Control of hydraulic actuating cylinders in roll stands

The invention claimed is: 1. A hydraulic control loop ( 1 ) for controlling a hydraulic actuating cylinder ( 3 ), the hydraulic actuating cylinder ( 3 ) having a cylindrical housing ( 31 ) and a piston ( 32 ) displaceably arranged therein, the piston ( 32 ) dividing the cylindrical housing interior into a first hydraulic chamber ( 34 ) and a second hydraulic chamber ( 35 ), wherein the hydraulic control loop ( 1 ) comprises: a first hydraulic valve ( 10 ), which is configured to supply the first hydraulic chamber ( 34 ) with a hydraulic fluid, wherein a hydraulic pressure of the first hydraulic chamber ( 34 ) is adjustable via a control of the first hydraulic valve ( 10 ); a second hydraulic valve ( 11 ), which is configured to supply the second hydraulic chamber ( 35 ) with a hydraulic fluid, wherein a hydraulic pressure of the second hydraulic chamber ( 35 ) is adjustable via a control of the second hydraulic valve ( 11 ); and a control device ( 12 - 20 ) that is provided for controlling the first hydraulic valve ( 10 ) and the second hydraulic valve ( 11 ) and is configured to control, in a position control state, the second hydraulic valve ( 11 ) with a position control signal dependent on a working position of the piston ( 32 ) and to control the first hydraulic valve ( 10 ) with an adjusted position control signal, which is a signal generated based on the position control signal, wherein the control device ( 12 - 20 ) includes a switching device ( 16 ), which is configured to switch between the position control state and a pressure control state, wherein, in the pressure control state for positioning the piston ( 32 ), the first hydraulic valve ( 10 ) is controlled by the control device ( 12 - 20 ), such that the hydraulic pressure in the first hydraulic chamber ( 34 ) remains essentially constant, while the second hydraulic valve ( 11 ), controlled by the position control signal, functions as an actuator. 2. The hydraulic control loop ( 1 ) according to claim 1 , wherein the hydraulic actuating cylinder ( 3 ) is an adjusting cylinder for a working roll in a roll stand. 3. The hydraulic control loop ( 1 ) according to claim 1 , wherein the control device ( 12 - 20 ) is configured to carry out the control of the first hydraulic valve ( 10 ) and the second hydraulic valve ( 11 ) in an event of a sudden change in load on the piston ( 32 ) in the position control state. 4. The hydraulic control loop ( 1 ) according to claim 1 , wherein the control device ( 12 - 20 ) comprises a position controller ( 12 ), which is configured to generate the position control signal, along with an adjustment device ( 17 ) having an input that receives the position control signal and an output that outputs the adjusted position control signal, wherein the adjustment device ( 17 ) is configured to generate the adjusted position control signal by inversion of the position control signal. 5. The hydraulic control loop ( 1 ) according to claim 1 , wherein the control device ( 12 - 20 ) has a wear adjustment device ( 19 ), which is configured to evaluate the position control signal with an additional factor that is provided for compensating wear of the first hydraulic valve ( 10 ) and/or the second hydraulic valve ( 11 ). 6. The hydraulic control loop ( 1 ) according to claim 1 , wherein the piston ( 32 ) has a first cylinder surface ( 32 a ) and a second cylinder surface ( 32 b ) and a nominal flow rate of the first hydraulic valve ( 10 ) is lower than a nominal flow rate of the second hydraulic valve ( 11 ) by a surface ratio of the first cylinder surface ( 32 a ) to the second cylinder surface ( 32 b ), wherein the first cylinder surface ( 32 a ) is arranged on a rod side of the piston ( 32 ), while there is no piston rod on the opposite side of the piston ( 32 ). 7. The hydraulic control loop ( 1 ) according to claim 1 , wherein the first hydraulic valve ( 10 ) and/or the second hydraulic valve ( 11 ) is a continuously variable valve. 8. A method for controlling a hydraulic actuating cylinder ( 3 ) which comprises a cylindrical housing ( 31 ) and a piston ( 32 ) displaceably arranged therein, the piston dividing the cylindrical housing interior into a first hydraulic chamber ( 34 ) and a second hydraulic chamber ( 35 ), the method comprising: supplying hydraulic pressure to the first hydraulic chamber ( 34 ) by a first hydraulic valve ( 10 ); and supplying hydraulic pressure to the second hydraulic chamber ( 35 ) by a second hydraulic valve ( 11 ), wherein, in a position control state, the second hydraulic chamber ( 35 ) is supplied with hydraulic pressure dependent on a working position of the piston ( 32 ), by controlling the second hydraulic valve ( 11 ) with a position control signal, and the first hydraulic chamber ( 34 ) is supplied with hydraulic pressure dependent on the working position of the piston ( 32 ), by controlling the first hydraulic valve ( 10 ) with an adjusted position control signal, which is a signal generated based on the position control signal; positioning the piston ( 32 ) in a pressure control state in which the first hydraulic valve ( 10 ) is controlled such that the hydraulic pressure in the first hydraulic chamber ( 34 ) remains essentially constant, and the second hydraulic valve ( 11 ) is controlled by the position control signal; and switching from the pressure control state to the position control state. 9. The method according to claim 8 , wherein the first hydraulic valve ( 10 ) and the second hydraulic valve ( 11 ) are controlled in the position control state in an event of a sudden change in load on the piston ( 32 ). 10. The method according to claim 8 , wherein the adjusted position control signal is generated by inverting the position control signal. 11. The method according to claim 8 , wherein the position control signal is evaluated with an additional factor, which is provided to compensate for wear of the first hydraulic valve ( 10 ) and/or the second hydraulic valve ( 11 ). 12. The method according to claim 11 , wherein an output of a leakage fluid integrator is used as a measure of wear. 13. The method according to claim 12 , wherein the hydraulic pressure in the first hydraulic chamber ( 34 ) and/or the second hydraulic chamber ( 35 ) in the pressure control state is adjusted essentially to a system pressure before switching to the position control state. 14. The method according to claim 8 , wherein, in the position control state, the hydraulic pressure in the first hydraulic chamber ( 34 ) and/or the second hydraulic chamber ( 35 ), which is dependent on the position of the piston ( 32 ), is set in such a manner that it decreases from a stop position of the piston on a piston side that is relieved when a change in load occurs on the piston ( 32 ) to the opposite stop position over a travel distance.