Hydraulic servo valve

The invention claimed is: 1. A hydraulic servo valve comprising: a valve chamber; a pair of fluid receiving ports; a moveable member disposed between the pair of ports and movable within the valve chamber along an axis (C), wherein the moveable member comprises a pair of openings, each facing a respective one of the ports to permit fluid to flow from the valve chamber to the ports via the openings in use, wherein a fluid pressure at each of the ports is dependent upon an alignment of each of the openings with a respective one of the ports, and movement of the moveable member along the axis (C) is configured to move the openings into and out of alignment with the ports; an actuator configured to move the moveable member within the valve chamber along the axis (C), so as to vary the fluid pressure at each of the fluid receiving ports; a spool located within a spool cavity and between a first spool chamber and a second spool chamber, wherein the first spool chamber and the second spool chamber are of varying volume based on the position of the spool within the spool cavity; a supply pressure inlet; and a supply line connecting the supply pressure inlet and the valve chamber; wherein each port is fluidly connected to a respective one of the first and second spool chambers, such that, in use, when the actuator is actuated, the spool moves within the spool cavity to vary the volume of the first and second spool chambers in response to fluid pressure communicated from the ports. 2. The hydraulic servo valve of claim 1 , wherein the actuator is a piezoelectric actuator. 3. The hydraulic servo valve of claim 1 , wherein: the openings have respective central axes (O A , O B ) that are parallel to each other, but are axially offset from each other by an axial distance (A) relative to the axis (C); and the opposing receiving ports are co-axial with each other. 4. The hydraulic servo valve of claim 1 , wherein: the receiving ports have respective central axes (R A , R B ) that are parallel to each other, but are axially offset from each other by an axial distance (A) relative to the axis (C); and the opposing openings are co-axial with each other. 5. The hydraulic servo valve of claim 1 , further comprising an electrical input in electrical communication with the actuator, wherein the electrical input is controllable to selectively actuate the actuator. 6. The hydraulic servo valve of claim 1 , further comprising a resilient member in contact with the movable member and configured to bias the movable member against the action of the actuator. 7. The hydraulic servo valve of claim 1 , wherein the actuator is fixedly attached to the movable member. 8. The hydraulic servo valve of claim 7 , wherein the attachment is provided by a solder joint or a weld between the actuator and the movable member. 9. The hydraulic servo valve of claim 1 , wherein the movable member comprises a first wall forming a closed end of the movable member and a second wall extending axially from the first wall to define a cavity therebetween and an open end axially opposing the closed end. 10. The hydraulic servo valve of claim 9 , wherein the first and second walls form a U-shaped cross-section. 11. The hydraulic servo valve of claim 1 , wherein the servo valve further comprises: a return line; and at least one return control orifice disposed in the return line, wherein the at least one return control orifice comprises a constriction that is configured to control a fluid pressure in the return line. 12. The hydraulic servo valve of claim 11 , wherein a supply control orifice is disposed in the supply line and the supply control orifice comprises a constriction that is configured to control a fluid pressure in the supply line. 13. The hydraulic servo valve of claim 12 , wherein the constriction of the control orifice is an adjustable nozzle. 14. The hydraulic servo valve of claim 1 , wherein the servo valve further comprises a housing containing the actuator, member and valve chamber.