Welding device

The invention claimed is: 1. A welding device for welding outer peripheral edges of two irregular shaped plates which are overlapped, and the welding device comprising: a rotary table to which the two irregular shaped plates in an overlapped state are fixed; a torch unit, including a welding torch positioned to face the outer peripheral edges of the two irregular shaped plates fixed to the rotary table; an after-shielding part, positioned downstream of the welding torch in a rotational direction of the rotary table and disposed on the welding torch, the after-shielding part having a plurality of nozzles arranged along the rotational direction and configured to jet a shielding gas to the outer peripheral edges, the plurality of nozzles including a first nozzle positioned upstream in the rotational direction and a second nozzle positioned downstream of the first nozzle in the rotational direction; a nozzle actuator, disposed on the welding torch and configured to rotationally move the second nozzle in a circumferential direction of the outer peripheral edges; and a controller, configured to control an orientation of the nozzle in a direction of decreasing a distance at which the shielding gas jetted from the second nozzle reaches the outer peripheral edges welded by the welding torch. 2. The welding device according to claim 1 , wherein the controller has a nozzle posture map in which the orientation of the second nozzle is described by a coordinate, at least for each of regions having different curvatures of the outer peripheral edges, in a two-dimensional coordinate system whose origin is a rotation center of the two irregular shaped plates, and wherein the controller is configured to control the orientation of the second nozzle based on the nozzle posture map. 3. The welding device according to claim 2 , wherein, in the nozzle posture map, the orientation of the second nozzle is represented by an angle between an axis of the second nozzle and a tangential line of the outer peripheral edges facing the second nozzle. 4. The welding device according to claim 1 , wherein the nozzle actuator includes an air cylinder, having a piston rod rotatably attached to the second nozzle. 5. The welding device according to claim 1 , further comprising: a linkage mechanism, configured to bring the second nozzle into close proximity to the outer peripheral edges with change in the orientation of the second nozzle by the nozzle actuator. 6. The welding device according to claim 5 , wherein the first nozzle is attached to the linkage mechanism, and the first nozzle is rotationally moved by the linkage mechanism in an identical direction to the second nozzle with change in the orientation of the second nozzle. 7. The welding device according to claim 1 , further comprising: a pair of heat-resistant covers, being disposed on the plurality of nozzles, and the heat resistant covers being oriented, so that the shielding gas jetted from the nozzles crosses front and rear surfaces of the irregular shaped plates and covering a shielding-gas-jetting space from opposite sides. 8. The welding device according to claim 7 , wherein a nozzle port of the nozzle has a rectangular cross-section, and wherein the heat-resistant covers are attached to an outer surface of a partition wall defining the rectangular cross-section and positioned in a direction along the outer peripheral edges.