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 valve spool relative to the fluid transfer valve assembly in response to the control signal to regulate the fluid flow, the jet pipe assembly comprising: a steerable nozzle from which fluid is directed to opposing ends of the spool in an amount determined by the control signal; wherein fluid is provided to the steerable nozzle via a connector header in fluid communication with an interior of the spool, the spool being provided with one or more openings via which fluid from the supply port enters the interior of the spool and flows from the interior of the spool into the jet pipe and into the connector header and to the nozzle, and wherein the jet pipe extends into the interior of the spool and is secured in position relative to the spool; wherein the valve spool comprises: a tubular body defining a path for fluid flow, the tubular body closed at each end by a respective end cap, wherein the end caps extend within the tubular body at least to an extent that they overlap the openings, and wherein the end caps are provided with filter means for filtering the fluid from the openings as the fluid enters the interior of the spool. 2. The servovalve of claim 1 , wherein the filter means comprises perforations formed in the end cap where they overlap the openings. 3. The servovalve of claim 2 , wherein the end caps comprise a head part configured to sealingly sit in the end of the spool and a shaft extending from the head part along the interior of the spool. 4. The servovalve of claim 1 , wherein the end caps comprise a thin wall where they overlap the openings. 5. The servovalve of claim 1 , wherein the openings comprise an opening provided towards each end of the spool. 6. The servovalve of claim 1 , further comprising drive means for steering the nozzle in response to the control signal. 7. The servovalve of claim 1 , wherein the nozzle is provided at an end of a jet pipe closest to the valve assembly and fluid from the nozzle is directed into the valve assembly via a receiver. 8. The servovalve of claim 7 , wherein the receiver is configured such that when the nozzle is in a central position, fluid enters the fluid transfer 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 fluid transfer valve assembly than the other via the receiver. 9. The servovalve of claim 7 , wherein the receiver comprises lateral receiver channels to provide flow to each side of the fluid transfer valve assembly. 10. 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. 11. 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. 12. 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. 13. The servovalve of claim 12 , wherein the jet pipe comprises a nozzle portion and a main body portion. 14. The servovalve of claim 13 , wherein the main body portion is in the form of a tube or wherein the main body portion is in the form of a rod or wire.