A vertical take-off and landing aircraft includes a fixed wing airframe having opposed left and right wings extending from left and right sides, respectively, of a fuselage having opposed leading and trailing extremities and an empennage located behind the trailing extremity. Four fixed, open and ho
A vertical take-off and landing aircraft includes a fixed wing airframe having opposed left and right wings extending from left and right sides, respectively, of a fuselage having opposed leading and trailing extremities and an empennage located behind the trailing extremity. Four fixed, open and horizontal, vertical take-off and landing (VTOL) thrust rotors are mounted to the airframe in a quadrotor pattern for providing vertical lift to the aircraft, and a vertical, forward thrust rotor is mounted to the trailing extremity of the fuselage between the trailing extremity of the fuselage and the empennage for providing forward thrust to the aircraft. The four VTOL thrust rotors are coplanar being and operating in a common plane that is parallel relative to, and being level with, top surfaces of the left and right wings in and around a region of each of the four VTOL thrust rotors.
대표청구항▼
1. A vertical take-off and landing aircraft, comprising: a fixed wing airframe having opposed left and right wings extending from left and right sides, respectively, of a fuselage having opposed leading and trailing extremities and an empennage located behind the trailing extremity, the left and rig
1. A vertical take-off and landing aircraft, comprising: a fixed wing airframe having opposed left and right wings extending from left and right sides, respectively, of a fuselage having opposed leading and trailing extremities and an empennage located behind the trailing extremity, the left and right wings each having opposed top and bottom surfaces and a wing thickness between the top and bottom surfaces;four fixed and horizontal vertical take-off and landing (VTOL) thrust rotors mounted to the airframe in a quadrotor pattern for providing vertical lift to the aircraft, the VTOL thrust rotors are each open so as to be free of thruster housings or casings for limiting drag on the aircraft during flight, and for preventing buffeting from occurring in response to activation of the VTOL thrust rotors during VTOL maneuvering of the aircraft;a vertical, forward thrust rotor mounted to the trailing extremity of the fuselage between the trailing extremity of the fuselage and the empennage for providing forward thrust to the aircraft; andthe four VTOL thrust rotors are coplanar being and operating in a common plane that is parallel relative to, and that is even with, the top surfaces of the left and right wings in and around a region of each of the four VTOL thrust rotors, and do not extend downwardly from the common plane past the top surfaces of the respective left and right wings so as to not reside within the wing thicknesses of the respective left and right wings between the top and bottom surfaces of the respective left and right wings, all for limiting drag from the VTOL thrust rotors during flight of the aircraft when the VTOL thrust rotors are inactive, and for preventing the VTOL thrust rotors from interfering with the active air flows across top and bottom surfaces of the respective left and right wings during flight of the aircraft. 2. The vertical take-off and landing aircraft according to claim 1, wherein each of the four VTOL thrust rotors is driven by an electric motor. 3. The vertical take-off and landing aircraft according to claim 2, wherein the vertical, forward thrust rotor is drive by an internal combustion engine. 4. The vertical take-off and landing aircraft according to claim 3, wherein the four VTOL thrust rotors include left front and rear VTOL thrust rotors located outboard of the left side of the fuselage between the leading extremity of the fuselage and the empennage, and right front and rear VTOL thrust rotors located outboard of the right side of the fuselage between the leading extremity of the fuselage and the empennage. 5. The vertical take-off and landing aircraft according to claim 4, wherein the left front and right front VTOL thrust rotors are equidistant with respect to the left and right wings, respectively, and the fuselage. 6. The vertical take-off and landing aircraft according to claim 5, wherein the left rear and right rear VTOL thrust rotors are equidistant with respect to the left and right wings, respectively, and the fuselage. 7. The vertical take-off and landing aircraft according to claim 6, wherein: the left front VTOL thrust rotor is diametrically opposed with respect to the right front VTOL thrust rotor;the left rear VTOL thrust rotor is diametrically opposed with respect to the right rear VTOL thrust rotor;the left front VTOL thrust rotor is in-line with respect to the left rear VTOL thrust rotor; andthe right front VTOL thrust rotor is in-line with respect to the right rear VTOL thrust rotor. 8. A vertical take-off and landing aircraft, comprising: a fuselage having opposed leading and trailing extremities and opposed left and right sides;opposed left and right wings extending from the left and right sides, respectively, of the fuselage between the opposed leading and trailing extremities of the fuselage, the left and right wings each having opposed leading and trailing edges, opposed top and bottom surfaces extending between the opposed leading and trailing edges, and a wing thickness between the top and bottom surfaces;opposed left and right tail booms coupled between the opposed left and right wings, respectively, and an empennage behind the trailing extremity of the fuselage;opposed left and right head booms coupled to the left and right wings, respectively, and extending forwardly of the leading edges of the left and right wings, respectively;a plurality of fixed and horizontal vertical take-off and landing (VTOL) thrust rotors for providing vertical lift to the aircraft, including a left front VTOL thrust rotor mounted to the left head boom and being positioned forwardly of the leading edge of the left wing outboard of the left side of the fuselage near the leading extremity of the fuselage, a left rear VTOL thrust rotor mounted to the left tail boom and being positioned rearwardly of the trailing edge of the left wing outboard of the left side of the fuselage near the trailing extremity of the fuselage, a right front VTOL thrust rotor mounted to the right head boom and being positioned forwardly of the leading edge of the right wing outboard of the right side of the fuselage near the leading extremity of the fuselage, and a right rear VTOL thrust rotor mounted to the right tail boom and being positioned rearwardly of the trailing edge of the right wing outboard of the right side of the fuselage near the trailing extremity of the fuselage, and the VTOL thrust rotors are each open so as to be free of thruster housings or casings for limiting drag on the aircraft during flight, and for preventing buffeting from occurring in response to activation of the VTOL thrust rotors during VTOL maneuvering of the aircraft;the left front VTOL thrust rotor, the left rear VTOL thrust rotor, the right front VTOL thrust rotor, and the right rear VTOL thrust rotor being and operating in a common plane that is parallel relative to, and that is even with, the top surfaces of the left and right wings in and around a region of each of the left front, left rear, right front, and right rear VTOL thrust rotors, and do not extend downwardly from the common plane past the top surfaces of the respective left and right wings so as to not reside within the wing thicknesses of the respective left and right wings between the top and bottom surfaces of the respective left and right wings, all for limiting drag from the VTOL thrust rotors during flight of the aircraft when the VTOL thrust rotors are inactive, and for preventing the VTOL thrust rotors from interfering with the active air flows across top and bottom surfaces of the respective left and right wings during flight of the aircraft; anda vertical, forward thrust rotor mounted to the trailing extremity of the fuselage between the rear extremity of the fuselage and the empennage for providing forward thrust to the aircraft. 9. The vertical take-off and landing aircraft according to claim 8, wherein each of the left front, left rear, right front, and right rear VTOL thrust rotors is driven by an electric motor. 10. The vertical take-off and landing aircraft according to claim 9, wherein the vertical, forward thrust rotor is drive by an internal combustion engine. 11. The vertical take-off and landing aircraft according to claim 10, wherein the left head boom is in-line and coaxial with respect to the left tail boom. 12. The vertical take-off and landing aircraft according to claim 11, wherein the right head boom is in-line and coaxial with respect to the right tail boom. 13. The vertical take-off and landing aircraft according to claim 12, wherein the opposed left and right tail booms are coextensive and parallel with respect to each other. 14. The vertical take-off and landing aircraft according to claim 13, wherein the opposed left and right head booms are coextensive and parallel with respect to each other. 15. The vertical take-off and landing aircraft according to claim 14, wherein the left front and right front VTOL thrust rotors are equidistant with respect to the left and right wings, respectively, and the fuselage. 16. The vertical take-off and landing aircraft according to claim 15, wherein the left rear and right rear VTOL thrust rotors are equidistant with respect to the left and right wings, respectively, and the fuselage. 17. The vertical take-off and landing aircraft according to claim 16, wherein the left front VTOL thrust rotor is diametrically opposed with respect to the right front VTOL thrust rotor. 18. The vertical take-off and landing aircraft according to claim 17, wherein the left rear VTOL thrust rotor is diametrically opposed with respect to the right rear VTOL thrust rotor. 19. The vertical take-off and landing aircraft according to claim 18, wherein the left front VTOL thrust rotor is in-line with respect to the left rear VTOL thrust rotor. 20. The vertical take-off and landing aircraft according to claim 19, wherein the right front VTOL thrust rotor is in-line with respect to the right rear VTOL thrust rotor.
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