Temperature-control element for controlling the temperature of an electrical energy accumulator

The invention claimed is: 1. A temperature-control element for controlling the temperature of an electrical accumulator, comprising: an extruded profile extending in an extrusion direction comprising: a temperature-control medium channel configured to allow a temperature-control medium to flow therethrough, a guide vane integrally formed with the extruded profile in the temperature-control medium channel, and a rib extending in the extrusion direction and integrally formed with the extruded profile, wherein: the temperature-control medium channel is integrally formed in such a way that the extruded profile forms a closed profile that completely encloses the temperature-control medium channel at least in the extrusion direction, the rib is arranged in the temperature-control medium channel and the guide vane is integrally formed with the rib, the guide vane is defined by a first cut in the rib extending substantially perpendicularly to the extrusion direction and a second cut in the rib extending substantially in the extrusion direction, and the guide vane is integrally connected to the rib along a bending edge. 2. The temperature-control element of claim 1 , wherein the guide vane comprises a dimension extending transversely of the extrusion direction. 3. The temperature-control element of claim 1 , wherein a plane formed by the guide vane forms an angle with the extrusion direction. 4. The temperature-control element of claim 3 , wherein the angle is between 10° and 170°. 5. The temperature-control element of claim 1 , further comprising a third cut in the rib extending in the extrusion direction, wherein the second cut and the third cut define opposite sides of the guide vane. 6. The temperature-control element of claim 1 , wherein a plane that is formed by the guide vane forms an angle with a plane that is formed by the rib. 7. The temperature-control element of claim 6 , wherein the angle is between 10° and 170°. 8. The temperature-control element of claim 1 , wherein the rib has an opening. 9. The temperature-control element of claim 1 , wherein the guide vane comprises at least two guide vanes, and the at least two guide vanes have planes oriented parallel to one another. 10. The temperature-control element of claim 1 , wherein the guide vane comprises a plurality of guide vanes integrally formed with the extruded profile to provide a ribbed structure. 11. A method for controlling the temperature of an electrical accumulator, comprising: providing a temperature-control element for controlling the temperature of an electrical accumulator, comprising: an extruded profile extending in an extrusion direction comprising: a temperature-control medium channel configured to allow a temperature-control medium to flow therethrough, a guide vane integrally formed with the extruded profile in the temperature-control medium channel, and a rib extending in the extrusion direction and integrally formed with the extruded profile, wherein: the temperature-control medium channel is integrally formed in such a way that the extruded profile forms a closed profile that completely encloses the temperature-control medium channel at least in the extrusion direction, the rib is arranged in the temperature-control medium channel and the guide vane is integrally formed with the rib, the guide vane is defined by a first cut in the rib extending substantially perpendicularly to the extrusion direction and a second cut in the rib extending substantially in the extrusion direction, and the guide vane is integrally connected to the rib along a bending edge; and arranging the electrical accumulator or a battery module of the electrical accumulator on a top or a bottom portion of the extruded profile. 12. The method of claim 11 , wherein the guide vane is bent along a bending edge out from a plane formed by the rib into the temperature-control medium channel. 13. The method of claim 11 , further comprising providing first and second battery modules of the electrical accumulator, wherein the first battery module is arranged on the top portion of the extruded profile and the second battery module is arranged on the bottom portion of the extruded profile.