Battery housing with spark trap

The invention claimed is: 1. A battery housing for accommodating one or more battery modules in a housing interior comprising: a housing section having an exhaust duct integrated therein, wherein: the exhaust duct is configured to discharge media to the surroundings in an event of a defect of a battery module; and the exhaust duct comprises (1) an inlet region through which the media from the housing interior enter the exhaust duct, (2) a first deflection region that is configured to change a transport direction of the media, (3) a parallel region that adjoins the first deflection region in the transport direction of the media and runs inside the housing section parallel to a main plane thereof, (4) a second deflection region that adjoins the parallel region in the transport direction of the media and is configured to change the transport direction of the media a further time by deflecting the media at least 45° , and (5) an outlet region through which the media leaves the housing section and that forms a T-shape with the parallel region at the second deflection region so that one section of the parallel region forms a connection between the inlet region and the outlet region, and another section of the parallel region ends inside the housing section, wherein the another section of the parallel region that ends inside the housing section forms a collection device configured to trap particles of the media. 2. The battery housing of claim 1 , wherein the first deflection region is configured to change the transport direction of the media by at least 45°. 3. The battery housing of claim 2 , wherein the first deflection region is configured to change the transport direction of the media by about 90°. 4. The battery housing of claim 1 , wherein the exhaust duct further comprises a hollow chamber that is at least partially reinforced by one or more struts. 5. The battery housing of claim 1 , wherein the housing interior is sealed off from the surroundings during regular operation such that no gas and/or liquid exchange with the surroundings takes place and pressure equalization is provided by forced venting. 6. The battery housing of claim 1 , wherein the housing interior is at least partially filled with a foam material. 7. The battery housing of claim 1 , further comprising a safety valve, by which the exhaust duct communicates with the housing interior, wherein the safety valve is configured to close the exhaust duct during regular operation and to open the exhaust duct in case of occurrence of media in the event of the defect of the battery module. 8. The battery housing of claim 7 , wherein the inlet region comprises the safety valve, and the safety valve is integrated in the housing section. 9. The battery housing of claim 7 , wherein the safety valve is further configured to open the exhaust duct when a value of a pressure difference between the housing interior and the surroundings exceeds a threshold value. 10. The battery housing of claim 7 , wherein the safety valve comprises or is formed as a rupture disc, which ruptures in an event of opening. 11. The battery housing of claim 10 , wherein the rupture disc is formed by a thinning of a wall of the housing section in a region of the exhaust duct. 12. The battery housing of claim 1 , wherein the housing section comprises an extrusion profile. 13. A battery system comprising: a battery housing configured to accommodate one or more battery modules in a housing interior, wherein the battery housing comprises a housing section having an exhaust duct integrated therein, the exhaust duct is configured to discharge media to the surroundings in an event of a defect of a battery module, and the exhaust duct comprises (1) an inlet region through which the media from the housing interior enter the exhaust duct, (2) a first deflection region that is configured to change a transport direction of the media, (3) a parallel region that adjoins the first deflection region in the transport direction of the media and runs inside the housing section parallel to a main plane thereof, (4) a second deflection region that adjoins the parallel region in the transport direction of the media and is configured to change the transport direction of the media a further time by deflecting the media at least 45° , and (5) an outlet region through which the media leaves the housing section and that forms a T-shape with the parallel region at the second deflection region so that one section of the parallel region forms a connection between the inlet region and the outlet region, and another section of the parallel region ends inside the housing section, wherein the another section of the parallel region that ends inside the housing section forms a collection device configured to trap particles of the media; and at least one battery module accommodated in the housing interior. 14. The battery system of claim 13 , wherein the exhaust duct, at the inlet region, comprises an inner opening via which the exhaust duct communicates with the housing interior. 15. The battery system of claim 14 , wherein the at least one battery module comprises a module-internal exhaust gas duct directly connected to the inner opening.