OPTICAL INSPECTION SYSTEMS AND METHODS FOR DETECTING SURFACE DISCONTINUITY DEFECTS
First Claim
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1. An optical inspection system for detecting a surface discontinuity defect in a glass sheet having front and back surfaces, comprising:
- a digital camera arranged adjacent the front surface of the glass sheet and along a system axis, the digital camera having a two-dimensional image sensor that captures a digital inspection image of an inspection region of the glass sheet;
a reflective diffuser arranged along the system axis adjacent and spaced apart from the back surface of the glass sheet, wherein the digital camera has an acceptance circle at the reflective diffuser; and
a gradient illumination source arranged to provide gradient illumination light through the glass sheet from the front surface to form a gradient illumination region on the reflective diffuser, wherein the acceptance circle of the digital camera partially overlaps the gradient illumination region and can shift relative to the gradient illumination region due to the presence of the surface discontinuity defect within the inspection region.
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Abstract
Optical inspection system and methods for detecting surface discontinuity defects in glass sheet are disclosed. A reflective diffuser resides adjacent a back surface of the glass sheet and is illuminated with gradient intensity illumination. A digital camera having a two-dimensional image sensor resides adjacent the front surface of the glass sheet. The digital camera has, at the reflective diffuser, an acceptance circle that shifts relative to the gradient illumination due to the surface discontinuity. The shift causes the digital inspection image to change intensity, and the change is faster than if the illumination of the reflective diffuser had uniform intensity.
20 Citations
20 Claims
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1. An optical inspection system for detecting a surface discontinuity defect in a glass sheet having front and back surfaces, comprising:
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a digital camera arranged adjacent the front surface of the glass sheet and along a system axis, the digital camera having a two-dimensional image sensor that captures a digital inspection image of an inspection region of the glass sheet; a reflective diffuser arranged along the system axis adjacent and spaced apart from the back surface of the glass sheet, wherein the digital camera has an acceptance circle at the reflective diffuser; and a gradient illumination source arranged to provide gradient illumination light through the glass sheet from the front surface to form a gradient illumination region on the reflective diffuser, wherein the acceptance circle of the digital camera partially overlaps the gradient illumination region and can shift relative to the gradient illumination region due to the presence of the surface discontinuity defect within the inspection region. - View Dependent Claims (2, 3, 4, 5)
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6. A method of optically inspecting a glass sheet having front and back surfaces for a surface discontinuity defect, comprising:
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illuminating a reflective diffuser arranged adjacent to and spaced apart from the back surface of the glass sheet, wherein light from said illuminating travels through the glass sheet and forms an illumination region on the reflective diffuser, wherein the illumination region has a gradient intensity and an edge; capturing with a digital camera a defocused two-dimensional digital inspection image of the illumination region through the glass sheet over an inspection region of the glass sheet, wherein the digital camera has an acceptance circle at the reflective diffuser having a position that at least partially overlaps the illumination region at the edge; and wherein the two-dimensional digital inspection image has a background intensity distribution in the absence of a surface discontinuity defect, and wherein the presence of surface continuity defects within the inspection region causes a shift in the position of the acceptance circle relative to the illumination region, thereby causing a change in the background intensity distribution of the two-dimensional digital inspection image that occurs faster than if the illumination region had a substantially constant intensity. - View Dependent Claims (7, 8, 9, 10)
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11. A method of optimizing detection of a surface discontinuity in a glass sheet having front and back surfaces, comprising:
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arranging a digital camera adjacent the front surface of the glass sheet, the digital camera having a two-dimensional image sensor and a field of view; disposing a plurality of calibration surface discontinuities on the glass sheet; illuminating a reflective diffuser arranged adjacent to and spaced apart from the back surface of the glass sheet with gradient illumination that passes through the glass sheet, wherein the camera has an acceptance circle at the reflective diffuser; capturing a calibration digital inspection image of the glass sheet and the plurality of calibration surface discontinuities thereon; extracting from the calibration digital inspection image a first intensity distribution of the image of the plurality of calibration surface discontinuities and a second intensity distribution of the gradient illumination, and calculating a derivative of the intensity distribution of the image of the plurality of calibration surface discontinuities; and adjusting the gradient illumination so that the first and second intensity distributions cross substantially at a location of respective maxima of the calculated derivatives. - View Dependent Claims (12, 13)
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14. An optical inspection system for optically inspecting a glass sheet for a surface discontinuity, the glass sheet having front and back surfaces, the system comprising:
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a digital camera arranged adjacent the front surface of the glass sheet and along a system axis, the digital camera having a two-dimensional image sensor that captures a digital inspection image of an inspection region of the glass sheet; a reflective diffuser arranged along the system axis adjacent to and spaced apart from the back surface of the glass sheet, and whereat the digital camera has an acceptance circle; a coaxial illumination source arranged to provide coaxial illumination along the system axis, wherein the coaxial illumination is focused adjacent the front surface of the glass sheet; wherein a first amount of the coaxial illumination reflects from the front and back surfaces of the glass sheet and contributes to the formation of the digital inspection image; wherein a second amount of the coaxial illumination reflects from the reflective diffuser as diffused reflected light and contributes to the formation of the digital inspection image; and wherein the first amount of reflected coaxial illumination is at least two times the second amount of diffused reflected light. - View Dependent Claims (15, 16)
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17. A method of optically detecting a surface continuity defect in a glass sheet having front and back surfaces, comprising:
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axially illuminating the glass sheet with light having a focus at a focus distance from the front surface of the glass sheet to form a diverging light beam; reflecting a first amount of light from the diverging light beam from the front and back surfaces and forming a two-dimensional digital inspection image from the first amount of light; diffusedly reflecting a second amount of light from the diverging light beam from a reflective diffuser arranged adjacent the back surface of the glass sheet and including the second amount of diffused reflected light in the two-dimensional digital inspection image; and wherein the first amount is at least twice the second amount. - View Dependent Claims (18, 19, 20)
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Specification
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Current AssigneeCorning Incorporated
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Original AssigneeCorning Incorporated
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InventorsFurnas, William John
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Application NumberUS13/777,692Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current348/131CPC Class CodesG01N 21/896 Optical defects in or on tr...
