Patent Number: 054523346
Section: claims

1. A nuclear reactor fuel assembly for a pressurized water reactor comprising: (a) an upper tie plate;  (b) a lower tie plate;  (c) a plurality of substantially parallel fuel rods extending longitudinally;  (d) a spacer grid for supporting the plurality of fuel rods;  wherein the upper tie plate has a first portion adapted to form an alignment bore to receive a corresponding alignment pin of the upper core support plate of said pressurized water reactor to align the fuel assembly with respect to the upper core support plate;  wherein the first portion further includes means for disengaging from the upper tie plate so that the first portion is disengaged from the upper tie plate when a predetermined mechanical force is transmitted to the first portion, said force resulting from at least a portion of the weight of the fuel assembly being transmitted by the alignment pin being wedged against the alignment bore of the first portion.  and wherein the upper tie plate further includes a plurality of vertical sidewalls and at least one flange extending horizontally from one of the plurality of vertical sidewalls, and at least one of the plurality of sidewalls adapted to form a slot;  and wherein the break-away pin is at least two break-away pins, a first of the at least two break-away pins securing the tab of the corner post to the slot in the one of the plurality of sidewalls of the upper tie plate, and a second of the at least two break-away pins securing a second of the plurality of walls of the corner post to the flange of the upper tie plate.  wherein the upper tie plate further includes a plurality of vertical sidewalls, and at least one of the plurality of sidewalls adapted to form a groove to receive the rib of the corner post;  and wherein the break-away pin is at least two break-away pins, a first one of the at least two breakaway pins secures the corner post to one of the plurality of sidewalls of the upper tie plate.  (a) an upper tie plate;  (b) a lower tie plate;  (c) a control rod guide tube extending longitudinally between the upper tie plate and the lower tie plate;  (d) a plurality of substantially parallel fuel rods extending longitudinally;  (e) a spacer grid extending transversely to the at least one guide tube for supporting the plurality of fuel rods;  (f) a disengaging upper tie plate corner post adapted to form an alignment bore to receive a corresponding alignment pin of the upper core support plate of said pressurized water reactor to align the fuel assembly with respect to the upper core support plate;  wherein the corner post further includes a securing-disengaging means for securing the corner post to the upper tie plate and for disengaging from the upper tie plate so that the corner post is disengaged from the upper tie plate when a predetermined mechanical force is transmitted to the corner post, said force resulting from at least a portion of the weight of the fuel assembly being transmitted by the alignment pin being wedged within the alignment bore of the corner post. 2. A nuclear fuel assembly as in claim 1 wherein the upper tie plate is adapted to form a recess and wherein the first portion comprises a disengaging upper tie plate corner post adapted to be received in the recess formed in the upper tie plate. 3. A nuclear fuel assembly as in claim 2 wherein the means for disengaging comprises a break-away pin securing the corner post to the upper tie plate, the break-away pin fractures when the predetermined mechanical force results in shear stresses in the pin corresponding to less than the buoyance weight of the fuel assembly. 4. A nuclear fuel assembly as in claim 2 wherein the means for disengaging comprises a break-away pin securing the corner post to the upper tie plate, the break-away pin fractures when the predetermined mechanical force results in shear stresses in the pin corresponding to less than about 30% to about 45% of the buoyance weight of the fuel assembly. 5. A nuclear fuel assembly as in claim 3 wherein the disengaging upper tie plate corner post includes a plurality of walls which are adapted to conform to the recess in the upper tie plate, a first one of the plurality of walls further includes a tab; 6. A nuclear fuel assembly as in claim 2 wherein the means for disengaging comprises a break-away pin securing the corner post to the upper tie plate, the break-away pin fractures when the predetermined mechanical force results in tensile stresses in the pin corresponding to less than the buoyancy weight of the fuel assembly. 7. A nuclear fuel assembly as in claim 2 wherein the means for disengaging comprises a break-away pin securing the corner post to the upper tie plate, the break-away pin fractures when the predetermined mechanical force results in tensile stresses in the pin corresponding to less than about 30% to about 45% of the buoyancy weight of the fuel assembly. 8. A nuclear fuel assembly as in claim 6 wherein the disengaging upper tie plate corner post includes a plurality of walls which are adapted to conform to the recess in the upper tie plate, a first one of the plurality of walls further includes a rib; 9. A nuclear fuel assembly as in claim 8 wherein the upper tie plate includes a flange extending horizontally from one of the sidewalls, and a second one of the at least two break-away pins securing a second of the plurality of walls of the corner post to the flange of the upper tie plate. 10. A fuel assembly as in claim 9 wherein the first one of the at least two break-away pins extends longitudinally and secures the corner post to a one of the plurality of sidewalls of the upper tie plate. 11. A nuclear fuel assembly as in claim 10 wherein a second of the at least two break-away pins extends longitudinally and secures the corner post to a second one of the plurality of sidewalls of the upper tie plate. 12. A nuclear reactor fuel assembly for a pressurized water reactor comprising: 13. The fuel assembly as in claim 12 wherein the upper tie plate includes a flange extending horizontally from a sidewall of the tie plate, and the securing-disengaging means comprises at least one break-away pin for securing the corner post to the flange and which fractures when the predetermined mechanical force results in tensile stresses corresponding to less than the buoyance weight of the fuel assembly. 14. The fuel assembly as in claim 12 wherein the upper tie plate includes a flange extending horizontally from a sidewall of the tie plate, and the securing-disengaging means comprises at least one break-away pin for securing the corner post to the flange and which fractures when the predetermined mechanical force results in tensile stresses corresponding to about 30% to about 45% of the buoyance weight of the fuel assembly. 15. The fuel assembly as in claim 14 wherein the at least one break-away pin is at least two pins extending longitudinally from the corner post into the flange of upper tie plate.