Systems and methods for operating flight control surfaces

What is claimed is: 1. A control device comprising: a two piece shaft including a first shaft portion and a second shaft portion, the first shaft portion driving the second shaft portion during normal operation; a spline key detachably coupling the first shaft portion and the second shaft portion; a crankshaft operatively coupling the second shaft portion of the two piece shaft and a flight control surface; a driving mechanism coupled to the spline key and operable to move the spline key to engage and disengage the first and second shaft portions, the first and second shaft portions disengaged when a failure to the flight control surface is detected, and a secondary driving device operably coupled to the second shaft portion causing the second shaft portion to drive the flight control surface to a safe position independent of operation of the first shaft portion after the first and second shaft portions are disengaged. 2. The control device of claim 1 , wherein the secondary driving device is a torsion spring coupled to the second shaft portion to rotate the second shaft portion in a direction opposite to a direction for extending the flight control surface to retract the flight control surface. 3. The control device of claim 1 , wherein the driving mechanism comprises a solenoid coupled to the spline key by a plunger, the plunger configured to disengage the spline key from the second shaft portion. 4. The control device of claim 1 , further comprising a compression spring coupled to the first shaft portion and arranged to bias the spline key to engage the first and second shaft portions. 5. The control device of claim 1 , wherein the crankshaft is coupled to the second shaft portion. 6. The control device of claim 1 , further comprising a motor coupled to the first shaft portion to rotate the two piece shaft when the first and second shaft portions are engaged with each other. 7. The control device of claim 1 , wherein the failure to the flight control surface comprises a hardover failure. 8. The control device of claim 1 , further comprising a motor coupled to the two piece shaft, the motor operable to rotate the two piece shaft and the driving mechanism operable to translate the spline key relative to the two piece shaft. 9. The control device of claim 1 , wherein the flight control surface comprises at least one of a flaperon, an aileron, or an elevator. 10. The control device of claim 1 , wherein the safe position comprises a faired position of the flight control surface. 11. An air vehicle, comprising: a body portion; at least one flight control surface; a control device coupled to the at least one flight control surface, the control device including a two piece shaft having first and second shaft portions coupled via a spline key, the control device having a motor driving the first shaft portion and the second shaft portion when the spline key engages the second shaft portion, the control device having and a secondary driving device operably coupled to the second shaft portion to independently drive the second shaft portion; and a flight control computer coupled to the control device and configured to determine a failure of the at least one flight control device, the flight control computer commanding the control device to disengage the first shaft portion from the second shaft portion and the flight control surface, wherein the second shaft portion drives the flight control surface to a safe position when the second shaft portion is disengaged from the first shaft portion. 12. The air vehicle of claim 11 , wherein the first and second shaft portions rotate in a first direction to extend the at least one flight control surface and the second shaft portion when disengaged from the first shaft portion rotating in a second direction opposite to the first direction. 13. The air vehicle of claim 11 , wherein the at least one flight control surface comprises at least one of a flaperon, an aileron, or an elevator. 14. The air vehicle of claim 11 , wherein the control device comprises an electrical actuator. 15. The air vehicle of claim 11 , wherein the control device comprises a non-hydraulic actuator. 16. The air vehicle of claim 11 , wherein the control device comprises a torsion spring to rotate the second shaft when disengaged from the first shaft portion. 17. The air vehicle of claim 11 , wherein the control device comprises a compression spring to bias the spline key to engage the first and second shaft portions. 18. The air vehicle of claim 11 , further comprising a solenoid disengaging the spline key from the second shaft portion. 19. A method for operating a flight control surface, the method comprising: monitoring a flight control surface to detect a failure condition; and sending a command to a two piece spline key coupled shaft control device to drive the flight control surface to a safe position when the failure condition is detected by disengaging shaft portions of the two piece spline key coupled shaft control device. 20. The method of claim 19 , wherein monitoring the flight control surface comprises monitoring the flight control surface to detect a hardover failure as the failure condition and when detecting the hardover failure, sending the command to the two piece spline key coupled shaft control device to cause a solenoid to drive a plunger and spline key into a compression spring and wherein a torsion spring pulls a second shaft to a failed position with movement of the second shaft turning an output crank to return the flight control surface to a faired position.