Patent Number: 048851272
Section: claims

1. A nuclear fuel rod support grid, comprising: (a) a plurality of straps being interleaved with one another to form a matrix of hollow cells, each cell for receiving one fuel rod and being defined by intersecting pairs of opposing wall portions of said straps which wall portions are shared with adjacent cells;  (b) a plurality of fuel rod clamping springs and dimples being associated with said wall portions of said straps defining each cell and protruding into said cell so as to clamp a fuel rod therebetween; and  (c) at least one spacer supporting some of said springs and dimples being separate from and detachably mounted on some of said wall portions of said straps defining each said cell;  (d) said spacer being L-shaped in cross-section and made from a metal plate that is bent into a ninety-degree configuration to form a pair of parts disposed generally perpendicular to each other and integrally connected together at their inner edges, each spacer part having a height approximately identical to the height of each of said strap wall portion defining each said cell;  (e) said spacer being lodged in a corner of each said cell formed by one intersecting pair of said strap wall portions with said pair of parts of said spacer extending along said wall portions forming said corner.  (a) a plurality of straps being interleaved with one another to form a matrix of hollow cells, each cell for receiving one fuel rod and being defined by intersecting pairs of opposing wall portions of said straps which wall portions are shared with adjacent cells;  (b) a plurality of fuel rod clamping springs and dimples being associated with said wall portions of said straps defining each cell and protruding into said cell so as to clamp a fuel rod therebetween; and  (c) a pair of spacers inserted in each said cell along said strap walls portions defining each said cell, one of said spacers supporting said springs and the other of said spacers supporting said dimples, said spacers being separate from and detachably mounted on said wall portions of said straps defining each said cell;  (d) each said spacer being L-shaped in cross section and made from a metal plate that is bent into a ninety-degree configuration to form a pair of parts disposed generally perpendicular to each other and integrally connected together at their inner edges, each part having a height approximately identical to the height of each of said strap wall portions defining each said cell;  (e) one of said spacers being lodged in one corner of each said cell formed by one intersecting pair of said strap wall portions with said pair of parts of said one spacer extending along said wall portions forming said one corner;  (f) the other of said spacers being lodged in a diagonal opposite corner of each said cell formed by the other intersecting pair of said strap wall portions with said pair of parts of said other spacer extending along said wall portions forming said diagonal opposite corner.  (a) a plurality of straps being interleaved with one another to form a matrix of hollow cells, each cell for receiving one fuel rod and being defined by intersecting pairs of opposing wall portions of said straps which wall portions are shared with adjacent cells;  (b) a plurality of fuel rod clamping springs and dimples being associated with said wall portions of said straps defining each cell and protruding into said cell so as to clamp a fuel rod therebetween; and  (c) at least one spacer supporting some of said springs and dimples being separate from and detachably mounted on some of said wall portions of said straps defining each said cell;  (d) said spacer being formed of a pair of parts disposed generally perpendicular to each other and integrally connected together at their inner edges;  (e) said spacer being lodged in a corner of each said cell formed by one intersecting pair of said strap wall portions with said pair of parts of said spacer extending along said wall portions forming said corner;  (f) said spacer at a central region of each of said parts thereof adjacent to opposite unconnected outer edges of said parts having one of either one said spring or a pair of said dimples formed in said spacer part so as to protrude therefrom into each said cell;  (g) said spacer having said dimples formed therein at upper and lower corner regions of each said part thereof adjacent to its outer unconnected edge.  (a) a plurality of straps being interleaved with one another to form a matrix of hollow cells, each cell for receiving one fuel rod and being defined by intersecting pairs of opposing wall portions of said straps which wall portions are shared with adjacent cells;  (b) a plurality of fuel rod clamping springs and dimples being associated with said wall portions of said straps defining each cell and protruding into said cell so as to clamp a fuel rod therebetween; and  (c) a pair of spacers inserted in each said cell along said strap walls portions defining each said cell, one of said spacers supporting said springs and the other of said spacers supporting said dimples, said spacers being separate from and detachably mounted on said wall portions of said straps defining each said cell;  (d) each said spacer being formed of a pair of parts disposed generally perpendicular to each other and integrally connected together at their inner edges;  (e) one of said spacers being lodged in one corner of each said cell formed by one intersecting pair of said strap wall portions with said pair of parts of said one spacer extending along said wall portions forming said one corner;  (f) the other of said spacers being lodged in a diagonal opposite corner of each said cell formed by the other intersecting pair of said strap wall portions with said pair of parts of said other spacer extending along said wall portions forming said diagonal opposite corner;  (g) one of said spacers at a central region of each of said parts thereof adjacent to opposite unconnected outer edges of said parts having said spring formed in said spacer part so as to protrude therefrom into each said cell, whereas the other of said spacers at a central region of each of said parts thereof adjacent to opposite outer upper and lower corners at intersections of said upper edge of said parts with upper and lower edges thereof having dimples of a pair thereof formed in said spacer part so as to protrude therefrom into each said cell. 2. The grid as recited in claim 1, wherein each spacer part has a width approximately equal to one-half of the width of each of said strap wall portions defining each said cell. 3. The grid as recited in claim 1, wherein said spacer at a central region of each of said parts thereof adjacent to opposite unconnected outer edges of said parts has one of either one said spring or a pair of said dimples formed in said spacer part so as to protrude therefrom into each said cell. 4. The grid as recited in claim 3, wherein said spacer has said dimples formed therein at upper and lower corner regions of each said part thereof adjacent to its outer unconnected edge. 5. The grid as recited in claim 1, wherein said spacer at a central region of each of said parts thereof adjacent to respective upper and lower opposite edges of said parts has attachment tabs of a pair thereof formed thereon so as to project outwardly therefrom. 6. The grid as recited in claim 5, wherein said upper tabs extend generally perpendicular to said spacer parts, whereas said lower tabs extend generally within a plane of said spacer parts. 7. A nuclear fuel rod support grid, comprising: 8. The grid as recited in claim 7, wherein each part has a width approximately equal to one-half of the width of each of said strap wall portions defining each said cell. 9. The grid as recited in claim 7, wherein one of said spacers at a central region of each of said parts thereof adjacent to opposite unconnected outer edges of said parts has said spring formed in said spacer part so as to protrude therefrom into each said cell, whereas the other of said spacers at a central region of each of said parts thereof adjacent to opposite outer upper and lower corners at intersections of said upper edges of said parts with upper and lower edges thereof has dimples of a pair thereof formed in said spacer part so as to protrude therefrom into each said cell. 10. The grid as recited in claim 7, wherein each said spacer at a central region of each of said parts thereof adjacent to respective upper and lower opposite edges of said parts has attachment tabs of a pair thereof formed thereon so as to project outwardly therefrom. 11. The grid as recited in claim 10, wherein said upper tabs extend generally perpendicular to said spacer parts, whereas said lower tabs extend generally within a plane of said spacer parts. 12. A nuclear fuel rod support grid, comprising: 13. The grid as recited in claim 12, wherein said spacer is L-shaped in cross section being made from a metal plate that is bent into a ninety-degree configuration. 14. The grid as recited in claim 12, wherein each spacer part has a height approximately identical to the height of each of said strap wall portions defining each said cell. 15. The grid as recited in claim 14, wherein each spacer part has a width approximately equal to one-half of the width of each of said strap wall portions defining each said cell. 16. The grid as recited in claim 12, wherein said spacer at said central region of each of said parts thereof adjacent to respective upper and lower opposite edges of said parts has attachment tabs of a pair thereof formed thereon so as to project outwardly therefrom. 17. The grid as recited in claim 16, wherein said upper tabs extend generally perpendicular to said spacer parts, whereas said lower tabs extend generally within a plane of said spacer parts. 18. A nuclear fuel rod support grid, comprising: 19. The grid as recited in claim 18, wherein each said spacer is L-shaped in cross section being made from a metal plate that is bent into a ninety-degree configuration. 20. The grid as recited in claim 18, wherein each part has a height approximately identical to the height of each of said strap wall portions defining each said cell. 21. The grid as recited in claim 20, wherein each part has a width approximately equal to one-half of the width of each of said strap wall portions defining each said cell. 22. The grid as recited in claim 18, wherein each spacer at a central region of each of said parts thereof adjacent to respective upper and lower opposite edges of said parts has attachment tabs of a pair thereof formed thereon so as to project outwardly therefrom. 23. The grid as recited in claim 22, wherein said upper tabs extend generally perpendicular to said spacer parts, whereas said lower tabs extend generally within a plane of said spacer parts.