Electrohydraulic system having an adjustment device for a valve

The invention claimed is: 1. An electrohydraulic system comprising: an adjustment device configured to adjust a rotary valve, the adjustment device comprising: an actuating arrangement having an actuating shaft having a first end connected to the rotary valve and a second opposite end configured to connect to and be rotated by an external actuator or robot that is external to the electrohydraulic system; a pretensioning device configured to transmit energy stored in the pretensioning device to the actuating arrangement in the event of a fault such that rotational movement of the actuating arrangement is initiated so as to cause the valve to be adjusted, the pretensioning device including at least one elastic element arranged adjacent to the actuating shaft of the actuating arrangement and connected fixedly to the actuating shaft, the at least one elastic element being configured to exert a torque on the actuating shaft; and a tensioning device configured to adjust and/or maintain a pretension of the pretensioning device, wherein the tensioning device is configured to apply the pretension to the pretensioning device independently of the external actuator or robot. 2. The electrohydraulic system as claimed in claim 1 , wherein the elastic element comprises at least one spring system with at least one pretensioning spring. 3. The electrohydraulic system as claimed in claim 2 , further comprising at least one lever arm attached to the actuating shaft and having a first lever arm end at which the at least one pretensioning spring engages. 4. The electrohydraulic system as claimed in claim 2 , wherein a direction of action of the at least one pretensioning spring extends essentially parallel to a tangent to the actuating shaft. 5. The electrohydraulic system as claimed in claim 1 , wherein the tensioning device comprises at least one rotatable electromotor configured to adjust the pretension of the pretensioning device. 6. The electrohydraulic system as claimed in claim 1 , wherein the tensioning device comprises at least one hydraulic cylinder having at least one linearly movable pressure piston operably coupled to the actuating shaft so as to adjust the pretension of the pretensioning device. 7. The electrohydraulic system as claimed in claim 6 , wherein the tensioning device further comprises at least one directional control valve and at least one duct via which the hydraulic cylinder is connected to the at least one directional control valve, the tensioning device configured such that when the at least one directional control valve is open, the pressure piston of the hydraulic cylinder is displaceable by the pretensioning device and when the at least one directional control valve is closed, the pressure piston is not displaceable by the pretensioning device. 8. The electrohydraulic system as claimed in claim 1 , wherein the actuating shaft of the actuating arrangement and a drive axis of the valve are arranged coaxially with each other. 9. The electrohydraulic system as claimed in claim 1 , further comprising a triggering mechanism for the pretensioning device. 10. The electrohydraulic system as claimed in claim 9 , wherein the triggering mechanism comprises an electromagnetically operable clutch configured to, in a first state, disable rotation of the actuating shaft and, in a second state, enable rotation of the actuating shaft such that the pretension of the pretensioning device rotates the actuating shaft. 11. An electrohydraulic system comprising: an adjustment device configured to adjust a rotary valve, the adjustment device comprising: an actuating arrangement having an actuating shaft having a first end connected to the rotary valve and a second opposite end configured to connect to and be rotated by an external actuator or robot that is external to the electrohydraulic system; and a pretensioning device configured to transmit energy stored in the pretensioning device to the actuating arrangement in the event of a fault such that rotational movement of the actuating arrangement is initiated so as to cause the valve to be adjusted, the pretensioning device including at least one elastic element arranged adjacent to the actuating shaft of the actuating arrangement and connected fixedly to the actuating shaft, the at least one elastic element being configured to exert a torque on the actuating shaft; and a tensioning device configured to adjust and/or maintain a pretension of the pretensioning device; and a resetting mechanism for the pretensioning device, the resetting mechanism configured to set and/or maintain the pretension of the pretensioning device independently of the tensioning mechanism. 12. The electrohydraulic system as claimed in claim 1 , wherein the actuating arrangement further comprises a hydraulic motor with a rotary drive, the hydraulic motor operably coupled to the actuating shaft between the first and second ends of the actuating shaft. 13. The electrohydraulic system as claimed in claim 1 , wherein the electrohydraulic system is configured as an independent module. 14. The electrohydraulic system as claimed in claim 1 , wherein the tensioning device is an electromechanical tensioning device. 15. The electrohydraulic system as claimed in claim 1 , further comprising: an interface at the second end of the actuating shaft that is configured to couple to the external actuator or robot so as to transmit torque from the external actuator or robot to the actuating shaft. 16. The electrohydraulic system as claimed in claim 11 , wherein the tensioning device is an electromechanical tensioning device.