Patent Number: 042886996
Section: claims

1. A storage rack for the storage of fuel elements of nuclear reactors consisting of a sheet metal lattice arrangement constituting a plurality of abutting similar vertical storage cases having a rectangular cross section, characterized in that said lattice arrangement is constructed of a plurality of mutually substantially perpendicular sheet elements having a sharply shaped contour, the sheet elements in one of the two perpendicular directions being continuous traversing sheet elements forming walls and extending over the widths of a plurality of cases of the lattice arrangement, two adjacent traversing sheet elements being spaced at a mutual distance substantially corresponding with the width of a storage case and all sheet elements in the other of the two perpendicular directions being narrow sheet elements each extending only substantially over the width of one storage case, the narrow sheet elements at the opposite long edges thereof being provided with lugs protruding from the edges, the traversing sheet elements having openings formed therein for receiving the lugs, said lugs having openings extending therethrough for receiving wedges, the opening in the lug being positioned on the opposite side of a traversing sheet element from the narrow sheet element when the lug is inserted through an opening in the traversing sheet element, and wedges insertable into the openings in the lugs so that the long edges of the narrow sheet elements may be pressed tightly against the traversing sheet elements. 2. The storage rack of claim 1, characterized in that the lugs of narrow sheet elements between the two juxtaposed traversing sheet elements are offset with respect to the lugs of narrow sheet elements in the adjoining regions between the traversing sheet elements. 3. The storage rack of claim 1 or 2, characterized in that within the lattice arrangement all storage columns have been separated from each other by a wall consisting of two parallel sheet elements at a short distance from each other with interstices formed between these sheet elements and that the lugs and the wedges have been situated within these interstices. 4. The storage rack of claim 1, characterized in that two narrow sheet elements together constitute a partition wall, the lugs on the elements being provided at the same level, a connecting strip running parallel to the traversing sheet elements for connecting lugs to each other and a key pinched between the connecting strip and the opposite wall of the cooperating traversing sheet element. 5. The storage rack of claim 4, characterized in that the connecting strips are welded to the lugs. 6. The storage rack of claim 4, characterized in that upon assembling the wedges are welded to the traversing sheet elements, the connecting strips and the lugs, respectively. 7. The storage rack of claim 1, characterized in that at each of the four outer walls of the rectangular lattice arrangement the storage cases are enclosed by a traversing sheet element extending over the entire side wall length and that the sheet elements of the side walls extending parallel to the narrow sheet elements are provided with slots for slidably receiving lugs formed on edges of the traversing sheet elements perpendicular thereto. 8. The storage rack of claim 7 characterized in that the rack has a bottom plate and a top plate for the lattice arrangement and that each two corresponding narrow sheet elements forming a partition wall are provided close to the lower edge and upper edge with rectangular openings facing each other, for receiving each of which a fitting lugs of a block mounted between the two narrow sheet elements within said interstice, said block being pulled toward the bottom plate or the top plate, respectively, by means of a screw. 9. The storage rack of claim 8, characterized in that at least one of the bottom plate and the top plate is provided with slits for receiving edges of the sheet elements. 10. The storage rack of claim 9, characterized in that within the space between each two lugs of a row belonging to two sheet elements forming a partition wall and extending through the outer wall, a beam is provided, said beam being connected to the lugs, said beams at the lower part and at the upper part being screwed to the bottom plate and the top plate, respectively. 11. A storage rack for fuel elements of nuclear reactors, consisting of a sheet metal lattice arrangement, constituting a plurality of adjoining equal vertical storage compartments of mainly rectangular cross section, each compartment storing one fuel element, characterized in that said lattice arrangement is constructed of a plurality of wide and narrow sheet elements, together forming walls of the compartments, said wide sheet elements being positioned mainly perpendicular to said narrow sheet elements and extending to define walls of a plurality of compartments and said narrow sheet elements extending over the width of one storage compartment, said narrow sheet elements being provided at their opposite longitudinal edges with lugs, said wide sheet elements having slots for receiving the lugs, each lug having a transverse opening for receiving a wedge, said opening after fitting of a lug through a respective one of said slots being positioned with a lug portion at the opposite side of the adjoining wide sheet elements, and a wedge insertable into said opening for tightly pressing each longitudinal edge of the narrow sheet element against the side of the adjoining wide sheet element. 12. The storage rack of claim 11, characterized in that narrow sheet elements extending between two wide sheet elements are offset with respect to narrow sheet elements in each adjoining space between one of said two wide elements and a succeeding wide sheet element. 13. The storage rack of claim 11, characterized in that adjoining storage compartments are separated from each other by walls consisting of two parallel closely spaced narrow and wide sheet elements and in that the lugs and wedges are situated within the space between two parallel closely spaced wide sheet elements.