Flow element, bipolar plate and method for producing a flow element

The invention claimed is: 1. Flow element, comprising a plate-like main body which is formed as a shaped sheet metal product and has a channel structure, wherein the channel structure comprises a plurality of channels which are formed by recesses in the main body and are separated from one another by raised portions of the main body, wherein there is provided at least one region with normal level difference (N N ) that denotes, with respect to a height direction running perpendicular to two main directions of extent of the main body, a height difference between a recess and an adjoining raised portion, wherein there is provided at least one region with reduced level difference (N R ), in which a height difference between a recess and an adjoining raised portion is less than the normal level difference (N N ), wherein the at least one region with reduced level difference (N R ) comprises a parallel expansion region of the main body that, in the event of an expansion of the main body resulting from the deformation of the shaped sheet metal product, is expanded along expansion vectors which lie in a plurality of mutually parallel planes, wherein the at least one region with reduced level difference (N R ), that comprises the parallel expansion region of the main body, extends into a curvature expansion region of the main body which, in the event of an expansion of the main body resulting from the deformation of the shaped sheet metal product, is expanded along expansion vectors which lie in intersecting planes, wherein the curvature expansion region is a region of the main body which comprises a curved or bent channel segment of a channel or is formed by a curved or bent channel segment of a channel, and wherein the curved or bent channel segment is a channel segment in which a fluid is guided or can be guided along a curved or bent flow path, wherein the curved or bent channel segment is a channel segment which runs between two raised portions, wherein said two raised portions are curved or bent. 2. Flow element according to claim 1 , wherein at least one region with reduced level difference (N R ) comprises exclusively a parallel expansion region of the main body. 3. Flow element according to claim 1 , wherein at least one parallel expansion region is a region of the main body which comprises a substantially linear channel segment of a channel or is formed by a substantially linear channel segment of a channel. 4. Flow element according to claim 1 , wherein, in at least one region with normal level difference (N N ), on the one hand a channel base formed by a recess and on the other hand a rib formed by the adjoining raised portion run substantially parallel to one another. 5. Flow element according to claim 1 , wherein, in at least one region with normal level difference (N N ), on the one hand a channel base formed by a recess and on the other hand a rib formed by the adjoining raised portion run skewed relative to one another. 6. Flow element according to claim 1 , wherein, in at least one region with reduced level difference (N R ), on the one hand a channel base formed by the recess and on the other hand a rib formed by the adjoining raised portion run substantially parallel to one another. 7. Bipolar plate for an electrochemical device, comprising one or more flow elements according to claim 1 . 8. Bipolar plate for an electrochemical device, comprising one or more flow elements according to claim 1 , wherein the bipolar plate comprises a first flow element and at least one further flow element, wherein the first flow element and/or the at least one further flow element are flow elements according to claim 1 . 9. Bipolar plate according to claim 8 , wherein the first flow element is arranged on the further flow element in such a way that the recesses in the main body extend in the direction of the further flow element. 10. Bipolar plate according to claim 9 , wherein the recesses in the main body lie against the further flow element at least in segments in the region of a channel base of the recesses. 11. Bipolar plate according to claim 8 , wherein at least one region with reduced level difference (N R ) of the main body of the first flow element is arranged at a spacing from the further flow element. 12. Bipolar plate according to claim 8 , wherein at least one segment of a parallel expansion region of the main body of the first flow element is arranged at a spacing from the further flow element. 13. Bipolar plate according to claim 8 , wherein at least one segment of a curvature expansion region of the main body of the first flow element is arranged at a spacing from the further flow element. 14. Method for producing a flow element, in particular a flow element according to claim 1 , wherein the method comprises the following steps: providing a main body; deforming the main body so as to form a channel structure, wherein the channel structure comprises a plurality of channels which are formed by recesses in the main body and are separated from one another by raised portions of the main body, wherein at least one region with normal level difference (N N ) is formed that denotes, with respect to a height direction running perpendicular to two main directions of extent of the main body, a height difference between a recess and an adjoining raised portion, wherein at least one region with reduced level difference (N R ) is formed, in which a height difference between a recess and an adjoining raised portion is less than the normal level difference (N N ), wherein the at least one region with reduced level difference (N R ) comprises a parallel expansion region of the main body that, in the event of the deformation of the main body, is expanded along expansion vectors which lie in a plurality of mutually parallel planes, wherein the at least one region with reduced level difference (N R ), that comprises the parallel expansion region of the main body, extends into a curvature expansion region of the main body which, in the event of the deformation of the main body, is expanded along expansion vectors which lie in intersecting planes, wherein the curvature expansion region is a region of the main body which comprises a curved or bent channel segment of a channel or is formed by a curved or bent channel segment of a channel, and wherein the curved or bent channel segment is a channel segment in which a fluid is guided or can be guided along a curved or bent flow path, wherein the curved or bent channel segment is a channel segment which runs between two raised portions, wherein said two raised portions are curved or bent. 15. Flow element according to claim 1 , wherein the channel structure comprises two or more channel paths each connecting an inlet side of the channel structure to an outlet side of the channel structure, wherein a channel path comprises one or more meandering segments, in which a fluid is guided or can be guided in a meandering manner. 16. Flow element according to claim 1 , wherein in the at least one region with the normal level difference (N N ), a recess extends as far as a contact plane of an underside of the main body, wherein in the at least one region with the reduced level difference (N R ), a recess is spaced from the contact plane of the underside of the main body, and wherein the adjoining raised portion extends as far as a contact plane of an upperside of the main body in the at least one region with the normal level difference (N N ) and in the at least one region with the reduced level difference (N R ). 17. Flow element, compris