Battery cell comprising a housing covering plate having a raised central region

What is claimed is: 1. A battery cell ( 1 ′), comprising: a coil element ( 3 ) comprising a coiled stack ( 5 ) comprising a first film, coated with anode material, a second film, coated with cathode material, and two plastic films acting as diaphragms, an electrolyte, two current collectors ( 7 , 9 ), of which one is electrically conductively connected to the first film and one is electrically conductively connected to the second film, a housing ( 11 ) having a metallic container ( 13 ) and a metallic cover arrangement ( 15 ), wherein the container ( 13 ) has an opening ( 14 ), through which the coil element ( 3 ) and the two current collectors ( 7 , 9 ) are configured to be introduced into the housing ( 11 ) during manufacture of the battery cell ( 1 ′), wherein the cover arrangement ( 15 ) has a one-piece covering plate ( 23 ′) and closes off the opening ( 14 ) of the container ( 13 ) in a gas-tight and pressure-tight manner, wherein a leadthrough arrangement ( 25 ′) is formed on the cover arrangement ( 15 ) for passing through, in a gas-tight manner, electrically conductive contact arrangements ( 19 ′), which are each in contact with one of the current collectors ( 7 , 9 ) in the interior of the housing ( 11 ), through the covering plate ( 23 ′) out of the housing ( 11 ), wherein the covering plate ( 23 ′) has a central region ( 33 ) and a peripheral region ( 35 ) surrounding the central region ( 33 ), wherein the central region ( 33 ) extends above the opening ( 14 ) of the container ( 13 ), whereas the peripheral region ( 35 ) extends within the opening ( 14 ) of the container ( 13 ), and wherein the peripheral region ( 35 ) forms a channel ( 37 ) that is a recess in the covering plate, such that when the covering plate is horizontal, the channel collects water flowing away from the central region so that the water can evaporate from the channel. 2. The battery cell as claimed in claim 1 , wherein the central region ( 33 ) extends at least over a subregion of the covering plate ( 23 ′), which subregion extends from a contact arrangement ( 19 ′) forming a positive terminal ( 43 ) up to a contact arrangement ( 19 ′) forming a negative terminal ( 41 ). 3. The battery cell as claimed in claim 1 , wherein the central region ( 33 ) is flat. 4. The battery cell as claimed in claim 1 , wherein the central region ( 33 ) is outwardly convex. 5. The battery cell as claimed in claim 1 , wherein the central region ( 33 ) merges, with a rounded portion, with the peripheral region ( 35 ). 6. The battery cell as claimed in claim 1 , wherein the channel ( 37 ) has a U-shaped cross section. 7. The battery cell as claimed in claim 6 , wherein an inner flank ( 38 ) of the channel ( 37 ) is higher than an outer flank ( 36 ). 8. The battery cell as claimed in claim 1 , wherein the peripheral region ( 35 ) has, adjoining the channel ( 37 ) on an outside, a laterally protruding boundary region ( 40 ). 9. A motor vehicle ( 100 ) having a battery cell 1 ′) as claimed in claim 1 . 10. The motor vehicle as claimed in claim 9 , wherein the central region ( 33 ) extends at least over a subregion of the covering plate ( 23 ′), which subregion extends from a contact arrangement ( 19 ′) forming a positive terminal ( 43 ) up to a contact arrangement ( 19 ′) forming a negative terminal ( 41 ). 11. The motor vehicle as claimed in claim 9 , wherein the central region ( 33 ) is flat. 12. The motor vehicle as claimed in claim 9 , wherein the central region ( 33 ) is outwardly convex. 13. The motor vehicle as claimed in claim 9 , wherein the central region ( 33 ) merges, with a rounded portion, with the peripheral region ( 35 ). 14. The motor vehicle as claimed in claim 9 , wherein the channel ( 37 ) has a U-shaped cross section. 15. The motor vehicle as claimed in claim 14 , wherein an inner flank ( 38 ) of the channel ( 37 ) is higher than an outer flank ( 36 ). 16. The motor vehicle as claimed in claim 9 , wherein the peripheral region ( 35 ) has, adjoining the channel ( 37 ) on an outside, a laterally protruding boundary region ( 40 ). 17. The battery cell as claimed in claim 1 , wherein the channel ( 37 ) acts as a water collection channel such that the channel ( 37 ) does not include any openings. 18. The battery cell as claimed in claim 1 , wherein the covering plate ( 23 ′) is formed by stamping a metal sheet. 19. The battery cell as claimed in claim 1 , wherein the cover arrangement ( 15 ) closes off the opening ( 14 ) of the container ( 13 ) in a gas-tight and pressure-tight manner via a weld seam between the covering plate ( 23 ′) and the container ( 14 ). 20. A battery cell ( 1 ′), comprising: a coil element ( 3 ) comprising a coiled stack ( 5 ) comprising a first film, coated with anode material, a second film, coated with cathode material, and two plastic films acting as diaphragms, an electrolyte, two current collectors ( 7 , 9 ), of which one is electrically conductively connected to the first film and one is electrically conductively connected to the second film, a housing ( 11 ) having a metallic container ( 13 ) and a metallic cover arrangement ( 15 ), wherein the container ( 13 ) has an opening ( 14 ), through which the coil element ( 3 ) and the two current collectors ( 7 , 9 ) are configured to be introduced into the housing ( 11 ) during manufacture of the battery cell ( 1 ′), wherein the cover arrangement ( 15 ) has a one-piece covering plate ( 23 ′) and closes off the opening ( 14 ) of the container ( 13 ) in a gas-tight and pressure-tight manner, wherein a leadthrough arrangement ( 25 ′) is formed on the cover arrangement ( 15 ) for passing through, in a gas-tight manner, electrically conductive contact arrangements ( 19 ′), which are each in contact with one of the current collectors ( 7 , 9 ) in the interior of the housing ( 11 ), through the covering plate ( 23 ′) out of the housing ( 11 ), wherein the covering plate ( 23 ′) has a central region ( 33 ) and a peripheral region ( 35 ) surrounding the central region ( 33 ), wherein the central region ( 33 ) extends above the opening ( 14 ) of the container ( 13 ) a first distance from the coil element, whereas the peripheral region ( 35 ) extends within the opening ( 14 ) of the container ( 13 ), and wherein the peripheral region ( 35 ) forms a channel ( 37 ) which reaches inwards into the opening ( 14 ) at a second distance from the coil element, and a border region a third distance from the coil element, the second distance shorter than the first and third distances, wherein the channel has a u-shaped cross-section.