Stirling engine with flapping wing for an emission-free aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-033/00
F01D-005/12
B64C-039/00
B64D-027/02
B64D-027/24
출원번호
US-0724670
(2012-12-21)
등록번호
US-9080450
(2015-07-14)
우선권정보
DE-10 2011 122 071 (2011-12-22)
발명자
/ 주소
Seifert, Jost
출원인 / 주소
Airbus Defence and Space GmbH
대리인 / 주소
Greenblum & Bernstein, P.L.C.
인용정보
피인용 횟수 :
3인용 특허 :
11
초록▼
Aircraft with an emission-free drive and method for emission-free driving of an aircraft. The aircraft includes a drive device, having a flapping wing device, structured and arranged to generate thrust, a lift device structured and arranged to generate lift, and a heat engine, having at least one fl
Aircraft with an emission-free drive and method for emission-free driving of an aircraft. The aircraft includes a drive device, having a flapping wing device, structured and arranged to generate thrust, a lift device structured and arranged to generate lift, and a heat engine, having at least one flat-plate Stirling engine drivable by solar thermal radiation, structured and arranged to convert thermal energy into kinetic energy to drive the drive device. The flapping wing device includes at least one flapping wing, which is pivotable transverse to a flight direction.
대표청구항▼
1. An aircraft with an emission-free drive, comprising: a drive device, comprising a flapping wing device, structured and arranged to generate thrust;a lift device structured and arranged to generate lift; anda heat engine, comprising at least one flat-plate Stirling engine drivable by solar thermal
1. An aircraft with an emission-free drive, comprising: a drive device, comprising a flapping wing device, structured and arranged to generate thrust;a lift device structured and arranged to generate lift; anda heat engine, comprising at least one flat-plate Stirling engine drivable by solar thermal radiation, structured and arranged to convert thermal energy into kinetic energy to drive the drive device,the flapping wing device including at least one flapping wing, which is pivotable transverse to a flight direction,wherein a working chamber is arranged between a wing top and a wing underside, and a displacer is arranged to divide the working chamber into a first and a second chamber region and, with movement, to displace a working gas from one of the first and second chamber region into the other of the first and second chamber region; andwherein the top of the wing forms a first side of the flat-plate Stirling engine with a first temperature and the underside of the wing forms a second side of the flat-plate Stirling engine with a second temperature, in which the second temperature is lower than the first temperature. 2. The aircraft according to claim 1, wherein the drive device further comprises a holding device structured and arranged to hold the at least one flapping wing to be pivotable around a pivot axis running transverse to the flight direction, and wherein the at least one Stirling engine comprises a working chamber with a changeable working volume, a displacer structured and arranged to be movable manner in the working chamber, and a working piston connected to change the working volume of the working chamber. 3. The aircraft according to claim 2, wherein the holding device further comprises a support device and the aircraft further comprises a primary transmission device structured and arranged to couple the working piston to the support device so that linear movement of the working piston produces a pivoting of the at least one flapping wing, and wherein the holding device further comprises adjustable kinematics and the aircraft further comprises a secondary transmission device structured and arranged to couple the displacer to the adjustable kinematics so that a turnover of the flapping wing controls the displacer in proper phase. 4. The aircraft according to claim 2, wherein the lift device comprises a wing device with a support airfoil profile that is structured and arranged to generate the lift, and wherein the flat-plate Stirling engine is arranged in the wing device. 5. The aircraft according to claim 2, wherein the working chamber is fillable with a working gas and the changeable working volume has a top and an underside, and the displacer is structured and arranged to be movable between the top and the underside, and wherein a regenerator is structured and arranged in the working chamber to collect and deliver thermal energy contained in the working gas, and the working chamber is arranged in the lift device and the working gas is heatable from a top of the lift device by solar insolation. 6. A The aircraft according to claim 5, with an emission-free drive, comprising: a drive device, comprising a flapping wing device, structured and arranged to generate thrust;a lift device structured and arranged to generate lift; anda heat engine, comprising at least one flat-plate Stirling engine drivable by solar thermal radiation, structured and arranged to convert thermal energy into kinetic energy to drive the drive device, andthe flapping wing device including at least one flapping wing, which is pivotable transverse to a flight direction,wherein the drive device further comprises a holding device structured and arranged to hold the at least one flapping wing to be pivotable around a pivot axis running transverse to the flight direction,wherein the at least one Stirling engine comprises a working chamber with a changeable working volume, a displacer structured and arranged to be movable manner in the working chamber, and a working piston connected to change the working volume of the working chamber,wherein the working chamber is fillable with a working gas and the changeable working volume has a top and an underside, and the displacer is structured and arranged to be movable between the top and the underside,wherein a regenerator is structured and arranged in the working chamber to collect and deliver thermal energy contained in the working gas, and the working chamber is arranged in the lift device and the working gas is heatable from a top of the lift device by solar insolation,wherein the working chamber is arranged between a wing top and a wing underside, and the displacer is arranged to divide the working chamber into a first and a second chamber region and, with movement, to displace the working gas from one of the first and second chamber region into the other of the first and second chamber region; andwherein a top of the wing forms a first side of the flat-plate Stirling engine with a first temperature and the underside of the wing forms a second side of the flat-plate Stirling engine with a second temperature, in which the second temperature is lower than the first temperature. 7. The aircraft according to claim 6, further comprising a heating device structured and arranged to heat the working gas in one of the first and second chamber regions. 8. The aircraft according to claim 7, wherein the heating device comprises an electric heating device integrally embodied in the displacer that is structured and arranged to convert electric energy into thermal energy. 9. The aircraft according to claim 2, wherein the lift device comprises a light-transmitting cover arranged in the top region of the working chamber. 10. The aircraft according to claim 1, further comprising a power-generating device structured and arranged to generate electric energy to drive the aircraft. 11. The aircraft according to claim 10, wherein the power-generating device comprises a generator device structured and arranged to convert kinetic energy into electric energy and to be driven by the flat-plate Stirling engine. 12. The aircraft according to claim 10, wherein the power-generating device comprises photovoltaic elements structured and arranged to convert solar radiation into electric energy. 13. The aircraft according to claim 12, wherein the photovoltaic elements are arranged on the top of the displacer. 14. The aircraft according to claim 10, wherein the power-generating device comprises a fuel cell device and heat released with the operation of a fuel cell of the fuel cell device is fed to the working chamber of the flat-plate Stirling engine. 15. The aircraft according to claim 10, further comprising a storage device structured and arranged to store and deliver electric energy generated by the power-generating device, wherein the power-generating device is structured and arranged to feed electric energy to the storage device and the storage device is structured and arranged to store the fed electric energy and to make the stored electric energy available for driving the aircraft. 16. A method for the emission-free driving of an aircraft, comprising: receiving solar thermal energy to a flat-plate Stirling engine;converting the thermal energy into kinetic energy via the flat-plate Stirling engine; anddriving, via the flat-plate Stirling engine, a drive device having a flapping wing device for thrust,wherein a working chamber is arranged between a wing top and a wing underside, and a displacer is arranged to divide the working chamber into a first and a second chamber region and, with movement, to displace a working gas from one of the first and second chamber region into the other of the first and second chamber region; andwherein the top of the wing forms a first side of the flat-plate Stirling engine with a first temperature and the underside of the wing forms a second side of the flat-plate Stirling engine with a second temperature, in which the second temperature is lower than the first temperature. 17. The method according to claim 16, wherein: in a first phase, converting kinetic energy of the flat-plate Stirling engine into electric energy and storing the electric energy; andin a second phase, converting the stored electric energy into thermal energy in an electric heating device, and driving the Stirling engine to provide the kinetic energy for driving the drive device. 18. An aircraft with at least one heat engine arranged in at least one of a wing and a fuselage to drive a flapping wing drive, the aircraft comprising: a working chamber, having a top and an underside filled with a working gas, being located in the at least of the wing and fuselage;a displacer structured and arranged for movement between the top and the underside of the working chamber to a define a first and a second chamber region; anda working piston structured and arranged to adjust a working volume of the working chamber through a linear movement,wherein the linear movement of the working piston pivotably drives at least one flapping wing of the flapping wing drive,wherein the working chamber is arranged between a wing top and a wing underside, and the displacer is arranged to divide the working chamber into the first and the second chamber region and, with movement, to displace the working gas from one of the first and second chamber region into the other of the first and second chamber region; andwherein the top of the wing forms a first side of the flat-plate Stirling engine with a first temperature and the underside of the wing forms a second side of the flat-plate Stirling engine with a second temperature, in which the second temperature is lower than the first temperature. 19. The aircraft according to claim 18, wherein the heat engine comprises a flat-plate Stirling engine. 20. The aircraft according to claim 18, further comprising an electric heating device one of integral with and coupled to the displacer to heat the working gas.
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