SU1634998A1 - Method and device for calibration of pentagonal reflector - Google Patents

Abstract

The invention relates to optical measurements, is intended to certify pentagonal reflectors, and can be used to measure and control the angles of optical units. The aim of the invention is to increase the reliability of certification by introducing a second autocollimator 2, alternately connected with autocollimator 1 and a flat mirror 3 through a pentagonal block 5 located on an alignment table 4, the axis of rotation of which intersects the sighting axis of the autocollimator 1. Quotation table 4 is set between flat mirror 3 and autocollimator 1. 2 sec. f-ly, 1 ill.

Description

The invention relates to methods of optical measurements, is intended for certification of pentagonal reflectors and can be used to measure and control the angles of optical blocks.

The purpose of the invention is to increase the reliability of certification.

The drawing shows a diagram of a device for certification of a pentagonal reflector.

The device comprises autocollimators 1 and 2, a flat mirror 3 optically coupled to the sighting axis of the autocollimator 1, an adjustment table 4, rotatable around the axis, a controlled pentagonal reflector 5 mounted on the adjustment table 4.

The method is as follows.

The flat mirror 3 and the autocollimator 1 are set so that the sight axis of the autocollim '' a is perpendicular to the surface of the flat mirror. For this, the autocollimation mark must be aligned with the crosshair of the autocollimator grid. Autocollimator 2 sets the hook so that its sighting axis is perpendicular to the sighting axis of the autocollimator 1. Between the flat mirror 3 and the autocollimator 1 there is an adjustment table 4, the axis of rotation of which intersects the sighting axis of the autocollimator 1. On the adjustment table 4, a pentagonal reflector 5 is installed so that in the initial position provide optical communication between the flat mirror 3 and the autocollimator 1. Check their relative position and, if there is a mismatch, fix the count η on the scale of the autocollimator 1. Then turn the adjustment table 4 at a certain angle and install the pentagonal reflector 5 in the position that provides optical communication between the autocollimators 1 and 2. Using the azimuthal mechanism of the autocollimator 2, align its mark with the crosshair of the autocollimator 1 grid or set the previously recorded mismatch p. Without changing the relative position of all elements of the device, on a scale of the autocollimator 2, the reference position of the autocollimation mark is recorded.

After that, the adjustment table 4 with a pentagonal reflector is rotated through an angle of 90 ° and provide optical communication of the autocollimator 2 with a flat mirror 3 and, on the scale of the autocollimator, the P2 count is recorded.

The angle a of the deflection of the rays by the pentagonal reflector is calculated by the formula a = 90 ° + (π2-ηι) / 4.

Claims (2)

Claim 1. The method of certification of the pentagonal reflector, which consists in directing the radiation flux from the autocollimator to the pentagonal reflector, unwrapping the autocollimator, installing a flat mirror so that it is optically connected to the autocollimator through the pentagonal block, and determining the position of the marker tag reflected from the flat mirror into field of view of the autocollimator, determine the angle of deflection of the pentagonal reflector by counting the position of the marker marks in two fixed positions, characterized in that in order to increase the reliability of certification, a second autocollimator is set to a flat mirror so that the pentagonal mirror located therebetween, the optical axis of the autocollimator is parallel to the normal to the plane mirror, provides optical communication autocollimators install optical axis autocollimators perpendicular to one another and define the position of the marker tag in the field of view of the autocollimator . 2. A device for certification of a pentagonal reflector, comprising a flat mirror, an autocollimator optically connected to a flat mirror, a table designed to accommodate controlled reflectors, mounted with the possibility of angular rotations around the axis of symmetry parallel to the surface of the flat mirror and perpendicular to the autoslimator's sighting axis, distinguished by that, in order to increase the validity of certification, it is equipped with a second autocollimator, whose sight axis is mated with a flat mirror, and optically autocollimators axes intersect.