An active winglet includes a body portion substantially parallel to a wing of an aircraft, as if it were an extension of the wing. The body portion is attachable to an aircraft wing and includes a controllable airflow modification device coupled thereto. By virtue of having a controllable airflow mo
An active winglet includes a body portion substantially parallel to a wing of an aircraft, as if it were an extension of the wing. The body portion is attachable to an aircraft wing and includes a controllable airflow modification device coupled thereto. By virtue of having a controllable airflow modification device, the winglet is capable of adjusting a control surface of the controllable airflow modification device in response to in-flight conditions, to reduce wing loads, increase range, and/or increase efficiency.
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1. An aircraft comprising: a fuselage;a baseline wing, the baseline wing coupled to the fuselage at a first end of the baseline wing and having an aileron; anda winglet comprising: a horizontal portion coupled to a second end of the baseline wing, such that the horizontal portion is outboard of the
1. An aircraft comprising: a fuselage;a baseline wing, the baseline wing coupled to the fuselage at a first end of the baseline wing and having an aileron; anda winglet comprising: a horizontal portion coupled to a second end of the baseline wing, such that the horizontal portion is outboard of the baseline wing; anda controllable airflow modification device directly coupled to the horizontal portion, the controllable airflow modification device, comprising: a control surface disposed at a trailing edge of the winglet, such that the control surface is substantially parallel to the baseline wing; anda control system for controlling motion of the control surface based at least in part on in-flight load data, the controllable airflow modification device being:configured to alleviate a load on a wing; andcontrollable independently of the aileron. 2. The aircraft of claim 1, the control surface being specifically configured for the aircraft based at least in part on flight data. 3. The aircraft of claim 1, the control surface being adjustable electronically, mechanically, hydraulically, pneumatically, or a combination thereof. 4. The aircraft of claim 1, the control system being communicatively coupled to a sensor located on the aircraft and configured to receive a signal from the sensor located on the aircraft. 5. A winglet fixedly attachable to a baseline wing of an aircraft, the winglet comprising: a horizontal portion that is substantially parallel to the baseline wing of the aircraft, the horizontal portion being configured to fixedly attach to an outboard portion of the baseline wing of the aircraft; anda controllable airflow modification device directly coupled to the horizontal portion of the winglet, the controllable airflow modification device located at a trailing edge of the horizontal portion, the controllable airflow modification device being: configured to alleviate a load on a wing; andcontrollable independently of the aileron. 6. The winglet of claim 5, the horizontal portion being configured to fixedly attach outboard of at least one of an aileron of the baseline wing of the aircraft and a flap of the baseline wing of the aircraft. 7. The winglet of claim 5, at least one of the horizontal portion or the controllable airflow modification device being specifically configured for a specific aircraft. 8. The winglet of claim 7, the controllable airflow modification device being specifically configured for the specific aircraft based at least in part on flight data of the specific aircraft. 9. The winglet of claim 5, the controllable airflow modification device being configured to adjust a control surface of the winglet electronically, mechanically, hydraulically, pneumatically, or a combination thereof. 10. The winglet of claim 5, the controllable airflow modification device being coupled to a control system for controlling a control surface of the airflow modification device. 11. The winglet of claim 10, the control system comprising a control device with control logic, the control device being communicatively coupled to a sensor located on the aircraft. 12. The winglet of claim 11, the control device being configured to receive a signal from the sensor located on the aircraft to indicate at least one of in-flight load factors of the aircraft and flight conditions of the aircraft. 13. The winglet of claim 12, the control device being further configured to adjust the controllable airflow modification device at least partly based on the signal from the sensor located on the aircraft. 14. The winglet of claim 5, further comprising an angled portion projecting upward at an angle from horizontal portion. 15. A method comprising: receiving in-flight load data from a sensor located on an aircraft; andadjusting a controllable airflow modification device located on a winglet fixedly attached to an outboard portion of a baseline wing of the aircraft based at least in part on the received in-flight load data, the controllable airflow modification device located at a trailing edge of a horizontal portion of the winglet that is substantially parallel to the baseline wing of the aircraft, the controllable airflow modification device being: configured to alleviate a load on a wing; andcontrollable independently of an aileron of the aircraft. 16. The method of claim 15, the controllable airflow modification device comprising one edge or portion of a control surface coupled to a hinge. 17. The method of claim 16, the adjusting of the controllable airflow modification device comprising rotating the control surface at the hinge along a horizontal axis such that an edge of the control surface other than the one edge coupled to the hinge moves up or down in relation to the horizontal portion of the winglet. 18. The method of claim 15, the adjusting of the controllable airflow modification device configured to, at least one of, reduce a wing load of a wing of the aircraft by moving a center of pressure of the wing inboard or reduce an impact of a winglet on a fatigue life of a wing of the aircraft, the wing load comprising at least one of a bending moment or a torsion moment of the wing.
Liu, Danny D.; Chen, Ping-Chih; Sarhaddi, Darius, Apparatus and methods for variable sweep body conformal wing with application to projectiles, missiles, and unmanned air vehicles.
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