Pipeline weld repairing method and apparatus

The invention claimed is: 1. A method of repairing a circumferential weld joint formed between two pipe sections in a pipeline, wherein the method comprises the steps of identifying a defective weld region in the weld joint, the weld joint having a surface and wherein identifying the defective weld region in the weld joint comprises identifying a defect located beneath the surface of the weld joint, providing a weld excavating machine comprising a weld excavating tool and a tool guiding apparatus, arranging the tool guiding apparatus in fixed relation to the pipeline, guiding the weld excavating tool around the pipe and along the weld joint by means of the tool guiding apparatus and using the weld excavating tool to remove material from the defective weld region, thereby forming an excavation, and using a welding apparatus to weld the excavation and fill the excavation with weld material. 2. A method according to claim 1 , wherein the weld excavating machine comprises a plurality of modular parts, there being no more than three parts having a mass of greater than 10 Kg and no single modular part having a mass greater than 35 Kg. 3. A method according to claim 1 , wherein the excavation formed is such that immediately before the step of using the welding apparatus to weld the excavation, the excavation has opposing side walls and a base. 4. A method according to claim 1 , wherein the excavation formed is such that immediately before the step of using the welding apparatus to weld the excavation, the excavation has opposing side walls which are parallel for the majority of their depth. 5. A method according to claim 4 , wherein the side walls where parallel are separated by a distance of between 3 mm and 15 mm. 6. A method according to claim 1 , wherein the step of using the weld excavating tool to remove material is performed by mechanically removing material. 7. A method according to claim 1 , wherein the step of using the weld excavating tool to remove material is performed by progressively removing material by means of reciprocating the excavating tool over the defective weld region. 8. A method according to claim 1 , wherein the method is performed whilst the pipeline is subjected to a tension load greater than 100 kN. 9. A method according to claim 1 , wherein the method is performed during a method of laying a pipeline at sea. 10. A method according to claim 1 , wherein the step of using the welding apparatus to weld the excavation is performed by means of using at least one externally mounted automated, or at least semi-automated, welding head comprising at least one welding torch. 11. A method according to claim 1 , wherein the step of using the welding apparatus to weld the excavation is performed by means of driving and automatically guiding at least one welding torch around the pipe. 12. A method according to claim 1 , wherein the step of using the welding apparatus includes guiding the welding apparatus around the pipe and along the weld joint by means of the same tool guiding apparatus that is used to guide weld excavating tool around the pipe. 13. A method according to claim 1 , wherein the step of using the welding apparatus to weld the excavation is assisted by means of an automatic welding voltage control unit that controls the welding voltage during welding. 14. Repair apparatus for repairing a weld joint between pipe section in a pipeline that have been welded together, the apparatus comprising (a) NDT equipment for detecting a weld defect, wherein the weld joint has a surface and the NDT equipment is configured to identify a defect located beneath the surface of the weld joint; and (b) a weld excavating machine comprising a tool guiding apparatus, on which a mechanical weld excavating tool is mounted; and a stop mechanism for selecting a depth of excavation into the pipe wall, the stop mechanism being arranged to allow selection of a depth of excavation that is short of cutting through the pipe wall wherein the tool guiding apparatus is arranged for fixing to a pipeline; the mechanical weld excavating tool is mounted and guided around the pipes in a circumferential direction; and the weld excavating machine is suitable for use in repairing a circumferential weld joint formed between two pipe sections in a pipeline, and is arranged to excavate into the pipes at a preselected circumferential region around the pipes corresponding to the region of the weld defect detected by the NDT equipment. 15. Repair apparatus according to claim 14 , wherein the weld excavating machine is arranged to be dismantled into a plurality of modular parts, there being no more than three parts having a mass of between 10 Kg and 35 Kg and no single modular part having a mass greater than 35 Kg. 16. Repair apparatus according to claim 15 , wherein the weld excavating machine includes a first modular part having a mass of between 10 Kg and 35 Kg and a second modular part having a mass of between 10 Kg and 35 Kg, wherein the second modular part is arranged to transport and guide the first modular part around the pipes, and the first modular part comprises the weld excavating tool. 17. Repair apparatus according to claim 14 , wherein the mechanical weld excavating tool includes a rotatable cutter arranged to rotate and to cut a vertically walled channel. 18. A weld repair system comprising repair apparatus according to claim 14 , and a welding apparatus, wherein the weld repair system is arranged to perform a method of repairing a circumferential weld joint formed between two pipe sections in a pipeline, the method comprising the steps of using the NDT equipment to identify a defective weld region in the weld joint, arranging the tool guiding apparatus in fixed relation to the pipeline, guiding the weld excavating tool around the pipe and along the weld joint by means of the tool guiding apparatus and using the weld excavating tool to remove material from the defective weld region, thereby forming an excavation, and using the welding apparatus to weld the excavation and fill the excavation with weld material. 19. A weld repair system comprising repair apparatus according to claim 14 and a welding apparatus suitable for welding within an excavation created by the excavating machine. 20. A weld repair system according to claim 19 , wherein the welding apparatus includes at least one externally mountable automated, or at least semi-automated, welding head comprising at least one welding torch. 21. A weld repair system according to claim 19 , wherein the welding apparatus is adapted to be mounted on and guided by the tool guiding apparatus. 22. A weld repair system according to claim 19 , wherein the welding apparatus includes an automatic welding voltage control unit for controlling the welding voltage during welding. 23. A method for repairing a weld joint between pipe sections when laying pipelines underwater at sea, the weld joint having a surface and a defective weld region that includes a defect located beneath the surface of the weld joint, wherein the method comprises the steps of: providing a weld excavating machine comprising a weld excavating tool and a tool guiding apparatus, guiding the weld excavating tool by the tool guiding apparatus, using the weld excavating tool to remove material from the defective weld region, thereby forming an excavation, and using a welding apparatus to weld the excavation and fill the excavation with weld ma