Piezoelectrically actuated quick-action hydraulic valve

The invention claimed is: 1. A hydraulic valve comprising: a control piston; an actuating device for displacing the control piston; the hydraulic valve comprises: a housing; the control piston has a cross-sectional area A K , and the control piston is configured to be displaced in the housing in an axial direction of the control piston, and the control piston is configured such that a throughflow of a pressurized liquid may be set by the displacement of the control piston; and the actuating device includes: a flexurally rigid metal plate, having an outer peripheral region of the metal plate fixed to the housing in a stationary manner, a central region of the metal plate being thicker than the outer peripheral region of the metal plate; a curved surface located between the central region of the metal plate and the outer peripheral region of the metal plate; a piezoelectric actuator operable into contact with the metal plate to bend a central region of the metal plate; and a pressure chamber configured to be filled with the pressurized liquid during operation of the valve; wherein the pressure chamber is delimited by the housing, the metal plate and the control piston; wherein the metal plate is configured to seal off the pressure chamber and the pressure chamber acts on the control piston; wherein an area A P of the metal plate over the pressure chamber is greater than a cross-sectional area A K of the control piston; and wherein the piston has an end face opposite the metal plate, the end face having a convex crowned formation to prevent sticking of the control piston to the metal plate. 2. The hydraulic valve as claimed in claim 1 , wherein an area A P of the metal plate over the pressure chamber is at least four times greater than a cross-sectional area A K of the control piston where the piston is at the metal plate. 3. The hydraulic valve as claimed in claim 1 , further comprising the piezoelectric actuator has a travel measurement system configured for measuring an expansion of the piezoelectric actuator in the axial direction of the control piston. 4. The hydraulic valve as claimed in claim 1 , further comprising the metal plate consists of steel. 5. The hydraulic valve as claimed in claim 1 , further comprising the metal plate is round. 6. The hydraulic valve as claimed in claim 1 , further comprising a fluid-tight seal between the peripheral region of the metal plate and the housing. 7. The hydraulic valve as claimed in claim 1 , further comprising the pressure chamber is configured to be supplied with the pressurized liquid under pressure by a line having an orifice. 8. The hydraulic valve as claimed in claim 1 , further comprising the control piston consists of steel. 9. The hydraulic valve as claimed in claim 1 , further comprising the housing comprises a valve block and a cover, and the cover is detachably connected to the valve block and the piezoelectric actuator is supported against the cover. 10. The hydraulic valve as claimed in claim 9 , further comprising the valve block has a travel measurement system located and configured for measuring a position of the control piston. 11. The hydraulic valve as claimed in claim 10 , further comprising an amplifier amplifying a control signal (S) and electrically energizes the piezoelectric actuator by the amplified control signal (S*). 12. The hydraulic valve as claimed in claim 11 , further comprising a regulator configured to calculate a manipulated variable signal u in dependence on a difference between a target position and an actual position of the control piston, and the amplifier is configured to electrically energize at least one of the piezoelectric actuator by the amplified manipulated variable signal. 13. The hydraulic valve as claimed in claim 1 , further comprising two of the actuating devices; and the control piston having two ends, each being actuated by a respective one of the actuating devices. 14. The hydraulic valve as claimed in claim 1 , further comprising: ports in the housing defining a pathway in the housing for pressurized liquid to pass the piston and out of or into the ports which are served by the valve; at least two of the ports are selectable by the piston; one or the other of the at least two of the selectable ports is selectively served by the pathway at one time, and the at least two selectable ports being placed in the housing such that axial displacement of the piston in the housing connects a selected one of the at least two selectable ports into the pathway; and a third one of the ports being in the pathway to complete passage of liquid past the piston and the pathway. 15. The hydraulic valve as claimed in claim 1 , further comprising a cylinder in the housing through which the piston is displaced; the at least two selectable ports and the third port each communicating into the cylinder at respective locations; the piston having a recess therein which is part of the pathway, the recess is of a smaller diameter than a diameter of the piston adjacent the recess, the recess being of an axial length such that during displacement of the piston, the recess communicates with one of the two selectable ports and not with the other selectable port; and the third port also communicating with the recess during the displacement of the piston while the recess is communicating with the one or the other of the two selectable ports. 16. The hydraulic valve as claimed in claim 1 , further comprising the recess in the piston having a first diameter which is less than a second diameter of the cylinder through which the piston is displaced. 17. A hydraulic valve comprising: a control piston; an actuating device for displacing the control piston; the hydraulic valve comprises: a housing; the control piston has a cross-sectional area A K , and the control piston is configured to be displaced in the housing in an axial direction of the control piston, and the control piston is configured such that a throughflow of a pressurized liquid may be set by the displacement of the control piston; and the actuating device includes: a flexurally rigid metal plate, having an outer peripheral region of the metal plate fixed to the housing in a stationary manner; a piezoelectric actuator operable into contact with the metal plate to bend a central region of the metal plate; and a pressure chamber configured to be filled with the pressurized liquid during operation of the valve; wherein the pressure chamber is delimited by the housing, the metal plate and the control piston; wherein the metal plate is configured to seal off the pressure chamber and the pressure chamber acts on the control piston; wherein an area A P of the metal plate over the pressure chamber is greater than a cross-sectional area A K of the control piston; wherein the piston has an end face opposite the metal plate, the end face having a convex crowned formation to prevent sticking of the control piston to the metal plate, and wherein the piston is comprised of a ferromagnetic metal, wherein the piston is actuated purely hydraulically, and further comprising a holding magnet located at a central region of the metal plate opposite the end face of the piston to hold the piston in an end position. 18. A hydraulic valve comprising: a control piston; an actuating device for displacing the control piston; the hydraulic valve comprises: a housing; the control piston has a cross-sectional area AK, and the control piston is configured to be displaced in the housing in an axial direction