Hybrid air boost vehicle and method for making same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B62D-035/00
B62V-001/00
출원번호
US-0880094
(2001-06-14)
발명자
/ 주소
Leban, Michael F.
대리인 / 주소
Helfrich, George F.
인용정보
피인용 횟수 :
56인용 특허 :
22
초록▼
A hybrid air boost vehicle makes use of the porous panels and suction devices of a vehicle aerodynamic drag reduction system, and makes use of the air consumed by such a system, to provide the energy and air to power a land or water based ground effects vehicle. Energy and air consumed by the suctio
A hybrid air boost vehicle makes use of the porous panels and suction devices of a vehicle aerodynamic drag reduction system, and makes use of the air consumed by such a system, to provide the energy and air to power a land or water based ground effects vehicle. Energy and air consumed by the suction system, and normally wasted, is recycled by providing an air cushion to partially support the vehicle. The entire hybrid air boost vehicle system is more efficient than either a drag reduction system or a ground effects vehicle alone, and the benefits of both are realized, as well as benefits unique to the hybrid vehicle.
대표청구항▼
1. A surface effects conveyance comprising: a vehicle; means for reducing aerodynamic drag on the vehicle, which comprises a perforated boundary layer suction panel attached to the vehicle, and means for producing suction, configured for suctioning air through the perforated boundary layer suct
1. A surface effects conveyance comprising: a vehicle; means for reducing aerodynamic drag on the vehicle, which comprises a perforated boundary layer suction panel attached to the vehicle, and means for producing suction, configured for suctioning air through the perforated boundary layer suction panel; and means for applying a lifting force to the vehicle, which is operatively connected to the means for reducing aerodynamic drag on the vehicle through shared use of hardware, energy, and air. 2. A surface effects conveyance according to claim 1, further comprising a sealably attached skirt substantially surrounding a lower perimeter of the vehicle, and extending downwardly from the lower perimeter of the vehicle to a surface below the vehicle, such that air can be substantially contained by an underside of the vehicle, the sealably attached skirt substantially surrounding a lower perimeter of the vehicle, and the surface below the vehicle.3. A surface effects conveyance according to claim 2, further comprising a cushion of air substantially enclosed by an underside of the vehicle, the sealably attached skirt substantially surrounding a lower perimeter of the vehicle, and a surface below the vehicle.4. A surface effects conveyance according to claim 3, wherein the cushion of air substantially enclosed by an underside of the vehicle, the sealably attached skirt substantially surrounding a lower perimeter of the vehicle, and a surface below the vehicle, is configured to apply a force to the underside of the vehicle at least sufficient to partially lift the vehicle.5. A surface effects conveyance according to claim 4, further comprising means for conveying air from one location to another, configured for transferring air from the means for producing suction to the cushion of air substantially enclosed by an underside of the vehicle, the sealably attached skirt substantially surrounding a lower perimeter of the vehicle, and a surface below the vehicle.6. A surface effects conveyance according to claim 5, wherein the means for producing suction, and the means for conveying air from one location to another, comprise a shared pump.7. A surface effects conveyance according to claim 6, further comprising an electronic control system, configured for controlling operation of the means for producing suction, and for controlling operation of the means for conveying air from one location to another.8. A surface effects conveyance according to claim 7, wherein the vehicle is a ground based vehicle, selected from the group consisting of trucks, trains, trailers, tanks, and cars.9. A surface effects conveyance according to claim 8, wherein the sealably attached skirt substantially surrounding a lower perimeter of the vehicle is inflatable, and is configured to extend downwardly toward a surface below the vehicle as it becomes inflated.10. A method for making a surface effects conveyance, which comprises the steps of: attaching a perforated panel to a vehicle to improve its aerodynamic contour; sealably attaching a skirt to a lower perimeter of the vehicle, such that the skirt is configured to substantially surround the lower perimeter of the vehicle and the surface below the vehicle, the skirt extending downwardly from the lower perimeter of the vehicle to a surface below the vehicle, such that air can be substantially contained by an underside of the vehicle; suctioning air through the perforated panel to reduce aerodynamic drag on the vehicle; transferring the air suctioned through the perforated panel to a volume substantially enclosed by an underside of the vehicle, the sealably attached skirt substantially surrounding a lower perimeter of the vehicle, and a surface below the vehicle, to create a cushion of air within the substantially enclosed volume, configured to apply a force to the underside of the vehicle at least sufficient to partially lift the vehicle; and controlling the transfer of air suctioned through th e perforated panel to the substantially enclosed volume, such that a force applied to the underside of the vehicle by the cushion of air may be modified as desired. 11. A method for making a surface effects conveyance according to claim 10, wherein the control of the transfer of suctioned air is accomplished through the use of an electronic control system, configured for controlling operation of the means for producing suction, and for controlling operation of the means for conveying air from one location to another.12. A method for making a surface effects conveyance according to claim 11, wherein the vehicle is a ground based vehicle, selected from the group consisting of trucks, trains, trailers, tanks, and cars.13. A method for making a surface effects conveyance according to claim 12, wherein the sealably attached skirt substantially surrounding a lower perimeter of the vehicle is inflatable, and is configured to extend downwardly toward a surface below the vehicle as it becomes inflated.
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이 특허에 인용된 특허 (22)
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Geropp Dieter (Wilnsdorf/Obersdorf DEX), Process and device for reducing the drag in the rear region of a vehicle, for example, a road or rail vehicle or the lik.
Smith, Andrew F.; Niemiec, Jared A.; Hinricher, Court S.; Polidori, Michael W.; Grossmann, Jeffrey J., Aerodynamic structures secured to the underbody of cargo bodies.
Ryan, Patrick E.; Ryan, J. Barry; Ryan, James C.; Ryan, William J.; Pawlowski, Paul J.; Chaloupek, Kenneth; Huggins, Peter; Fenske, Steven; Kassemi, Mohammad, Drag reducing apparatus for a vehicle.
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.; Niemiec, Jared A.; Grossmann, Jeffrey J.; Cholnoky, Robert R.; Polidori, Michael W.; Dickinson, Barrie J., Rear-mounted retractable aerodynamic structure for cargo bodies.
Smith, Andrew F.; Pagliarella, Riccardo M.; Hinricher, Court S.; Grossmann, Jeffrey J.; Niemiec, Jared A.; Polidori, Michael W., Retractable aerodynamic structures for cargo bodies and methods of controlling positioning of the same.
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