Patent Number: 063209225
Section: claims

1. A method of extracting elongated fuel rods having end plugs terminating in end caps from a nuclear fuel assembly employing an extractor tool having an inner rod, an outer tube coaxially about and axially movable relative to said inner rod and a collet at an end of said tool having end cap engaging sections positively pivotable by a camming action about a pin carried by the inner rod between an open position spaced from the end cap and a closed position engaging about said end cap, comprising the steps of: (a) inserting said extractor tool into the fuel assembly with said collet sections in a closed position;  (b) relatively displacing said inner rod and said tube in a first axial direction to positively cam and thereby pivot said collet sections about the pin into an open position;  (c) advancing the extractor tool into the fuel assembly to enable the open collet sections to straddle said end cap;  (d) relatively displacing said inner rod and said tube in a second opposite axial direction to positively cam and thereby pivot said collet sections about the pin into said closed position engaging about said end cap; and  (e) jointly displacing said inner rod and said tube in an axial direction to withdraw the engaged fuel rod from said fuel assembly.  (a) relatively displacing said inner rod and said tube in a first axial direction to positively cam and thereby pivot said collet sections about the pin into an open position  (b) relatively displacing the tool and fuel rod to enable the open collet sections to straddle said end cap of said first end plug;  (c) relatively displacing said inner rod and said tube in a second opposite axial direction to positively cam and thereby pivot said collet sections about the pin into said closed position engaging about said end cap;  (d) inserting said tool and engaged fuel rod axially into the fuel assembly with said collet sections in said closed position about said end cap; and  (e) inserting said second end plug into an opening in a tie plate of the fuel assembly. 2. A method according to claim 1 including, subsequent to step (c) and prior to step (d), engaging an end face of the inner rod against the end cap to position the tool and end plug relative to one another in an axial direction. 3. A method according to claim 1 including engaging an end of said inner rod against the end cap, and displacing a weight along said tool to impact said inner rod while engaged with the end cap against the end plug. 4. A method according to claim 1 wherein steps (b) and (d) include threading a drive element relative to said inner rod to axially displace said inner rod and said outer tube in the first and second axial directions. 5. A method according to claim 4 including maintaining said inner rod and said outer tube non-rotationally oriented relative to one another while said inner rod and said outer tube are axially displaced relative to one another. 6. A method of inserting an elongated fuel rod having a first end plug terminating in an end cap into a nuclear fuel assembly employing an insertion tool having an inner rod, an outer tube coaxially about and axially movable relative to said inner rod and a collet at an end of said tool having end cap engaging sections positively pivotable by a camming action about a pin carried by the inner rod between an open position spaced from the end cap and a closed position engaging about said end cap, the fuel rod having a second end plug at an end thereof opposite said first end plug, comprising the steps of: 7. A method according to claim 6 including displacing a weight along said tool to impact said inner rod while the collet sections remain engaged with the end plug to further insert the second end plug into the tie plate opening.