Patent Number: 
Section: claims

1. A method of repairing a weld connection in a jet pump diffuser using a weld repair device including a lower ring section and an upper ring section, the method comprising:forming pockets in an exterior surface of the diffuser on opposite sides of the weld to be repaired;fitting a plurality of grippers into a corresponding plurality of aligned gripper slots in the lower ring section and the upper ring section, wherein at least one of the gripper slots and the grippers defines cam surfaces shaped to drive the grippers radially inward as the lower and upper ring sections are drawn toward each other;placing the lower ring section and the upper ring section around a circumference of the diffuser on opposite sides of the weld, respectively, with lugs on the grippers engaging the pockets; andtightening connector bolts secured between the lower ring section and the upper ring section to draw the lower and upper ring sections toward each other,wherein the step of forming pockets is practiced by selecting pocket locations above and below the weld that result in no relative differential expansion between the weld repair device and the jet pump diffuser. 2. A method of repairing a jet pump diffuser weld, the method comprising:forming pockets in an exterior surface of the diffuser on opposite sides of a weld to be repaired;fitting a lower ring section and an upper ring section entirely around a circumference of the diffuser on opposite sides of the weld to be repaired;forming a plurality of aligned gripper slots in intermittent positions in an inner circumference of the lower and upper ring sections;fitting a corresponding plurality of grippers into the gripper slots facing radially inward toward the diffuser;forming the grippers with double-tapered cam surfaces respectively engaging the lower ring section and the upper ring section, the double-tapered cam surfaces being tapered radially outward from axially distal ends of the grippers toward a central apex to drive the grippers radially inward as the lower and upper ring sections are drawn toward each other;providing the grippers with engaging lugs shaped to fit in the pockets formed on the opposite sides of the weld; andtightening a plurality of connector bolts secured between the lower ring section and the upper ring section to thereby draw the lower and upper ring sections toward each other. 3. A method according to claim 2, wherein the method is performed in situ in a shroud to vessel annulus in a boiling water nuclear reactor. 4. A method according to claim 2, wherein the forming step is practiced by electric discharge machining the diffuser exterior surface. 5. A method according to claim 4, further comprising polishing the diffuser exterior surface subjected to electric discharge machining. 6. A method according to claim 2, wherein the forming pockets step is practiced by forming pockets comprising multiple grooves. 7. A method according to claim 2, wherein the step of forming the gripper slots is practiced by forming the gripper slots with angled surfaces as the cam surfaces engaging the tapered surfaces of the grippers. 8. A method according to claim 2, wherein if the opposite sides of the weld in the diffuser exterior surface in which the pockets are formed are of different materials, the method further comprises selecting a material of the grippers such that its coefficient of thermal expansion falls between coefficients of thermal expansion of the different materials. 9. A method of repairing a jet pump diffuser weld, the method comprising:forming pockets in an exterior surface of the diffuser on opposite sides of a weld to be repaired;fitting a lower ring section and an upper ring section entirely around a circumference of the diffuser on opposite sides of the weld to be repaired;forming a plurality of aligned gripper slots in an inner circumference of the lower and upper ring sections;fitting a corresponding plurality of grippers into the gripper slots facing radially inward toward the diffuser;forming the grippers with double-tapered cam surfaces respectively engaging the lower ring section and the upper ring section, the double-tapered cam surfaces being tapered radially outward from axially distal ends of the grippers toward a central apex to drive the grippers radially inward as the lower and upper ring sections are drawn toward each other;providing the grippers with engaging lugs shaped to fit in the pockets formed on the opposite sides of the weld; andtightening a plurality of connector bolts secured between the lower ring section and the upper ring section to thereby draw the lower and upper ring sections toward each other,wherein the step of forming pockets is practiced by selecting pocket locations above and below the weld that result in no relative differential expansion between weld repair components and the diffuser. 10. A method of repairing a weld in a thin wall welded pipe, the method comprising:fitting a lower ring section and an upper ring section entirely around a circumference of the thin wall welded pipe on opposite sides of a weld to be repaired;fitting a plurality of grippers into aligned gripper slots formed intermittently in an inner circumference of the lower and upper ring sections, wherein the step of fitting the plurality of grippers is practiced such that the plurality of grippers face radially inward toward the thin wall welded pipe, wherein the grippers include double-tapered cam surfaces respectively engaging the lower ring section and the upper ring section, the double-tapered cam surfaces being tapered radially outward from axially distal ends of the grippers toward a central apex to drive the grippers radially inward as the lower and upper ring sections are drawn toward each other;securing a plurality of connector bolts between the lower ring section and the upper ring section; andtightening the connector bolts to draw the lower and upper ring sections toward each other. 11. A weld repair method according to claim 10, wherein the opposite sides of the weld comprise different materials, the method further comprising selecting a material of the grippers such that its coefficient of thermal expansion falls between coefficients of thermal expansion of the different materials. 12. A weld repair method according to claim 10, wherein the pipe on one side of the weld is cylindrical and on an opposite side of the weld is conical constituting a shape change, the method further comprising configuring the lower and upper ring sections and the grippers to accommodate the shape change. 13. A weld repair method according to claim 10, further comprising fitting engaging lugs of the grippers into pockets formed in an exterior surface of the thin wall welded pipe on the opposite sides of the weld.