Patent Number: 050248073
Section: claims

1. In a nuclear reactor having fuel assemblies including an upper end fitting and a lower end fitting and spaced nuclear fuel rod spacer grids therebetween for supporting and spacing a plurality of elongated nuclear fuel rods, each of which includes a hollow active portion of nuclear fuel filled cladding intermediate the rod ends and a tapering end cap of solid material with a circumferential groove on the rod end which first encounters reactor coolant flow, a tall spacer grid relative to the grids adjacent the active portion being means for capturing and retaining deleterious debris carried by reactor coolant before it enters the active region of a fuel assembly through solid end caps compartments' corners and creates fuel rod cladding damage, comprising in combination: a polygonal perimeter,  a plurality of fuel end cap compartments defined by pairs of first and second intersection and slottedly interlocked grid-forming strips attached to said perimeter and to each other,  fuel rod end caps each extending into a respective one of said end cap compartments,  at least some of said end cap compartments defined by two pairs of intersecting and slottedly interlocked strips which include integral springs for contact with said end caps in said circumferential grooves and for cooperation with opposing arched portions of said strips also in contact with said end caps,  leaves projecting out of said strips intermediate their intersections, each of said leaves being spaced from the fuel rod end caps and extending into the solid end caps compartments' corners and  each of said leaves being means for enhancing the spacer grid's ability to capture and retain debris in the regions of said solid end caps compartments' corners so that before said debris passing into said regions engages the active portion of the fuel rods it is captures. 2. The spacer grid of claim 1 in which the arched portions of said strips are formed by the bends of the strips which make the strips have a wavy structure. 3. The spacer grid of claim 2 in which the arched portions of said strips contact said end caps above and below but not in said circumferential grooves. 4. The spacer grid of claim 1 in which the leaves of the individual strips are substantially symmetrical about the slotted intersections when the slottedly interlocked strips are viewed edgewise in the direction of coolant flow. 5. The spacer grid of claim 1 in which the circumferential grooves include tapered surfaces to assist in rod insertion and removal. 6. The spacer grid of claim 1 in which the springs include curved surfaces to assist in rod insertion and removal.