Stacked plate heat exchanger

The invention claimed is: 1. A stacked plate heat exchanger comprising: a plurality of elongate plates stacked on top of each other and connected to one another, wherein each plate of the plurality of elongate plates has a corrugated profile, wherein adjacent plates of the plurality of elongate plates form a first cavity for leading through a cooling medium and a second cavity for leading through a coolant, wherein each plate of the plurality of elongate plates comprises lead through openings connected to the first cavity or the second cavity, wherein the lead through openings are formed approximately in the end regions of each plate of the plurality of elongate plates and each elongate plate is surrounded by a bent-off edge, wherein the first cavity is arranged in a longitudinal direction extending between lead through openings on opposite end regions of the plurality of elongate plates, wherein each plate of the plurality of elongate plates comprises a corrugated profile having a plurality of corrugations, wherein an xth plate of the plurality of elongate plates has at least one corrugation drawn into its bent-off edge, wherein said xth plate is bounded on a top side and a bottom side by two plates of the plurality of elongate plates which have a corrugated profile having corrugations that all terminate before the bent-off edges of the two plates, wherein the x in xth is an integer such that the plurality of elongate plates has a repeating pattern of plates having at least one corrugation drawn into their bent-off edges and plates having a corrugated profile having corrugations that all terminate before their bent-off edges, wherein an nth corrugation of the corrugated profile of the xth plate is drawn into the bent-off edge, whereas corrugations other than the nth corrugation of the corrugated profile of the plate terminate before the bent-off edge, wherein the n in nth is an integer such that the corrugated profile has a repeating pattern of corrugations drawn into the edge and corrugations terminating before the edge. 2. The stacked plate heat exchanger according to claim 1 , wherein x is 2 such that every second plate has corrugations of the corrugated profile which are drawn into the edge. 3. The stacked plate heat exchanger according to claim 1 , wherein the corrugations of each plate of the plurality of elongate extend from a first lateral bent-off edge to a second lateral bent-off edge transversely with respect to a main through flow direction of the coolant or the cooling medium. 4. The stacked plate heat exchanger according to claim 3 , wherein the corrugations comprise a zig-zag shape about the direction of longitudinal extent of the plates. 5. The stacked plate heat exchanger according to claim 1 , wherein the corrugated profile is formed as a stamping in the plates which consist of a heat-conducting material. 6. The stacked plate heat exchanger according to claim 1 , wherein the bent-off edges, which lie on top of one another, of the plates are brazed to one another. 7. The stacked heat exchanger according to claim 1 , wherein the lead through openings for supplying and for discharging the medium to be cooled or the coolant of each plate are situated diagonally opposite one another. 8. A stacked plate heat exchanger comprising: a plurality of elongate plates stacked on top of each other and connected to one another, wherein each plate of the plurality of elongate plates has a corrugated profile, wherein adjacent plates of the plurality of elongate plates form a first cavity for leading through a cooling medium and a second cavity for leading through a coolant, wherein each plate of the plurality of elongate plates comprises lead through openings connected to the first cavity or the second cavity, wherein the lead through openings are formed approximately in the end regions of each plate of the plurality of elongate plates and each elongate plate is surrounded by a bent-off edge, wherein the first cavity is arranged in a longitudinal direction extending between lead through openings on opposite end regions of the plurality of elongate plates, wherein each plate of the plurality of elongate plates comprises a corrugated profile having a plurality of corrugations, wherein an xth plate of the plurality of elongate plates has at least one corrugation drawn into its bent-off edge, wherein said xth plate is bounded on a top side and a bottom side by two plates of the plurality of elongate plates which have a corrugated profile having corrugations that all terminate before the bent-off edges of the two plates, wherein the x in xth is an integer such that the plurality of elongate plates has a repeating pattern of plates having at least one corrugation drawn into their bent-off edges and plates having a corrugated profile having corrugations that all terminate before their bent-off edges, wherein an nth corrugation of the corrugated profile of the xth plate is drawn into the bent-off edge, whereas corrugations other than the nth corrugation of the corrugated profile of the plate terminate before the bent-off edge, wherein the n in nth is an integer such that the corrugated profile has a repeating pattern of corrugations drawn into the edge and corrugations terminating before the edge, wherein the corrugations of each plate of the plurality of elongate extend from a first lateral bent-off edge to a second lateral bent-off edge transversely with respect to a main through flow direction of the coolant or the cooling medium, wherein the corrugations comprise a zig-zag shape about the direction of longitudinal extent of the plates.