An aerodynamic lifting system for a VTOL aircraft is provided that includes a lifting structure defining a leading edge portion, a trailing edge portion, an upper surface extending between the leading edge portion and the trailing edge portion, and a lower surface extending between the leading edge
An aerodynamic lifting system for a VTOL aircraft is provided that includes a lifting structure defining a leading edge portion, a trailing edge portion, an upper surface extending between the leading edge portion and the trailing edge portion, and a lower surface extending between the leading edge portion and the trailing edge portion. A plurality of leading edge and trailing edge movable flaps, along with leading edge openings and trailing edge openings are employed to direct a flow of air, including along an upper surface of the lifting structure. During transition from a VTOL stage to forward flight, when a first leading edge movable flap is in a closed position, a net forward thrust is provided by the flow of air at the leading edge portion.
대표청구항▼
1. An aerodynamic lifting system for a VTOL aircraft comprising: an air flow device disposed within the aerodynamic lifting system to provide a flow of air;a lifting structure defining a leading edge portion, a trailing edge portion, an upper surface extending between the leading edge portion and th
1. An aerodynamic lifting system for a VTOL aircraft comprising: an air flow device disposed within the aerodynamic lifting system to provide a flow of air;a lifting structure defining a leading edge portion, a trailing edge portion, an upper surface extending between the leading edge portion and the trailing edge portion, and a lower surface extending between the leading edge portion and the trailing edge portion;a slot disposed along the leading edge portion of the lifting structure, the slot defining a leading edge opening configured for dispersing the flow of air towards the trailing edge portion along the upper surface of the lifting structure;an upper trailing edge movable flap disposed along the trailing edge portion of the lifting structure at the upper surface, the upper trailing edge movable flap defining a trailing edge opening configured for capturing the flow of air from the slot;an upper leading edge movable flap disposed along the leading edge portion of the lifting structure at the upper surface, the upper leading edge movable flap cooperating with the slot to direct the flow of air;a lower trailing edge movable flap disposed along the trailing edge portion of the lifting structure at the lower surface and configured for capturing air flow along the lower surface of the lifting structure; anda lower leading edge movable flap disposed along the leading edge portion of the lifting structure at the lower surface,wherein during a VTOL stage, a velocity of the flow of air from the slot at the leading edge portion is the same as a velocity of the flow of air entering the trailing edge opening when the upper trailing edge movable flap is in an open position, thereby resulting in a net zero forward thrust, andwherein during transition from the VTOL stage to forward flight, when the upper trailing edge movable flap is in a closed position, a net forward thrust is provided by the flow of air from the slot. 2. The aerodynamic lifting system according to claim 1, wherein the flow of air is provided by bleed air from an engine of the VTOL aircraft. 3. The aerodynamic lifting system according to claim 1 further comprising electric fans configured to provide the flow of air. 4. The aerodynamic lifting system according to claim 1, wherein the lifting structure is selected from the group consisting of a wing, an elevator, an elevon, a stabilator, a canard, and a fuselage. 5. The aerodynamic lifting system according to claim 1, wherein the leading edge opening extends through the upper surface and the lower surface and is further configured to disperse at least a portion of the flow of air at the lower surface of the lifting structure. 6. The aerodynamic lifting system according to claim 1, wherein the leading edge opening is continuous and extends along a span of the lifting structure. 7. The aerodynamic lifting system according to claim 1, wherein the trailing edge opening is continuous and extends along a span of the lifting structure. 8. The aerodynamic lifting system according to claim 1, wherein the leading edge opening defines a plurality of openings extending along a span of the lifting structure. 9. The aerodynamic lifting system according to claim 1, wherein the trailing edge slot opening defines a plurality of openings extending along a span of the lifting structure. 10. The aerodynamic lifting system according to claim 1 further comprising at least one heater disposed proximate the leading edge opening. 11. The aerodynamic lifting system according to claim 1, wherein the movable flaps are controlled by a flight computer. 12. The aerodynamic lifting system according to claim 1, wherein the aerodynamic lifting system is configured to control at least one of a rate of flow of air through the slot or a size of the slot to adjust a magnitude of the net forward thrust. 13. A VTOL aircraft having the aerodynamic lifting system according to claim 1. 14. The VTOL aircraft according to claim 13, wherein the VTOL aircraft is unmanned. 15. An aerodynamic lifting system comprising: an air flow device disposed within the aerodynamic lifting system to provide a flow of air;a lifting structure defining a leading edge portion, a trailing edge portion, an upper surface extending between the leading edge portion and the trailing edge portion, and a lower surface extending between the leading edge portion and the trailing edge portion;a slot disposed along the leading edge portion of the lifting structure, the slot defining a leading edge opening configured for dispersing the flow of air towards the trailing edge portion along the upper surface of the lifting structure;an upper trailing edge movable flap disposed along the trailing edge portion of the lifting structure at the upper surface, the upper trailing edge movable flap defining a trailing edge opening configured for capturing the flow of air from the slot;an upper leading edge movable flap disposed along the leading edge portion of the lifting structure at the upper surface, the upper leading edge movable flap cooperating with the slot to direct the flow of air;a lower trailing edge movable flap disposed along the trailing edge portion of the lifting structure at the lower surface and configured for capturing air flow along the lower surface of the lifting structure; anda lower leading edge movable flap disposed along the leading edge portion of the lifting structure at the lower surface,wherein the aerodynamic lifting system is configured to operate in a vertical flight mode and a forward flight mode,wherein during the vertical flight mode, a velocity of the flow of air from the slot at the leading edge portion is the same as a velocity of the flow of air entering the trailing edge opening when the upper trailing edge movable flap is in an open position, thereby resulting in a net zero forward thrust, andwherein during transition from the vertical flight mode to the forward flight mode, when the upper trailing edge movable flap is in a closed position, a net forward thrust is provided by the flow of air from the slot. 16. The aerodynamic lifting system according to claim 15, wherein the lifting structure is selected from the group consisting of a wing, an elevator, an elevon, a stabilator, a canard, and a fuselage. 17. The aerodynamic lifting system according to claim 15, wherein the leading edge opening extends through the upper surface and the lower surface and is further configured to disperse at least a portion of the flow of air at the lower surface of the lifting structure. 18. The aerodynamic lifting system according to claim 15, wherein the leading edge opening defines at least one opening extending along a span of the lifting structure. 19. The aerodynamic lifting system according to claim 15, wherein the trailing edge opening defines at least one opening extending along a span of the lifting structure.
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이 특허에 인용된 특허 (11)
Runge ; Thomas M., Aircraft wing lift augmentation device.
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