Tank device for storing a gaseous medium and method for producing a tank device

The invention claimed is: 1. A method for producing a tank device ( 1 ) for storing a gaseous medium, the tank device ( 1 ) comprising at least one tank container ( 3 ), which at least one tank container ( 3 ) has a tank housing ( 30 ) with a tank neck ( 2 ), wherein a tank pressure base ( 8 ) is arranged in the tank neck ( 2 ), which tank pressure base ( 8 ) separates a tank neck space ( 7 ) and a tank interior ( 6 ) from each other, and which tank neck ( 2 ) has an external thread ( 10 ) as an abutment on an outer side ( 20 ) wherein the at least one tank container ( 3 ) is manufactured from steel and has a melting point, the method comprising: a. heating ( 44 ) both ends of the at least one tank container ( 3 ) up to the melting point; b. deforming ( 45 ) the ends of the at least one tank container ( 3 ) to produce a tank neck ( 2 ) by pressing or shrinking a likewise heated solid material thereon; c. introducing ( 46 ) selected geometries into the solid material in order to produce a tank pressure base ( 8 ) in the tank neck ( 2 ). 2. A method for producing a vehicle, said vehicle having a fuel cell drive and a tank device, the tank device is provided in a step which includes the method for producing a tank device as claimed in claim 1 . 3. A method for producing a fuel cell arrangement, said fuel cell arrangement comprising a tank device, the tank device is provided in a step which includes the method for producing a tank device as claimed in claim 1 . 4. A method for producing a tank device ( 1 ) for storing a gaseous medium, the tank device ( 1 ) comprising at least one tank container ( 3 ), which at least one tank container ( 3 ) has a tank housing ( 30 ) with a tank neck ( 2 ), wherein a tank pressure base ( 8 ) is arranged in the tank neck ( 2 ), which tank pressure base ( 8 ) separates a tank neck space ( 7 ) and a tank interior ( 6 ) from each other, and which tank neck ( 2 ) has an external thread ( 10 ) as an abutment on an outer side ( 20 ) wherein the at least one tank container ( 3 ) is manufactured from steel and has a melting point, the method comprising: a. heating ( 40 ) both ends of the at least one tank container ( 3 ) up to the melting point; b. deforming ( 41 ) the ends of the at least one tank container ( 3 ) with molding tools to produce the tank neck ( 2 ); c. internally deforming ( 42 ) the tank neck ( 2 ) by a stretching and compression process to produce the tank pressure base ( 8 ), wherein at least two mandrels are introduced simultaneously or alternately into the tank neck ( 2 ) and the tank neck ( 2 ) is thus shaped inward; d. repeating ( 43 ) step c until a predetermined geometrical shape and rigidity of the tank pressure base ( 8 ) is reached. 5. The method as claimed in claim 4 , wherein a tank pressure base opening ( 9 ) is formed in the tank pressure base ( 8 ). 6. The method as claimed in claim 4 , wherein the at least one tank container ( 3 ) is configured for a differential pressure of 1 bar to 1000 bar in relation to atmospheric pressure. 7. The method as claimed in claim 4 , wherein the tank neck ( 2 ) is cylindrical and merges as a conical widened portion into a cylindrical tank body ( 31 ), wherein a diameter d of the tank neck ( 2 ) is smaller than a diameter D of the tank body ( 31 ). 8. The method as claimed in claim 4 , wherein a valve device ( 11 ) is arranged in the tank neck ( 2 ) of the tank container ( 3 ) coaxially with respect to a longitudinal axis ( 16 ) of the tank container ( 3 ). 9. A method for producing a vehicle, said vehicle having a fuel cell drive and a tank device, the tank device is provided in a step which includes the method for producing a tank device as claimed in claim 4 . 10. A method for producing a fuel cell arrangement, said fuel cell arrangement comprising a tank device, the tank device is provided in a step which includes the method for producing a tank device as claimed in claim 4 . 11. The method as claimed in claim 4 , wherein the predetermined geometrical shape of the tank pressure base ( 8 ) corresponds in cross section to a circular disk. 12. The method as claimed in claim 4 , wherein the gaseous medium is hydrogen.