Tank container for transport and storage of cryogenic liquefied gases

The invention claimed is: 1. Tank container for the transport and storage of cryogenic fluids, comprising a cylindrical vessel covered by an insulation arrangement comprising at least one insulation layer which comprises aerogel, and at least one outer cover sheet enclosing the insulation arrangement; and a framework encasing the covered cylindrical vessel; wherein the vessel is connected to the framework by a clamping device which comprises a sandwich structure with at least one first plate element connected to the framework, at least one second plate element connected to the vessel, and an insulating plate element arranged between the first and the second plate element, wherein the first, second and insulating plate elements each have at least one opening, and wherein the first, second and insulating plate elements are interconnected by a joint element traversing corresponding openings of the first, second and insulating plate elements. 2. Tank container of claim 1 , wherein a main surface of the plate elements extends along a longitudinal axis of the cylindrical vessel. 3. Tank container of claim 1 , wherein the sandwich structure comprises at least one stabilizing plate element in addition to the first plate element, second plate element, and insulating plate element; wherein the stabilizing plate element is not directly connected to either the vessel or the framework. 4. Tank container of claim 1 , wherein the sandwich structure comprises at least one pair of sandwiching plate elements which sandwich the first and second plate elements, at least one head element external to each sandwiching plate element, an insulating plate element arranged between at least one of the head elements and the corresponding sandwiching plate element, wherein the joint element secures the sandwich structure by traversing corresponding head elements and sandwiching plate elements. 5. Tank container of claim 1 , wherein the first plate element is welded to the framework and the second plate element is welded to the vessel. 6. Tank container of claim 1 , wherein the insulating plate element is manufactured from a fiber reinforced plastic material comprising a PTFE material. 7. Tank container of claim 1 , wherein the dimensions of the openings in the first plate element and/or the second plate element exceed in at least in one direction a cross sectional dimension of the traversing joint element, thereby allowing for a movement between the first plate attached to the framework and the second plate attached to the vessel. 8. Tank container of claim 1 , wherein the insulation arrangement comprises at least one insulation layer set comprising at least two insulation layers which comprise aerogel and at least one radiation shield layer between the aerogel insulation layers. 9. Tank container of claim 8 , wherein the insulation arrangement comprises at least two insulation layer sets comprising aerogel insulation layers and at least one radiation shield layer, and at least one vapor barrier layer between the insulation layer sets. 10. Tank container of claim 9 , wherein a layer of fire resistant material is provided between the outer cover sheet and the insulation. 11. Tank container of claim 8 , wherein a gap between adjoining insulation layers and/or radiation shield layers is bridged by at least one of an insulation layer, a radiation shield layer or a sealing tape. 12. Tank container of claim 8 , wherein a radial thickness of the insulation arrangement corresponds to a radial dimensions of the sandwich structure in such a manner that the insulation plate elements and the joint elements are completely covered by the insulation arrangement. 13. Tank container for the transport and storage of cryogenic fluids, comprising a cylindrical vessel covered by an insulation arrangement comprising at least one insulation layer which comprises aerogel, and at least one outer cover sheet enclosing the insulation arrangement; and a framework encasing the covered cylindrical vessel; wherein the vessel is connected to the framework by a clamping device which comprises a sandwich structure with at least one first plate element connected to the framework, at least one second plate element connected to the vessel, and a load-bearing connecting plate extending in parallel to the first and second plate element and overlapping the first and second plate element, wherein the first and second plate elements are each interconnected to the connecting plate by at least one joint element traversing the plate elements and the connecting plate, and an insulating plate element arranged between interconnected plate elements. 14. Tank container of claim 13 , wherein the connecting plate is arranged between two first plate elements, two second plate elements, or both two first plate elements and two second plate elements. 15. Tank container of claim 13 , wherein the insulation arrangement comprises at least one insulation layer set comprising at least two insulation layers which comprise aerogel and at least one radiation shield layer between the aerogel insulation layers. 16. Tank container of claim 15 , wherein the insulation arrangement comprises at least two insulation layer sets comprising aerogel insulation layers and at least one radiation shield layer, and at least one vapor barrier layer between the insulation layer sets. 17. Tank container of claim 16 , wherein a layer of fire resistant material is provided between the outer cover sheet and the insulation. 18. Tank container of claim 15 , wherein a gap between adjoining insulation layers and/or radiation shield layers is bridged by at least one of an insulation layer, a radiation shield layer or a sealing tape. 19. Tank container of claim 15 , wherein a radial thickness of the insulation arrangement corresponds to a radial dimensions of the sandwich structure in such a manner that the insulation plate elements and the joint elements are completely covered by the insulation arrangement.