The invention relates to an aircraft which can both take off and land vertically and can hover and also fly horizontally at a high cruising speed. The aircraft has a support structure, a wing structure, at least three and preferably at least four lifting rotors and at least one thrust drive. The win
The invention relates to an aircraft which can both take off and land vertically and can hover and also fly horizontally at a high cruising speed. The aircraft has a support structure, a wing structure, at least three and preferably at least four lifting rotors and at least one thrust drive. The wing structure is designed to generate a lifting force for the aircraft during horizontal motion. To achieve this the wing structure has at least one mainplane provided with a profile that generates dynamic lift. The wing structure is preferably designed as a tandem wing structure. Each of the lifting rotors is fixed to the support structure, has a propeller and is designed to generate a lifting force for the aircraft by means of a rotation of the propeller, said force acting in a vertical direction. The thrust drive is designed to generate a thrust force on the support structure, said force acting in a horizontal direction. The lifting rotors can have a simple construction, i.e. they can have a simple rigid propeller for example, and a vertical take-off or hovering of the aircraft can be controlled, in a similar manner to quadcopters, by a simple control of the speeds of the lifting rotors. High cruising speeds can be achieved as a result of the additional horizontally acting thrust drive.
대표청구항▼
1. An aircraft, comprising: a support structure;a wing structure;at least three lifting rotors; andat least one thrust drive;wherein the wing structure is attached to the support structure or is part of the support structure,wherein the wing structure is configured to generate a lifting force for th
1. An aircraft, comprising: a support structure;a wing structure;at least three lifting rotors; andat least one thrust drive;wherein the wing structure is attached to the support structure or is part of the support structure,wherein the wing structure is configured to generate a lifting force for the aircraft during horizontal motion of the aircraft using at least one aerofoil which is provided with a profile generating a dynamic lift,wherein each of the at least three lifting rotors is attached to the support structure, has a propeller and is configured to rotate the propeller to generate a lifting force, acting in the vertical direction, for the aircraft,wherein the propeller of each of the at least three lifting rotors has exactly two propeller blades,wherein the at least one thrust drive is configured to generate a thrust force, acting in the horizontal direction, on the support structure, andwherein the at least one thrust drive generates a horizontally-acting thrust such that the aircraft is accelerated to a high cruising speed independently of the lifting rotors after the lifting rotors have stopped. 2. The aircraft according to claim 1, wherein the support structure, together with the wing structure, is configured as a tandem wing structure with an elongate fuselage and two pairs, arranged horizontally in tandem, of aerofoils which project transversely from the fuselage. 3. The aircraft according to claim 2, wherein one of the at least three lifting rotors is respectively arranged on each of the at least one aerofoil. 4. The aircraft according to claim 2, further comprising a nacelle, arranged on each of the at least one aerofoil, on which one of the at least three lifting rotors is respectively arranged. 5. The aircraft according to claim 1, wherein the at least three lifting rotors are configured such that a plane of rotation in which the propeller blades of a respective lifting rotor rotate is stationary relative to a motor-driven rotor shaft of the respective lifting rotor. 6. The aircraft according to claim 5, wherein the propeller blades of the respective lifting rotor are rigidly connected to the motor-driven rotor shaft. 7. Aircraft according to claim 5, wherein the propeller blades of the respective lifting rotor are swivelably connected to the motor-driven rotor shaft such that a pitch of the propeller blades can be varied. 8. The aircraft according claim 1, having at least four lifting rotors. 9. The aircraft according to claim 1, wherein the sum of the lifting forces which can be generated by the at least three lifting rotors passes substantially through a center of gravity of the aircraft; and wherein a neutral point of the wing structure relative to the center of gravity of the aircraft can be suitably positioned for a horizontal flight. 10. The aircraft according to claim 1, wherein the at least three lifting rotors are each configured to stop respective propeller blades of a respective lifting rotor in a position relative to the support structure. 11. The Aircraft according to claim 1, wherein the at least three lifting rotors and the thrust drive are driven by motors which are controllable independently of one another. 12. The aircraft according to claim 1, wherein each of the at least three lifting rotors is driven by an electric motor. 13. The aircraft according to claim 12, wherein the thrust drive is driven by an internal combustion engine and the internal combustion engine is coupled to a generator to provide electrical energy to the electric motors of the at least three lifting rotors. 14. The aircraft according to claim 1, wherein the support structure together with the wing structure is configured as a tandem wing structure with an elongate fuselage and two pairs of aerofoils which are arranged horizontally in tandem and project from the fuselage.
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이 특허에 인용된 특허 (4)
Shaw, Donald Orval, Aircraft with wings and movable propellers.
Armer, Charles Justin; Birkinbine, Bayani R.; Cleary, Thomas J.; Culbertson, Sean C.; Douglas, Jason M.; Murphy, Carlos V.; Singh, Manu, Vertical take-off and landing aircraft.
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