Actuator assembly for moving an aircraft wing tip device

The invention claimed is: 1. An aircraft comprising a wing, the wing having a fixed wing with a wing tip device, the wing tip device being rotatable, about a hinge axis, relative to the fixed wing, wherein the hinge axis is orientated non-parallel to a line-of-flight direction of the aircraft, and wherein the aircraft comprises an actuator assembly operable to move the wing tip device relative to the fixed wing, the actuator assembly comprising: a primary shaft having an axis of rotation orientated parallel to the line-of-flight direction, a motor operable to cause rotation of the primary shaft, and a secondary shaft orientated parallel to the hinge axis and couplable to the primary shaft, the secondary shaft arranged to rotate the wing tip device about the hinge axis in response to the rotation of the primary shaft. 2. An aircraft according to claim 1 , wherein the primary shaft is tubular, and wherein the motor is at least partially enclosed by the primary shaft and configured to cause rotation of the primary shaft relative to the motor. 3. An aircraft according to claim 1 , wherein the primary shaft comprises an opening, and wherein the actuator assembly comprises fixing means extending between the motor and the wing, through the opening of the primary shaft, to fix the motor to the wing. 4. An aircraft according to claim 3 , wherein the opening comprises a slot extending around a part of the circumference of the primary shaft in an azimuthal direction, and wherein the fixing means extends through the slot, such that the motor remains fixed to the wing via the fixing means during the rotation of the primary shaft. 5. An aircraft according to claim 1 , wherein the motor comprises an axial flux motor. 6. An aircraft according to claim 1 , wherein the actuator assembly comprises a plurality of motors arranged to complementarily cause rotation of the primary shaft. 7. An aircraft according to claim 1 , wherein the hinge axis is orientated perpendicular to the swept mean chord axis of the wing. 8. An aircraft according to claim 1 , wherein the secondary shaft is coaxial with the hinge axis. 9. An aircraft according to claim 1 , wherein the actuator assembly comprises: an input shaft co-aligned with the primary shaft; and a gearbox coupling the input shaft with the primary shaft, wherein the motor is operable to drive the input shaft thereby to cause rotation of the primary shaft. 10. An aircraft according to claim 9 , wherein the primary shaft is tubular, and wherein the gearbox is at least partially enclosed by the primary shaft, the primary shaft being configured to rotate relative to the gearbox. 11. An aircraft according to claim 1 , wherein the actuator assembly comprises a clutch for selectively disengaging the wing tip device from the motor. 12. An aircraft according to claim 11 , wherein the clutch is arranged to selectively decouple the secondary shaft from the primary shaft, and wherein the clutch is arranged on the secondary shaft. 13. An aircraft according to claim 1 , wherein the actuator assembly comprises a bevel gear for coupling the primary shaft and the secondary shaft. 14. An aircraft according to claim 1 , wherein the aircraft comprises an aerodynamic fairing arranged to enclose at least part of the actuator assembly. 15. An aircraft according to claim 1 , wherein the wing tip device is rotatable, about the hinge axis, between: i) a flight configuration for use during flight, in which configuration upper and lower surfaces of the wing tip device are continuations of upper and lower surfaces of the fixed wing; and (ii) a load alleviating configuration for load alleviation during flight, in which configuration the wing tip device is moved relative to the fixed wing such that at least one of the upper and lower surfaces of the wing tip device is moved away from the respective surface of the fixed wing, and the load on the wing is reduced, and wherein the actuator assembly is operable to move the wing tip device from the load alleviating configuration to the flight configuration. 16. An aircraft according to claim 15 , wherein the aircraft comprises a restraining assembly operable between a restraining mode in which the wing tip device is held in the flight configuration using a restraining force, and a releasing mode in which the restraining force on the wing tip device is released, such that the wing tip device is able to adopt the load alleviating configuration. 17. An aircraft wing for use as the wing according to claim 1 , the wing comprising a fixed wing with a wing tip device, the wing tip device being rotatable, about a hinge axis, relative to the fixed wing, wherein the hinge axis is orientated non-parallel to a line-of-flight direction, and wherein the wing comprises an actuator assembly operable to move the wing tip device relative to the fixed wing, the actuator assembly comprising: a primary shaft having an axis of rotation orientated parallel to the line-of flight direction, a motor operable to cause rotation of the primary shaft, and a secondary shaft orientated parallel to the hinge axis and couplable to the primary shaft, the secondary shaft arranged to rotate the wing tip device about the hinge axis in response to the rotation of the primary shaft. 18. A method comprising: providing a wing for an aircraft, the wing comprising: a fixed wing; and a wing tip device mounted on a hinge, the hinge having a hinge axis, such that the wing tip device is rotatable, about the hinge axis, relative to the fixed wing; and mounting an actuator assembly on the wing, the actuator assembly being operable to rotate the wing tip device about the hinge axis, the actuator assembly comprising: a tubular shaft; and a motor, at least partially housed within the tubular shaft and operable to cause rotation of the tubular shaft relative to the motor, wherein the tubular shaft is orientated non-parallel to the hinge axis. 19. An aircraft comprising a wing, the wing having a fixed wing with a wing tip device, the wing tip device rotatably mounted about a hinge axis, such that the wing tip device may rotate, about the hinge axis, relative to the fixed wing, wherein the aircraft comprises an actuator assembly operable to rotate the wing tip device about the hinge axis, the actuator assembly comprising: a tubular shaft having an axis of rotation orientated non-parallel to the hinge axis, a motor, at least partially housed within the tubular shaft and operable to cause rotation of the tubular shaft, and a tip-rotating shaft arranged along the hinge axis and coupled to the tubular shaft, thereby to rotate the wing tip device about the hinge axis in response to the rotation of the tubular shaft. 20. An aircraft comprising a wing, the wing having a fixed wing with a wing tip device, the wing tip device being rotatable, about a hinge axis, relative to the fixed wing, wherein the hinge axis is orientated non-parallel to a line-of-flight direction of the aircraft, and wherein the aircraft comprises an actuator assembly operable to move the wing tip device relative to the fixed wing, the actuator assembly comprising: a primary shaft having an axis of rotation aligned with the line-of-flight direction, a motor operable to cause rotation of the primary shaft, and a secondary shaft aligned with the hinge axis and couplable to the primary shaft, the secondary shaft arranged to rotate the wing tip device about the hinge axis in response to the rotation of the primary s