Machine vision seam tracking method and apparatus for welding robots
First Claim
1. A method for operating a machine vision seam tracking apparatus for welding robots having a light projector, a welding torch and electronic photographic means arranged above a workpiece having a welding seam, the method comprising the steps of:
- positioning and maintaining the positions of the light projector, the welding torch and the electronic photographic means such that the projector and the photographic means are disposed at opposite sides of the welding torch and are located above the welding seam, and such that the angle formed between the axes of the projector and the welding torch is equal to the angle formed between the axes of the photographic means and the welding torch, where the axes of the photographic means, the welding torch and the projector intersect at one point on the welding seam and beneath the welding torch;
projecting onto the workpiece, utilizing the light projector, a line of light perpendicular to the welding seam, said line of light having two light spot segments;
detecting an image of said welding seam using the electronic photographic means; and
processing the image with a microcomputer to determine the location of the actual welding seam and detect any deviation between the actual welding seam and a taught welding path for correcting the welding path.
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Abstract
The invention relates to a machine vision seam tracking method and apparatus for welding robots, particularly to an apparatus which can automatically detect the deviation between an actual welding seam and a taught path where the apparatus so as to correct the welding path, comprises an image forming means and an image processor. Through the image forming means, a light coming from a common light source, after being condensed and transmitted, can be projected onto a workpiece to form a line of light across the welding seam. A solid state camera disposed along the direction of the welding seam can detect the image of the welding seam which in turn is transmitted to the image processor. The image processor preferably is a microcomputer which comprises software for processing the images respectively formed by the butt, fillet, lap and V-groove joints so as to calculate the deviation, including the positional error across the welding seam as well as the distance variation between the welding torch and the workpiece (the so called height of the welding torch), existing between the actual welding seam and the taught path. A controller of the welding robot can convert the error signals of the welding path into the corresponding data by which the coordinates of the welding robot can be corrected to align with the actual welding seam.
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Citations
9 Claims
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1. A method for operating a machine vision seam tracking apparatus for welding robots having a light projector, a welding torch and electronic photographic means arranged above a workpiece having a welding seam, the method comprising the steps of:
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positioning and maintaining the positions of the light projector, the welding torch and the electronic photographic means such that the projector and the photographic means are disposed at opposite sides of the welding torch and are located above the welding seam, and such that the angle formed between the axes of the projector and the welding torch is equal to the angle formed between the axes of the photographic means and the welding torch, where the axes of the photographic means, the welding torch and the projector intersect at one point on the welding seam and beneath the welding torch; projecting onto the workpiece, utilizing the light projector, a line of light perpendicular to the welding seam, said line of light having two light spot segments; detecting an image of said welding seam using the electronic photographic means; and processing the image with a microcomputer to determine the location of the actual welding seam and detect any deviation between the actual welding seam and a taught welding path for correcting the welding path. - View Dependent Claims (2, 3, 4, 5)
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6. An apparatus for machine vision seam tracking for welding robots comprising:
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a main body of a welding robot; a welding torch; a workpiece located beneath the welding torch, said workpiece having a welding seam therein; means for projecting a line of light, including a projector adjustably attached to one side of the welding torch, forming an angle θ
1 between the axis of the projector and the axis of the welding torch, said projector including an achromatic concave lens and a cylindrical lens, said lenses arranged such that a line of light longer than the diameter of the concave lens can be formed on the workpiece perpendicular to the welding seam;a solid state camera fixedly secured to the opposite side of the welding torch, forming an angle θ
2 between the axis of the camera and the axes of the welding torch, where θ
1 is equal to θ
2, and wherein the axes of the camera, the welding torch and the projector intersect at a point on the welding seam and beneath the welding torch;an image processing means, including a programmed microcomputer connected to the solid state camera, for processing welding seam images formed by butt, fillet, lap and V-groove joints; and a controllr connected to said image processing means for correcting a welding path of the welding robot based on the actual welding position as processed by the image processing means. - View Dependent Claims (7, 8, 9)
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Specification
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- Resources
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Current AssigneeIndustrial Technology Research Institute
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Original AssigneeIndustrial Technology Research Institute
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InventorsGuu, Cheng-Show, Wang, Tzay-Chyuan
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Primary Examiner(s)Shaw, Clifford C.
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Application NumberUS07/019,073Time in Patent Office747 DaysField of Search219/124.34, 901/42US Class Current219/124.34CPC Class CodesB23K 9/1274 Using non-contact, optical ...G05B 19/425 Teaching successive positio...G05B 2219/36417 Programmed coarse position,...G05B 2219/37572 Camera, tv, visionG05B 2219/45104 Lasrobot, welding robot
