Patent Number: 052157059
Section: claims

1. A gauge for measuring the centering forces exerted on fuel rods assembled in a nuclear fuel bundle by double-acting springs assembled with different pairs of ferrules in a bundle spacer, wherein each spring has a first resilient side acting in a first ferrule of each pair and a second resilient side acting in a second ferrule of each pair, said gauge comprising, in combination: A. an alignment rod for insertion into the first ferrule of a selected ferrule pair to simulate the presence of a fuel rod and thus load the first side of a spring assembled therewith; and  B. a probe for insertion into the second ferrule of the selected ferrule pair to simulate the presence of a fuel rod, said probe including a force responsive device mechanically coupled with the second side of the spring to indicate the centering force that would be exerted by the spring on a fuel rod inserted through the second ferrule. 2. The gauge defined in claim 1, wherein said alignment rod and said probe have effective diameters equal to a fuel rod nominal diameter. 3. The gauge defined in claim 2, which further includes a handle commonly mounting said alignment rod and said probe in parallel spaced relation. 4. The gauge defined in claim 3, wherein said force responsive device is a load cell. 5. The gauge defined in claim 4, wherein said load cell develops electrical signals proportional to spring force, said gauge further including means electrically connected with said load cell and responsive to said electrical signals for providing an indication of the force exerted by said second side of the spring. 6. The gauge defined in claim 2, wherein said probe further includes a body having an axis oriented substantially parallel with the axis of the second ferrule upon insertion therein and a plunger mounted by said body for movement transversely of said body axis and having a face simulating a peripheral surface portion of a fuel rod, said plunger face disposed in engagement with the second spring side. 7. The gauge defined in claim 6, wherein said probe further includes an elongated arm having first and second ends, said arm pivotally mounted intermediate said first and second ends to said probe body, said first arm end engaging said plunger and said second arm end engaging said force responsive device, whereby, the centering force exerted by the second side of the spring is transferred to said force responsive device by said arm. 8. The gauge defined in claim 7, wherein said force responsive device is a load cell. 9. The gauge defined in claim 8, wherein said load cell is threadedly engaged in a tapped bore formed in said probe body in transverse relation to said body axis to accommodate adjustment of the transverse position of said load cell and thus the transverse position of said plunger prior to engagement by the second side of the spring. 10. The gauge defined in claim 9, which further includes a handle commonly mounting said alignment rod and said probe in parallel spaced relation. 11. The gauge defined in claim 10, wherein said alignment rod is mounted to said probe body for limited floating movement relative thereto. 12. The gauge defined in claim 10, wherein said load cell develops electrical signals proportional to spring force, said gauge further including means electrically connected with said load cell and responsive to said electrical signals for providing an indication of the force exerted by said second side of the spring.