Method for operating a piston compressor, and piston compressor

The invention claimed is: 1. A piston compressor ( 100 ) comprising: a reciprocating piston ( 111 ) in a cylinder ( 110 ), wherein an inlet valve ( 112 ) and an outlet valve ( 113 ) are provided in the cylinder ( 110 ) for introducing and discharging a medium (b) that is to be compressed and conveyed by the compressor, a hydraulic drive ( 120 , 121 ) with a hydraulic piston ( 120 ) by means of which the reciprocating piston ( 111 ) is moved to and fro with the use of a hydraulic medium (a) in a first volume ( 141 ), positioned between the reciprocating piston ( 111 ) and the hydraulic piston ( 120 ), with which a side of the reciprocating piston ( 111 ) facing the hydraulic drive ( 120 , 121 ) can be loaded, a first measuring device ( 160 ) by means of which a position of the hydraulic piston ( 120 ) and/or a rotational angle (φ) of a shaft ( 121 ) provided for moving the hydraulic piston ( 120 ), and a second measuring device ( 161 , 162 ) by means of which a position (x) of the reciprocating piston ( 111 ) and/or a pressure (p) in the first volume ( 141 ) can be determined, and a hydraulic damping unit ( 140 ) by means of which movement of the reciprocating piston ( 111 ) can be limited as needed, using the hydraulic medium (a), said hydraulic damping unit comprising a second volume ( 142 ) at least partially bounded by the reciprocating piston ( 111 ), wherein the piston compressor ( 100 ) is configured to feed the hydraulic medium (a) into the first volume ( 141 ) and/or to discharge the hydraulic medium (a) from the first volume ( 141 ) when required, in a manner which is dependent upon the position of the hydraulic piston ( 120 ) and/or the rotational angle (φ) of the shaft ( 121 ) provided for moving the hydraulic piston ( 120 ) in relation to the position (x) of the reciprocating piston ( 111 ) and/or the pressure (p) in the first volume ( 141 ), said piston compressor ( 100 ) further comprising a first valve ( 150 ) by means of which the second volume ( 142 ) can be connected to the first volume ( 141 ), and a second valve ( 155 ) by means of which the hydraulic medium (a) can be discharged from the first volume ( 141 ) into a reservoir ( 130 ) for the hydraulic medium, and/or a third valve ( 153 ) by means of which the first volume ( 141 ) can be connected to the reservoir ( 130 ) for the hydraulic medium. 2. The piston compressor ( 100 ) according to claim 1 , which is a multi-stage piston compressor, said multi-stage piston compressor further comprising at least one further reciprocating piston and at least one further corresponding cylinder. 3. The piston compressor ( 100 ) according to claim 1 , in which an ionic fluid is provided as an operational fluid. 4. A method for operating the piston compressor according to claim 1 , said method comprising: moving the reciprocating piston ( 111 ) to and fro by way of the hydraulic drive ( 120 , 121 ) with the hydraulic piston ( 120 ) with the use of the hydraulic medium (a) in the first volume ( 141 ) positioned between the reciprocating piston ( 111 ) and the hydraulic piston ( 120 ), with which the reciprocating piston ( 111 ) is loaded on a side of the hydraulic drive ( 120 , 121 ), feeding the hydraulic medium (a) into the first volume ( 141 ) and/or discharging the hydraulic medium (a) from the first volume ( 141 ); wherein said feeding and/or discharging is dependent upon: (a) the position of the hydraulic piston ( 120 ); and/or (b) the rotational angle (p) of the shaft ( 121 ) which is provided for moving the hydraulic piston ( 120 ); in relation to (c) the position (x) of the reciprocating piston ( 111 ); and/or (d) the pressure (p) in the first volume ( 141 ). 5. The method according to claim 4 , wherein, with the hydraulic damping unit ( 140 ) using the hydraulic medium (a) and forming the second volume ( 142 ) at least partially bounded by the reciprocating piston ( 111 ), movement of the reciprocating piston ( 111 ) on the side of the hydraulic drive ( 120 , 121 ) is limited as needed. 6. The method according to claim 5 , wherein the second volume ( 142 ) is connected to the first volume ( 141 ) in order to reduce a quantity of medium (b) to be conveyed by means of the piston compressor ( 100 ), wherein excess hydraulic medium (a) is discharged from the first volume ( 141 ) into the reservoir ( 130 ), and/or wherein the first volume ( 141 ) is connected to the reservoir ( 130 ) for the hydraulic medium in order to increase a quantity of medium (b) to be conveyed by means of the piston compressor ( 100 ), wherein required hydraulic medium is supplied from the reservoir ( 130 ). 7. The method according to claim 1 , wherein the piston compressor is a multi-stage piston. 8. The method according to claim 4 , wherein an ionic fluid is used as an operational fluid. 9. The method according to claim 1 , wherein the hydraulic medium is fed into the first volume dependent upon: (a) the position of the hydraulic piston. 10. The method according to claim 4 , wherein the hydraulic medium is fed into the first volume dependent upon: (b) the rotational angle (p) of the shaft which is provided for moving the hydraulic piston in relation to the position (x) of the reciprocating piston. 11. The method according to claim 4 , wherein the hydraulic medium is fed into the first volume dependent upon: (c) the pressure (p) in the first volume. 12. The method according to claim 4 , wherein the hydraulic medium is fed into the first volume dependent upon: (a) the position of the hydraulic piston; (b) the rotational angle (p) of the shaft which is provided for moving the hydraulic piston in relation to the position (x) of the reciprocating piston; and (c) the pressure (p) in the first volume. 13. The method according to claim 4 , wherein the hydraulic medium is discharged from the first volume dependent upon: (a) the position of the hydraulic piston. 14. The method according to claim 4 , wherein the hydraulic medium is discharged from the first volume dependent upon: (b) the rotational angle (p) of the shaft which is provided for moving the hydraulic piston in relation to the position (x) of the reciprocating piston. 15. The method according to claim 4 , wherein the hydraulic medium is discharged from the first volume dependent upon: (c) the pressure (p) in the first volume. 16. The method according to claim 4 , wherein the hydraulic medium is discharged from the first volume dependent upon: (a) the position of the hydraulic piston; (b) the rotational angle (p) of the shaft which is provided for moving the hydraulic piston in relation to the position (x) of the reciprocating piston; and (c) the pressure (p) in the first volume. 17. A piston compressor ( 100 ) comprising: a reciprocating piston ( 111 ) in a cylinder ( 110 ), wherein an inlet valve ( 112 ) and an outlet valve ( 113 ) are provided in the cylinder ( 110 ) for introducing and discharging a medium (b) that is to be compressed and conveyed by the compressor, a hydraulic drive ( 120 , 121 ) with a hydraulic piston ( 120 ) by means of which the reciprocating piston ( 111 ) is moved to and fro with the use of a hydraulic medium (a) in a first volume ( 141 ), positioned between the reciprocating piston ( 111 ) and the hydraulic piston ( 120 ), with which the reciprocating piston ( 111 ) can be loaded on a side of the hydraulic drive ( 120 , 121 ) facing the hydraulic drive, a first measuring device ( 160 ) by means of which a position of the hydraulic piston ( 120 ) and/or a rotational angle (φ) of a shaft ( 121 ) provided for moving the hydraulic piston ( 120 ), and a second measu