WELDING PORTION INSPECTION DEVICE AND INSPECTION METHOD THEREFOR

摘要

Welding laser beam is irradiated along welding trajectories set in works, or inspection laser beam is irradiated along scanning trajectories set in a molten pool in the works which has been melted by the welding laser beam. Return light including reflected light from the molten pool in the work, evaporation luminescence generated by melting/evaporating of the work and thermal radiation light radiated from the molten pool in the work is received. A fundamental frequency is detected by conducting Fourier transform on the intensity of the received return light and a welding condition of the welding portion in the work is inspected based on an amplitude under the fundamental frequency and an amplitude under a frequency that is twice as high as the fundamental frequency.

主权项

1. A welding portion inspection device configured to inspect a welding condition of a welding portion formed when a plurality of works is welded together, the welding portion inspection device comprising:
an irradiation portion configured to irradiate welding laser beam along a welding trajectory set in works or irradiate inspection laser beam along a scanning trajectory set in a molten pool of the work melted by the welding laser beam so as to weld together the works; a light receiving portion configured to receive return light including at least one of reflected light from the molten pool in the work by the welding laser beam or the inspection laser beam irradiated by the irradiation portion, evaporation luminescence which is generated by evaporating of the work, and thermal radiation light radiated from the molten pool in the work; and an inspecting portion configured to inspect the welding condition of the welding portion in the work based on an amplitude under a fundamental frequency which is detected by conducting Fourier transform on intensity of the return light received by the light receiving portion and another amplitude under a frequency that is twice as high as the fundamental frequency, wherein the irradiation portion irradiates the welding laser beam along an identical welding trajectory several times or irradiates the inspection laser beam along an identical scanning trajectory several times.