triangular panel. 9. The method of claim 1, wherein the first member is a side panel and the second member is a connecting panel. 10. The method of claim 9, wherein the connecting panel is a triangular panel. 11. The method of claim 9, wherein the connecting panel is oriented substantially vertically when the upper panel and the lower panel are in the deployed position and when the upper panel and the lower panel are in the stowed position. 12. The method of claim 11, wherein the side panel and the connecting panel are each oriented at an inward slope as each of the side panel and the connecting panel extends rearwardly from the substantially vertical rear end portion of the vehicle when the upper panel and the lower panel are in the deployed position. 13. The method of claim 9, wherein the connecting panel and the upper panel are each oriented at a downward slope as each of the connecting panel and the upper panel extends rearwardly from the substantially vertical rear end portion of the vehicle when the upper panel and the lower panel are in the deployed position. 14. The method of claim 13, wherein each of the downward slopes defines an angle in a range between 10 degrees and 18 degrees from a horizontal plane. 15. The method of claim 13, wherein each of the downward slopes defines an angle in a range between 8 degrees and 15 degrees from a horizontal plane. 16. The method of claim 14, wherein the side panel is oriented at an inward slope as the side panel extends rearwardly from the substantially vertical rear end portion of the vehicle when the upper panel and the lower panel are in the deployed position and wherein the inward slope defines an angle in a range between 8 degrees and 15 degrees from a side of the vehicle. 17. A drag reducing apparatus for reducing drag on a vehicle with a substantially vertical rear end portion, the drag reducing apparatus positioned adjacent the substantially vertical rear end portion of the vehicle, the drag reducing apparatus comprising: an upper panel;a lower panel, the upper panel positioned above the lower panel; anda first connecting structure between the upper panel and the lower panel, the first connecting structure comprising: a first member hingedly mounted to the substantially vertical rear end portion of the vehicle;a second member pivotally connected to the first member and connected to the upper panel at a first joint; anda third member pivotally connected to the first member and connected to the lower panel at a second joint;wherein the upper panel and the lower panel are moveable from a stowed position on the substantially vertical rear end portion outwardly and away from each other to a deployed position in which the upper panel and the lower panel define at least a portion of an aerodynamic structure with a rearwardly opening cavity; andwherein moving the upper panel and the lower panel is coordinated with the first connecting structure. 18. The drag reducing apparatus of claim 17, wherein the upper panel and the lower panel are moveable from the deployed position inwardly and toward each other to the stowed position. 19. The drag reducing apparatus of claim 17, wherein the upper panel and the lower panel are each oriented substantially vertically when the upper panel and the lower panel are in the stowed position. 20. The drag reducing apparatus of claim 17, wherein the substantially vertical rear end portion of the vehicle includes at least one door of the vehicle. 21. The drag reducing apparatus of claim 17, wherein the upper panel and the lower panel each substantially span the vehicle from a right side to a left side of the vehicle. 22. The drag reducing apparatus of claim 17, further comprising a second connecting structure between the upper panel and the lower panel, the second connecting structure comprising: a fourth member hingedly mounted to the substantially vertical rear end portion of the vehicle;a fifth member pivotally connected to the fourth member and connected to the upper panel at a third joint; anda sixth member pivotally connected to the fourth member and connected to the lower panel at a fourth joint. 23. The drag reducing apparatus of claim 22, wherein the fourth member is a side panel, the fifth member is a first connecting panel, and the sixth member is a second connecting panel. 24. The drag reducing apparatus of claim 23, wherein the first and the second connecting panels are each a triangular panel. 25. The drag reducing apparatus of claim 17, wherein the first member is a side panel and the second member is a connecting panel. 26. The drag reducing apparatus of claim 25, wherein the connecting panel is a triangular panel. 27. The drag reducing apparatus of claim 25, wherein the connecting panel is oriented substantially vertically when the upper panel and the lower panel are in the deployed position and when the upper panel and the lower panel are in the stowed position. 28. The drag reducing apparatus of claim 27, wherein the side panel and the connecting panel are each oriented at an inward slope as each of the side panel and the connecting panel extends rearwardly from the substantially vertical rear end portion of the vehicle when the upper panel and the lower panel are in the deployed position. 29. The drag reducing apparatus of claim 25, wherein the connecting panel and the upper panel are each oriented at a downward slope as each of the connecting panel and the upper panel extends rearwardly from the substantially vertical rear end portion of the vehicle when the upper panel and the lower panel are in the deployed position. 30. The drag reducing apparatus of claim 29, wherein each of the downward slopes defines an angle in a range between 10 degrees and 18 degrees from a horizontal plane. 31. The drag reducing apparatus of claim 29, wherein each of the downward slopes defines an angle in a range between 8 degrees and 15 degrees from a horizontal plane. 32. The drag reducing apparatus of claim 30, wherein the side panel is oriented at an inward slope as the side panel extends rearwardly from the substantially vertical rear end portion of the vehicle when the upper panel and the lower panel are in the deployed position and wherein the inward slope defines an angle in a range between 10 degrees and 18 degrees from a side of the vehicle.
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