Servovalve

The invention claimed is: 1. A servovalve comprising: a fluid transfer valve assembly comprising a supply port and a control port; a moveable valve spool arranged to regulate flow of fluid from the supply port to the control port in response to a control signal; and a jet pipe assembly configured to axially move the moveable valve spool relative to the fluid transfer valve assembly in response to the control signal to regulate the fluid flow; wherein the jet pipe assembly comprises a steerable nozzle from which fluid is directed to the ends of the spool in an amount determined by the control signal; and wherein fluid is provided to the nozzle via a connector header in fluid communication with the interior of the spool, the spool being provided with one or more openings in a body of the spool via which fluid from the supply port enters the interior of the moveable valve spool and flows into the connector header and to the steerable nozzle; and wherein filter means for filtering the fluid entering the interior of the moveable valve spool are provided in or across the one or more openings; wherein the filter means comprises the one or more openings being in the form of perforations formed in the spool. 2. The servovalve of claim 1 , wherein the filter means comprises a filter mesh provided across the one or more openings. 3. The servovalve of claim 2 , wherein the filter mesh is in the form of a perforated sheet wrapped around the spool to cover the one or more openings, or wherein the filter mesh is in the form of a perforated material fixed across each of the one or more openings, or wherein the filter mesh is in the form of a filter material formed within the one or more openings. 4. The servovalve of claim 1 , further comprising drive means for steering the nozzle in response to the control signal. 5. The servovalve of claim 1 , wherein the nozzle is provided at an end of a jet pipe ( 18 ′) closest to the valve assembly and fluid from the nozzle is directed into the valve assembly via a receiver. 6. The servovalve of claim 5 , wherein the receiver is configured such that when the nozzle is in a central position, fluid enters the valve assembly evenly via both sides of the receiver when the nozzle is steered to an off-centre position, more fluid flows to one side of the valve assembly than the other via the receiver. 7. The servovalve of claim 6 , wherein the receiver comprises lateral receiver channels to provide flow to each side of the valve assembly. 8. The servovalve of claim 1 , wherein the connector header is formed integrally with the nozzle or wherein the connector header is formed as a separated component and attached to the nozzle. 9. The servovalve of claim 1 , wherein the connector header comprises an inlet to receive supply fluid and an outlet in fluid communication with the nozzle. 10. The servovalve of claim 1 , wherein the nozzle is provided on a jet pipe mounted within a flexible tube, wherein the tube imparts movement to the jet pipe to steer the nozzle in response to the control signal. 11. The servovalve of claim 10 , wherein the jet pipe comprises a nozzle portion and a main body portion. 12. The servovalve of claim 11 , wherein the main body portion is in the form of a tube or wherein the main in body portion is in the form of a rod or wire.