Servo valve

1 . A servo valve comprising: a fluid transfer valve assembly comprising a valve body having a supply port and a control port (C); the valve body comprising: first and second nozzles and a drive member therebetween, arranged to regulate flow of fluid from the supply port to the control port in response to a control signal; wherein the drive member comprises: an elongate member arranged to rotate in response to the control signal, and a cylindrical disk mounted on, and arranged to rotate with, the elongate member, between the first and second nozzles, the cylindrical disk having a cam profile such as to vary the spacing (A, B) between the disk and at least one of the nozzles as the cylindrical disk rotates relative to the first and second nozzles. 2 . A servo valve as claimed in claim 1 , the valve body further having a return port, such that the spacing (A) between the cylindrical disk and the first nozzle controls the flow of fluid from the supply port to the control port (C) and the spacing (B) between the cylindrical disk and the second nozzle controls the flow of fluid between the control port (C) and the return port. 3 . A servo valve as claimed in claim 1 , further comprising a motor arranged to cause rotation of the drive member in response to the control signal. 4 . A servo valve as claimed in claim 3 , wherein the motor is a stepper motor. 5 . A servo valve as claimed in claim 1 , wherein the cylindrical disk has a cam profile defining a lift angle α, wherein the lift angle is between about 10 degrees and about 90 degrees. 6 . A servo valve as claimed in claim 1 , wherein the cylindrical disk has a cam profile extending over a lift angle of 60 degrees of the disk periphery adjacent each nozzle. 7 . A servo valve as claimed in claim 1 , wherein the cylindrical disk has a cam profile extending over a lift angle of 90 degrees of the disk periphery adjacent each nozzle. 8 . A servo valve as claimed in claim 5 , wherein the cylindrical disk has a cam profile extending over part of the disk periphery adjacent the first nozzle and a constant profile extending over the disk periphery adjacent the second nozzle. 9 . An actuator assembly comprising: an actuator having a piston axially movably located in an actuator housing; and a servo valve as claimed in claim 1 ; wherein the control port is in fluid connection with the actuator such that fluid flow through the control port (C) determines the direction and extent of movement of the piston relative to the housing. 10 . A method of controlling flow of fluid through a single stage servo valve, comprising: causing a cam profile of a cylindrical disk located between two nozzles in a valve body, to rotate in response to a control signal, the cam profile rotating such as to vary the spacing between the disk and at least one of the nozzles as the cam profile rotates. 11 . The method of claim 10 , further comprising providing the control signal to a motor, the motor causing rotation of the drive element. 12 . A method of operating an actuator comprising a piston axially movably located within an actuator housing, the method comprising: controlling flow of fluid through a single stage servo valve, comprising causing a cam profile of a cylindrical disk located between two nozzles in a valve body, to rotate in response to a control signal, the cam profile rotating such as to vary the spacing between the disk and at least one of the nozzles as the cam profile rotates, the fluid flow through the servo valve being directed to the actuator to control the direction and degree of movement of the piston relative to the housing. 13 . The method of claim 12 , wherein movement of the piston can be stopped at any axial position in the housing based on the degree of rotation of the disk.