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 comprising a tubular body defining an axis and having a first end and a second end, arranged to regulate flow of fluid from the supply port to the control port through the valve spool body by controlling alignment of the supply port and the control port with fluid channels through the valve spool body in accordance with axial displacement of the valve spool in response to a control signal; and a drive assembly configured to axially move the valve spool relative to the supply port and the control port in response to the control signal to regulate the fluid flow; the drive assembly comprising a first fluid channel having a first end in fluid flow engagement with a source of pressurized fluid and a second end terminating in a first orifice the first channel arranged to provide pressurized fluid to the first end of the valve spool at a location between the first and second end of the first fluid channel, the drive assembly further comprising a second fluid channel having a first end in fluid flow engagement with the source of pressurized fluid and a second end terminating in a second orifice the second channel arranged to provide pressurized fluid to the second end of the valve spool at a location between the first and second end of the second fluid channel, such that axial displacement of the valve spool is caused by a pressure differential between the fluid applied to the first end and the fluid applied to the second end of the valve spool; wherein the drive assembly comprises: a piezoelectric actuator configured to vary the flow of fluid to respective ends of the valve spool in response to the control signal; and the drive assembly further comprises a housing within which the piezoelectric actuator is mounted, the housing comprising the first and second orifices at respective ends of the housing, the housing being connected to the fluid transfer valve assembly via the first fluid channel from the first orifice and the second fluid channel from the second orifice; wherein the piezoelectric actuator comprises a piezoelectric element and a rod, located between, and extending axially with respect to the first and second orifices, the rod arranged to move axially in response to expansion and/or contraction of the piezoelectric element depending on voltage applied to the element to accordingly release or block the first or second orifices, such that blocking the first orifice increases pressure applied to the first end of the valve spool causing the valve spool to move axially in the direction of the second end and blocking the second orifice increases pressure applied to the second end of the valve spool causing the valve spool to move axially in the direction of the first end. 2. The servovalve of claim 1 , wherein the fluid transfer valve assembly further comprises a compression spring at each of the respective ends of the valve spool. 3. The servovalve of claim 1 , wherein the valve spool is moveably mounted in a cylindrical housing, having an end cap at each end. 4. The servovalve of claim 2 , wherein the valve spool is moveably mounted in a cylindrical housing, having an end cap at each end. 5. A method of operating the servovalve of claim 1 , the method comprising: applying the voltage to the piezoelectric actuator to cause the piezoelectric actuator to move the valve spool so that the valve spool regulates flow of fluid from the supply port to the control port.