Patent ID: 8247786

Claim:
A displacement detecting device comprising: a non-contact sensor having a light source, an objective lens that focuses output light emitted from the light source onto a measurement surface to be measured, and a light receiving element that detects displacement information on the basis of a focal length of the objective lens by using reflected light reflected by the measurement surface to be measured after being focused on the measurement surface by the objective lens; a control unit that adjusts the focal length of the objective lens on the basis of the displacement information detected by the light receiving element; a displacement-amount measuring unit having a linear scale that is attached to the objective lens with a link member therebetween and configured to measure an amount of displacement of the linear scale when the focal length of the objective lens is adjusted by the control unit; and a light adjustment member disposed at least between the light source and the objective lens and in an optical path between the objective lens and the light receiving element, the light adjustment member having an aperture section through which the output light passes and a light blocking section that blocks a specific light component of the output light, the light adjustment member being configured to adjust a resolution of the reflected light reflected by the measurement surface or a resolution of output light, the output light being output by the light source, wherein the light adjustment member adjusts resolution of the output light to be focused on the measurement surface and regulates an incident angle of the reflected light reflected by the measurement surface, the light blocking section is provided on an optical axis of the output light and blocks a first output light component of the output light, the first output light component including a paraxial ray, the light blocking section regulates a first reflected light component of the reflected light, the first reflected light component having a first incident angle with respect to an optical axis, and the aperture section allows a second output light component that surrounds the first output light component to pass therethrough toward the objective lens and allows a second reflected light component of the reflected light to pass therethrough toward the light receiving element, the second reflected light component having a second incident angle that is smaller than the first incident angle with respect to the optical axis.