TH64553B - Welding area inspection apparatus and inspection methods for it, along with extraction sites for extraction of fluorescence from vaporization and heat radiation. - Google Patents

Abstract

The method of inspection of the welding area consists of projecting a lever beam for welding along the The welding path that is set multiple times in the workpiece or the laser beam for inspection. Along a predetermined sweep path in the molten basin of the molten specimen By a multiple welding laser beam, the return beam consists of light reflected from the material basin. Melting of the workpiece, light evaporation caused by the workpiece vaporization and light from Heat radiation projected from the melt pool of the workpiece, rejecting lengthy components. A short wave consisting of a vaporization fluorescence and a long component. A short wave consisting of vaporization fluorescence and wavelength components. Longitudinal light, which is composed of radiant light, radiant beam, and condition monitoring. Welding of the working area according to the ratio of the intensity of the Components with short wavelength and intensity. Short wavelength components and long wavelength components

Claims (3)

Disclaimer (all) which will not appear on the announcement page: Amendment 25 May 2017 1. The welding area inspection equipment that has been configured to inspect the working condition. Welding of the welding area, which is formed when more than one workpiece is welded together. Where the inspection equipment for the said welding area includes The lighted area is configured to project a laser beam for welding along the contour. The welding path is set more than once in the workpiece, or a laser beam is projected for Examine more than once along the specified sweep path in the basin. The fusion of the workpiece is melted by a welding laser beam to join the workpiece together. Exposure area, which is configured to receive light return, including reflections. From the melt pool in the workpiece by the welding laser beam or the corrected inspection laser beam Radiated by an area of radiation, the fluorescence of vaporization caused by the vaporization of The workpiece and the light from heat radiation projected from the melting pool in the workpiece. Extraction area, which is configured to extract the first component, which It consists of vaporization fluorescence and the second component is radiant light. The return heat received by the exposure area and Inspection area, which is configured to check the welding conditions of the area. With the welding of the workpiece by performing Fourier transform to the intensity ratio of The first component and the second component intensity or the power of the ratio between the intensities Of the first component and the intensity of the second component, where the first component and The second component was extracted by the extraction area. 1. The welding inspection equipment, which is configured to check the condition Welding of the welding area, which is formed when more than one workpiece is welded together. Where the inspection equipment for the said welding area includes The lighted area is configured to project a laser beam for welding along the contour. The welding path is set multiple times on the workpiece or projected by a laser beam. Several times along the prescribed sweep path in the melting basin of the smelted workpiece. Melted by the laser beam for welding to weld the workpieces together. Exposure area, which is configured to receive light return, including reflections. From the melt pool in the workpiece by the welding laser beam or the corrected inspection laser beam Irradiate the area that is radiated from the heat radiation emitted from the melting pool in the workpiece. The sorting area, which is configured to sort out the first component that It consists of the greenhouse of vaporization and the second component, which is the light from Radiates thermal radiation from the return light received by the exposure area and A configuration inspection area to check the welding conditions of the area. Where the workpiece is welded according to the ratio between the intensity of the first component and Concentration of the second component, which was rejected by the rejection area. 2. Welding area inspection equipment according to claim 1, whereby such inspection area will check the welding condition of the welding area of Workpiece by performing Fourier transform to gal, the first component intensity ratio. And the intensity of the second component or the power of the ratio between the component intensities The first and the intensity of the second component 3. Welding area inspection equipment in accordance with claim 2, whereby the inspection area checks the welding condition of the welding area of the workpiece. It is based on the amplitude under a frequency that is many times the fundamental frequency detected by Perform the Fourier transform to the ratio between the intensity of the first component and the intensity of the The second component or power of the ratio between the first component intensity and the intensity Of the second component