Patent Number: 051695944
Section: claims

1. A method of remotely installing or removing a nozzle dam in a nuclear steam generator having a head, a manway penetrating the head, a nozzle penetrating the head, a manipulator having a free end in the head including a clamp member for holding an inner nozzle dam segment while outer nozzle dam segments are secured thereto, or detached therefrom, said dam segments sized to pass through the manway and each having means for engaging its adjacent segments thereon for assembly and securement by components into a dam subassembly, or disassembly, said manipulator mounted and arranged for translating the dam subassembly within the head until the dam subassembly seats within the nozzle to be locked and radially secured therein, or released therefrom, by subassembly mounted remotely activated radial pins, said method characterized by the steps of: providing and using a tool set having a plurality of elongated tools for engagement and disengagement with said dam segments and with components for securement, thereby to assemble or disassemble and to secure or detach the segments during assembly into or disassembly of said dam subassembly;  said step of providing and using said tool set of elongated tools including steps of physical manipulation of the elongated tools of the set from outside the head through said manway to minimize exposure of the tool operator to radiation from within the head and to avoid the necessity of the operator to enter the head;  aligning said segments relative to each other for sliding movement into or out of assembled position during manipulation of the elongated tools; and,  securing or detaching said segments in or from proper aligned position to form or disassemble a dam subassembly secured by components of said dam subassembly. 2. The method of claim 1 in which the step of providing and using a tool set includes providing and using an elongated bifurcated torquing tool to apply torque to move one segment relative to another for aligning the segments for resulting easier relative sliding movement. 3. The method of claim 1 in which the step of providing and using a tool set includes the step of providing and using an elongated tool for operation of the components used in the dam subassembly for securing or detaching the dam segments in assembled relation. 4. The method of claim 3 in which the step of providing and using an elongated tool for operation of the components used in the dam subassembly for securing or detaching the dam segments in assembled relation includes initially providing the segments with rib mounted spring loaded camlock components for use in securement of the segments together into a dam subassembly, said camlocks including levers oriented generally parallel to and spaced from a ribbed segment surface to face the inside of the head, some of said ribs creating the segment interfaces and some of said ribs transverse thereto for stiffening said subassembly, and said elongated tool for operation of the components being manipulated during use over and between said ribs to engage said levers to operate said rib mounted spring loaded camlock components for use in securement or detachment of the segments into or from a dam subassembly. 5. The method of claim 4 in which the step of providing and using an elongated tool includes providing a tool having an elongated shaft portion with a handle end and an opposite lever engaging generally T-shaped end with the stem of the T-shaped end offset from the shaft axis to permit operation of the rib mounted spring loaded camlock components for securement of the segments into or detachment from, a dam subassembly by engagement and manipulation of the T-shaped end against the lever despite the lever being somewhat behind the segment ribs from the manway. 6. The method of claim 1 in which the step of providing and using a tool set includes the step of providing and using an elongated tool for disconnection of subassembly mounted remotely actuated radial pins including fluid lines which include quick-connects having push-pull operation for stem and body portion connection and disconnection by means of a spring biased body sleeve, said tool for disconnection including an offset and transverse body-straddling bifurcated end for engaging the end of said sleeve at one end of a shaft portion and a handle end at the opposite end of a shaft portion, said offset providing a portion with an axis substantially parallel to said stem and body, such that by engagement and physical manipulation of the bifurcated end against the end of said sleeve, from the handle end, the quick-connect pull operation can be accomplished to disconnect the subassembly mounted remotely actuated radial pins' fluid lines. 7. The method of claim 1 in which the nozzle dam subassembly installing or removing includes the steps of installing on, or removing from, a subassembly, a sealing diaphragm having peripheral tabs tensionable by means of openings in the tabs into hooked engagement with projections spaced on the subassembly peripheral margin to face the inside of the head, the tabs being tensioned for hooking and unhooking operations by providing and using an elongated tool from said tool set having an elongated shaft portion with a transversely extending hook end and an opposite handle end for manipulation from outside said head, said tensioning including the step of inserting the hook end in a tab opening to provide hooking or unhooking clearance within a tab opening for movement of the tab into or out of hooked engagement with one of said projections. 8. The method of claim 7 in which there are multiple tab openings in the tab. 9. The method of claim 8 in which the opening engaged by the hooked end of the tool to which the tension of the tab is applied, is closer to the tab end than the tab opening that creates the hooked tension connection of the diaphragm to the subassembly.