Method for enhanced control of welding processes
First Claim
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1. A method for controlling a welding process, comprising the steps of:
- a) applying a source of energy to a workpiece, said source of energy forming a molten weld pool on a front side of said workpiece, said molten weld pool forming a corresponding heated zone on a back side of said workpiece, said heated zone located directly beneath said molten weld pool, said heated zone a source of emitted radiation, said radiation having a continuous plurality of wavelengths from about infrared to about ultraviolet wavelengths;
b) collecting and transmitting at least some of said emitted radiation into an imaging means, said imaging means at least sensitive to visible light having wavelengths between about 650 nm to about 400 nm, said step of collecting further including a collecting means, said collecting means maintained directly facing said heated zone and in coupled alignment with said source of energy;
c) interposing a filter means between said imaging means and said source of said emitted radiation, said filter means for preventing light having wavelengths longer than about 550 nm from passing through said filter;
d) generating an digital image signal within said imaging means using only light passing through said filter means, said imaging means having pixels, said light passing through said filter means representative of an image of said molten weld pool;
e) processing said digital image signal and computing at least one characteristic length dimension of said image therefrom;
f) comparing said computed characteristic length dimension to a pre-established length dimension;
g) applying a dynamic feedback means to said source of energy, wherein said feedback means is based upon minimizing the difference between said computed characteristic length dimension and said pre-established length dimension; and
h) moving said source of energy along a predetermined path and controlling said welding process by repeating steps b) through g).
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Abstract
Method and system for producing high quality welds in welding processes, in general, and gas tungsten arc (GTA) welding, in particular by controlling weld penetration. Light emitted from a weld pool is collected from the backside of a workpiece by optical means during welding and transmitted to a digital video camera for further processing, after the emitted light is first passed through a short wavelength pass filter to remove infrared radiation. By filtering out the infrared component of the light emitted from the backside weld pool image, the present invention provides for the accurate determination of the weld pool boundary. Data from the digital camera is fed to an imaging board which focuses on a 100×100 pixel portion of the image. The board performs a thresholding operation and provides this information to a digital signal processor to compute the backside weld pool dimensions and area. This information is used by a control system, in a dynamic feedback mode, to automatically adjust appropriate parameters of a welding system, such as the welding current, to control weld penetration and thus, create a uniform weld bead and high quality weld.
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Citations
13 Claims
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1. A method for controlling a welding process, comprising the steps of:
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a) applying a source of energy to a workpiece, said source of energy forming a molten weld pool on a front side of said workpiece, said molten weld pool forming a corresponding heated zone on a back side of said workpiece, said heated zone located directly beneath said molten weld pool, said heated zone a source of emitted radiation, said radiation having a continuous plurality of wavelengths from about infrared to about ultraviolet wavelengths; b) collecting and transmitting at least some of said emitted radiation into an imaging means, said imaging means at least sensitive to visible light having wavelengths between about 650 nm to about 400 nm, said step of collecting further including a collecting means, said collecting means maintained directly facing said heated zone and in coupled alignment with said source of energy; c) interposing a filter means between said imaging means and said source of said emitted radiation, said filter means for preventing light having wavelengths longer than about 550 nm from passing through said filter; d) generating an digital image signal within said imaging means using only light passing through said filter means, said imaging means having pixels, said light passing through said filter means representative of an image of said molten weld pool; e) processing said digital image signal and computing at least one characteristic length dimension of said image therefrom; f) comparing said computed characteristic length dimension to a pre-established length dimension; g) applying a dynamic feedback means to said source of energy, wherein said feedback means is based upon minimizing the difference between said computed characteristic length dimension and said pre-established length dimension; and h) moving said source of energy along a predetermined path and controlling said welding process by repeating steps b) through g). - View Dependent Claims (2, 3, 4, 5)
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6. A system for controlling a welding process, comprising:
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a) a source of energy for melting adjacent and mating parts of a workpiece, said source of energy capable of forming a molten weld pool on a front side of said workpiece, said molten weld pool forming a corresponding heated zone on a back side of said workpiece, said heated zone located directly beneath said molten weld pool, said heated zone a source of emitted radiation, said radiation having a continuous plurality of wavelengths from about infrared to about ultraviolet wavelengths; b) means for collecting and transmitting at least some of said emitted radiation into an imaging means, said imaging means at least sensitive to visible light having wavelengths between about 650 nm to about 400 nm, said collecting means directly facing said heated zone and maintained in coupled alignment with said source of energy; c) an optical filter means, said filter interposed between said imaging means and said source of said emitted radiation, said filter means for preventing light having wavelengths longer than about 550 nm from passing through said filter; d) an image signal generated by said imaging means using only light passing through said filter means, said light passing through said filter means representative of an image of said molten weld pool; e) image signal processing means for digitizing said image signal; f) computing means for calculating at least one characteristic length dimension of said image therefrom; g) means for comparing said calculated characteristic length dimension to a pre-established length dimension; h) a dynamic feedback means for controlling said source of energy, wherein said feedback means is based upon minimizing the difference between said computed characteristic length dimension and said pre-established length dimension; and i) means for moving said source of energy along a predetermined path while repeating steps b) through h). - View Dependent Claims (7, 8, 9)
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10. A system for controlling a gas tungsten arc welding process, comprising:
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a) a source of energy for melting adjacent and mating parts of a workpiece, said source of energy capable of forming a molten weld pool on a front side of said workpiece, said molten weld pool forming a corresponding heated zone on a back side of said workpiece, said heated zone located directly beneath said molten weld pool, said heated zone a source of emitted radiation, said radiation having a continuous plurality of wavelengths from about infrared to about ultraviolet wavelengths; b) means for collecting and transmitting at least some of said emitted radiation into an imaging means, said imaging means at least sensitive to visible light having wavelengths between about 650 nm to about 400 nm, said collecting means directly facing said heated zone and maintained in coupled alignment with said source of energy; c) an optical filter means, said filter interposed between said imaging means and said source of said emitted radiation, said filter means for preventing light having wavelengths longer than about 550 nm from passing through said filter; d) an image signal generated by said imaging means using only light passing through said filter means, said light passing through said filter means representative of an image of said molten weld pool; e) image signal processing means for digitizing said image signal; f) computing means for calculating at least one characteristic length dimension of said image therefrom; g) means for comparing said calculated characteristic length dimension to a pre-established length dimension; h) a dynamic feedback means for controlling said source of energy, wherein said feedback means is based upon minimizing the difference between said computed characteristic length dimension and said pre-established length dimension; and i) means for moving said source of energy along a predetermined path while repeating steps b) through h). - View Dependent Claims (11, 12, 13)
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Specification
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Current AssigneeSandia Corporation (Martin Marietta Corporation)
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Original AssigneeSandia Corporation (Martin Marietta Corporation)
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InventorsTung, David M., Sheaffer, Donald A., Schroder, Kevin, Renzi, Ronald F.
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Primary Examiner(s)Shaw, Clifford C.
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Application NumberUS08/818,091Time in Patent Office1,208 DaysField of Search219/130.01, 219/130.21, 219/124.34, 219/137.71US Class Current219/130.21CPC Class CodesB23K 9/0956 using sensing means, e.g. o...
