Patent ID: 9618321
Date: 2017-04-11
CPC Classifications: G01B

Claim:
1. An interference measuring device comprising: a light source that outputs light; a first beam splitter that causes the light output from the light source to diverge into a reference optical path and a measurement optical path and that outputs a combined wave in which reflection light that has passed through the reference optical path and reflection light that has passed through a measuring object arranged in the measurement optical path are combined; a reference light diverging part that is arranged in the reference optical path, that causes the light which is diverged into the reference optical path by the first beam splitter to further diverge into a plurality of optical paths, and that causes reflection light beams that have respectively passed through the plurality of optical paths to be input into the first beam splitter as the reflection light that has passed through the reference optical path; a plurality of reference mirrors that are respectively arranged in the plurality of optical paths such that optical path lengths of the plurality of optical paths are different from each other, and that reflect reference light which is diverged by the reference light diverging part; an optical path length varying part that varies an optical path length of either the reference optical path or the measurement optical path; a camera that images, by two-dimensionally arranged plurality of light receiving elements, an interference image that shows a two-dimensional distribution of interference light intensities in the combined wave; and a central processing unit (CPU) that determines a height of a measurement surface of the measuring target based on a plurality of interference images imaged by the camera at a plurality of optical path lengths which are varied by the optical path varying part, wherein the reference light diverging part is a drive mirror that is capable of changing an angle thereof so as to sequentially reflect the light which is diverged into the reference optical path by the first beam splitter toward each of the plurality of reference mirrors.