Method to determine weld puddle area and width from vision measurements
First Claim
1. In a robotic welding operation wherein welding current conducted by the nonconsumable electrode of a welding torch generates an electric arc whose heat forms a molten weld puddle in the workpiece, and a vision system integrated with said torch provides images of said weld puddle to control the welding process, the improved method of measuring puddle geometry parameters comprising:
- sampling image intensities along N radial rays intersecting only the trailing edge of said weld puddle, using the torch electrode as the origin;
determining pudlde boundary point data by processing each radial image intensity waveform to identify patterns that indicate potential edge points;
prefiltering the puddle boundary data to remove extraneous points;
estimating in real time by means of a least-squares algorithm the area and maximum width of the elliptical weld puddle; and
passing these values to a closed-loop weld process control system.
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Abstract
A computationally efficient technique to determine weld puddle area and maximum width in real time from noisy measurements of the puddle trailing edge. Using the torch electrode as the origin, image intensities are sampled in radial directions, and potential pool edge points are extracted. The boundary data is prefiltered to remove extraneous points, and a least-squares algorithm is used to estimate the area and width of the elliptical puddle. The values are sent to a vision-based arc welding robot control system which regulates these pool parameters to assure full penetration welds. Angular orientation of the weld puddle is estimated in an analogous manner.
110 Citations
10 Claims
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1. In a robotic welding operation wherein welding current conducted by the nonconsumable electrode of a welding torch generates an electric arc whose heat forms a molten weld puddle in the workpiece, and a vision system integrated with said torch provides images of said weld puddle to control the welding process, the improved method of measuring puddle geometry parameters comprising:
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sampling image intensities along N radial rays intersecting only the trailing edge of said weld puddle, using the torch electrode as the origin; determining pudlde boundary point data by processing each radial image intensity waveform to identify patterns that indicate potential edge points; prefiltering the puddle boundary data to remove extraneous points; estimating in real time by means of a least-squares algorithm the area and maximum width of the elliptical weld puddle; and passing these values to a closed-loop weld process control system. - View Dependent Claims (2, 3, 4, 5)
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6. A method of determining weld puddle area and maximum width in real-time from weld region images provided by a vision system on an arc welding torch which has a nonconsumable electrode, comprising:
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acquiring images of the weld puddle; sampling each image along N radial rays centered on said electrode and intersecting only the trailing edge of said weld puddle; determining all potential puddle boundary points from intensity variations along each ray; prefiltering the foregoing boundary data to remove clearly extraneous points; estimating by means of a least-squares algorithm the unknown parameters in an equation of an ellipse; and employing said estimated parameters to explicitly calculate puddle area and maximum width, and passing these values to a closed-loop weld process control system. - View Dependent Claims (7, 8, 9, 10)
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Specification