Wing control system

The invention claimed is: 1. A wing control system operatively installed on an aircraft, the aircraft including a wing having a stiffener web at an outboard end thereof and an aileron, wherein a length of wing in which dynamic air pressure on the aileron, when pivoted during forward motion of the aircraft, would tend to induce twisting, the system including: a shaft extending along the length of wing and including an outboard end and an inboard end; actuation means comprising: a crank mounted to the inboard end of the shaft; and an hydraulic piston/cylinder responsive to aileron control inputs received from an aileron control system of the aircraft and acting on the crank to induce a variable torque T in the shaft; outboard moment transfer means operatively connected between the stiffener web, the outboard end of the shaft, and the aileron, wherein the outboard moment transfer means comprises: a first crank rotatably fixed at its proximate end to the outboard end of the shaft; a second crank rotatably fixed at its proximate end to the aileron; and a linkage interconnecting distal ends of the first crank and the second crank to each other, thereby to transfer the torque T from the outboard end of the shaft partially as a moment MA to the aileron via the first and second cranks and linkage, and partially as a moment MW to the wing via the connection of the stiffener web at an outboard end of the length of wing, with the moment MW being in the same direction as the moment MA to counter twisting of the length of wing due to the dynamic air pressure on the aileron, when pivoted during forward motion of the aircraft, and with the moments MA and MW together balancing the torque T; and inboard moment transfer means operatively connected between the inboard end of the shaft and a fuselage of the aircraft, wherein the inboard moment transfer means transfers the torque T from the inboard end of the shaft to the fuselage as a moment MF, with the moment MF being directionally opposite to the moments MA and MW and with the moment MF balancing the torque T. 2. A system as claimed in claim 1 , in which the outboard moment transfer means is configured to operatively induce a ratio of moments MA:MW within a range 1:2 to 1:8. 3. A system as claimed in claim 1 , in which the actuation means is connected to the inboard end of the shaft to apply the torque T to this end. 4. A system as claimed in claim 1 , in which the outboard moment transfer means includes a planetary gearbox, including a planetary gear carrier, a ring gear, and a sun gear and in which: the outboard end of the shaft is connected to the planetary gear carrier, operatively to transfer the torque T in the shaft to the planetary gear carrier; the ring gear acts on the stiffener web of the wing; and the sun gear acts on the aileron. 5. A system as claimed in claim 4 , in which the sun gear acts on the aileron via the crank and linkage arrangement. 6. A system as claimed in claim 1 , in which: the outboard end of the shaft is rotatably mounted to the wing; and the configuration of the cranks and linkage is such that, with the torque T applied to the first crank, the moment MW is induced in the wing by a couple generated by the cranks and linkage.