Patent Number: 046844961
Section: claims

1. In a fuel assembly for a nuclear reactor including a plurality of nuclear fuel rods, at least one grid supporting said fuel rods in an organized array, an end nozzle with a transverse adapter plate disposed adjacent said grid and an end of said fuel rods and having holes which allow flow of liquid coolant through said end nozzle adapter plate and into said fuel assembly, a trap for capturing and retaining debris carried by said flowing coolant to prevent entry of debris into said fuel assembly, said debris trap comprising: (a) a structure disposed across said end nozzle and adjacent said adapter plate on an opposite side thereof from said grid and said end of said fuel rods, said structure being composed of a plurality of straps aligned with respect to each other in a crisscross interlocking arrangement and defining wall portions forming a multiplicity of small cells each being open at opposite ends and defining a central channel for passage of coolant flow therethrough to said adapter plate of said end nozzle, said wall portions of each cell being defined in oppositely-disposed interconnected pairs thereof, some of said wall portions being common to two adjacent cells; and  (b) means defined in each of said cells for capturing and retaining within said structure debris carried into said cells by said coolant flowing therethrough, said capturing and retaining means in each said cell being in the form of spring-like fingers punched out of respective ones of said wall portions of said cell and bent to extend both vertically and horizontally into said channels of said cell and other cells adjacent thereto, one pair of said fingers on one pair of said wall portions in a cell being disposed downstream from and in overlapping relation with another pair of said fingers on another pair of said wall portions in said cell such that a fuel rod cannot enter said cell, said wall portions which are common to two adjacent cells having a pair of said fingers punched out therefrom being located upstream and downstream from one another and extending oppositely into separate ones of said two adjacent cells.  (a) a structure disposed within and across said bottom nozzle transversely between said legs thereof and axially along said legs below said bottom nozzle adapter plate and above said lower core plate in a path of coolant flow from said openings in said core plate and to said holes in said adapter plate;  (b) said structure being composed of a plurality of straps aligned with respect to each other in a crisscross arrangement, said straps defining a plurality of interconnected wall portions which form a multiplicity of cells each being open at opposite ends and defing a central channel extending generally parallel to said path of coolant flow for passage of coolant therethrough to said adapter plate of said bottom nozzle, said wall portions of each cell being defined in oppositely-disposed interconnected pairs thereof, some of said wall portions being common to two adjacent cells; and  (c) a plurality of spring-like fingers disposed in each cell and extending into said channel for capturing and retaining within said structure debris carried into said cell by said coolant flowing therethrough, said spring-like fingers being punched out of respective ones of said wall portions of said cell and bent to extend both vertically and horizontally into said channels of said cell and other cells adjacent thereto, one pair of said fingers on one pair of said wall portions in a cell being disposed downstream from and in overlapping relation with another pair of said fingers on another pair of said wall portions in said cell such that a fuel rod cannot enter said cell, said wall portions which are common to adjacent cells having a pair of said fingers punched out therefrom being located upstream and downstream from one another and extending oppositely into separate ones of said two adjacent cells. 2. The debris trap as recited in claim 1, wherein said finger has at least one hole defined therethrough. 3. The debris trap as recited in claim 1, wherein said structure has cross-sectional dimensions sized to fit said structure within said end nozzle, and said trap further includes means on said structure for releasably locking it within said end nozzle. 4. The debris trap as recited in claim 3, wherein said locking means is in the form of a pair of leaf springs disposed on opposite sides of said structure and engageable with said end nozzle upon installation of said structure in said end nozzle. 5. The debris trap as recited in claim 1, wherein said structure has a downstream end facing toward said end nozzle adapter and an upstream end facing away from said end nozzle adapter, and said trap further includes a plurality of tabs mounted on said upstream end of said structure and projecting outwardly therefrom for grasping and holding pieces of debris generally stationary so as to prevent lateral circulation thereof along, and repeated impact thereof against, said structure. 6. The debris trap as recited in claim 5, wherein said trap further includes a plurality of projections mounted on said downstream end of said structure and extending toward said end nozzle adapter plate for defining sufficient space between said structure and end nozzle adapter plate to permit cross flow of coolant between said trap and said end nozzle adapter plate. 7. In a liquid cooled nuclear reactor having a plurality of fuel assemblies supported on a lower core plate, each of said fuel assemblies and said lower core plate being constructed to allow coolant flow therethrough, said fuel assembly including a plurality of nuclear fuel rods, a plurality of grids axially disposed along and supporting said fuel rods in an organized array, a bottom nozzle having a central adapter plate disposed adjacent a lowermost one of said grids and a lower end of said fuel rods, said adapter plate having a series of coolant flow holes defined therethrough and a plurality of transversely-displaced legs extending downwardly from the periphery of said adapter plate for supporting said fuel assembly on said lower core plate of said reactor and in alignment with a plurality of coolant flow openings in said lower core plate, and liquid coolant flowing from said openings in said lower core plate and through said holes in said bottom nozzle adapter plate a trap for capturing and retaining debris carried by said flowing coolant to prevent entry of debris into said fuel assembly, said debris trap comprising:. 8. The debris trap as recited in claim 7, wherein said each finger has at least one hole defined therethrough. 9. The debris trap as recited in claim 7, wherein said each wall portion has an opening formed therein at the region where said finger was punched out, said openings in said wall portions facilitating cross flow of coolant between individual ones of said cells. 10. The debris trap as recited in claim 7, wherein said structure has cross-sectional dimensions sized to fit said structure within said bottom nozzle adjacent said adapter plate and between said legs thereof. 11. The debris trap as recited in claim 10, further comprising means on said structure for releasably locking it within said bottom nozzle. 12. The debris trap as recited in claim 11, wherein said locking means is in the form of a pair of leaf springs disposed on opposite sides of said structure and engagable with at least two of said bottom nozzle legs upon installation of said structure in said bottom nozzle. 13. The debris trap as recited in claim 7, wherein said structure has a downstream end facing toward said bottom nozzle adapter plate and an upstream end facing toward said lower core plate, and said trap further includes a plurality of lower tabs mounted on said upstream end of said structure and projecting outwardly toward said lower core plate for grasping and holding pieces of debris generally stationary so as to prevent lateral circulation thereof along said lower core plate and repeated impact thereof against said structure. 14. The debris trap as recited in claim 7, further comprising a plurality of projections mounted on said downstream end of said structure and extending toward said bottom nozzle adapter plate for defining sufficient space between said structure and bottom nozzle adapter plate to permit cross flow of coolant between said trap and said bottom nozzle.