Bent razor blades and manufacturing of such razor blades

The invention claimed is: 1. A razor unit comprising: a razor blade having an edge portion with a cutting edge at a first end; the edge portion transitions to a bending zone and the bending zone transitions into a further portion of the blade; the further portion extending from the bending zone to a second end of the razor blade, the further portion having a front portion and a rear portion; and a bridge portion attached only to the rear portion of the further portion along a first portion of the further portion, leaving a second portion of the further portion exposed from the first end to the second end, wherein the bending zone has a thickness that is larger than a blade material thickness to provide additional rigidity in the bending zone, and wherein at least the edge portion has a material structure hardened by a first heat treatment, and wherein the bending zone has a locally re-heated structure, wherein said local re-heating is performed by local intermittent laser irradiation without requiring the exertion of mechanical forces, wherein the local intermittent laser irradiation provides the bending zone over an angle of at least 40 degrees within 0.7 mm of the cutting edge without influencing the material properties of the cutting edge thereby maintaining the quality of the cutting edge at the first end of the razor blade. 2. The razor blade of claim 1 , wherein the bridge portion has rounded ends. 3. The razor blade of claim 1 , wherein the bridge portion has a width of no more than three times a thickness of the razor blade. 4. The razor blade of claim 1 , wherein the bridge portion is shorter than the further portion. 5. A multi-blade razor unit comprising: at least two razor blades mounted parallel to each other in a razor head, each razor blade of the at least two razor blades comprising: an edge portion with a cutting edge at a first end of the razor blade; the edge portion transitions to a bending zone and the bending zone transitions into a further portion of the blade; a further portion extending from the bending zone to a second end of the razor blade, the further portion having a front portion and a rear portion, a bridge portion attached only to the rear portion of the further portion along a first portion of the further portion, leaving a second portion of the further portion exposed from the first end to the second end, the edge portion being bent relative to the further portion through an angle of at least 40° in the bending zone spaced from said cutting edge, and wherein a spacing is present between further portions of at least two of said at least two razor blades, wherein the edge portion of at least one of said at least two razor blades is bent in a substantially horizontal plane towards at least one neighboring one of said at least two razor blades and projects towards said at least one neighboring one of said at least two razor blades forming a first spacing between the respective adjacent edge portions of the at least two of said razor blades which is smaller than a second spacing between the further portions of the at least two of said razor blades, wherein the bending zone is located less than 0.7 mm from the cutting edge and has a thickness that is larger than the blade material thickness to provide additional rigidity in the bending zone, and wherein the second spacing between the further portions of the at least two of said razor blades is identical to a third spacing between the respective cutting edges of the at least two of said razor blades, wherein at least the edge portion has a material structure hardened by a first heat treatment, and wherein the bending zone has a locally re-heated structure, wherein said local re-heating is performed by local intermittent laser irradiation without requiring the exertion of mechanical forces, wherein the local intermittent laser irradiation provides the bending zone over the angle of at least 40 degrees within 0.7 mm of the cutting edge without influencing the material properties of the cutting edge thereby maintaining the quality of the cutting edge at the first end of the razor blade. 6. A multi-blade razor unit comprising at least two razor blades mounted parallel to each other in a razor head, each razor blade of the at least two razor blades comprising: an edge portion at with a cutting edge a first end of the razor blade; the edge portion transitions to a bending zone and the bending zone transitions into a further portion of the blade; a further portion extending from the bending zone to a second end of the razor blade, the further portion having a front portion and a rear portion; and the bridge portion attached to only the rear portion of the further portion along a first portion of the further portion, leaving a second portion of the further portion exposed from the first end to the second end, the edge portion being bent relative to the further portion through an angle of at least 40° in a bending zone spaced from said cutting edge, wherein a first spacing is present between the cutting edges of at least two of said razor blades, the first spacing between successive cutting edges being equidistant and less than 0.8 mm, wherein the edge portion of at least one of said at least two razor blades is bent in a substantially horizontal plane towards at least one neighboring one of said at least two razor blades and projects towards said at least one neighboring one of said at least two razor blades forming the first spacing between adjacent edge portions which is smaller than a second spacing between further portions of the at least two of said razor blades, and wherein at least the edge portion has a material structure hardened by a first heat treatment, and wherein the bending zone has a locally re-heated structure, wherein said local re-heating is performed by local intermittent laser irradiation without requiring the exertion of mechanical forces, wherein the local intermittent laser irradiation provides the bending zone over an angle of at least 40 degrees within 0.7 mm of the cutting edge without influencing the material properties of the cutting edge thereby maintaining the quality of the cutting edge at the first end of the razor blade. 7. A multi-blade razor unit comprising: at least four razor blades mounted parallel to each other in a razor head, each razor blade having: an edge portion with a cutting edge and a further portion with a radius of curvature less than two times a material thickness of the blade in a bending zone spaced from said cutting edge, the edge portion transitions to a bending zone and the bending zone transitions into the further portion; the further portion having a front portion and a rear portion, wherein a spacing is present between the cutting edges, the bridge portion attached to only the rear portion of the further portion along a first portion of the further portion, leaving a second portion of the further portion exposed from the first end to the second end, wherein the edge portion of at least one of said at least four razor blades is further bent in a substantially horizontal plane towards at least one neighboring one of said at least four razor blades and projects towards said at least one neighboring one of said at least four razor blades forming a first spacing between the adjacent edge portions which is smaller than a second spacing between further portions of the at least four of said razor blades, and wherein at least the edge portion has a material structure hardened by a first heat treatment, and wherein the bending zone has a locally re-heated structure, wherein said local re-heating is performed by local intermittent laser irradiation without requiring the exertion of mechanical forces, wherein the loc