Separator plate with decreased base width of one bead flank and electrochemical system

The invention claimed is: 1. A separator plate for an electrochemical system, comprising two metallic individual plates, wherein the metallic individual plates comprise through-openings for an operating media and for coolant, as well as distribution structures which are formed into the metallic individual plates and which each communicate with at least two of the through-openings, wherein an integral peripheral sealing structure is formed into each of the metallic individual plates at least peripherally around an electrochemically active region and distanced from this and peripherally around at least one of the through-openings and distanced from the edge of these through-openings, the integral peripheral sealing structure of the metallic individual plates having a cross section comprising a bead roof extending between two bead flanks and, at least in sections, two bead feet, and each bead flank extending at a flank angle relative to a plane of a respective metallic individual plate, the sealing structure extends, at least in sections, in a wave-like manner, the bead roof maintains a constant width while a base width of one of the two bead flanks in a region in which the one of the two bead flanks extends in convex curvature decreases by at least 5%. 2. The separator plate according to claim 1 , wherein the width of the bead roof is between 0.2 and 2 mm. 3. The separator plate according to claim 1 , wherein the flank angle in the region of convex curvature is between 20° and 65°. 4. The separator plate according to claim 3 , wherein a change of the flank angle in the region of convex curvature with respect to the flank angle adjacent to said region of convex curvature at an inflection point corresponds to an increase of up to 100%. 5. The separator plate according to claim 1 , wherein the base width of the one of the two bead flanks in a region in which the one of the two bead flanks extends in convex curvature decreases by between 5 and 50%. 6. The separator plate according to claim 1 , wherein the sealing structure as a whole extends linearly in a region of a wave-like extension of the bead roof. 7. A separator plate for an electrochemical system, comprising two metallic individual plates, wherein the metallic individual plates comprise through-openings for an operating media and for coolant, as well as distribution structures which are formed into the metallic individual plates and which each communicate with at least two of the through-openings, wherein an integral sealing bead is formed into each of the metallic individual plates at least peripherally around an electrochemically active region and distanced from this and peripherally around at least one of the through-openings and distanced from an edge of these through-openings, forming the integral sealing bead into each of the metallic individual plates forms a bead roof extending between two bead flanks at a distance from the metallic individual plates and, at least in sections, two bead feet, wherein the integral sealing bead extends, at least in sections, in a wave-like manner, the bead roof has a constant width and a base width of one of the two bead flanks in a region where the one of the two bead flanks extends in convex curvature decreases by at least 5%. 8. The separator plate according to claim 7 , wherein the width of the bead roof is between 0.2 and 2 mm. 9. The separator plate according to claim 7 , wherein a flank angle of a concave section is between 15° and 60°. 10. The separator plate according to claim 9 , wherein a change of the flank angle in the concave section with respect to the flank angle adjacent to said concave section at an inflection point corresponds to a reduction of up to 50%. 11. The separator plate according to claim 7 , wherein an increase of a base width within a concave section is between 5 and 100% of the base width of the same bead flank at one of the inflection points delimiting the concave section. 12. The separator plate according to claim 7 , wherein a total width of the sealing bead from bead foot to bead foot is constant in a region of a wave-like extension of the sealing bead. 13. The separator plate according to claim 7 , wherein the sealing bead as a whole extends linearly in the region of wave-like extension of the bead roof. 14. A separator plate for an electrochemical system, comprising two metallic individual plates, the metallic individual plates comprise through-openings for an operating media and for coolant, as well as distribution structures which are formed into the metallic individual plates and which each communicate with at least two of the through-openings, an integral sealing bead formed into each of the metallic individual plates around an electrochemically active region and distanced from this and peripherally around at least one of the through-openings and distanced from an edge of these through-openings, the integral sealing beads comprising a bead roof extending between two bead flanks at a distance from the metallic individual plates and, at least in sections, two bead feet, the bead roof has a constant width while a base width of a first of the two bead flanks decreases by at least 5% in a region where the first of the two bead flanks extends with convex curvature and a base width of a second bead flank, opposite the first bead flank, increases in a region of concave curvature.