Patent Number: 047284900
Section: claims

1. An improved fuel rod spacer for use in a nuclear reactor fuel assembly containing a plurality of elongated fuel rods, said spacer comprising: (a) inner means defining a plurality of inner cell openings for receiving therethrough respective ones of said fuel rods in spaced apart and generally parallel extending relation, said inner means having outer spaced apart terminal end portions;  (b) outer peripheral means attached to said respective outer terminal end portions of said inner means to define a number of perimeter cell openings for receiving therethrough other ones of said fuel rods in spaced apart and generally parallel extending relation, said perimeter cell openings being arranged to encompass said inner cell openings as a group, said inner means defining a border which surrounds said inner cell openings as a group and separates them from said perimeter cell openings; and  (c) a plurality of coolant flow diverting scoops mounted on said outer peripheral means in spaced apart relation and along a common coolant flow receiving side thereof so as to extend inwardly along and in spaced relation from a common coolant flow receiving side of respective ones of said inner means terminal end portions and within the respective spaces between said other ones of said fuel rods when received through said perimeter cell openings, said scoops terminating at inner ends being disposed generally proximate said border defined by said inner means;  (d) said each scoop including a mounting portion and a flow deflecting portion, said mounting portion being attached to said outer peripheral means, said flow deflecting portion including said inner end of said scoop and being connected at an outer end to said mounting portion, said outer end of said flow deflecting portion being spaced farther from a respective one of said inner means terminal end portions than said inner end of said flow deflecting portion such that said flow deflecting portion extends from said mounting portion of said scoop in an inclined relation and toward said respective one of said inner means terminal end portions.  (a) a plurality of interleaved inner straps having terminal end portions and arranged in an egg-crate configuration in defining a plurality of inner cell openings for receiving therethrough respective ones of said fuel rods in spaced apart and generally parallel extending relation;  (b) an outer peripheral strap attached to said respective terminal end portions of said inner straps to define a number of perimeter cell openings for receiving therethrough other ones of said fuel rods in spaced apart and generally parallel extending relation, said perimeter cell openings being arranged to encompass said inner cells openings as a group, said inner straps defining a border which surrounds said inner cell openings as a group and separates them from said perimeter cell openings; and  (c) a plurality of coolant flow diverting scoops mounted on said outer peripheral strap in spaced apart relation and along a common coolant flow receiving side thereof so as to extend inwardly along and in spaced relation from a common coolant flow receiving side of respective ones of said inner strap terminal end portions and within the respective spaces between said outer ones of said fuel rods when received through said perimeter cell openings, said scoops terminating at inner ends being disposed generally proximate said border defined by said inner straps;  (d) said each scoop including a mounting portion and a flow deflecting portion, said mounting portion being in the form of an extension of said outer peripheral strap, said flow deflecting portion including said inner end of said scoop and being connected at an outer end to said mounting portion, said outer end of said flow deflecting portion being spaced farther from a respective one of said inner strap terminal end portions than said inner end of said flow deflecting portion such that said flow deflecting portion extends from said mounting portion of said scoop in an inclined relation and toward said respective one of said inner strap terminal end portions.  (a) a plurality of interleaved inner straps having terminal end portions and arranged in an egg-crate configuration to define a plurality of inner cell openings which receive therethrough respective ones of said fuel rods in spaced apart and generally parallel extending relation;  (b) an outer peripheral strap attached to said respective terminal end portions of said inner straps to define a number of perimeter cell openings which receive therethrough other ones of said fuel rods in spaced apart and generally parallel extending relation, said perimeter cell openings being arranged to encompass said inner cell openings as a group, said inner straps defining a border which surrounds said inner cell openings as a group and separates them from said perimeter cell openings; and  (c) a plurality of coolant flow diverting scoops mounted on said outer peripheral strap in spaced apart relation and along an upstream side thereof so as to extend inwardly along and in spaced relation from an upstream side of respective ones of said inner strap terminal end portions and within the respective spaces between said other ones of said fuel rods received through said perimeter cell openings, said scoops terminating at inner ends being disposed generally below said border defined by said inner straps;  (d) said each scoop including a mounting portion and a flow deflecting portion, said mounting portion being in the form of an extension of said outer peripheral strap, said flow deflecting portion including said inner end of said scoop and being connected at an outer end to said mounting portion, said outer end of said flow deflecting portion being spaced farther from a respective one of said inner strap terminal end portions than said inner end of said flow deflecting portion such that said flow deflecting portion extends from said mounting potion of said scoop in an inclined relation thereto, toward said respective one of said inner strap terminal end portions and across the path of a portion of the coolant flow toward said perimeter cell openings. 2. The improved spacer as recited in claim 1, wherein said mounting portion extends away from said side of said peripheral means generally parallel to said fuel rods when received in said perimeter cell openings. 3. The improved spacer as recited in claim 1, wherein said flow deflecting portion has a longitudinally-extending tapered shape. 4. The improved spacer as recited in claim 1, wherein said flow deflecting portion has a longitudinally-extending arcuate shape. 5. An improved fuel rod spacer for use in a nuclear reactor fuel assembly containing a plurality of elongated fuel rods, said spacer comprising: 6. The improved spacer as recited in claim 5, wherein said mounting portion of said each scoop extends away from said side of said peripheral strap generally parallel to said fuel rods when received in said perimeter cell openings. 7. The improved spacer as recited in claim 5, wherein said flow deflecting portion has a longitudinally-extending tapered shape. 8. The improved spacer as recited in claim 5, wherein said flow deflecting portion has a longitudinally-extending arcuate shape. 9. In a fuel assembly having an array of spaced fuel rods, an outer hollow tubular flow channel surrounding said fuel rods so as to direct flow of coolant/moderator fluid therealong and a water cross extending through said channel and having a plurality of radially extending members dividing said array of fuel rods into a plurality of separate fuel rod mini-bundle subassemblies, each subassembly having a plurality of spacers being displaced from one another along the length of said subassembly between the bottom and top thereof and surrounding said fuel rods thereof so as to maintain them in side-by-side spaced relationship, at least one of said spacers being an improved spacer comprising: 10. The fuel assembly as recited in claim 9, wherein said mounting portion of said each scoop extends away from said upstream side of said peripheral strap generally parallel to said fuel rods when received in said perimeter cell openings. 11. The fuel assembly as recited in claim 9, wherein said flow deflecting portion has a longitudinally-extending tapered shape. 12. The fuel assembly as recited in claim 9, wherein said flow deflecting portion has a longitudinally-extending arcuate shape. 13. The fuel assembly as recited in claim 9, wherein at least the three uppermost ones of said spacers are in the form of said improved spacer.