Patent Number: 046648801
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 having a central transverse adapter plate disposed adjacent said grid and a lower end of said fuel rods with a series of coolant flow holes defined therethrough which allow liquid coolant flow through said end nozzle and into said fuel assembly, a trap for capturing and retaining debris carried by said coolant flow to prevent entry of debris into said fuel assembly, said debris trap comprising: (a) a hollow enclosure disposed across said end nozzle adjacent to said transverse adapter plate and on an opposite side thereof from said grid, said enclosure being composed of material formed into a wire mesh screen which is permeable to the liquid coolant but impermeable to debris carried by the coolant;  (b) said hollow enclosure having upper and lower walls extending across said end nozzle, spaced apart and interconnected at their peripheries so as to define a debris capturing and retaining chamber within said enclosure, one of said upper and lower walls being disposed adjacent to said adapter plate and the other of said walls being disposed away from said adapter plate; and  (c) means on said hollow enclosure defining at least one opening into said chamber of said enclosure through said other of said upper and lower walls disposed away from said adapter plate, said opening defining means being disposed in a predetermined positional relationship with respect to the direction of coolant flow such that debris carried by said liquid coolant flow which enters said chamber of said enclosure through said opening will be substantially detered from exiting through said opening;  (d) said opening defining means on said other wall including a wall section which is connected to said other wall, disposed at an angle to said other wall and the direction of coolant flow and is displaced at an inner edge from said other wall, so as to define said opening between its inner edge and said other wall in a plane extending generally parallel to the direction of coolant flow through said hollow enclosure and so as to define a path along which the debris must move in order to enter said chamber through said opening in a direction substantially transverse to the direction of coolant flow through said hollow enclosure.  said partially severed wall section has multiple edge portions; and  said opening defined between said multiple edge portions of said partially severed wall section and said adjacent portions of said remainder of said other wall lies in multiple planes extending generally parallel to the direction of coolant flow through said hollow enclosure.  (a) a hollow enclosure disposed between said bottom nozzle adapter plate and said lower core plate and in a path of coolant flow from said openings in said core plate and to said holes in said adapter plate, said hollow enclosure being composed of material formed into wire mesh screen which is permeable to the liquid coolant but impermeable to debris carried by the coolant;  (b) said hollow enclosure having an upper wall disposed adjacent said adapter plate, a lower wall located away from said adapter plate and a side wall which interconnects said upper and lower walls at their respective peripheries and spaces said upper and lower walls apart so as to define a debris capturing and retaining chamber within said enclosure, said upper and lower walls extending between said legs of said bottom nozzle; and  (c) a plurality of wall sections on said lower wall being connected to adjacent portions of said lower wall and displaced at inner edges of said wall sections within said chamber inwardly toward said upper wall and away from said adjacent portions of said lower wall so as to define a plurality of openings into said hollow enclosure through said lower wall being matched in number and alignment with said plurality of coolant flow openings in said lower core plate, said each wall section also being disposed at an angle to the direction of coolant flow through said enclosure such that said opening defined between said inner edge of said each wall section and adjacent portions of said lower wall lies in a plane extending generally parallel to the direction of coolant flow through said hollow enclosure and such that debris carried by said coolant flow which enters said chamber of said enclosure through said opening will be substantially detered from exiting through said opening. 2. The debris trap as recited in claim 1, wherein opening defining means includes a plurality of said wall sections defining a plurality of said openings into said chamber of said hollow enclosure. 3. The debris trap as recited in claim 1, wherein said wall section is a portion of said other wall which has been partially severed from the remainder of said other wall and bent inwardly to extend at said angle to said remainder of said other wall. 4. The debris trap as recited in claim 3, wherein: 5. The debris trap as recited in claim 1, wherein said hollow enclosure has cross-sectional dimensions sized to fit said enclosure within said end nozzle, and said trap further includes means on said enclosure for releasably locking it within said end nozzle such that said trap will be retained with said end nozzle when moved with said fuel assembly. 6. The debris trap as recited in claim 5, wherein said locking means is in the form of a pair of leaf springs disposed on opposite sides of said enclosure and engagable with said end nozzle upon installation of said enclosure in said end nozzle. 7. The debris trap as recited in claim 1, further including a central annular sleeve mounted between said upper and lower walls of said hollow enclosure for bolstering the structural integrity of said hollow enclosure. 8. 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: 9. The debris trap as recited in claim 8, wherein each of said wall sections is a portion of said lower wall which has been partially severed from the remainder of said lower wall and bent inwardly to extend at said angle to said remainder of said lower wall. 10. The debris trap as recited in claim 8, further comprising means on said enclosure for releasably locking it within said bottom nozzle such that said enclosure will be retained with said bottom nozzle when moved with said fuel asembly, said locking means being in the form of a pair of leaf springs disposed on opposite sides of said enclosure and engagable with at least two of said bottom nozzle legs upon installation of said enclosure in said bottom nozzle. 11. The debris trap as recited in claim 8, further including a central annular sleeve mounted between said upper and lower walls of said hollow enclosure for bolstering the structural integrity of said hollow enclosure.