An aircraft configuration that may reduce the level of noise, infrared radiation, or combination thereof directed towards the ground from an aircraft in flight. An embodiment of an aircraft includes a fuselage, two forward swept wings, at least one engine mounted to the aircraft and higher than the
An aircraft configuration that may reduce the level of noise, infrared radiation, or combination thereof directed towards the ground from an aircraft in flight. An embodiment of an aircraft includes a fuselage, two forward swept wings, at least one engine mounted to the aircraft and higher than the wings, and vertical stabilizers mounted on each wing outboard of the outermost engine. The leading edge of the wing may extend forward of the leading end of the engine, and the trailing edge of the aft deck may extend aft of the trailing end of the engine. The aft deck may include an upwardly rotatable pitch control surface at the trailing edge of the deck. Engine types may vary, including but not limited to turbofans, prop-fans, and turbo-props. Main wings may be mounted above the longitudinal axis of the fuselage, and canards may likewise be mounted above or below the axis.
대표청구항▼
1. An aircraft comprising: a tubular fuselage having a longitudinal axis;two main wings mounted to the tubular fuselage, each main wing in a substantially forward swept wing configuration and including a leading edge, a trailing edge, and an upper surface;a plurality of engines each with at least on
1. An aircraft comprising: a tubular fuselage having a longitudinal axis;two main wings mounted to the tubular fuselage, each main wing in a substantially forward swept wing configuration and including a leading edge, a trailing edge, and an upper surface;a plurality of engines each with at least one unshrouded propeller, each engine mounted to the aircraft and including a leading end and a trailing end, wherein each engine has a central longitudinal axis that is directly above one of the two main wings, the engines and propellers completely above the main wings;an aft deck including a trailing edge and an upwardly rotatable pitch control surface at the trailing edge of the aft deck, the upwardly rotatable pitch control surface including a trailing edge; anda vertical stabilizer mounted outboard of each outermost engine at a vertical stabilizer mounting location at least in part on a respective main wing, at least in part on the aft deck, or a combination thereof, each vertical stabilizer including a tip, a base, and a trailing edge,wherein each vertical stabilizer extends higher than the uppermost point of any propeller of the respective engine,wherein the leading edge of each main wing extends forward of the leading end of each respective engine at a location along the central longitudinal axis of each engine, andwherein the trailing edge of the aft deck extends aft of the trailing end of each engine along the central longitudinal axis of each engine at least a distance as great as the distance from the upper surface of each main wing to the uppermost point of any propeller of the respective outermost engine. 2. The aircraft of claim 1, wherein the engines are prop-fan engines, each prop-fan engine being dual propeller, contra-rotating, including a front propeller and an aft propeller. 3. The aircraft of claim 2, wherein each propeller has an associated rotor, and wherein the main wings, aft deck, and upwardly rotatable pitch control surface extend to shadow at least about 120 continuous degrees of acoustic radiation as measured from a grid origin on the central longitudinal axis of each engine proximate to the front propeller rotor. 4. The aircraft of claim 2, wherein each propeller has an associated rotor, and wherein the vertical stabilizers at their respective bases shadow at least about 70 continuous degrees of acoustic radiation as measured from a grid origin on the central longitudinal axis of each engine proximate to the front propeller rotor. 5. The aircraft of claim 2, wherein the minimum chord of each vertical stabilizer is at least twice the distance between the center of the front propeller and center of the aft propeller. 6. The aircraft of claim 1, wherein the fuselage extends longitudinally between the engines and tapers to an end aft of the trailing edge of the pitch control surface. 7. The aircraft of claim 1, wherein the aft deck is split to be laterally on each side of the fuselage, and the upwardly rotatable pitch control surface is multi-element. 8. The aircraft of claim 1, wherein the upwardly rotatable pitch control surface extends in a span along the trailing edge of the aft deck on each side of the fuselage approximately from the fuselage to the base of the trailing edge of each vertical stabilizer. 9. The aircraft of claim 1, wherein energy radiated radially by the propellers is shielded primarily by the vertical stabilizers, aft deck, and fuselage. 10. The aircraft of claim 1, wherein the propellers each rotate substantially in a plane and wherein acoustic energy and infrared radiation radiated aft of the planes of rotation of the propellers are shielded by the aft deck, vertical stabilizers, and upwardly rotatable pitch control surface. 11. The aircraft of claim 1, wherein the propellers each rotate substantially in a plane and wherein energy radiated forward of the planes of rotation of the propellers is shielded by the main wing and fuselage. 12. The aircraft of claim 1, wherein energy radiated forward and laterally relative to the longitudinal axis of the fuselage is shielded with the wing and vertical stabilizers. 13. The aircraft of claim 1, wherein forward, underneath, lateral, and aft shielding of engine noise and infrared radiation are provided. 14. The aircraft of claim 1, wherein the height of each vertical stabilizer is at least about 5% of any propeller diameter higher than the uppermost point of any propeller. 15. The aircraft of claim 1, wherein the vertical stabilizers are canted outboard off of vertical from base to tip, wherein the canted vertical stabilizers reflect a portion of radiated energy upward. 16. The aircraft of claim 1, wherein each engine is mounted to, but not directly above, the fuselage with pylons, wherein the main wings are mounted to the aircraft substantially forward of the pylons, and wherein the trailing edge of each main wing blends into the respective vertical stabilizer. 17. The aircraft of claim 1, wherein the aircraft has an inside and an outside, wherein a passenger inside the aircraft has multiple lines of sight to the outside of the aircraft, and wherein no line of sight at any time provides a forward facing seated passenger with a view of any part of any engine mounted to the aircraft. 18. The aircraft of claim 1, wherein the main wings each have a wing tip, and the leading edge of each wing extends from the fuselage to the respective wing tip along a substantially straight line in top plan view. 19. The aircraft of claim 1, wherein each propeller has an associated rotor, and wherein the main wings, aft deck, and upwardly rotatable pitch control surface extend to shadow at least about 120 continuous degrees of acoustic radiation as measured from a grid origin on the central longitudinal axis of each engine proximate to any forwardmost rotor. 20. The aircraft of claim 1, wherein each propeller has an associated rotor, and wherein the vertical stabilizers at their respective bases each shadow at least about 70 continuous degrees of acoustic radiation as measured from a grid origin on the central longitudinal axis of each engine proximate to any forwardmost rotor. 21. The aircraft of claim 1, wherein the geometric center of the tip of each vertical stabilizer is located at any forwardmost propeller blade plane of rotation. 22. The aircraft of claim 1, wherein the engines are turbo-prop engines. 23. The aircraft of claim 22, wherein each propeller has an associated rotor, and wherein the vertical stabilizers at their respective bases each shadow at least about 70 continuous degrees of acoustic radiation as measured from a grid origin on the central longitudinal axis of each engine proximate to the associated rotor. 24. The aircraft of claim 22, wherein the geometric center of the tip of each vertical stabilizer is located at the propeller blade plane of rotation.
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