Patent Number: 047028815
Section: claims

1. A nuclear fuel assembly containing a plurality of generally cylindrical fuel rods having an outside radius and comprising: a top nozzle;  a bottom nozzle;  a control rod guide thimble extending between said top and bottom nozzles;  a plurality of fuel rod spacer grid assemblies axially disposed along said control rod guide thimble for maintaining the fuel rods in a space lateral array, each of said spacer grid assemblies comprising a plurality of grid straps interlocked into an egg-crate configuration to form cells through which said fuel rods pass, each of said cells having a grid spring and an opposing dimple, each of said grid spring and dimple having an arcuate surface portion contoured o generally conform, in both the axial and radial directions, to the surface of said generally cylindrical fuel rods and adapted to contact said fuel rods along at least a line of contact as the fuel rods pass through said cells, said arcuate portions having radius of curvature equal to or greater than the outside radius of said fuel rods.  a plurality of grid straps interlocked into an egg-crate configuration to form a cell through which said fuel rod is adapted to pass;  a grid spring and an opposing dimple disposed in said cell for supporting said fuel rod;  said grid spring and opposing dimple having arcuate face portions having a radius of curvature equal to or greater than the outside radius of the fuel rod and contoured to generally conform, in both the axial and radial directions, to the surface of said generally cylindrical fuel rod and adapted to contact said fuel rod along at least a line of contact as it passes through said cell. 2. The nuclear fuel assembly of claim 1 wherein said grid spring is generally arch shaped and is integrally formed in one of said grid straps. 3. The nuclear fuel assembly of claim 2 wherein said grid spring surface portion is generally centered on said grid spring and said grid spring further comprises base portions adjacent either side of said centrally disposed surface portion, said base portions being provided with a stiffening rib. 4. The nuclear fuel assembly of claim 2 wherein said grid spring generally lies in a plane and has an edge extending along its length and wherein said edge is rolled down to form a flange extending at an angle .alpha. from said plane towards said grid strap. 5. The nuclear fuel assembly of claim 4 wherein angle .alpha. is in the range of between greater than 0 to 90 degrees. 6. The nuclear fuel assembly of claim 4 wherein said angle .alpha. is in the range of between 30 and 60 degrees. 7. The nuclear fuel assembly of claim 1 wherein said dimple is oriented on said grid strap to be generally open to a longitudinal coolant flow through said fuel assembly. 8. The nuclear fuel assembly of claim 1 said dimple is generally arch shaped and is integrally formed from one of said grid strap wherein the arch which forms said dimple is disposed edgewise with respect to a longitudinal coolant flow through said fuel assembly. 9. The nuclear fuel assembly of claim 1 wherein said grid spring is oriented on said grid strap to be generally closed to a longitudinal coolant flow through said fuel assembly. 10. The nuclear fuel assembly of claim 1 said grid spring is generally arch shaped and integrally formed from one of said grid straps and wherein the arch which forms said grid spring is disposed generally parallel with respect to a longitudinal coolant flow direction through said fuel assembly. 11. The nuclear fuel assembly of claim 8 wherein said dimple surface portion is generally centered on said dimple and said dimple further comprises base portions adjacent either side of said centrally disposed surface portion. 12. The nuclear fuel assembly of claim 8 wherein said dimple has a major surface and an edge extending along its length and wherein said edge is rolled down from said major surface to form a flange extending at an angle .beta. from said major surface towards said grid strap. 13. The nuclear fuel assembly of claim 12 wherein angle .beta. is in the range of between greater than 0 to 90 degrees. 14. The nuclear fuel assembly of claim 12 wherein said angle .beta. is in the range of between 30 and 60 degrees. 15. A spacer grid assembly for supporting a generally cylindrical fuel rod having an outside radius in a nuclear fuel assembly comprising; 16. The spacer grid assembly of claim 15 wherein said grid spring comprises a generally arch-shaped spring projecting from one of said interlocked grid straps, said grid spring having a raised center portion, projecting toward a center of said cell, into which said arcuate face portion is formed. 17. The spacer grid assembly of claim 16 wherein said grid spring further comprises base portions on either side of said raised center portion, said base portions having a stiffening rib formed therein. 18. The spacer grid assembly of claim 16 wherein said cell has a longitudinal axis and said arch-shaped spring extends generally parallel to said longitudinal axis and has longitudinally extending edges, and wherein said edges are formed into stiffening flanges extending generally towards said one grid strap at an angle .alpha. with regard to a major surface of said grid spring. 19. The spacer grid assembIy of claim 18 wherein said angle .alpha. is in the range of between greater than 0 to 90 degrees. 20. The spacer grid assembly of claim 18 wherein said angle .alpha. is in the range of between 30 to 60 degrees. 21. The spacer grid assembly of claim 15 wherein said dimple comprises a generally arch-shaped member projecting from one of said interlocked grid straps, said arch-shaped member having a center portion into which said arcuate surface portion is formed. 22. The spacer grid assembly of claim 21 wherein said arch-shaped member further comprises base portions on either side of center portion, said base portions having a stiffening rib formed therein. 23. The spacer grid assembly of claim 21 wherein said cell has a longitudinal axis and said arch-shaped member extends generally transverse with respect to said longitudinal axis, said arch-shaped member having longitudinally extending edges, said edges being formed into flanges extending generally toward said one grid strap at an angle .beta. with respect to a major surface of said arch-shaped member to stiffen said dimple and to form a ramp surface to reduce fuel rod scratching during fuel rod loading in said spacer grid assembly. 24. The spacer grid assembly of claim 15 wherein said assembly comprises a plurality of cells, at least some of said cells having grid springs on two adjacent walls and a pair of axially spaced and aligned dimples opposing each of said grid springs whereby a fuel rod passing through the cell is cradled at six locations in said cell to center the fuel rod in the cell. 25. The spacer grid assembly of claim 21 wherein said cell has a longitudinal axis and said arch-shaped member has a major face and edges extending generally transverse to said longitudinal axis and wherein said edges are formed into flanges extending generally towards said one grid strap at an angle .beta. with regard to said major surface. 26. The spacer grid assembly of claim 25 wherein said angle .beta. is in the range of between greater than 0 to 90 degrees. 27. The spacer grid assembly of claim 25 wherein said angle .beta. is in the range of between 30 to 60 degrees.