Patent Number: 
Section: claims

1. A method of refueling a pressurized water nuclear reactor having a pressure vessel; an upper removable head for sealably engaging an upper opening in the pressure vessel; a core having an axial dimension supported within the pressure vessel; a plurality of nuclear fuel assemblies supported within the core, at least two of the fuel assemblies having at least one instrumentation thimble extending axially therethrough; an upper internals assembly supported above the core and having axially extending instrumentation guide paths supported therethrough with each of the instrumentation thimbles that are configured to receive instrumentation through the upper internals assembly being aligned with one of the instrumentation guide paths; the upper internals assembly including an instrumentation grid assembly plate supported above and axially movable relative to a lower portion of the upper internals; at least two in-core instrumentation thimble assemblies respectively extending through a corresponding one of the instrumentation guide paths into a corresponding one of the instrumentation thimbles and retractable into the upper internals assembly when the instrumentation grid assembly plate is raised; each of the in-core instrumentation thimble assemblies having a signal output lead that is routed within the vicinity of the instrumentation grid plate to and through a penetration flange that fits between the removable head and the pressure vessel; and an electrical connector that connects each of the signal output leads from the at least two in-core instrumentation assemblies to an output cable that extends through the penetration flange to the exterior of the pressure vessel, the method comprising the steps of:lowering a water level in the pressure vessel below the penetration flange and the electrical connector;removing the upper removable head from the penetration flange;disconnecting the electrical connector which simultaneously disconnects each of the signal output leads associated with the at least two in-core instrumentation thimble assemblies from the penetration flange;axially raising the instrumentation grid assembly plate until the instrumentation thimble assemblies are above the core;exposing the core by removing the upper internals assembly; andrefueling the core. 2. The method of claim 1 wherein the disconnecting step simultaneously disconnects all of the instrumentation thimble assemblies from the penetration flange by disconnecting the electrical connector. 3. The method of claim 1 including the step of shielding the instrumentation thimble assemblies as the instrumentation thimble assemblies are raised out of the core. 4. The method of claim 1 including the step of sealing an open end of the electrical connector. 5. The method of claim 1 wherein the in-core instrumentation thimble assemblies are attached to the instrumentation grid assembly plate. 6. The method of claim 1 wherein the instrumentation guide paths include a telescoping sleeve that is attached to the instrumentation grid assembly plate and the raising step extends the telescoping sleeve. 7. The method of claim 1 wherein the head is removed before the water is lowered below the penetration flange and the electrical connector.