Patent Number: 046735445
Section: claims

1. In a nuclear reactor installation having a fuel assembly with spacers holding a multiplicity of nuclear fuel rods disposed parallel to one another in a geometric array, a pushing device for simultaneously sliding from the spacers a plurality of fuel rods disposed in a pattern, said pushing device comprising: a plurality of axially movable push rods equal in number to the plurality of fuel rods to be simultaneously removed from the spacers, said push rods being disposed parallel to each other in the pattern in which said plurality of fuel rods is arranged;  first mounting means including a pressure plate secured to said push rods at one end thereof for supporting said push rods and further including a guide plate disposed at an opposite end of said push rods in a disengaged state of the pushing device for guiding said push rods during operating of said pushing device, said guide plate having a plurality of bores at least equal in number to said push rods and with substantially the same cross sectional area and shape as said push rods, said bores being disposed in the same pattern as said push rods, said push rods traversing said bores;  second mounting means, including a base plate on a side of said pressure plate opposite said guide plate and guide rods secured to said base plate and said guide plate, for slidably securing said pressure plate for motion in a direction parallel to said push rods;  third mounting means connected to said base plate and said guide plate for supporting same in an operating position juxtaposed to the fuel assembly;  drive means operatively connected to said base plate and said pressure plate for moving said pressure plate relative to said base plate, thereby sliding said plurality of fuel rods from said spacers by means of said plurality of push rods; and  locking means connected to said push rods for preventing motion of at least any one push rod upon the exceeding of a threshold pressure by the force transmitted by said one push rod. 2. The pushing device defined in claim 1, wherein said first mounting means includes a mounting plate slidably attached to said guide rods between said pressure plate and said guide plate, said mounting plate having a plurality of bores at least equal in number to said push rods and with substantially the same cross sectional area and shape as said push rods, the bores in said mounting plate being disposed in substantially the same pattern as said push rods, said push rods traversing the bores of said mounting plate. 3. The pushing device defined in claim 2 wherein said drive means includes at least one threaded spindle traversing said base plate and connected to said pressure plate, a threaded nut engaging said spindle and supported on said base plate, and a rotary power source operatively connected to said nut. 4. The pushing device defined in claim 3 wherein said locking means includes a switch operatively connected to said drive means for disengaging said drive means upon the exceeding of said threshold pressure by the force transmitted by said one push rod, said first mounting means including spring means engaging said pressure plate and said push rods in part for transmitting compressive force from said pressure plate to said push rods and in part for determining said threshold pressure. 5. The pushing device defined in claim 4 wherein said third mounting means includes transport means for alternately shifting said push rods, said first mounting means and said second mounting means into and out of said operating position. 6. The pushing device defined in claim 4 wherein said third mounting means includes a tubular mounting fastened to said base plate at a substantially central location thereon. 7. The pushing device defined in claim 3 wherein each push rod is rigidly connected to said pressure plate by means of a shear pin, said shear pin forming a component of said first mounting means and of said locking means. 8. The pushing device defined in claim 7 wherein said third mounting means includes transport means for alternately shifting said push rods, said first mounting means and said second mounting means into and out of said operating position. 9. The pushing device defined in claim 7 wherein said third mounting means includes a tubular mounting fastened to said base plate at a substantially central location thereon. 10. The pushing device defined in claim 2 wherein said drive means includes a spindle rotatably mounted to said base plate and said guide plate and extending substantially parallel to said push rods, said pressure plate being provided with a threaded bore traversed by said spindle, said spindle having an external thread operatively engaging said threaded bore. 11. The pushing device defined in claim 10 wherein said locking means includes a switch operatively connected to said drive means for disengaging said drive means upon the exceeding of said threshold pressure by the force transmitted by said one push rod, said first mounting means including spring means engaging said pressure plate and said push rods in part for transmitting compressive force from said pressure plate to said push rods and in part for determining said threshold pressure. 12. The pushing device defined in claim 11 wherein said third mounting means includes transport means for alternately shifting said push rods, said first mounting means and said second mounting means into and out of said operating position. 13. The pushing device defined in claim 11 wherein said third mounting means includes a tubular mounting fastened to said base plate at a substantially central location thereon. 14. The pushing device defined in claim 10 wherein each push rod is rigidly connected to said pressure plate by means of a shear pin, said shear pin forming a component of said first mounting means and of said locking means. 15. The pushing device defined in claim 1 wherein said drive means includes at least one threaded spindle traversing said base plate and connected to said pressure plate, a threaded nut engaging said spindle and supported on said base plate, and a rotary power source operatively connected to said nut. 16. The pushing device defined in claim 1 wherein said locking means includes a switch operatively connected to said drive means for disengaging said drive means upon the exceeding of said threshold pressure by the force transmitted by said one push rod, said first mounting means including spring means engaging said pressure plate and said push rods in part for transmitting compressive force from said pressure plate to said push rods and in part for determining said threshold pressure. 17. The pushing device defined in claim 1 wherein said third mounting means includes transport means for alternately shifting said push rods, said first mounting means and said second mounting means into and out of said operating position. 18. The pushing device defined in claim 1 wherein each push rod is rigidly connected to said pressure plate by means of a shear pin, said shear pin forming a component of said first mounting means and of said locking means. 19. The pushing device defined in claim 1 wherein said drive means includes a spindle rotatably mounted to said base plate and said guide plate and extending substantially parallel to said push rods, said pressure plate being provided with a threaded bore traversed by said spindle, said spindle having an external thread operatively engaging said threaded bore.