Press drive with several modes of operating a press and method for operating a press drive

What is claimed is: 1. Press drive ( 15 ) for a press, comprising an elbow lever drive ( 20 ), which includes a first lever ( 45 ) and a second lever ( 46 ) which are supported by an elbow joint ( 48 ) so as to be pivotable relative to each other, wherein the elbow lever drive ( 20 ) has a first support bearing ( 49 ) via which the first lever ( 45 ) is supported on a press frame ( 16 ) and a second support bearing ( 50 ) via which the second lever ( 46 ) is connected to a plunger ( 17 ) of the press; a connecting rod ( 47 ) whose one end is pivotally supported on the elbow joint ( 48 ) and whose other end is connected to an eccentric ( 21 ) of an eccentric drive ( 19 ); an adjustment arrangement ( 27 ) including a guide arrangement ( 28 ) operatively arranged on the press frame ( 16 ), the guide arrangement ( 28 ) operatively supports the eccentric drive ( 19 ) which is movable along the guide arrangement ( 28 ) in an adjustment direction (R) along an adjustment path (x), the adjustment arrangement ( 27 ) for adjusting the eccentric ( 21 ) relative to the first support bearing ( 49 ), in the adjustment direction (R) along the adjustment path (x), wherein the position of the eccentric axis ( 22 ) of the eccentric ( 21 ) or, respectively, the eccentric drive ( 19 ) may be changed with respect to the first support bearing ( 49 ); and, the adjustment arrangement ( 27 ) further including a locking means ( 55 ) operatively engageable with the guide arrangement ( 28 ), the locking means ( 55 ) operatively switchable between a release position in which movement of the eccentric drive ( 19 ) in an adjustment direction (R) along the adjustment path (x) is permitted and an arrest position in which movement of the eccentric drive ( 19 ) in an adjustment direction (R) along the adjustment path (x) is blocked or at least inhibited for bypassing any adjustment by the adjustment arrangement ( 27 ) of the eccentric ( 21 ) or respectively, the eccentric drive ( 19 ) during operation of the press in a mode of operation (B). 2. Press drive ( 15 ) according to claim 1 , wherein the adjustment arrangement ( 27 ) includes a linear drive ( 29 ) for linearly displacing the eccentric ( 21 ). 3. Press drive ( 15 ) according to claim 2 , wherein the adjustment direction (R) is oriented transverse to an axis (A) which extends through the first support bearing ( 49 ) and the second support bearing ( 50 ) or the adjustment arrangement (R) is oriented parallel to the axis (A). 4. Press drive ( 15 ) according to claim 3 , wherein the adjustment length (x) of the eccentric ( 21 ) in the adjustment direction (R) is greater than the eccentricity of the eccentric. 5. Press drive ( 15 ) according to claim 1 , wherein the press drive ( 15 ) includes a control unit ( 33 ) for causing movement of the adjustment arrangement ( 27 ) thereby setting different operating modes (B) including at least one of a first operating mode (B 1 ) corresponding to an adjustment length position (x 1 ), a second operating mode (B 2 ) corresponding to an adjustment length position (x 2 ), and a third operating mode (B 3 ) corresponding to an adjustment length position (x 3 ) for the press drive ( 15 ). 6. Press drive ( 15 ) according to claim 5 , wherein a switch-over between at least two of the first operating mode (B 1 ), second operating mode (B 2 ), and third operating mode (B 3 ) is possible by displacement of the eccentric ( 21 ) by the adjustment arrangement ( 27 ). 7. Press drive ( 15 ) according to claim 5 , wherein in at least one of the different operating modes (B) the eccentric ( 21 ) is driven so as to oscillate in a predetermined angular range (W). 8. Press drive ( 15 ) according to claim 7 , wherein in the different operating modes (B) the angular range (W) is different. 9. Press drive ( 15 ) according to claim 5 , wherein in at least one of the different operating modes (B) the eccentric is driven so as to rotate. 10. Press drive ( 15 ) according to claim 5 , wherein in the first operating mode (B 1 ) the elbow joint ( 48 ) is moved through an axis (A) which connects the first and the second support bearing ( 49 , 50 ). 11. Press drive ( 15 ) according to claim 5 , wherein in the second operating mode (B 2 ) and/or the third operating mode (B 3 ) the elbow joint ( 48 ) is moved with respect to an axis (A) interconnecting the first and the second support bearing ( 49 , 50 ) only in one direction. 12. Press drive ( 15 ) according to claim 5 , wherein the control unit ( 33 ) is for establishing the different operating modes (B) on the basis of predetermined or detected operating data (D). 13. Press drive ( 15 ) according to claim 12 , wherein the operating data (D) are at least partially detected by at least one of a force sensor ( 35 ) and a position sensor ( 36 ) and transmitted to the control unit ( 33 ). 14. Press drive ( 15 ) according to claim 13 , wherein the operating data (D) are determined during a test working of a sample workpiece. 15. Press drive ( 15 ) according to claim 13 , wherein the operating data (D) are at least partially predetermined by an operating arrangement ( 34 ) and transmitted to the control unit ( 33 ). 16. Press drive ( 15 ) according to claim 5 , wherein the eccentric drive ( 19 ) includes an electric motor ( 23 ) which is controlled or regulated by the control unit ( 33 ), wherein the control unit ( 33 ) uses in the control of the electric motor ( 23 ) the energy stored in the rotating mass of the eccentric drive ( 19 ) so as to increase the torque (M) provided by the electric motor for a short period.