Tool and method for processing plate-shaped workpieces, in particular metal sheets

The invention claimed is: 1. A tool for processing plate-shaped workpieces, the tool comprising: an upper tool and a lower tool movably disposed toward one another for processing a workpiece arranged between said upper and lower tools; said upper tool having a clamping shank and a main body, arranged on a common position axis, and a processing tool mounted to said main body opposite said clamping shank; said processing tool of said upper tool having at least one bending edge; said lower tool having a main body with a bearing surface for the workpiece and an opening formed within said bearing surface; said main body of said lower tool having at least one counterpart bending edge fixedly formed thereon and positioned in said opening formed in said bearing surface; said bearing surface being displaceable relative to said counterpart bending edge to enable said counterpart bending edge to protrude from said opening formed in said bearing surface; a stroke drive device configured to move said processing tool of said upper tool along a substantially vertical stroke axis and to impart a substantially vertical force for bending the workpiece clamped between the upper and lower tools; and a drive arrangement for driving one of said processing tool of said upper tool or said main body of said lower tool in a direction substantially orthogonal to the vertical stroke axis and the impart a substantially horizontal force for bending the workpiece clamped between the upper and lower tools. 2. The tool according to claim 1 , wherein said bearing surface and a ram surface of said counterpart bending edge are aligned flush with said bearing surface in an initial position of said lower tool. 3. The tool according to claim 1 , wherein said bending edge of said upper tool and said counterpart bending edge are of equal length. 4. The tool according to claim 1 , wherein said bending edge of said upper tool is shorter than said counterpart bending edge of said lower tool. 5. The tool according to claim 1 , wherein said upper tool and said lower tool each has a ram surface extending substantially orthogonal to said common position axis, said bending edge of said upper tool and said counterpart bending edge of said lower tool each have an inclined surface which is inclined with respect to said ram surface, and said inclined surfaces enclose an angle of less than 90° with respect to said ram surface and defining an undercut away from said ram surface in a direction of said common position axis. 6. The tool according to claim 1 , wherein said bending edge of said upper tool is aligned within a projection area which is formed perpendicular to said position axis and, as viewed in a stroke direction, through said main body, or wherein said bending edge of said upper tool lies outside said projection area. 7. The tool according to claim 1 , configured for processing sheet metal sheets. 8. A method for processing a plate-shaped workpiece, the method comprising: providing a tool according to claim 1 , wherein the processing tool of the upper tool is movable by a stroke drive device along a stroke axis in a Z direction and in a direction of the workpiece for processing by the upper tool and in an opposite direction, and which is positionable along an upper positioning axis running perpendicular to the stroke axis in a Y direction, and moving the upper tool along the upper positioning direction by a drive arrangement; wherein the lower tool is aligned with the upper tool and is positionable along a lower positioning axis which points in the Y direction and which is oriented perpendicular to the stroke axis of the upper tool, and moving the lower tool along the lower positioning axis by a drive arrangement; actuating the drive arrangements by a controller for moving the upper and lower tools relative to one another; positioning a workpiece part of the plate-shaped workpiece relative to the bearing surface of the lower tool; aligning the bending edge of the upper tool and the counterpart bending edge of the lower tool with one another; transferring at least one of the bending edge or the counterpart bending edge, by way of a stroke movement in the Z direction, into a first working position in which the bending edge is positioned, as viewed in the Z direction, with a spacing that is at least equal to a thickness of the workpiece, and as viewed in the Y direction, at least with a spacing of the thickness of the workpiece, relative to the counterpart bending edge; and subsequently displacing the bending edge and the counterpart bending edge by moving at least one of the counterpart bending edge or the bending edge past one another by superposition of displacement movements in the Z direction and in the Y direction. 9. The method according to claim 8 , wherein the displacing step comprises keeping the counterpart bending edge stationary and driving the bending edge of the upper tool to move along a curved path. 10. The method according to claim 8 , wherein the displacing step comprises keeping the bending edge stationary and driving the counterpart bending edge to move along a curved path. 11. The method according to claim 8 , which comprises transferring the bending edge of the upper tool and the counterpart bending edge of the lower tool from a first working position into an end position by driving each of the upper tool and the lower tool along a curved path. 12. The method according to claim 8 , wherein the displacing step comprises driving displacement movement of the bending edge and/or of the counterpart bending edge a plurality of times in succession for incremental bending, with each bending step forming a bend angle on the workpiece part of less than 90°. 13. The method according to claim 8 , which comprises providing the workpiece with a Y shape having two arms which project away from one another, and forming a plurality of successive bending edges in order to form a helical contour. 14. The method according to claim 8 , wherein, if a width of the workpiece part is greater than a length of the bending edge or of the counterpart bending edge, introducing multiple bending edges on the workpiece part in succession and along the same bending edge. 15. The method according to claim 14 , wherein a sequence of the bending steps along the one bending edge of a subsequent bending segment is configured to differ from the sequence of the bending steps of a preceding bending segment. 16. The method according to claim 8 , wherein the plate shaped workpiece is a sheet metal sheet.