Shape measuring apparatus and shape measuring method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01B-011/24
G06K-009/36
출원번호
US-0901123
(2010-10-08)
등록번호
US-8334985
(2012-12-18)
발명자
/ 주소
Sho, To
Sakai, Takashi
Mitsumoto, Daisuke
Ohnishi, Yasuhiro
Kojima, Takeshi
Mori, Yasumoto
Nayar, Shree
출원인 / 주소
OMRON Corporation
대리인 / 주소
Osha Liang LLP
인용정보
피인용 횟수 :
3인용 특허 :
7
초록▼
A shape measuring apparatus that measures a three-dimensional shape of a measuring target has a lighting device that irradiates the measuring target placed on a stage with light, an imaging device that takes an image of the measuring target, a shape calculating device that calculates orientations of
A shape measuring apparatus that measures a three-dimensional shape of a measuring target has a lighting device that irradiates the measuring target placed on a stage with light, an imaging device that takes an image of the measuring target, a shape calculating device that calculates orientations of normals at a plurality of points on a surface of the measuring target from an image, the image being obtained by performing imaging with the imaging device while the lighting device irradiates the measuring target with the light, the shape calculating device calculating the three-dimensional shape of the surface of the measuring target from the calculation result of the orientations of the normals, a ranging device that measures a distance from a predetermined reference position with respect to at least one point on the surface of the measuring target, and a determination device that determines a spatial position of the three-dimensional shape of the surface of the measuring target, the three-dimensional shape being obtained by the shape calculating device using information on the distance obtained by the ranging device.
대표청구항▼
1. A shape measuring apparatus that measures a three-dimensional shape of a measuring target, the apparatus comprising: a lighting device that irradiates the measuring target placed on a stage with light;an imaging device that takes an image of the measuring target;a shape calculating device that ca
1. A shape measuring apparatus that measures a three-dimensional shape of a measuring target, the apparatus comprising: a lighting device that irradiates the measuring target placed on a stage with light;an imaging device that takes an image of the measuring target;a shape calculating device that calculates orientations of normals at a plurality of points on a surface of the measuring target from an image, the image being obtained by performing imaging with the imaging device while the lighting device irradiates the measuring target with the light, the shape calculating device calculating the three-dimensional shape of the surface of the measuring target from the calculation result of the orientations of the normals;a ranging device that measures a distance from a predetermined reference position with respect to at least one point on the surface of the measuring target; anda determination device that determines a spatial position of the three-dimensional shape of the surface of the measuring target, the three-dimensional shape being obtained by the shape calculating device using information on the distance obtained by the ranging device. 2. The shape measuring apparatus according to claim 1, wherein the ranging device includes a projection device that projects a fringe pattern or a lattice pattern to the measuring target, andthe ranging device calculates the distance of the point on the surface of the measuring target by analyzing the image of the measuring target, the image of the measuring target being taken while the fringe pattern or the lattice pattern is projected. 3. The shape measuring apparatus according to claim 2, wherein the imaging device also acts as a device with which the ranging device takes an image for ranging. 4. The shape measuring apparatus according to claim 3, wherein the lighting device is a surface light source including a light emission region having a predetermined size, andportions of light emitted from positions in the light emission region differ from each other in a spectral distribution. 5. The shape measuring apparatus according to claim 4, wherein the lighting device is the surface light source that emits light in which a plurality of different lighting patterns are overlapped with each other or sequentially emits the plurality of lighting patterns, andeach of the lighting patterns is set such that emission intensity changes linearly with respect to an angle around a central axis, a specific straight line that is parallel to the stage to pass through a point at which the measuring target is placed being defined as the central axis. 6. The shape measuring apparatus according to claim 3, wherein the lighting device is the surface light source that emits light in which a plurality of different lighting patterns are overlapped with each other or sequentially emits the plurality of lighting patterns, andeach of the lighting patterns is set such that emission intensity changes linearly with respect to an angle around a central axis, a specific straight line that is parallel to the stage to pass through a point at which the measuring target is placed being defined as the central axis. 7. The shape measuring apparatus according to claim 2, wherein the lighting device is a surface light source including a light emission region having a predetermined size, andportions of light emitted from positions in the light emission region differ from each other in a spectral distribution. 8. The shape measuring apparatus according to claim 7, wherein the lighting device is the surface light source that emits light in which a plurality of different lighting patterns are overlapped with each other or sequentially emits the plurality of lighting patterns, andeach of the lighting patterns is set such that emission intensity changes linearly with respect to an angle around a central axis, a specific straight line that is parallel to the stage to pass through a point at which the measuring target is placed being defined as the central axis. 9. The shape measuring apparatus according to claim 2, wherein the lighting device is the surface light source that emits light in which a plurality of different lighting patterns are overlapped with each other or sequentially emits the plurality of lighting patterns, andeach of the lighting patterns is set such that emission intensity changes linearly with respect to an angle around a central axis, a specific straight line that is parallel to the stage to pass through a point at which the measuring target is placed being defined as the central axis. 10. The shape measuring apparatus according to claim 1, wherein the lighting device is a surface light source including a light emission region having a predetermined size, andportions of light emitted from positions in the light emission region differ from each other in a spectral distribution. 11. The shape measuring apparatus according to claim 10, wherein the lighting device is the surface light source that emits light in which a plurality of different lighting patterns are overlapped with each other or sequentially emits the plurality of lighting patterns, andeach of the lighting patterns is set such that emission intensity changes linearly with respect to an angle around a central axis, a specific straight line that is parallel to the stage to pass through a point at which the measuring target is placed being defined as the central axis. 12. The shape measuring apparatus according to claim 1, wherein the lighting device is the surface light source that emits light in which a plurality of different lighting patterns are overlapped with each other or sequentially emits the plurality of lighting patterns, andeach of the lighting patterns is set such that emission intensity changes linearly with respect to an angle around a central axis, a specific straight line that is parallel to the stage to pass through a point at which the measuring target is placed being defined as the central axis. 13. A shape measuring method for measuring a three-dimensional shape of a measuring target, the method comprising the steps of: irradiating the measuring target placed on a stage with light;imaging the measuring target while irradiating the measuring target with the light;calculating orientations of normals at a plurality of points on a surface of the measuring target from an image obtained in the imaging step, and calculating the three-dimensional shape of the surface of the measuring target from the calculation result by a shape calculating device;measuring a distance from a predetermined reference position with respect to at least one point on the surface of the measuring target; anddetermining a spatial position of the three-dimensional shape of the surface of the measuring target, the three-dimensional shape being obtained in the shape calculation step using information on the distance obtained in the ranging step by a determination device.
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