A motor vehicle outer tank for a cryogenic fuel which is situated in an inner tank which is positioned within the outer tank is, for space and weight-saving purposes, characterized in that it is of flat design, and is designed in particular as a parallelepiped, and in that planar side walls of the o
A motor vehicle outer tank for a cryogenic fuel which is situated in an inner tank which is positioned within the outer tank is, for space and weight-saving purposes, characterized in that it is of flat design, and is designed in particular as a parallelepiped, and in that planar side walls of the outer tank are at least partially of sandwich design or are reinforced with sandwich plates.
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1. Motor vehicle outer tank for a cryogenic fuel, wherein the cryogenic fuel is situated in an inner tank which is positioned within the outer tank, wherein the outer tank is of flat design having planar side walls and end walls connecting the planar side walls to define a closed outer tank having a
1. Motor vehicle outer tank for a cryogenic fuel, wherein the cryogenic fuel is situated in an inner tank which is positioned within the outer tank, wherein the outer tank is of flat design having planar side walls and end walls connecting the planar side walls to define a closed outer tank having a closed inner space, and wherein material of the outer tank extends continuously from the end walls to the planar side walls, and further comprising at least one sandwich plate mounted on and overlapping at least one of the planar side walls. 2. Outer tank according to claim 1, wherein the sandwich plate has an upper belt and a lower belt and is mounted on the planar side wall of the outer tank. 3. Outer tank according to claim 1, wherein the sandwich plate has an upper belt and no lower belt and is adhesively bonded to a planar side wall of the outer tank. 4. Outer tank according to claim 1, wherein at least an upper belt of the sandwich plate is connected with its edge to the side wall of the outer tank by means of a weld seam. 5. Outer tank according to claim 1, wherein the side walls of the outer tank are produced in a deformation process and the sandwich plate projects up to a hardened edge region of a side wall and is welded to the latter there. 6. Outer tank according to claim 1, wherein a side wall is provided in the peripheral region with an outwardly aligned edge bead or arched portion and the sandwich plate extends at least up to said edge bead and is welded there at least with its upper belt to the side wall of the outer tank, with the upper belt of the sandwich plate lying in a plane with a highest region of the edge bead. 7. Outer tank according to claim 1, wherein the sandwich plate extends up to a side panel which is adjacent to the outer tank, and said sandwich plate is fixedly connected to said side panel. 8. Outer tank according to claim 1, wherein T-bolts are fastened to that side wall of the outer tank which is reinforced with the sandwich plate, which T-bolts extend perpendicular to the side wall and extend through the sandwich plate, and wherein the sandwich plate is secured on the outer tank by means of a screw connection on the T-bolt. 9. Outer tank according to claim 4, wherein the weld seam of the connection of the sandwich plate to the outer tank is formed as a stepped weld seam. 10. Outer tank according to claim 1, wherein the outer tank has a height of between 100 and 500 mm. 11. Outer tank according to claim 1, wherein the sandwich plate has a thickness of between 5 and 20 mm. 12. Outer tank according to claim 1, wherein the sandwich plate has a central region with a support core which is compressed in relation to an edge region. 13. Outer tank according to claim 1, wherein the sandwich plate, in its peripheral edge region, decreases in height to the peripheral edge, and no support core is provided in said peripheral region. 14. Outer tank according to claim 1, wherein the area of contact of the sandwich plate with the side wall of the outer tank has ventilation ducts for promoting adhesive curing and degassing, which ventilation ducts are formed by ducts in the adhesive layer and/or by ribs on the side wall of the outer tank and/or by holes in the sandwich plate. 15. Outer tank according to claim 1, wherein the sandwich plate is guided up to an auxiliary system capsule, which is arranged adjacent to the outer tank, for tank accessories, and is fixedly connected to the auxiliary system capsule. 16. Outer tank according to claim 1, wherein both the side wall of the outer tank and also the upper and lower belt of the sandwich plate are formed from aluminum or an aluminum alloy. 17. Outer tank according to claim 1, wherein the edge and narrow-side regions of the outer tank do not have any sandwich reinforcement. 18. Tank having an outer tank according to claim 1, wherein the outer tank is self-supporting and the inner tank is not loaded by air pressure forces which act on the outer tank. 19. Outer tank according to claim 1, wherein the outer tank is shaped as a parallelepiped. 20. Outer tank according to claim 1, wherein the sandwich plate is adhesively bonded to the planar side wall of the outer tank. 21. Outer tank according to claim 1, wherein an upper belt and lower belt of the sandwich plate are connected to the side wall of the outer tank by means of a weld seam. 22. Outer tank according to claim 1, wherein the side walls of the outer tank are produced in a cold working process. 23. Outer tank according to claim 1, wherein the side walls of the outer tank are produced in a deep-drawing process. 24. Outer tank according to claim 1, wherein the sandwich plate projects up to a work-hardened edge region. 25. Outer tank according to claim 1, wherein the sandwich plate extends up to a body panel which is adjacent to the outer tank. 26. Outer tank according to claim 7, wherein the sandwich plate is fixedly connected by screws to said side panel. 27. Outer tank according to claim 1, wherein the outer tank has a height of between 250 and 350 mm and a length of between 700 and 1000 mm. 28. Outer tank according to claim 1, wherein the sandwich plate has a central region with a honeycomb core. 29. Outer tank according to claim 1, wherein the sandwich plate is mounted to at least one of the planar side walls of the closed outer tank, and wherein the closed outer tank defines the closed inner space independent of the sandwich plate. 30. Outer tank according to claim 1, wherein the flat design of the outer tank defines large upper and lower side walls of the outer tank, and wherein the sandwich plate is mounted to and overlaps at least one of the large upper and lower side walls. 31. Motor vehicle outer tank for a cryogenic fuel, wherein the cryogenic fuel is situated in an inner tank which is positioned within the outer tank, wherein the outer tank is of flat design having planar side walls, and further comprising at least one sandwich plate mounted on at least one of the planar side walls, wherein the outer tank is a closed outer tank and defines a closed inner space independent of the sandwich plate, and wherein the sandwich plate has an upper belt and a lower belt and is mounted on and overlaps the planar side wall of the closed outer tank.
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이 특허에 인용된 특허 (3)
Harper, Gregory C., Container for holding a cryogenic fuel.
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