Helicopter with blade-tip thrusters and annular centrifugal fuel supply tank and concentric cabin and fuselage
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-027/00
B64C-039/00
B64C-027/06
B64C-027/08
B64C-027/72
B64C-027/82
B64D-037/04
B64D-037/06
출원번호
US-0052488
(2013-10-11)
등록번호
US-8991743
(2015-03-31)
발명자
/ 주소
Pope, Charles Douglas
Elliott, Ralph
출원인 / 주소
Pope, Charles Douglas
대리인 / 주소
Young, P.A., Mark
인용정보
피인용 횟수 :
2인용 특허 :
2
초록▼
A helicopter includes a rotor with short blades and tip thrusters. The blades extend from an annular fuel tank that rotates with the blades. Centrifugal force propels fuel from the interior compartment of the annular tank, through conduits extending through the blades from root to tip, to the tip th
A helicopter includes a rotor with short blades and tip thrusters. The blades extend from an annular fuel tank that rotates with the blades. Centrifugal force propels fuel from the interior compartment of the annular tank, through conduits extending through the blades from root to tip, to the tip thrusters. Valves (e.g., solenoid valves and/or a flyweight governor) regulate fuel flow to achieve and maintain a determined steady rotational speed. A fuselage covered by a canopy is mounted atop a bearing on the annular fuel tank. The pitch of each blade may be adjusted collectively and cyclically using a swash ring and hydraulic linear actuators.
대표청구항▼
1. A thruster powered helicopter comprising a fuselage having an outer periphery of circular cross section of a first diameter, anda rotating annular fuel tank having an inner periphery of circular cross section of a second diameter and an outer periphery, said second diameter being greater than the
1. A thruster powered helicopter comprising a fuselage having an outer periphery of circular cross section of a first diameter, anda rotating annular fuel tank having an inner periphery of circular cross section of a second diameter and an outer periphery, said second diameter being greater than the first diameter, said rotating annular fuel tank having an interior fuel compartment for containing a fuel, and said fuselage and rotating annular fuel tank being concentric, anda swash ring disposed between the fuselage and rotating annular fuel tank, said swash ring having a grooved outer periphery, anda plurality of thrusters mechanically coupled to the outer periphery of the rotating annular fuel tank, a fuel supply line extending from the interior fuel compartment of the annular fuel tank to each of the plurality of thrusters, and each of said plurality of thrusters combusting fuel from said interior fuel compartment to produce thrust, and said thrust causing said rotating annular fuel tank to rotate relative to the fuselage, and rotation of said rotating annular fuel tank expelling fuel from said interior fuel compartment through each fuel supply line to each of said plurality of thrusters for combustion and consequent thrust;a blade for each of the plurality of thrusters, the blade being coupled to the outer periphery of the rotating annular fuel tank and extending from the outer periphery of the rotating annular fuel tank to one of the plurality of thrusters, each blade mechanically coupling the outer periphery of the rotating annular fuel tank to one of the plurality of thrusters, each blade having an airfoil cross-section shape and generating aerodynamic lift when rotated with said rotating annular fuel tank; andeach blade mounted to a crank arm and being pivotally coupled by the crank arm to the rotating annular fuel tank, said crank arm allowing pivoting adjustment of the pitch of each blade, said crank arm including a free engageable for pivoting adjustment of the pitch of each blade. 2. The thruster powered helicopter according to claim 1, said grooved outer periphery of the swash ring including a groove sized to receive the free end of each crank arm, the groove having a center in a swash ring plane, the swash ring being: capable of linear motion along a first axis perpendicular to the swash ring plane,capable of pitch motion about a second axis parallel to the swash ring plane and perpendicular to the first axis, andcapable of roll motion about a third axis parallel to the swash ring plane and perpendicular to the first axis and perpendicular to the second axis,and further capable of combinations of any of said linear, pitch and roll motions, andsuch linear, pitch and roll motions affecting the free end of each crank arm engaged in the groove, and thereby causing an attendant change in the pitch of each blade. 3. The thruster powered helicopter according to claim 2, further comprising a plurality of actuators coupled to said swash ring said plurality of actuators affecting linear, pitch and roll motions of the swash ring. 4. The thruster powered helicopter according to claim 3, said plurality of actuators comprising a plurality of hydraulic servos. 5. The thruster powered helicopter according to claim 4, further comprising a collective control, said collective control actuating said hydraulic servos to affect linear motion of the swash ring. 6. The thruster powered helicopter according to claim 5, further comprising a cyclic control, said cyclic control actuating said hydraulic servos to affect pitch and roll motion of the swash ring. 7. The thruster powered helicopter according to claim 3, further comprising a collective control, said collective control affecting linear motion of the swash ring. 8. The thruster powered helicopter according to claim 7, further comprising a cyclic control, said cyclic control affecting pitch and roll motion of the swash ring. 9. The thruster powered helicopter according to claim 1, further comprising a stabilizer coupled to said fuselage, said stabilizer controllably generating a force opposing rotation of the fuselage to stabilize orientation of the fuselage. 10. The thruster powered helicopter according to claim 9, said stabilizer comprising a supplemental thruster. 11. The thruster powered helicopter according to claim 1, said fuselage and rotating annular fuel tank comprising lift generating bodies. 12. The thruster powered helicopter according to claim 1, each of said plurality of thrusters being pivotally coupled to the blade that mechanically couples the outer periphery of the rotating annular fuel tank to the thruster. 13. The thruster powered helicopter according to claim 12, at least one of said plurality of thrusters being pivotally coupled with a range of pivoting motion from zero degrees to at least 180 degrees. 14. The thruster powered helicopter according to claim 12, each of said plurality of thrusters being pivotally coupled by the crank arm to the rotating annular fuel tank, said crank arm allowing pivoting adjustment of the pitch of each thruster, said crank arm including a free end engagable for pivoting adjustment of the pitch of each thruster. 15. The thruster powered helicopter according to claim 14, said swash ring causing an attendant change in the pitch of each thruster.
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이 특허에 인용된 특허 (2)
Small,James G.; Lacey,Donald J.; Kinsey, Jr.,Lloyd E.; Zepeda,Mark V., Rotating flying wing aircraft and control system.
Petersen, Bruce L., Rotorcraft having coaxial counter-rotating rotors which produce both vertical and horizontal thrust and method of controlled flight in all six degrees of freedom.
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