SU1534300A1 - Arrangement for checking optical catъs eyes - Google Patents

Abstract

The invention relates to the field of optical measurements and can be applied for the calibration of optoelectronic quartz gravimeters. The aim of the invention is to improve the measurement accuracy. The device contains an autocollimator 1 and, successively with it, translucent plates 2 and 3 located on the optical axis, a mirror plate 4 mounted on the protractor 5. Semitransparent plates 2 and 3 are angled to the optical axis and are additionally optically connected to each other by means of a mirror plate 4 The radiation of the autocollimator 1, after passing through the translucent plates 2 and 3, is directed to the retroreflector 6, reflected from which, returns to the autocollimator 1. If the angle between the faces of the retroreflector 6 is different from the backside nnogo at two are shifted relative autocollimation crosshair mark. By turning the mirror plate 4, each of them is aligned with the intersection, measuring the angle of rotation. 1 il.

Description

The invention relates to optical measurements and can be used for calibration of optoelectronic quartz gravimeters.

The purpose of the invention is to improve the accuracy of measurements.

The drawing shows a diagram of a control device for optical retroreflectors.

The device comprises an autocollimator 1, on the optical axis of which translucent plates 2 and 3 are sequentially mounted. A mirror plate 4, an angle meter 5, on which the plate 4 and a retroreflector 6 are mounted.

The device operates as follows.

The light rays emerging from the auto-collector 1 are directed to the mirror plate 2 and are divided into two radiation streams, one of which passes to the translucent plate 3, and the other to the mirror plate 4. Part of the stream. passing the translucent plate 3, propagates towards the retroreflector 6, is reflected on it and falling onto the translucent plate 3, it splits into two radiation fluxes, one of which returns to the collector 1, passing through the translucent plate 2 first, and the other goes to the mirror plate 4 The mirror plate is mounted on the protractor 5 so that between the retroreflector 6, the translucent plate 3, the mirror plate 4, the translucent plate 2 and the autocollimator 1, an additional effective optical coupling When the device is operating, the rays incident on the retroreflector 6, reflected from it, receive a certain angular displacement, the magnitude of which depends on the magnitude of the angle between its faces. If these angles are large, then the image of the autocollimation mark will be outside the field of view of the autocollimator 1. By turning the mirror plate 4 connected with an angle of 10 rum 4, the autocollimation marks of the brand are combined with the center of overlap and the readings are taken from the angle meter 5 when the marks coincide with the overlap. The difference between the two samples gives the value of the double angle of deviation of the rays e when reflected from the retroreflector 6.

Claims (1)

Claim A control device for optical retroreflectors, comprising an auto-collimator and 20 an angle meter, characterized in that, in order to increase the accuracy of control, it is equipped with two translucent sequentially mounted. plates intended to be installed between the autocollimator and the retroreflector, the third mirror plate ²⁵ mounted on the goniometer with the possibility of rotation in a plane passing through the axis of the autocollimator perpendicular to the mirror plate, the translucent plates are inclined to the optical 2Q axis of the autocollimator, and the third mirror ^υ plate is optically connected with the translucent plates and an autocollimator.