RU2013105884A - AUTOCOLLIMATION METHOD FOR MEASURING FOCUS DISTANCE - Google Patents

Abstract

A method for measuring the focal length by the autocollimation method, which consists in the fact that an autocollimation plane mirror is installed in front of the first (last when the rays travel from the plane of the best image) optical surface of the lens, an autocollimation device is installed on the optical axis of the lens, by which an autocollimation image is formed in the focal plane, fix this first position, then, before the first (last when the rays travel from the plane of the best image) optical over with the lens of the lens, a concave auto-collimation mirror is installed, the center of curvature of which coincides with the front main plane of the lens, using the autocollimation device, an autocollimation image is formed in the rear main plane of the lens, this second position of the autocollimation device is recorded, and the focal length of the lens is measured as the difference between the first and second samples, characterized in that in one plane close to the focal, together with the radiation source, an array radiation detector is installed In conjunction with the imaging device, a self-collimating image of the radiation source is reflected, reflected from a plane mirror mounted in front of the first (last along the rays from the focal plane) optical surface of the lens, to the plane of the radiation receiver matrix, the rigidly bonded source-matrix receiver assembly is moved towards to the lens or from it, observing on the visualization device the image of the source finds the plane of the best image (focal plane) according to one of the known criteria

Claims (1)

A method for measuring the focal length by the autocollimation method, which consists in the fact that an autocollimation plane mirror is installed in front of the first (last when the rays travel from the plane of the best image) optical surface of the lens, an autocollimation device is installed on the optical axis of the lens, by which an autocollimation image is formed in the focal plane, fix this first position, then, before the first (last when the rays travel from the plane of the best image) optical over with the lens of the lens, a concave auto-collimation mirror is installed, the center of curvature of which coincides with the front main plane of the lens, using the autocollimation device, an autocollimation image is formed in the rear main plane of the lens, this second position of the autocollimation device is recorded, and the focal length of the lens is measured as the difference between the first and second samples, characterized in that in one plane close to the focal, together with the radiation source, an array radiation detector is installed In conjunction with the imaging device, a self-collimating image of the radiation source is reflected, reflected from a plane mirror mounted in front of the first (last along the rays from the focal plane) optical surface of the lens, to the plane of the radiation receiver matrix, the rigidly bonded source-matrix receiver assembly is moved towards to the lens or from it, observing on the visualization device the image of the source finds the plane of the best image (focal plane) according to one of the known criteria as the source image, then along the predetermined optical bench perpendicular to the optical axis of the lens, the optical bench is moved to the extreme position along the field of view, the source-matrix receiver assembly, the autocollimation image of the source is brought into the plane of the matrix receiver by rotating a flat mirror, the linear displacement of the assembly relative to the optical axis is measured ( d) and the angle of rotation of the autocollimation mirror (A) and using the well-known formula find the focal length of the lens $$\stackrel{,}{f}=d/tgA$$

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