Patent Number: 
Section: claims

1. Apparatus, comprising:a remotely installed fuel closure system including:a flange cover assembly configured for releasable attachment to a fixed flange on a fuel transfer tube in a nuclear reactor to sealingly cover the opening of the fuel transfer tube;an installation/removal tool frame weldment configured with tool hook weldments for releasable attachment to a corresponding lug weldment receiver located on the containment side of said flange cover assembly;said flange cover assembly further including a plurality of axially oriented J-bolt spring assemblies each comprising a bolt foot, a bolt shank, a capture nut at one end of the bolt shank opposite the bolt foot and a stack of disk springs, said J-bolt assemblies arranged in a spaced relationship with respect to one another and circumferentially distributed along the periphery of the flange cover assembly, said J-bolt shank passing axially through said flange cover such that said bolt foot is on the fuel transfer side of said flange cover and said stacked disk springs are sandwiched between said capture nut and the containment side face of said flange cover;said bolt foot further being sized and arranged for rotation between an open non-clamping operative position and a closed clamping operative position, and for axial movement in a direction toward and away from the containment side face of said flange cover in response to said stack of disk springs being compressed and relaxed;said installation/removal tool frame weldment further comprising a tool hook weldment frame and a spring compression frame arranged for limited lateral movement with respect to one another between a tool retracted operative position and a tool actuated operative position. 2. The apparatus as set forth in claim 1 further comprising at least one dual acting hydraulic cylinder configured and arranged between said tool hook weldment frame and said spring compression frame to extend the cylinder piston in a direction to exert a force on the spring compression frame to compress the J-bolt disk springs in the tool actuated operative position. 3. The apparatus as set forth in claim 2 further comprising simultaneously compressing the plurality of J-bolt disk springs in the tool actuated operative position. 4. The apparatus as set forth in claim 1 further comprising at least one dual acting hydraulic cylinder configured and arranged between said tool hook weldment frame and said spring compression frame to retract the cylinder piston in a direction to exert a force on the spring compression frame in a direction to allow the J-bolt disk springs to relax in the tool retracted operative position. 5. The apparatus as set forth in claim 2 further comprising a hydraulic system for pressurizing said dual acting hydraulic cylinder. 6. A remotely installed fuel transfer system comprising:a flange cover assembly having a central axis and configured for releasable attachment to a fixed flange on a fuel transfer tube to sealingly cover an opening of the fuel transfer tube, wherein the flange cover assembly comprises a fuel transfer side configured to face the fixed flange, and a containment side positioned opposite the fuel transfer side;an installation/removal tool frame weldment configured with tool hook weldments for releasable attachment to a corresponding lug weldment receiver located on the containment side of said flange cover assembly;wherein said flange cover assembly further comprises a plurality of axially oriented J-bolt spring assemblies each positioned at least substantially parallel to the central axis of the flange cover and comprising a bolt foot, a bolt shank having an axial axis, a capture nut at one end of the bolt shank opposite the bolt foot and a stack of disk springs, said J-bolt assemblies arranged in a spaced relationship with respect to one another and circumferentially distributed along the periphery of the flange cover assembly, said J-bolt shank passing axially through said flange cover such that said bolt foot is on the fuel transfer side of said flange cover and said stacked disk springs are sandwiched between said capture nut and the containment side face of said flange cover;said bolt foot further being sized and arranged for rotation about the axial axis of the bolt shank between an open non-clamping operative position and a closed clamping operative position, and for axial movement along the axial axis of the bolt shank in a direction toward and away from the containment side face of said flange cover in response to said stack of disk springs being compressed and relaxed;said installation/removal tool frame weldment further comprising a tool hook weldment frame and a spring compression frame arranged for limited lateral movement with respect to one another between a tool retracted operative position and a tool actuated operative position.