Patent Number: 052689484
Section: claims

1. A locking assembly for permitting the easy removal of fuel rods from a nuclear power reactor fuel bundle, said locking assembly including: (a) a plurality of guide tubes extending upwardly from the fuel bundle;  (b) a support plate removably mounted on said guide tubes to permit removal of said fuel rods when said support plate is removed from said guide tubes, said support plate being formed with an opening and being formed with a slot extending outwardly from said opening;  (c) a collar assembly mounted at the upper extending end of each said guide tube for permitting selective removal of said support plate from said guide tubes, said collar assembly including a base portion and first and second locking portions mounted on said base portion for movement relative to one another, one of said locking portions having a projection formed thereon corresponding generally in shape to said support plate slot, and one of said locking portions being movable between a first position at which said projection is openly aligned with said slot to permit removal of said support plate and a second position at which said projection is not openly aligned with said slot whereby said plate is locked in place on said guide tubes; and  (d) resilient means associated with said collar assembly, said resilient means being located on one of said locking portions for resiliently engaging a surface of the collar assembly with sufficient force to maintain said movable locking portion at said second locking position thereof, and for releasing said engaged surface when a predetermined torsional force is applied to said movable locking portion, thereby permitting movement of said movable locking portion to said first aligned position thereof at which said support plate can be removed from said guide tubes.  (a) a plurality of guide tubes extending upwardly from the fuel bundle;  (b) a support plate removably mounted on said guide tubes to permit removal of said fuel rods when said support plate is removed from said guide tubes, said support plate being formed with an opening and being formed with a slot extending outwardly from said opening;  (c) a collar assembly mounted at said extending end of said guide tube for permitting selective removal of said support plate from said guide tubes, said collar assembly including a base portion, a first locking portion arranged for rotational movement with respect to said base portion and having a body portion formed with a slot which corresponds in shape to said slot in said support plate, and a second locking portion fixed to said base portion and including a projection extending outwardly therefrom, said first locking portion being disposed intermediate said projection and said support plate and being rotatable between a first position at which said slot therein is openly aligned with said slot in said support plate to permit said support plate to pass over said projection for removal, and a second position at which said slot therein is out of alignment with said slot in said support plate and said body portion is disposed between said projection and said support plate to prevent removal of said support plate over said projection; and  (d) resilient means for resiliently maintaining said first locking portion at said second position thereof and for permitting movement of said first locking portion to said first position thereof when a predetermined torsional force is applied to said first locking portion.  (a) a plurality of guide tubes extending upwardly from the fuel bundle;  (b) a support plate removably mounted o said guide tubes to permit removal of said fuel rods when said support plate is removed from said guide tubes, said support plate being formed with an opening and being formed with a slot extending outwardly from said opening;  (c) a collar assembly mounted at said extending end of each said guide tube for permitting selective removal of said support plate from said guide tubes, said collar assembly including a base portion fixed to said guide tube, and a locking portion rotationally mounted o said base portion and including a projection corresponding generally in shape to said slot in said support plate, said locking portion being rotatable between a first position at which said projection is openly aligned with said support plate slot to permit removal of said support plate and a second position at which said projection overlies said support plate to prevent removal thereof, and said locking portion being formed with an interior annular surface; and  (d) resilient means associated with said collar assembly for resiliently locking said locking portion against movement when it is at said second position thereof, said resilient means including a spring biased element disposed within and adjacent said interior engagement surface of said locking portion for resiliently engaging said fixed base portion with a sufficient force to normally maintain said locking portion at said first position thereof and for releasing said locking portion when a predetermined torsional force is applied thereto.  (a) a plurality of guide tubes extending upwardly from the fuel bundle;  (b) a support plate removably mounted on said guide tubes to permit removal of said fuel rods when said support plate is removed from said guide tubes, said support plate being formed with an opening and being formed with a slot extending outwardly from said opening;  (c) a collar assembly mounted at the extending end of each said guide tube for permitting selective removal of said support plate from said guide tubes, said collar assembly including a base portion, a movable locking portion rotatably mounted on said base portion and being formed with a projection corresponding generally in shape to said support plate slot, and a retaining member fixed to said guide tube maintaining said movable locking portion in place on said base portion, said movable locking portion being movable between a first position at which said projection is aligned with said support plate slot to permit removal of said support plate and a second position at which said projection overlies said support plate to prevent removal thereof; and  (d) resilient means for resiliently maintaining said movable locking portion at said second position thereof and for permitting movement of said movable locking portion to said first position thereof when a predetermined torsional force is applied thereto, said resilient means including cooperating portions of both said movable locking portion and said retaining member. 2. A locking assembly as defined in claim 1 wherein one of said locking portions includes an annular body portion presenting an annular engagement surface, and said resilient means resiliently locks said movable locking portion against movement by engagement at said annular engagement surface. 3. A locking assembly as defined in claim 2 wherein said resilient means includes a detent formed in said annular engagement surface of said movable locking portion, and a spring biased ear resiliently engaging said detent at said second locking position of said movable locking portion and disengaging said detent at said first position of said movable locking portion. 4. A locking assembly as defined in claim 3 wherein said resilient means includes a second detent formed in said annular engagement surface of said movable locking portion, and said spring biased ear engages said second detent at said first position of said movable locking portion. 5. A locking assembly as defined in claim 2 wherein said resilient means includes a fixed annular spring biased element disposed in slidable abutting relation with said annular engagement surface of said movable locking portion. 6. A locking assembly as defined in claim 5 wherein said annular spring biased element receives within its confines said movable locking portion, said annular engagement surface of said movable locking portion includes at least one detent formed therein, and said annular spring biased element includes a spring biased ear for resiliently engaging said detent at said second locking position of said movable locking portion. 7. A locking assembly as defined in claim 2 wherein said annular engagement surface is located at the interior face of said movable locking portion and includes a locking protrusion extending inwardly therefrom, and said resilient means includes a spring biased element received within said movable locking portion and being formed with an opening for receiving said inwardly extending protrusion for causing said spring biased element to move with said movable locking portion. 8. A locking assembly as defined in claim 2 wherein said first locking portion is said movable locking portion and is formed with a spring biased ear in said annular engagement surface, and said second locking portion is received within said first locking portion and is formed with at least one detent resiliently engaged by said spring biased ear at said second locking position of said first locking portion. 9. A locking assembly as defined in claim 2 wherein said first locking portion is said movable locking portion, and said second locking portion is fixed to said base portion and is formed with said projection, with said first locking portion being located intermediate said projection and said support plate and being formed with a second slot corresponding to said slot in said support plate, whereby said support plate can be removed when said first locking portion is moved to said first position at which said slot in said first locking portion is aligned with said slot in said support plate, and whereby said first locking portion can be moved to said second position at which said respective slots are not aligned and said support plate is locked against removal by said first locking portion being disposed between said projection and said support plate. 10. A locking assembly for permitting the easy removal of fuel rods from a nuclear power reactor fuel bundle, said locking assembly including: 11. A locking assembly as defined in claim 10 wherein said first locking portion includes an exterior annular engagement surface, and said resilient means also resiliently engages said annular engagement surface at said first position of said first locking portion. 12. A locking assembly as defined in claim 11 wherein said annular engagement surface includes at least two detents located at spaced location therein, and wherein said resilient means includes a spring biased ear resiliently engaging one of said detents when said first locking portion is at said first position thereof and resiliently engaging the other of said detents when said first locking portion is at said second position thereof. 13. A locking assembly as defined in claim 12 wherein said spring biased ear is formed at the interior annular surface of a locking cup member that receives said first locking portion and positions said exterior annular surface thereof adjacent said interior annular surface of said locking cup member. 14. A locking assembly for permitting the easy removal of fuel rods from a nuclear power reactor fuel bundle, said locking assembly including: 15. A locking assembly as defined in claim 14 wherein said annular surface of said locking portion has an inwardly extending protrusion and said spring biased element is a snap ring positioned within said locking portion for rotational movement therewith and formed with indentations for resiliently engaging said fixed base portion. 16. A locking assembly for permitting the easy removal of fuel rods from a nuclear power reactor fuel bundle, said locking assembly including: 17. A locking assembly as defined in claim 16 wherein said movable locking member includes an open interior annular wall portion, said retaining member includes an exterior annular wall portion disposed within and adjacent said open interior annular wall portion, and said resilient means includes a detent formed in said exterior annular wall portion and a spring biased ear formed in said interior annular wall portion, whereby said movable locking portion is normally resiliently maintained at said second position thereof when said spring biased ear is within said detent. 18. A locking assembly as defined in claim 17 wherein said interior annular wall of said movable locking portion is formed of deflectable metal and includes an indentation that is normally deflected inwardly to form said spring biased ear and that can be deflected outwardly when said predetermined torsional force is applied to said movable locking portion to move it from said second position to said first position. 19. A locking assembly as defined in claim 18 wherein said retaining member includes a radially projecting shoulder that extends over said interior annular wall portion of said movable locking portion to maintain it in place on said base portion, said shoulder being formed with at least one axial groove positioned therein to permit a tool to be pushed therethrough to form said spring biased ear in said movable locking member.