Patent Number: 051732521
Section: claims

1. A spacer for use in combination with a fuel bundle, said fuel bundle having a plurality of fuel rods, a lower tie plate for supporting said plurality of fuel rods in side-by-side upstanding relation and defining a plurality of apertures for permitting water to be heated to enter said fuel bundle, an upper tie plate for maintaining the upper ends of said fuel rods in parallel side-by-side relation as supported on said lower tie plate and defining a plurality of apertures for permitting heated water and steam to escape from said fuel bundle, a channel for surrounding said fuel rods and extending from said lower tie plate toward said upper tie plate for confining said water flow around said fuel rods within said fuel bundle, and a plurality of spacers for placement within said channel between said tie plates around said fuel rods for maintaining said fuel rods in designed side-by-side spacing, the improvement to said spacer comprising: at least first and second side-by-side ferrules forming a ferrule pair for fitting around respective side-by-side fuel rods to maintain said fuel rods spaced apart one from another;  each ferrule of said ferrule pair having at least one internal stop for permitting said fuel rod internal of said ferrule to be biased against said stop to a position of designed side-by-side alignment with respect to said fuel bundle at said spacer within said ferrule;  each ferrule of said ferrule pair further defining an aperture for confrontation with a corresponding aperture of said adjacent ferrule of said ferrule pair to define a common aperture between said ferrule pair for receiving a spring between said ferrules, said common aperture of each ferrule defining at the sides thereof an opening sufficient to define respective first and second tab receiving slots to the exterior of said ferrule when confronted to a similar said ferrule at said tab receiving slot;  a loop spring having first and second legs, said first spring leg for biasing a fuel rod interior of said common aperture of a first ferrule of said ferrule pair and a second spring leg for biasing a fuel rod interior of said common aperture of said second ferrule of said ferrule pair, said first and second legs of said spring moveable from a first position of compression for insertion of said spring through one of said first and second tab receiving slots to a second position of expansion with respect to said first and second tab receiving slots for trapping said spring in said common aperture;  at least first and second tabs protruding from at least one of said spring legs, said first tab protruding from a first side of said spring and said second tab protruding from a second side of said spring, said tabs for maintaining said loop spring in said second position of expansion in said common aperture at said tab receiving slots; and  said first and second ferrules confronted at said apertures and said main body of said loop spring being inserted in said common aperture, said tabs protruding into said tab receiving slots to maintain said loop spring in said common aperture and said rod biasing projection passing through said common aperture whereby said rod biasing projections on the respective spring legs of said loop spring can bias respective fuel rods in each said ferrule of said ferrule pair against said stops to maintain said fuel rods in designed side-by-side spacing.  said common aperture further having a maximum width in the upper and lower portions of said aperture to allow insertion of the upper and lower tabs of said spring.  a central fuel rod biasing projection slot at the middle of said common aperture allowing a rod biasing projection on the spring to be inserted; and,  wherein said spring includes at least one rod biasing portion in at least one of said spring legs of said spring.  said tabs form an integral portion of said loop of said loop spring.  a plurality of fuel rods;  a lower tie plate for supporting said plurality of fuel rods in side-by-side upstanding relation and defining a plurality of apertures for permitting water to be heated to enter said fuel bundle;  an upper tie plate for maintaining the upper ends of said fuel rods in parallel side-by-side relation as supported on said lower tie plate and defining a plurality of apertures for permitting heated water to escape from said fuel bundle,  a channel for surrounding said fuel rods and extending from said lower tie plate toward said upper tie plate for confining said water flow around said fuel rods within said fuel bundle;  a plurality spacers for placement within said channel between said tie plates around said fuel rods for maintaining said fuel rods in designed side-by-side spacing;  each spacer including at least first and second side-by-side ferrules forming a ferrule pair for fitting around respective side-by-side fuel rods to maintain said fuel rods spaced apart one from another;  each ferrule of said ferrule pair having at least one internal stop for permitting said fuel rod internal of said ferrule to be biased against said stop to a position of designed side-by-side alignment with respect to said fuel bundle at said spacer within said ferrule;  each ferrule of said ferrule pair further defining an aperture for confrontation with a corresponding aperture of said adjacent ferrule of said ferrule pair to define a common aperture between said ferrule pair for receiving a spring between said ferrules, said common aperture having sufficient dimension for defining at the sides thereof when confronted to another similar said ferrule respective first and second tab receiving slots to the exterior of said ferrules;  a loop spring having first and second legs, said first spring leg for biasing a fuel rod interior of said first ferrule of said ferrule pair and a second spring leg for biasing a fuel rod interior of said second ferrule of said ferrule pair, said legs moveable from a first position of compression for insertion of said spring through one of said first and second tab receiving slots to a second position of expansion with respect to said first and second tab receiving slots for trapping said spring in said common aperture;  at least first and second tabs protruding from at least one of said spring legs, said first tab protruding from a first side of said spring and said second tab protruding from a second side by said spring, said tabs for maintaining said loop spring in said second position of expansion in said common aperture at said tab receiving slots; and,  said first and second ferrules confronted at said apertures and said main body of said loop spring being inserted in said common aperture, said tabs protruding into said tab receiving slots to maintain said loop spring in said aperture and said rod biasing projection passing through said common aperture slot whereby said rod biasing projections on the respective spring legs of said loop spring can bias respective fuel rods in each said ferrule of said ferrule pair against said stops to maintain said fuel rods in designed side-by-side spacing.  said common aperture further having a maximum width in the upper and lower portions of said aperture to allow insertion of the upper and lower tabs of said spring.  a central fuel rod biasing projection slot at the middle of said common aperture allowing a rod biasing projection on the spring to be inserted; and,  wherein said spring includes at least one rod biasing portion in at least one of said spring legs of said spring.  said tabs form an integral portion of said loop of said loop spring.  a matrix of ferrules coextensive with the construction of said spacer for placement within the fuel bundle;  said matrix including at least first and second side-by-side ferrules forming a ferrule pair for fitting around respective side-by-side fuel rods to maintain said fuel rods spaced apart one from another;  each ferrule of said ferrule pair having at least one internal stop for permitting said fuel rod internal of said ferrule to be biased against said stop to a position of designed side-by-side alignment with respect to said fuel bundle at said spacer within said ferrule;  each ferrule of said ferrule pair further defining an aperture for confrontation with a corresponding aperture of said adjacent ferrule of said ferrule pair to define a common aperture between said ferrule pair for receiving a spring between said ferrules, said common aperture of each ferrule defining at the sides thereof an opening sufficient to define respective first and second tab receiving slots to the exterior of said ferrule when confronted to a similar said ferrule at said tab receiving slot;  a loop spring having first and second legs, said first spring leg for biasing a fuel rod interior of said common aperture of a first ferrule of said ferrule pair and a second spring leg for biasing a fuel rod interior of said common aperture of said second ferrule of said ferrule pair, said legs moveable from a first position of compression for insertion of said spring through one of said first and second tab receiving slots to a second position of expansion with respect to said first and second tab receiving slots for trapping said spring in said common aperture;  at least first and second tabs protruding from at least one of said spring legs, said first tab protruding from a first side of said spring and said second tab protruding from a second side of said spring, said tabs for maintaining said loop spring in said second position of expansion in said common aperture at said tab receiving slots; and  said first and second ferrules confronted at said apertures and said main body of said loop spring being inserted in said common aperture, said tabs protruding into said tab receiving slots to maintain said loop spring in said common aperture and said rod biasing projection passing through common aperture whereby said rod biasing projections on the respective spring legs of said loop spring can bias respective fuel rods in each said ferrule of said ferrule pair against said stops to maintain said fuel rods in designed side-by-side spacing.  said common aperture further having a maximum width in the upper and lower portions of said aperture to allow insertion of the upper and lower tabs of said spring.  a central fuel rod biasing projection slot at the middle of said common aperture allowing a rod biasing projection on the spring to be inserted; and,  wherein said spring includes at least one rod biasing portion in at least one of said spring legs of said spring.  said tabs form an integral portion of said loop of said loop spring.  a spacer having a spacer matrix including at least first and second side-by-side ferrules forming a ferrule pair for fitting around respective side-by-side fuel rods to maintain said fuel rods spaced apart one from another;  each ferrule of said ferrule pair having at least one internal stop for permitting said fuel rod internal of said ferrule to be biased against said stop to a position of designed side-by-side alignment with respect to said fuel bundle at said spacer within said ferrule;  each ferrule of said ferrule pair further defining an aperture for confrontation with a corresponding aperture of said adjacent ferrule of said ferrule pair to define a common aperture between said ferrule pair for receiving a spring between said ferrules, said common aperture of each ferrule defining at the sides thereof respective first and second tab receiving slots to the exterior of said ferrules when confronted to a similar said ferrule at said common aperture;  a loop spring having first and second legs, said first spring leg for biasing a fuel rod interior of said common aperture of said first ferrule of said ferrule pair and a second spring leg for biasing a fuel rod interior of said common aperture of said second ferrule of said ferrule pair, said first and second legs moveable from a first position of compression for insertion of said spring through one of said first and second tab receiving slots to a second position of expansion with respect to said first and second tab receiving slots for trapping said spring in said common aperture;  at least first and second tabs protruding from at least one of said spring legs, said first tab protruding from a first side of said spring and said second tab protruding from a second side of said spring, said tabs for maintaining said loop spring in said second position of expansion in said common aperture at said tab receiving slots; and,  said first and second ferrules confronted at said apertures and said main body of said loop spring being inserted in said common aperture, said tabs protruding into said tab receiving slots to maintain said loop spring in said aperture and said rod biasing projection passing through said common aperture slot whereby said rod biasing projections on the respective spring legs of said loop spring can bias respective fuel rods in each said ferrule of said ferrule pair against said stops to maintain said fuel rods in designed side-by-side spacing.  said common aperture further having a maximum width in the upper and lower portions of said aperture to allow insertion of the upper and lower tabs of said spring.  a central fuel rod biasing projection slot at the middle of said common aperture allowing a rod biasing projection on the spring to be inserted; and,  wherein said spring includes at least one rod biasing portion in at least one of said spring legs of said spring.  said tabs form an integral portion of said loop of said loop spring. 2. The invention of claim 1 and wherein said spring has upper and lower tabs on each side of said spring. 3. The invention of claim 2 and wherein said common aperture has a generally rectangular shape with a varying width; 4. The invention of claim 1 and including: 5. The invention of claim 1 and wherein said common aperture is generally I-shaped. 6. The invention of claim 1 and wherein: 7. A fuel bundle comprising: 8. The invention of claim 7 and wherein said spring has upper and lower tabs. 9. The invention of claim 8 and wherein said common aperture has a generally rectangular shape with a varying width; and 10. The invention of claim 7 and including; 11. The invention of claim 7 and wherein said common aperture is generally I-shaped. 12. The invention of claim 7 and wherein: 13. A fuel bundle spacer for placement within a fuel bundle channel between upper and lower tie plates around fuel rods for maintaining said fuel rods in designed side-by-side spacing, said spacer comprising: 14. The invention of claim 13 and wherein said spring has upper and lower tabs. 15. The invention of claim 14 and wherein said common aperture has a generally rectangular shape with a varying width; and 16. The invention of claim 13 and including: 17. The invention of claim 13 and wherein said common aperture is generally I-shaped. 18. The invention of claim 13 and wherein: 19. A spacer for use in combination with a fuel bundle, said fuel bundle having a plurality of fuel rods, a lower tie plate for supporting said plurality of fuel rods in side-by-side upstanding relation and defining a plurality of apertures for permitting water to be heated to enter said fuel bundle, an upper tie plate for maintaining the upper ends of said fuel rods in parallel side-by-side relation as supported on said lower tie plate and defining a plurality of apertures for permitting heated water and steam to escape from said fuel bundle, a channel for surrounding said fuel rods and extending from said lower tie plate toward said upper tie plate for confining said water flow around said fuel rods within said fuel bundle, and a plurality of spacers for placement within said channel between said tie plates around said fuel rods for maintaining said fuel rods in designed side-by-side spacing, the improvement to said spacers comprising: 20. The invention of claim 19 and wherein said spring has upper and lower tabs. 21. The invention of claim 20 and wherein said common aperture has a generally rectangular shape with a varying width; and, 22. The invention of claim 19 and including: 23. The invention of claim 19 and wherein said common aperture is generally I-shaped. 24. The invention of claim 19 and wherein: