Patent Number: 
Section: claims

1. A container system for transporting and storing highly radioactive materials, the system comprising:a cylindrical outer container having a side wall, cover, and floor all made of reinforced concrete with a neutron absorber;a cylindrical inner container inside the outer container and having a side wall, cover, and floor all made of reinforced concrete with a neutron absorber, the inner container holding the radioactive material; andsprings bearing against inner surfaces of the side wall, of the cover, and of the floor of the outer container and bearing on outer surfaces of the side wall, of the cover, and of the floor of the inner container and supporting the inner container in the outer container. 2. The container system according claim 1 wherein the springs bearing on the cover and the floor have a longer spring travel and a higher spring constant than the springs bearing on the side walls. 3. The container system according claim 2 wherein the springs bearing on the side wall have a shorter spring travel and a lower spring constant than the springs bearing on the floors and covers. 4. The container system according claim 3 wherein the springs bearing on the side wall are distributed rotation symmetrically about its inner surface. 5. The container system according claim 4 wherein a plurality of the springs are distributed in a row longitudinally of the side wall. 6. The container system according claim 5 wherein each spring is provided with a prestressing device that prestresses it outwardly toward the outer container. 7. The container system according to claim 6 wherein the prestressing devices are threaded bolts that extend through the side wall, the cover and the floor and engage with an internal thread in a bracing washer that the springs bear inward on. 8. The container system according claim 7 wherein the inner container is generally completely enclosed in an intermediate container having a side wall, a cover and a floor against which the springs are braced. 9. The container system according claim 8 wherein the side wall of the intermediate container is made of prestressed reinforced spun concrete with the addition of an additional neutron absorber. 10. The container system according to claim 9 characterized in that the cover and the floor of the intermediate container is made of reinforced concrete with the addition of an additional neutron absorber. 11. The container system according to claim 9 characterized in that the cover and the floor of the intermediate container are made of prestressed reinforced spun concrete with the addition of an additional neutron absorber. 12. The container system according claim 11, side-wall, cover, and floor inner surfaces of the intermediate container have respective polyethylene layers for moderating neutrons generated by the radioactive material inside the inner container. 13. The container system according claim 12 wherein the inner container is double-walled and has between the inner wall and outer wall of its side wall, of its cover, and of its floor spaces (26, 27, and 28) a gamma- and neutron-ray absorber. 14. The container system according claim 13 wherein the absorber generally fully surrounds an inner chamber of the inner container. 15. The container system according claim 14 wherein the absorber is comprised of depleted uranium or a similarly effective material. 16. The container system according claim 15 wherein the inner container is comprised of stainless steel with contamination-reducing smooth surfaces. 17. The container system according claim 16 wherein the inner container has on an upper surface of its cover an annular flange that projects outward from the inner container and that is of the same outer diameter as an outer surface of the side wall of the intermediate container. 18. The container system according claim 17 wherein the inner container has a mounting ring closing an annular gap between the inside wall and the outer wall at the annular flange and formed with threaded bores receiving mounting bolts that traverse and secure the cover of the inner container. 19. The container system according claim 18 wherein above the cover of the inner container there is an intermediate cover that is secured by threaded bolts to the annular flange and that is covered on its lower face by a layer of polyethylene. 20. The container system according claim 19 wherein the side walls, the covers, and the floor of the outer container and of the intermediate container are provided with longitudinally throughgoing tubes in which are provided mounting elements for prestressing and closing the outer container and the intermediate container. 21. The container system according claim 20 wherein the mounting elements are tie rods. 22. The container system according claim 21 wherein the outer container is provided adjacent its floor with a plurality of air-inlet openings and near its cover with a plurality of air-outlet openings distributed symmetrically over the side wall. 23. The container system according claim 22 wherein the air-inlet openings and the air-outlet openings are closable. 24. The container system according to claim 1, wherein the neutron absorber is boron oxide.