Patent Number: 054886449
Section: claims

1. A spring assembly for location between a pair of adjacent ferrules in a nuclear fuel bundle having a plurality of nuclear fuel rods passing through the ferrules and biasing the fuel rods of adjacent ferrules against stops in the ferrules, the spring assembly in an unstressed condition, comprising: first and second spring bodies lying in respective planes, each spring body having a central leaf, a pair of outer leaves spaced from said central leaf, and an end portion at each of opposite ends of said spring body joining ends of said central and outer leaves, said central leaf of each spring body having an intermediate portion projecting forwardly of the plane of said spring body to a fuel rod contacting forward side of said plane, said pair of outer leaves of each spring body having intermediate portions projecting rearwardly of the plane of said spring body, said spring bodies being disposed in back-to-back relation to one another with said intermediate portions of said outer leaves engaging one another, said planes lying parallel to and spaced from one another and said end portions lying in registration with one another whereby said intermediate portions of said central leaves project to opposite sides of said assembly for engagement with fuel rods in next-adjacent ferrules.  a matrix of ferrules for receiving the fuel rods in said spacer, each ferrule having a plurality of fuel rod contacting points for abutting the fuel rods, adjacent pairs of said ferrules in said matrix comprising cylindrical members each having an axis, open opposite ends and a generally rectilinear opening in a side wall thereof, said adjacent pairs of said ferrules being disposed in side-by-side relation to one another with said rectilinear openings in lateral registration with one another;  spring assemblies for location between said pairs of adjacent ferrules for biasing the fuel rods in said pair of ferrules into engagement with said contact points;  each said spring assembly comprising first and second spring bodies lying in respective planes, each said spring body having a central leaf, a pair of outer leaves spaced from said central leaf, and an end portion at each of opposite ends of said spring body joining the ends of said central and outer leaves, said central leaf of each spring body having an intermediate portion projecting forwardly of the plane of said spring body to a fuel rod contacting forward side of said plane, said pair of outer leaves of each spring body having intermediate portions projecting rearwardly of the plane of said spring body, said spring bodies being disposed in back-to-back relation to one another, with said intermediate portions of said outer leaves engaging one another, said planes lying parallel to and spaced from one another, said end portions lying in registration with one another;  said spring assemblies being disposed between said adjacent pairs of said ferrules with the intermediate portions of said central leaves lying in said rectilinear openings and said intermediate portions of said outer leaves lying between said adjacent pairs of said ferrules.  a spring body having a central leaf lying in a plane, a pair of outer leaves spaced laterally from said central leaf, and an end portion at each of opposite ends of said spring body joining ends of said central and outer leaves, said central leaf of said spring body having an intermediate portion projecting forwardly of said plane to a fuel rod contacting forward side of said plane, said pair of outer leaves of said spring body lying rearwardly of the plane of said body and having intermediate portions projecting rearwardly of said outer leaves, said spring body being adapted for disposition between the adjacent ferrules with the intermediate portion of said central leaf projecting through an opening in the one ferrule for biasing the fuel rod therein against the stops and the intermediate portions of said outer leaves bearing against an outer surface of another ferrule of the adjacent ferrules.  a matrix of ferrules for receiving the fuel rods in said spacer, each ferrule having a plurality of fuel rod contacting points for abutting the fuel rods, adjacent pairs of said ferrules in said matrix comprising cylindrical members each having an axis, open opposite ends and a generally rectilinear opening in a side wall thereof, said adjacent pairs of said ferrules being disposed in side-by-side relation to one another with said rectilinear opening in said one ferrule lying in lateral registration with a side wall of another ferrule of said adjacent pairs thereof;  a spring body having a central leaf lying in a plane, a pair of outer leaves spaced laterally from said central leaf, and an end portion at each of opposite ends of said spring body joining ends of said central and outer leaves, said central leaf of said spring body having an intermediate portion projecting forwardly of the plane thereof to a fuel rod contacting forward side of said plane, said pair of outer leaves of said spring body lying rearwardly of the plane of said body and having intermediate portions projecting rearwardly of said outer leaves;  said spring body being disposed between said adjacent ferrules, with the intermediate portion of said central leaf disposed in said rectilinear opening for biasing the fuel rod in the one ferrule against the stops and said intermediate portions of said outer leaves disposed between said adjacent ferrules and engaged against an outer surface of said another ferrule of said adjacent ferrules. 2. A spring assembly according to claim 1 wherein said end portions extend laterally beyond the outer leaves, terminating in end tabs. 3. A spring assembly according to claim 2 wherein said end tabs on each spring body project out of the plane of said body and to said forward side of said plane. 4. A spring assembly according to claim 1 wherein said intermediate portions of said outer leaves are welded in back-to-back relation to one another. 5. A spring assembly according to claim 1 wherein each said central leaf is resiliently flexible for bending movement in a rearward direction. 6. A spring assembly according to claim 1 wherein said spring bodies are formed of sheet metal. 7. A spring assembly according to claim 1 in combination with a pair of ferrules, each ferrule comprised of a cylindrical member having an axis, open opposite ends and a generally rectilinear opening in a side wall thereof, said ferrules being disposed in side-by-side relation to one another with said rectilinear openings in lateral registration with one another, said spring assembly being disposed between said ferrules with the intermediate portions of said central leaves disposed in said rectilinear openings and said intermediate portions of said outer leaves disposed between said ferrules. 8. The combination of claim 7 wherein said end portions extend laterally beyond the outer leaves and terminate in end tabs, said end tabs on each spring body projecting forwardly out of the plane of said body to overlie outer surfaces of said ferrules for laterally locating the spring assembly. 9. A spacer assembly for maintaining a matrix of nuclear fuel rods in spaced-apart relation between upper and lower tie plates, said spacer assembly comprising: 10. A spacer assembly according to claim 9 wherein said end portions of each said spring assembly extend laterally beyond the outer leaves terminating in end tabs, said end tabs on each said spring body projecting forwardly out of the plane of said body to overlie the outer surface of a ferrule of said adjacent pairs of ferrules. 11. A spring for location between a pair of adjacent ferrules in a nuclear fuel bundle having a plurality of nuclear fuel rods passing through the ferrules and biasing a fuel rod of one of the adjacent ferrules against stops in the one ferrule, the spring assembly in an unstressed condition, comprising: 12. A spring according to claim 11 in combination with the pair of adjacent ferrules, each ferrule comprised of a cylindrical member having an axis, open opposite ends and a generally rectilinear opening in a side wall thereof, said ferrules being disposed in side-by-side relation to one another with said rectilinear opening in said one ferrule in lateral registration with a side wall of another ferrule of said adjacent ferrules, said spring assembly being disposed between said adjacent ferrules with the intermediate portion of said central leaf disposed in said rectilinear opening for biasing the fuel rod in the one ferrule against the stops and said intermediate portions of said outer leaves disposed between said adjacent ferrules and engaged against an outer surface of said another ferrule of said adjacent ferrules. 13. A spacer assembly for maintaining a matrix of nuclear fuel rods in spaced-apart relation between upper and lower tie plates, said spacer assembly comprising: 14. A spacer according to claim 13 having a peripheral band about said ferrules within said spacer and openings in said band, pins received through said openings in said band and engageable with the central leaf and margins of the rectilinear opening in said one ferrule for compressing the spring and displacing the projection on said central leaf in a direction toward said plane of the spring body. 15. A spring according to claim 11 wherein said outer leaves lie in discrete planes angled relative to one another and intersecting at a location forwardly of the plane through said central leaf.