Non-contact mirror spacing measurement method based on matrix optics calculation

Abstract

The invention relates to a non-contact mirror distance measurement method based on matrix optical calculation. The method is as follows: using a detector to detect the interference signal of two reflected lights; determining the position parameter candidate area in the optical path of the measuring arm; Determine the optimum position parameter for measuring the lens group under test and measure the thickness of all lenses in the lens group under test and the air gap on the surface under the position parameter. The present invention can automatically and quickly find out the best measurement head lens spacing and working distance for the interval measurement of the visible light optical system with any number of mirrors, and can balance the energy of all the mirrors to be measured to maximize the interval measurement work. efficiency and precision.

Description

Technical field

[0001] The present invention belongs to the technical field of optical adjusting means, involving a non-contact measuring method for specular mirror spacing interval measuring instrument. Background technique

[0002] The optical assembly and adjustment ring as a final lens produced through strict control of the mirror and the center deviation of the optical lens interval, to ensure that one of the key performance optical lens. In addition, the assembled optics verification interval to detect a problem is often encountered in the optical art. Non-contact distance measuring device based on the specular low coherence interferometry can dispatch personnel to assist loading intervals measured in real-time monitoring lens mounting process may be carried out precise measurement of the interval of the finished optics. Compared with classic laser interferometer, the low coherence interferometer advantages with respect to environmental disturbances have better robustness, ...

Images