An airfoil member and an airfoil member altering system are provided for significantly modifying the shape and size of the airfoil member while simultaneously providing an airfoil member with increased adaptability to various flight conditions throughout a flight envelope. The airfoil member compris
An airfoil member and an airfoil member altering system are provided for significantly modifying the shape and size of the airfoil member while simultaneously providing an airfoil member with increased adaptability to various flight conditions throughout a flight envelope. The airfoil member comprises at least one motor or actuator, a system controller, a plurality of vehicle performance sensors, at least one temperature controller and airfoil member comprising at least one geometric morphing device that is adjustable in both size and shape and one or more rigid members.
대표청구항▼
We claim: 1. An airfoil member altering system comprised of a single wing structure wherein the entire shape of said single wing structure is altered in a minimum of two dimensions, comprising at least one motor or actuator, a system controller, a plurality of vehicle performance sensors, at least
We claim: 1. An airfoil member altering system comprised of a single wing structure wherein the entire shape of said single wing structure is altered in a minimum of two dimensions, comprising at least one motor or actuator, a system controller, a plurality of vehicle performance sensors, at least one temperature controller and an airfoil member comprising at least one geometric morphing device that is adjustable in both size and shape, wherein said at least one morphing device includes a matrix material comprising a shape memory polymer, a high tensile strength fiber mesh embedded in the matrix material to form a fiber mesh-matrix material composite, and four bars externally located and inter-connected at their ends by a pivot, said fiber mesh-matrix material composite being attached to said bars. 2. An airfoil member according to claim 1 wherein said airfoil member further comprises one or more rigid members for providing enhanced structural integrity. 3. An airfoil member according to claim 1 wherein said system controller is electrically coupled to said motor or actuator. 4. An airfoil member according to claim 1 wherein said sensors are for monitoring temperature, pressure, velocity, acceleration, movement and attitude. 5. An airfoil member according to claim 1 wherein more than one morphing device is present and more than one motor or actuator is present, wherein each of the more than one morphing devices independently controlled by a corresponding one of the more than one motor or actuator. 6. An airfoil member according to claim 1 wherein said at least one temperature controller is coupled to at least one temperature sensor embedded in said morphing device and at least one heating and cooling element embedded in said matrix material of said morphing device. 7. An airfoil member according to claim 1 wherein said matrix material and said fiber mesh are formed from a material whose elastic deformability can be significantly altered by a controlled stimulus. 8. An airfoil member according to claim 1 wherein said mesh comprises fibers having ends, the ends being attached to the bars. 9. An airfoil member according to claim 1 wherein an increase in temperature up to a threshold causes said shape memory polymer to become more elastic, and upon lowering the temperature of said shape memory polymer below the threshold temperature, it solidifies back to a solid form. 10. An airfoil member according to claim 1 wherein said matrix material has an elastic deformability which can be significantly altered by a controllable stimulus. 11. An airfoil member according to claim 10 wherein the stimulus is a change in the temperature of the matrix material. 12. An airfoil member altering system for modifying the shape and size of the airfoil member in a minimum of two dimensions to provide increased adaptability to various flight conditions throughout a flight envelope comprising an airfoil member according to claim 1. 13. An airfoil member altering system comprised of a single wing structure wherein the entire shape of said single wing structure is altered in a minimum of two dimensions, comprising at least one motor or actuator, a system controller, a plurality of vehicle performance sensors, at least one temperature controller and an airfoil member comprising at least one geometric morphing device that is adjustable in both size and shape, wherein said at least one morphing device includes a matrix material comprising a shape memory polymer, a high tensile strength fiber mesh embedded in the matrix material to form a fiber mesh-matrix material composite, said matrix material and said fiber mesh being formed from a material whose elastic deformability can be significantly altered by a controlled stimulus, and four bars externally located and inter-connected at their ends by a pivot, said fiber mesh-matrix material composite being attached to said bars, and each of said at least one morphing device is independently controlled by a corresponding one of said at least one motor or actuator. 14. An airfoil member according to claim 13 wherein said airfoil member further comprises one or more rigid members for providing enhanced structural integrity. 15. An airfoil member according to claim 14 wherein said system controller is electrically coupled to said motor or actuator. 16. An airfoil member according to claim 15 wherein said sensors are for monitoring temperature, velocity, acceleration, movement and attitude.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (40)
Maclean Brian J. (Daniel WY) Carpenter Bernard F. (Littleton CO) Misra Mohan S. (Golden CO), Adaptive control surface using antagonistic shape memory alloy tendons.
McKnight,Geoffrey P.; Massey,Cameron; Herrera,Guillermo A.; Barvosa Carter,William; Johnson,Nancy L.; Browne,Alan L., Airflow control devices based on active materials.
Klicker Kenneth A. (Allentown PA) Newnham Robert E. (State College PA) Cross Leslie E. (State College PA) Bowen Leslie J. (Waltham MA), Broad bandwidth composite transducers.
Cattaneo Christian J. (Lissy FRX) Derouet Patrick R. J. (Soignolles en Brie FRX) Laroche Michel C. F. (Le Mee sur Seine FRX), Device for detecting and preventing the formation of ice on contoured surfaces.
Sanderson, Terry M.; Gowler, Brian J.; Sar, David R.; McCreery, Thomas P., Multi-layer metal/shape memory polymer roll-up wing structures for fitment-constrained air vehicles.
Jiménez, Carlos Rafael Ramírez; Flores, Carlos Alberto Concha, Wind turbine rotor blades with shape memory polymer composites and methods for deploying the same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.