SU1116312A1 - Device for checking right-angle prism angles of deflection - Google Patents

Abstract

A DEVICE FOR THE CONTROL OF ANGLE OF DIFFUSION OF A RECTANGULAR PRISM, containing an illuminator, a table intended for installing a controlled prism, and a recorder optically conjugated to an illuminator, characterized in that, in order to expand the range of the controlled parameters, it is equipped with a light divider, an inverse lighting device, an illuminator, a lamp, a lamp, a lamp, a lamp, a lamp, a lamp, a lamp, a lamp and a receiver, an optical distributor. performed with a Q-turn and mounted on one side of a beam splitter with the possibility of tilting in two mutually perpendicular planes, each of which is perpendicular Endic reflecting surfaces of a double-sided mirror, and oriented so that the illuminator, the beam splitter and the mirror surface facing the beam splitter form an auto-collimation system with an angular reflector installed behind the mirror opposite the hole in it rotatably around an axis, perpendicular reflecting surfaces of a double-sided mirror, and oriented so that the illuminator, beam splitter, reflector and the surface of the mirror facing the reflector form a second autocollimation system to him, the table is made in C (L of the tall block with three polished edges, two of which are parallel to each other and are perpendicular to the third edge intended to be placed in the course of the rays from the source of the controlled prism, and on each of the parallel edges of the block is mounted on the optical contact along the flat sieve glass surface, whose reflecting surfaces Od face one another.

Description

eleven

The invention relates to instrumentation engineering and is intended to control the parameters of rectangular prisms.

A device for monitoring the deflection angles of a rectangular prism is known, which contains an illuminator, a table for mounting a controlled prism, and a recorder that is optically coupled to the illuminator l.

A disadvantage of the known device is the impossibility of simultaneously controlling the deviation of the right angle of the prism from 90, the pyramidality, and the shape error of the flat surfaces that form the right angle of the prism.

The purpose of the invention is to expand the range of controlled parameters.

This goal is achieved by the fact that the device for monitoring the angles of deflection of a rectangular prism containing an illuminator, a table for mounting a controlled prism, and a recorder optically coupled to the illuminator are provided with a distributor mounted behind the illuminator with a flat two-sided mirror made with with a hole and mounted on one of the sides of the beam splitter with the possibility of tilting in i two mutually perpendicular planes, each of which is perpendicular to the reflecting surfaces of the mirrors a and oriented so that the illuminator, the beam splitter and the surface of the mirror facing the beam splitter form an autocollimation system, a corner reflector installed behind the mirror opposite the hole in it with the possibility of rotation around an axis perpendicular to the reflecting surfaces of the double-sided mirror and oriented so that the illuminator , beam splitter, reflector and mirror surface, reversible. on the reflector, they form a second autocollimation system, the table is made in the form of a cellar block with three polished edges, two of which are parallel to one another and perpendicular to the third facet, designed dp placed during the rays from the source of the controlled prism, and on each of the parallel faces the unit is installed on the optical contact along a flat sitall mirror, the reflecting surfaces of which face one another.

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The drawing shows a diagram of the proposed device.

The device contains an illuminator 1, for example a laser, a beam splitter 2, 5, a flat two-sided mirror 3 with reflective surfaces A and 5, a corner reflector 6, a table made in the form of a cellar block 7 with three polished facets 8,

0 9 and 10, two flat sit-up mirrors 11 and 12 and the recorder 13. The divider fZ is located in the course of the rays behind the illuminator 1. Mirror 3 is made with a hole and installed in the path of the rays reflected from the splitter 2, with the possibility of tilting in two mutually perpendicular flat planes, each of which is perpendicular to surfaces 4

0 and 5 mirrors 3. Mirror 3 is oriented so that its reflective surface 4 together with illuminator 1 and beam splitter 2 form an autocollimation system.

5. Angled reflector 6 is installed behind mirror 3 opposite the hole in it with the possibility of rotation around the axis, perpendicular surfaces 4 and 5 of the mirror 3. Angled

0 reflector 6 is oriented so

that, together with the illuminator 1, the beam splitter 2 and the Surface 5 of the mirror 3, it forms the second autocollimation system.

The faces 8 and 9 of the cellar block 7 are parallel to each other and perpendicular to the face 1O. Sitall mirror 11 is installed on the optical contact on face 8, and 12 p mirror on face 9 of block 7. Mirrors 11 and 12 are installed so that THEIR reflect the surfaces facing each other. The controlled prism 14 is placed in the course of the rays from source 1

from on polished face 10 block 7.

The device works as follows.

Illuminator 1 forms a parallel beam of rays propagating in the direction of the splitter 2, which divides it in amplitude into two beams and directs one of them to a controlled prism 14, and the other to a two-sided mirror 3.

5 Pris-controlled prism 14 divides the beam falling on it along the front; into two parts, one of which goes to the flat mirror 11, and the other

ha — to a flat mirror 12. Mirrors 11 and 12 change the direction of propagation of the beams falling on them to the opposite, and after repeated reflection from the faces of the prism 14, the beam of rays again goes to the beam splitter 2f

The two-sided mirror 3, in turn, divides the beam incident on it along the front into two parts, one of which enters the reflecting surface 4 of the mirror 3, and the other passes through the opening of the mirror 3 and directs the JBTCH with a reflector b to the reflecting surface 5 of the reflector 3. Surfaces 4 and 5 mirrors 3 change

 the direction of propagation of the beams to the opposite, after which they also enter the beam splitter 2 and interfere with the beam reflected from the faces of the controlled prism 14..

The resulting interference pattern is recorded by the recorder 13 and consists of two parts, each of which is formed when the beam of rays is twice reflected from one of the faces that form the right angle of the controlled prism 14. Shrin, the direction and shape of the interference fringes within each of the parts of the recorded interference pattern is frozen t from both the setting of the interfersiver and the parameters of the right angle of the controlled prism 14, and the values of the parameters of the right angle are related to the parameters of the interference pattern dependencies:

S.

l ubj g-

02 7G47,

S -A / J.-JL. % -zU, bj

-one,

lyramidality of the right prism angle;

errors of the shape of the first and second faces of the prism, forming a right angle, respectively

the width of the bands in the interference patterns from the first and second faces of the prism, respectively;

6312 4,

Ab go - the curvature of the bands in the interference patterns from the first and second faces of the prism, respectively;

Ordo-error of the right angle of the prism; (J) - angle between directions

fringes in the interference patterns from the first and second faces of the prism; D - wavelength used

radiation.

Preparation of the device for operation is as follows.

An interference pattern is obtained in the absence of a controlled prism 14, i.e. upon reflection of light rays from the face 10 of the cellar block 7. The slopes of the double-sided mirror 3 set the required width of interference fringes, and

turns of the corner reflector 6 parallelism of one system of interference bands to another system

()

The actual process of controlling the parameters of the right angle consists in obtaining the interference pattern from the faces of the controlled prism 14, measuring the parameters b, b2, lb, ub2 and the obtained interference. picture and mathematical processing of measurement results according to formulas (1) - (4).

Measurement of the angle cp can be carried out either directly or by compensation. In the first case, the angle (f between the interference fringes is measured directly in the field of view of the recorder 13 of the device or by the interference pattern with

 using photographic registration of the interference pattern. In the second case, the turns of the corner reflector 6 achieve parallelism of the two interference systems

 bands (compensate for the angle q)), and

the value of the measured angle is determined by the reading mechanism, which in this case must be equipped with the device.

0 Thus, the supply of the device with a beam splitter, a double-sided mirror and a corner reflector, as well as a BbinojBieHHe table in the form of a cellar block, provides an interference pattern that allows you to expand the range of monitored parameters. T 12 7

Claims (1)

DEVICE FOR CONTROL OF ANGLES OF REFLECTION OF A RECTANGULAR PRISM, containing a illuminator, a table for installing a controlled prism, and a recorder optically coupled to a illuminator, characterized in that, in order to expand the range of controlled parameters, it is equipped with a beam splitter installed 'behind the illuminator, flat double-sided a mirror made with a bore and mounted on one of the sides of the beam splitter with the possibility of tilting in two mutually perpendicular planes, each of which is perp it is circular to the reflecting surfaces of the double-sided mirror, and oriented so that the illuminator, the beam splitter, and the mirror surface facing the beam splitter form an autocollimation system, an angular reflector mounted behind the mirror opposite the hole in it with the possibility of rotation around an axis perpendicular to the reflecting surfaces of the double-sided mirror, and oriented so that the illuminator, the beam splitter, the reflector and the mirror surface facing the reflector form a second autocollimation system, a table made in the form of a ceramic block with three polished faces, two of which are parallel to one another and perpendicular to the third face, designed to be placed during the rays from the source of the controlled prism, and on each of the parallel faces of the block is mounted on an optical contact through a flat ceramic mirror, reflecting whose surfaces are facing one another. SU, 1116312 '1 1116312