Patent Number: 047028823
Section: claims

1. In a fuel assembly having a top nozzle, a longitudinally extendign control rod guide thimble, and a spacer grid extending transversely about an upper regin of said fuel assembly an attaching structure for removably mounting the top nozzle on the fuel assembly comprising: first means for transferring compressive loads on said fuel assembly through said top nozzle directly to said guide thimble;  second means for transferring tensive loads on said fuel assembly through said top nozzle and said spacer grid to said guide thimble.  a bottom nozzle;  a longitudinally extending control rod guide thimble having an upper end, and a lower end attached to said bottom nozzle;  a plurality of transverse spacer grids and a top spacer grid axially space along said guide thimble for supporting an array of upstanding fuel rods;  a top nozzle removably mounted on the upper end of the control rod guide thimble for permitting access to said fuel rods upon removal thereof;  means attached to the upper end of the control rod guide thimble for transferring compressive loads on the fuel assembly through the top nozzle to the cnotrol rod guide thimble;  means for transferring tensive loads on the fuel assembly through the top nozzle to the top spacer grid.  providing means on the guide thimble for supporting compressive loads on the fuel assembly;  providing means for resiliently latching the top spacer grid to the top nozzle:  lowering the top nozzle onto the means for supporting compressive loads: and  latching the top nozzle to the top spacer grid with said resilient latching means.  holding said locking pin in a deflected position until said grid skirt extension aperture passes into alignment with said locking pin; and  releasing said locking pin into said grid skirt extension aperture.  withdrawing said locking pin from said grid skirt extension aperture;  lifting said top nozzle from said fuel assembly to thereby access said plurality of upstanding fuel rods.  deflecting said locking tang while lowering said top nozzle until said lock1ng tang engages said slot thereby latching said top nozzle to said grid skirt extension.  inserting said tool into the aperture in said slot;  deflecting said locking tang out of engagement with said slot by means of said tool;  holding said locking tang out of engagement with said tang while lifting sald top nozzle by means of said tool. 2. The fuel assembly of claim 1 wherein said top nozzle includes a transversely extending adapter plate having an aperture therein, and wherein said guide thimble is sized ot clearance fit in siad aperture and said first means comprises a collar fixed to said guide thimble for transferring compessive loads through said adapter plate to said guide thimble. 3. The fuel assembly of claim 1 wherein said spacer grid has an upstanding skirt extension and said second means comprises a latch for securing said skirt extension to said top nozzle. 4. The fuel assembly of claim 2 wherein spacer grid has an upstanding skirt extension and said second means comprises a latch for securing said skirt extension to said top nozzle. 5. The fuel assembly of claim 3 wherein said top nozzle has a generally vertical sidewall and a tang extending generally parallel with respect to said sidewall and wherein said latch comprises a pin carried by said tang and a latching aperture formed in said grid skirt extension, said pin aligning with said latching aperture to latch said top nozzle to said grid skirt extension. 6. The fuel assembly of claim 5 wherein said sidewall includes an aperture adapted to be aligned with said latching aperture where said pin extends through said latching aperture and into said aperture. 7. The fuel assembly of claim 5 wherein said tang is formed of spring steel. 8. The fuel assembly of claim 3 wherein said top nozzle has a generally vertical sidewall and said latch comprises a slot formed in said sidewall and a complementary tang formed in said skirt extension. 9. The fuel assembly of claim 8 wherein said sidewall further includes an aperture in the region of said slot for passage of a tool and said tang further comprises an upstanding flange portion adapted to be engaged by said tool. 10. The fuel assembly of claim 8 wherein said spacer grid skirt extension is formed of spring steel and said tang is operable to assume a first stable position engaging said slot, and a second position resiliently deflected from said slot. 11. A fuel assembly for a nculear reaction comprising: 12. The fuel assembly of claim 11 wherein top nozzle further comprises a transversely extending adapter plate having an aperture sized for clearance fitting at least a portion of the upper end of said control rod guide thimble and wherein said means for transferring compressive loads comprises a load collar fixed to the control rod guide thimble adjacent the upper end thereof and radially dimentioned to bear against the adapter plate when said top nozzle is lowered onto said control rod guide thimble whereby the upper end of the control rod guide thimble is clearance fitted into said aperture. 13. The fuel assembly of claim 11 wherein said top nozzle has a sidewall and said top spacer grid further comprises a longitudinally extending grid skirt extension extending towards said sidewall, and means for resiliently latching said grid skirt extension to said sidewall. 14. The fuel assembly of claim 13 wherein said latching means comprises an aperture formed in said grid skirt extention and a resiliently biased locking pin attached to said top nozzle for capturing said grid skirt extension at said grid skirt extension aperture wherein tensive loads on said fuel assembly are transferred from said top nozzle to the top spacer grid through the grid skirt extension. 15. The fuel assembly of claim 13 wherein said grid skirt extension is formed of resilient material and said latching means comprises a tang formed at an end of said grid skirt extension, and a complementary slot formed in said sidewall for accepting said tang, said grid skirt extension being movable between a first stable position wherein said tang engages said slot and tensile loads on the fuel assembly are transferred from top nozzle to the top spacer grid through the grid skirt extension and a second resiliently deformed position wherein a clearance is formed between said tang and said slot and said top nozzle can be freely removed from said fuel assembly. 16. A method of assembling and disassembling a top nozzle of a fuel assembly having a guide thimble with an upper end, a top spacer grid, and a plurality of upstanding fuel rods, comprising the steps of: 17. The method of claim 16 wherein said means for supporting compressive loads comprises a load collar attached to the guide thimble adjacent the upper end thereof and wherein said top nozzle comprises an adapter plate having an aperture sized for clearance fitting the upper end of said guide thimble, and said step of lowering further comprises lowering said adapter plate aperture onto the upper end of the guide thimble until the adapter plate bears on said load collar. 18. The method of claim 16 wherein said top spacer grid includes a grid skirt extension having an aperture therein and said top nozzle includes a resiliently biased locking pin and said step of latching further comprises: 19. The method of claim 18 further comprising the steps of: 20. The method of claim 16 wherein said top spacer grid includes a grid skirt extension having a locking tang and said top nozzle includes a sidewall having a slot for receiving said locking tang and said step of latching comprises: 21. The method of claim 20 wherein said top nozzle sidewall further comprises an aperture through said slot for accepting a release and lift tool and further comprising the steps of: