IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0900790
(2010-10-08)
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등록번호 |
US-8616492
(2013-12-31)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
McKenna Long & Aldridge LLP
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인용정보 |
피인용 횟수 :
11 인용 특허 :
12 |
초록
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A vertical takeoff and landing aircraft having a fuselage with three wings and six synchronously tilt-able propulsion units, each one mounted above, below, or on each half of the aforementioned three wings. The propulsion units are vertical for vertical flight, and horizontal for forward flight. The
A vertical takeoff and landing aircraft having a fuselage with three wings and six synchronously tilt-able propulsion units, each one mounted above, below, or on each half of the aforementioned three wings. The propulsion units are vertical for vertical flight, and horizontal for forward flight. The aircraft wings are placed such that the rear wing is above the middle wing which is placed above the front wing. The placement of each of the propulsion units relative to the center of gravity of the aircraft about the vertical axis inherently assures continued stability in vertical flight mode, following the loss of thrust from any one propulsion unit. The placement of the propulsion units, viewing the aircraft from the front, is such that each propulsion units' thrust wake does not materially disturb the propulsion unit to its rear. When engine driven propellers or rotors are utilized, flapped wing panels are attached outboard of the forward and/or rearward propulsion units to provide yaw control during vertical flight.
대표청구항
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1. A vertical takeoff and landing aircraft comprising: a fuselage;a flapped or un-flapped front wing attached to the fuselage;a flapped or un-flapped middle wing attached to the fuselage;a vertical stabilizer and rudder attached to the fuselage;a flapped or un-flapped rear wing attached to the fusel
1. A vertical takeoff and landing aircraft comprising: a fuselage;a flapped or un-flapped front wing attached to the fuselage;a flapped or un-flapped middle wing attached to the fuselage;a vertical stabilizer and rudder attached to the fuselage;a flapped or un-flapped rear wing attached to the fuselage or vertical stabilizer; andsix synchronously rotatable, thrust producing propulsion units located at approximately equal angular positions about a yaw axis of the aircraft;wherein one propulsion unit is mounted above, below, or on each half of the three wings, and each propulsion unit is independent from the other propulsion units. 2. The aircraft of claim 1, wherein the propulsion units' position distribution is configured such that a failure of any one propulsion unit to produce thrust will not result in the static instability of the aircraft about the vertical axis. 3. The aircraft of claim 1, wherein the propulsion units are disposed about the longitudinal axis of the aircraft, such that the thrust wake of any propulsion unit will not interfere with the thrust produced by one or more propulsion units located toward the rear of the aircraft. 4. The aircraft of claim 1, wherein the rear wing is located above the middle wing and the middle wing is located above the front wing. 5. The aircraft of claim 1, wherein when the propulsion units are one of a piston, rotary, or turbine engine, or an electric motor, the propulsion units are mounted stationary or tilt with a propeller or rotor assembly. 6. The aircraft of claim 1, wherein when the propulsion units are one of a piston, rotary, or turbine engine, or an electric motor, the thrust of each propulsion unit is controlled by varying the propulsion units' engine or motor RPM. 7. The aircraft of claim 1, wherein when the propulsion units are one of a piston, rotary, or turbine engine, or an electric motor, the thrust of each propulsion unit is controlled by varying a propulsion units' propeller or rotor pitch. 8. The aircraft of claim 1, wherein when the propulsion units are jet engines, each propulsion units' thrust is controlled by varying a propulsion units' jet engine thrust. 9. The aircraft of claim 1, wherein a mechanical mechanism converts pitch, roll, and collective flight control inputs to six thrust command outputs for the propulsion units. 10. The aircraft of claim 1, wherein an electronic analog, or digital, or hybrid analog/digital controller converts pitch, roll, and collective flight control inputs to six thrust command outputs for the propulsion units. 11. The aircraft of claim 1, wherein each propulsion unit's tilt position is synchronously driven by a propulsion tilt positioning system which includes an electric motor driving a gear reduction assembly having six equal speed outputs, through six flex drive shafts, connected to six screw jacks; and each of the screw jacks controls the tilt position of each propulsion unit, which is controlled by a multi position switch located on a flight control, and the tilt position of the propulsion units are monitored by one or more propulsion unit tilt position sensors. 12. The aircraft of claim 1, wherein each propulsion unit's tilt position is synchronously driven by a propulsion tilt positioning system consisting of electric motor powered screw jacks controlled by a computerized controller which monitors the propulsion units' tilt positions and a tilt position control. 13. The aircraft of claim 1, wherein flapped wing panels are fixed outboard of each propulsion units on the front wing when one of a piston, or rotary, or turbine engine, or an electric motor is used to drive a propeller or rotor assembly. 14. The aircraft of claim 1, wherein flapped wing panels are fixed outboard of each propulsion units on the rear wing when one of a piston, or rotary, or turbine engine, or an electric motor is used to drive a propeller or rotor assembly. 15. A vertical takeoff and landing aircraft comprising: a fuselage;a flapped or un-flapped front wing attached to the fuselage;a flapped or un-flapped middle wing attached to the fuselage;a “V” tail with flaps attached to the fuselage; andsix synchronously rotatable, thrust producing propulsion units located at approximately equal angular positions about a yaw axis of the aircraft;wherein one propulsion unit is mounted above, below, or on each half of the two wings and the “V” tail, and each propulsion unit is independent from the other propulsion units. 16. The aircraft of claim 15, wherein flapped wing panels are fixed outboard of each propulsion units on the front wing when one of a piston, or rotary, or turbine engine, or an electric motor is used to drive a propeller or rotor assembly. 17. The aircraft of claim 15, wherein flapped wing panels are fixed outboard of each propulsion units on the “V” tail when one of a piston, or rotary, or turbine engine, or an electric motor is used to drive a propeller or rotor assembly.
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