Patent Number: 043057870
Section: claims

1. A rack for storing spent radioactive fuel, of the type including a series of parallel cells with a protection consisting of neutron-absorbing material such as boron, which cells are attached to a base plate or structure, the assembly of cells being comprised of a plurality of self-supporting metal tubes arranged in a staggered fashion; the tubular hole delimited by each such four tubes having a larger cross-sectional area than that of each tube; the said tubular holes of larger cross-sectional area being intended to receive the protection of neutron-absorbing material; and said protection being independent of said tubes in order to permit its removal and later insertion into said holes. 2. A rack according to claim 1, wherein said metal tubes which define said cells are joined to each other along their longitudinal edges so as to form a rigid spatial structure. 3. A rack according to claim 1, wherein said tubes which define said cells are independent of each other throughout their length and each is fitted at its upper end with a frame between which and said tube there is provided in discrete areas adjustable devices for centering the element bearing the encapsulated neutron-absorbing material and eliminating the play between the upper portion of said element and the surrounding tubes, so that the assembly constitutes a spatial structure of multiple flexible pillars. 4. A rack according to claim 1, wherein said tubes are provided along at least two of their edges with a plurality of longitudinal external projections, the longitudinal outer edge of each of which is jointed to the closest edge of the adjacent tubes. 5. A rack according to claim 4, wherein the longitudinal outer edge of each of said projections is joined to the closest edges lacking such projections of the adjacent tubes. 6. A rack according to claim 4, wherein the longitudinal outer edges of the closest projections of adjacent tubes are joined to each other. 7. A rack according to claim 1, wherein each tube is provided along each of its four edges with an external longitudinal projection at an angle of approximately 45.degree., and the longitudinal outer edges of the closest projections of adjacent tubes are joined to each other. 8. A rack according to claim 3, wherein the frames of the various tubes are independent of each other; each frame is provided in the region adjacent to its four surrounding frames with a like number of vertical surfaces or faces; and the opposite faces of adjacent frames are parallel to each other and have a small gap or space between them. 9. A rack according to claim 3, wherein the frames of the various tubes all form part of a single grid extending throughout the tube assembly and form a spatial structure of multiple flexible bents. 10. A rack according to claim 3, wherein each of said adjustable devices comprises two plates which have surfaces, facing each other in a wedge-like fashion, said plates being inserted back-to-back with respect to each other between each tube and the frame of each element bearing the encapsulated neutron-absorbing material, wherein both plates are provided with an upper elbow on the side facing the tube to provide mutual support between them and adjustable support elements are provided on the outer edge of said tube between said elbows, so as to permit adjusting the distance between said elbows; the frame of each tube also being provided with top elements to limit the vertical displacement of the plates. 11. A rack according to claim 10, wherein said support elements consist of vertical through bolts threaded in the elbow of the plate located on the tube side, upon which bolts the elbow of the other plate rests. 12. A rack according to claim 10, wherein said stop elements consist of vertical through bolts threaded through the frame of each tube starting on the upper surface thereof, and extending downward beyond said frame, so as to rest on the elbow of the plate located on the side of the element bearing the encapsulated neutron-absorbing material. 13. A rack according to claims 1, 2 or 3, wherein the walls of said tubes are provided with holes intended to reduce the weight of said tubes. 14. A rack according to claims 1, 2 or 3, further including adjustable supports upon which the container rests, wherein at least some of the said supports are provided with metal springs and are capable of absorbing irregularities in the ground.