- 专利标题: Inspection and measurement system, and inspection and measurement method
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申请号: US17618216申请日: 2020-06-15
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公开(公告)号: US11630070B2公开(公告)日: 2023-04-18
- 发明人: Shigeki Masumura
- 申请人: MACHINE VISION LIGHTING INC.
- 申请人地址: JP Tokyo
- 专利权人: MACHINE VISION LIGHTING INC.
- 当前专利权人: MACHINE VISION LIGHTING INC.
- 当前专利权人地址: JP Tokyo
- 代理机构: Dilworth & Barrese, LLP
- 优先权: JPJP2020-102749 20200614
- 国际申请: PCT/JP2020/023440 WO 20200615
- 国际公布: WO2021/255793 WO 20211223
- 主分类号: G01N21/88
- IPC分类号: G01N21/88 ; G01B11/25
摘要:
[Problem] When the inclination of an object surface reaches or exceeds a certain level, direct light consisting of a specularly reflected light component leaves the range of the solid observation angle formed by the observation optical system, and it becomes difficult to continuously and quantitatively obtain the surface shape of the object surface.
[Solution] This invention emits emission light capable of, within an observation range for an object under inspection, simultaneously forming the same solid emission angle on each point on an object surface regardless of the distance from the illumination; for a non-continuous area where direct light is not returned, uses variation in the solid angle of direct light unique to the vicinity of the non-continuous area to make it possible to at least measure height-direction variation of the non-continuous area; and uses brightness information indicating variation in a scattered light component of object light from the non-continuous area to make it possible to continuously acquire the three-dimensional shape of the non-continuous area.
[Solution] This invention emits emission light capable of, within an observation range for an object under inspection, simultaneously forming the same solid emission angle on each point on an object surface regardless of the distance from the illumination; for a non-continuous area where direct light is not returned, uses variation in the solid angle of direct light unique to the vicinity of the non-continuous area to make it possible to at least measure height-direction variation of the non-continuous area; and uses brightness information indicating variation in a scattered light component of object light from the non-continuous area to make it possible to continuously acquire the three-dimensional shape of the non-continuous area.
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