A system is described to control the flight path of a parafoil. The physical control mechanism is a series of actuators embedded within the parafoil canopy that open a series of meshed venting systems in the upper surface of the parafoil canopy. Opening and closing the meshed venting system changes
A system is described to control the flight path of a parafoil. The physical control mechanism is a series of actuators embedded within the parafoil canopy that open a series of meshed venting systems in the upper surface of the parafoil canopy. Opening and closing the meshed venting system changes the forces and moments acting on the parafoil canopy in a consistent manner such that it can be used for flight control. The meshed venting system includes an internal sealing flap and a mesh member.
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1. A system to control the flight path of a parafoil carrying a payload comprising: a parafoil canopy comprising: a canopy upper surface comprising a top and a bottom,a canopy lower surface comprising a top and a bottom, wherein the canopy upper surface and canopy lower surface are connected by a ce
1. A system to control the flight path of a parafoil carrying a payload comprising: a parafoil canopy comprising: a canopy upper surface comprising a top and a bottom,a canopy lower surface comprising a top and a bottom, wherein the canopy upper surface and canopy lower surface are connected by a cell structure wherein the cell structure comprises a plurality of structural cell walls and a plurality of non-structural cell walls thereby creating a plurality of cells within the parafoil canopy between the canopy upper surface and the canopy lower surface,a leading edge and a trailing edge,a chord line,at least one vent system located in the upper canopy of at least one cell, wherein each vent system further comprises: an aperture located in the top upper canopy surface, comprising an aperture leading edge and an aperture trailing edge,a mesh member secured to the upper canopy comprising a mesh member leading edge and a mesh member trailing edge, wherein the mesh member completely covers the aperture,an internal sealing flap comprising an internal flap leading edge comprising a top and a bottom and an internal flap trailing edge comprising an top and a bottom, wherein the internal flap leading edge is secured to the upper canopy and the internal flap trailing edge extends to at least the aperture trailing edge,an actuation system comprising: actuator further comprising at least one control means wherein the control means controls actuation of the actuator, and the actuator is located within a cell comprising at least one vent system and is secured to the parafoil canopy at an intersection of the top of the canopy lower surface and a structural cell wall, and at least one control line system comprising: a control line having a predetermined length, wherein the control line is secured to the actuator and the predetermined length of the control line may be adjusted by actuation of the actuator, and at least one device for receiving the control line secured to the internal flap trailing edge wherein the control line extends from the actuator, through the at least one device for receiving the control line and is attached to the parafoil canopy at an intersection of the top of the canopy lower surface and a cell wall opposite the actuator; anda control module wherein said control module comprises a means for communication with the control means of each of actuator. 2. The system of claim 1 wherein at least one actuation system further comprises a plurality of control line systems, wherein each control line system allows for the actuation of separate vent systems. 3. The system of claim 2 wherein at least one device for receiving the control line is a guide ring. 4. The system of claim 2 wherein at least one cell within the parafoil comprises a plurality of vent systems. 5. The system of claim 4 wherein at least one actuation system further comprises a plurality of control line systems, wherein each control line system allows for the actuation of separate vent systems within the at least one cell comprising a plurality of vent systems. 6. The system of claim 1 wherein at least one device for receiving the control line is a guide ring. 7. The system of claim 6 wherein at least one cell within the parafoil comprises a plurality of vent systems. 8. The system of claim 1 wherein at least one cell within the parafoil comprises a plurality of vent systems. 9. A system to control the flight path of a parafoil carrying a payload comprising: a parafoil canopy comprising: a canopy upper surface comprising a top and a bottom,a canopy lower surface comprising a top and a bottom, wherein the canopy upper surface and canopy lower surface are connected by a cell structure wherein the cell structure comprises a plurality of structural cell walls and a plurality of non-structural cell walls thereby creating a plurality of cells within the parafoil canopy between the canopy upper surface and the canopy lower surface,a leading edge and a trailing edge,a chord line,at least one vent system located in the upper canopy of at least one cell, wherein each vent system further comprises: an upper canopy mesh member comprising a plurality of apertures, an upper canopy mesh member leading edge and an upper canopy mesh member trailing edge,an internal sealing flap comprising an internal flap leading edge comprising a top and a bottom and an internal flap trailing edge comprising an top and a bottom, wherein the internal flap leading edge is secured to the upper canopy and the internal flap trailing edge extends to at least the upper canopy mesh member trailing edge,an actuation system comprising: an actuator further comprising at least one control means wherein the control means controls actuation of the actuator, and the actuator is located within a cell comprising at least one vent system and is secured to the parafoil canopy at an intersection of the top of the canopy lower surface and a structural cell wall, and at least one control line system comprising: a control line having a predetermined length, wherein the control line is secured to the actuator and the predetermined length of the control line may be adjusted by actuation of the actuator, and at least one device for receiving the control line secured to the internal flap trailing edge wherein the control line extends from the actuator, through the at least one device for receiving the control line and is attached to the parafoil canopy at an intersection of the top of the canopy lower surface and a cell wall opposite the actuator; anda control module wherein said control module comprises a means for communication with the control means of each of actuator. 10. The system of claim 9 wherein the vent system further comprises a second mesh member secured to the upper canopy, wherein the second mesh member completely covers upper canopy mesh member. 11. The system of claim 10 wherein at least one actuation system further comprises a plurality of control line systems, wherein each control line system allows for the actuation of separate vent systems. 12. The system of claim 10 wherein the at least one device for receiving the control line is a guide ring. 13. The system of claim 10 wherein at least one cell within the parafoil comprises a plurality of vent systems. 14. The system of claim 9 wherein at least one actuation system further comprises a plurality of control line systems, wherein each control line system allows for the actuation of separate vent systems. 15. The system of claim 14 wherein the at least one device for receiving the control line is a guide ring. 16. The system of claim 14 wherein at least one cell within the parafoil comprises a plurality of vent systems. 17. The system of claim 9 wherein the at least one device for receiving the control line is a guide ring. 18. The system of claim 17 wherein at least one cell within the parafoil comprises a plurality of vent systems. 19. The system of claim 9 wherein at least one cell within the parafoil comprises a plurality of vent systems. 20. The system of claim 19 wherein at least one actuation system further comprises a plurality of control line systems, wherein each control line system allows for the actuation of separate vent systems within the at least one cell comprising a plurality of vent systems.
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이 특허에 인용된 특허 (7)
Yakimenko, Oleg, Automatic parafoil turn calculation method and apparatus.
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