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Vertical takeoff and landing aircraft

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • B64C-015/12
출원번호 US-0284208 (2002-10-31)
우선권정보 JP-0334845 (2001-10-31)
발명자 / 주소
  • Kawai, Hideharu
출원인 / 주소
  • Mitsubishi Heavy Industries, Ltd.
대리인 / 주소
    Wenderoth, Lind &
인용정보 피인용 횟수 : 47  인용 특허 : 2

초록

A vertical takeoff and landing (VTOL) aircraft is superior in maneuverability, safety, and mobility. The aircraft has turbofan engines with separate core engines having fan engines used commonly for cruising and lifting up. The thrust from the fan engines can be directed to all directions by support

대표청구항

1. A vertical takeoff and landing aircraft capable of hovering and cruising with identical propulsion units, wherein:each of said propulsion units comprises a turbofan engine with separate core engine, said turbofan engine with separate core engine comprising a core engine and a fan engine to which

이 특허에 인용된 특허 (2)

  1. Ducan Terry A. (13311 Old Oaks Fenton MI 48430), VTOL aircraft control method.
  2. Jones Tommy Lee, Vertical takeoff and landing mass transit system and method.

이 특허를 인용한 특허 (47)

  1. Kinkopf, Joseph W.; Carlile, David E.; Siler, Alex; Yuhas, Andrew; Walsh, Thomas H., Air vehicle propulsion system on gimbaled truss.
  2. McCullough, John Richard; Oldroyd, Paul K., Aircraft having a fault tolerant distributed propulsion system.
  3. McCullough, John Richard; Oldroyd, Paul K., Aircraft having autonomous and remote flight control capabilities.
  4. McCullough, John Richard; Oldroyd, Paul K., Aircraft having manned and unmanned flight modes.
  5. Posva, David, Aircraft having the ability for hovering flight, fast forward flight, gliding flight, short take-off, short landing, vertical take-off and vertical landing.
  6. McCullough, John Richard; Oldroyd, Paul K., Aircraft with independently controllable propulsion assemblies.
  7. McCullough, John Richard; Oldroyd, Paul K., Aircraft with selectively attachable passenger pod assembly.
  8. Yoeli, Raphael, Apparatus for generating horizontal forces in aerial vehicles and related method.
  9. Yoeli, Raphael, Control flows and forces in VTOL vehicles.
  10. Cylinder, David A; Kellogg, James C, Convertible aerial vehicle with contra-rotating wing/rotors and twin tilting wing and propeller units.
  11. Magre,Eric, Convertible aircraft provided with two tilt fans on either side of the fuselage, and with a non-tilting fan inserted in the fuselage.
  12. Wang, James, Convertiplane.
  13. Wang, James, Convertiplane.
  14. Yoeli, Raphael, Ducted fan VTOL vehicles.
  15. Yoeli, Raphael, Ducted fan VTOL vehicles.
  16. Yoeli, Raphael, Ducted fan VTOL vehicles.
  17. Yoeli, Raphael, Ducted fan for VTOL vehicles with system and method to reduce roll moments.
  18. Kosheleff, Patrick A., Fly-in landing pad for lift-fan aircraft.
  19. Yoeli, Raphael, Ground effect vanes arrangement.
  20. Bevirt, Joeben; Gibboney, Jeffrey K.; Craig, David D.; Peddie, Matthew, Lightweight vertical take-off and landing aircraft and flight control paradigm using thrust differentials.
  21. Peters, William C., Method and system for high fidelity VTOL and hover capability.
  22. Alzahrani, Saeid A., Multi-mode aerial vehicle.
  23. McCullough, John Richard; Oldroyd, Paul K., Passenger pod assembly transportation system.
  24. Deale, Valentine; Loehnert, Peter, Power assisted toy flying device.
  25. Marcus, Robert, Rotocraft.
  26. Marcus, Robert, Rotocraft.
  27. Prud'Homme-Lacroix, Pierre; Bistuer, Olivier, Rotorcraft fitted with an anti-torque tail rotor that contributes selectively to providing the rotorcraft with lift and with propulsion in translation.
  28. Abde Qader Alzu'bi, Hamzeh Mahmoud; Allateef, Imad Abd; Zweiri, Yahya; Alkhateeb, Basim; Ayed Al-Majali, Yahya Taha, Sided performance coaxial vertical takeoff and landing (VTOL) UAV and pitch stability technique using oblique active tilting (OAT).
  29. Pak,Steve, Sky hopper.
  30. Modrzejewski, Brian S.; Hall, Gary D.; McCullough, John R.; Saiyed, Farid; Shimek, Glenn A.; Spivey, Danny A.; Stark, Tim; Vollmer, Brian S., System and method for providing for collective control in an aircraft.
  31. Parks, Robert, System and method for utilizing stored electrical energy for VTOL aircraft thrust enhancement and attitude control.
  32. Elfeky, Mahmoud Abdelmagid; Elshafei, Moustafa Elshafei Ahmed, System and method of operation of twin-tiltrotor helicopter.
  33. Tighe, Thomas S., Tilt wing aerial vehicle.
  34. Vondrell, Randy M.; Polakowski, Matthew Ryan; Murrow, Kurt David; Crabtree, Glenn; Zatorski, Darek Tomasz, Tiltrotor propulsion system for an aircraft.
  35. McCullough, John Richard; Oldroyd, Paul K., Transportation method for selectively attachable pod assemblies.
  36. Marcus, Robert, UAV—or personal flying device—delivered deployable descent device.
  37. Brody, David E.; Olcott, Dennis D., VTOL aircraft.
  38. Brody, David E.; Olcott, Dennis D., VTOL aircraft.
  39. Yoeli, Raphael, VTOL vehicle with coaxially tilted or tiltable rotors.
  40. Kosheleff, Patrick A., Variable cycle VTOL powerplant.
  41. Yoeli, Rafi, Vehicles particularly useful as VTOL vehicles.
  42. Wood, Victor A., Vertical take off and landing aircraft system with energy recapture technology.
  43. Ikeshiro,Tatsuo, Vertical take-off and landing aircraft.
  44. Ishiba,Masatsugu, Vertical take-off and landing aircraft.
  45. Tsunekawa, Masayoshi; Tamura, Tetsuya, Vertical take-off and landing aircraft.
  46. Ishiba, Masatsugu, Vertical take-off and landing aircraft and vertical take-off and landing aircraft control method.
  47. Yoeli, Raphael, Wall effects on VTOL vehicles.
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