IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0255184
(2002-09-26)
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발명자
/ 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
15 인용 특허 :
4 |
초록
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A miniature unmanned aircraft which uses remotely controlled model aircraft components and technology, and has on-board automatic "on-the-fly" fuel and air mixture adjustment enabling high altitude flight. The aircraft, which may have conventional fuselage, wing, reciprocating piston engine and radi
A miniature unmanned aircraft which uses remotely controlled model aircraft components and technology, and has on-board automatic "on-the-fly" fuel and air mixture adjustment enabling high altitude flight. The aircraft, which may have conventional fuselage, wing, reciprocating piston engine and radio frequency operated controls, also has sensors for sensing atmospheric pressure, atmospheric temperature, engine crankshaft rotational speed, engine temperature, and exhaust temperature. A microprocessor aboard the aircraft receives inputs from the sensors and controls at least one servo to adjust fuel and air mixture according to preprogrammed look-up tables and equations to operate the engine at appropriate fuel-to-air ratios for the altitude and other operating conditions.
대표청구항
▼
1. An unmanned aircraft having a remotely controlled guidance system, a reciprocating piston internal combustion engine, a fuel supply system disposed to supply a mixture of fuel and air to said engine, at least one sensor disposed to monitor engine operation parameters, at least one control dispose
1. An unmanned aircraft having a remotely controlled guidance system, a reciprocating piston internal combustion engine, a fuel supply system disposed to supply a mixture of fuel and air to said engine, at least one sensor disposed to monitor engine operation parameters, at least one control disposed to substantially automatically adjust said mixture of fuel and air with regard to ratios of fuel to air, and a microprocessor communicably connected to at least one of said sensors and operably connected to said at least one control, wherein said microprocessor has programming disposed to calculate appropriate ratios of fuel to air and to operate said at least one control such that said fuel supply system supplies an appropriate mixture of fuel and air to said engine in the absence of control commands originating externally from said aircraft. 2. The unmanned aircraft according to claim 1, wherein a maximum gross weight of said unmanned aircraft is limited to fifty-five pounds. 3. The unmanned aircraft according to claim 1, wherein said microprocessor is disposed to operate said at least one control such that said fuel supply system continuously adjusts the mixture of fuel and air. 4. The unmanned aircraft according to claim 1, wherein said microprocessor is disposed to operate said at least one control such that said fuel supply system periodically adjusts the mixture of fuel and air. 5. The unmanned aircraft according to claim 1, wherein said fuel supply system includes a carburetor having a choke valve and a choke valve controller under control of said microprocessor. 6. The unmanned aircraft according to claim 1, wherein said fuel supply system includes a carburetor having a throttle valve and a throttle valve controller under control of said microprocessor. 7. The unmanned aircraft according to claim 1, wherein said fuel supply system includes a carburetor having a fuel valve and a fuel valve controller under control of said microprocessor. 8. The unmanned aircraft according to claim 1, wherein said fuel supply system includes a fuel injector and a fuel injector controller under control of said microprocessor. 9. The unmanned aircraft according to claim 1, wherein said at least one sensor disposed to monitor engine operation parameters monitors and communicates to said microprocessor at least one of the parameters of atmospheric pressure at said aircraft, atmospheric temperature at said aircraft, crankshaft rotational speed of said engine, engine temperature, and exhaust temperature, and said microprocessor applies at least one of values of atmospheric pressure at said aircraft, atmospheric temperature at said aircraft, crankshaft rotational speed of said engine, engine temperature, and exhaust temperature communicated by said at least one sensor to data processing which determines appropriate ratios of fuel to air. 10. The unmanned aircraft according to claim 9, wherein said microprocessor has stored in memory look-up tables relating to ratios of fuel to air for diverse operating conditions, and utilizes said look-up tables when operating said at least one control to adjust ratios of fuel to air. 11. The unmanned aircraft according to claim 1, wherein said reciprocating piston internal combustion engine is limited to a maximum of two cylinders.
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