Servovalve assembly

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 drive assembly configured to axially move the valve spool relative to the fluid transfer assembly in response to the control signal to regulate the fluid flow; wherein the drive assembly comprises a steerable jet pipe moveable by an amount determined by the control signal to cause corresponding movement of the valve spool; the jet pipe terminating at one end in a nozzle and at the other end being in fluid flow engagement with and fixedly connected to a fluid supply torsion tube arranged to receive fluid from a fluid source, whereby movement of the valve spool is caused by fluid flowing from the nozzle to engage with the valve spool, and wherein the end of the torsion tube furthest from the jet pipe is fixedly attached to a slider component having a port in fluid flow engagement with the fluid source; the slider component mounted for sliding movement responsive to movement of the jet pipe responsive to the control signal, and the slider component providing a fluid flow channel between the port and the torsion tube and hence to the jet pipe. 2. The servovalve of claim 1 , wherein the slider component is mounted within a housing of the fluid transfer assembly. 3. The servovalve of claim 1 , wherein the end of the torsion tube is attached to the slider component by welding. 4. The servovalve of claim 1 , wherein the fluid transfer valve assembly further comprises a return port for pressure returning through the assembly. 5. The servovalve of claim 1 , wherein the fluid is directed into the spool from the nozzle via a receiver 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. 6. The servovalve of claim 1 , wherein the receiver comprises lateral receiver channels to provide flow to each side of the valve assembly. 7. The servovalve of claim 1 , wherein the nozzle is provided on the 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. 8. The servovalve of claim 1 , wherein the slider component comprises a ring provided with annular seals to allow for reciprocating side to side movement. 9. The servovalve of claim 8 , wherein the ring is fixed to the torsion tube in a first orientation or plane, and the port in the ring opens in a different orientation or plane. 10. The servovalve of claim 1 , wherein the slider component comprises two annular seals mounted in annular seal seats, the port and the annular seals being defined at a common axis.