SU1012183A1 - Multi-part flat mirror adjustment method - Google Patents

Abstract

SPECIALIZE OF ENVIRONMENT. TABHCX4D of the FLAT MIRROR, which consists in installing a reference object in front of the ercal of the reference object, by forming the shape of the object in all the fapetam in the mirror, in order to increase the alignment of the mirror, FS, 1 mv. They will combine large-scale sparks from each other, forming a base mirror in the fapetons. At the beast of a mirror, they reach together. obovh: veobrazhevvy "

Description

The invention relates to the adjustment of b, depending on the selected magnitudeoptical systems and can be used when adjusting flat heliostats.

A known method for aligning composite 5 flat mirrors is to superimpose the image of a collimated source on a screen with a grid and to turn the aligned mirrors until the light from the fenets coincides with fenets with 10 mesh cells £ 1].

The disadvantage of this method is the need for angular rotation of the heliostat when using Soinp as a light source in connection with its apparent movement.

The closest in technical essence to the invention is a method of aligning a composite flat mirror, which consists in installing a reference object in front of the mirrors 20, forming an image of the object with all the facets of the mirror. kala £ 2J.

The disadvantage of this method is the low accuracy, depending on 25 subjective factors in assessing the accuracy of the image.

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

This chain is achieved by the fact that according to the method of aligning a composite flat mirror, which consists in installing a reference object in front of the mirror, forming an image of the object with all the facets of the mirror, ι form an additional uniform image of the reference object with the base mirror, the parts of the uniform images formed by the base mirror and facets are combined, and by turning a mirror of ₄₀ cal, both images are combined.

The drawing shows an optical diagram of the path of the rays of the implementation of the proposed th method. ₄₅

The scheme includes composite flat mirrors 1, the intersection points H and M of the grid of the reference object with the distance between the points - In; distance from the plane of the mirror to> the plane of the reference object S, distance and L-χ from the flat »^ ⁰ mirror to the centers of the lenses of the projection system with focus and £ _g , image of the reference object

MN, only the reflected central. (Base) of the mirror, equals (5. ⁵⁵ Izobra- voltage object ΜΉ, reflected by all mirrors as well .Rasstoyanie β between the centers of adjacent mirror image object us β Μ N, the focal length of the projection system and the distance between the pines grids B and distances S from the drawing of the mFN ·. ⁽¹⁾ focal lengths 1 + Β | β> (2)

The relationship between the foci with the RaBCO ^system X _t (3)

In this case, the images of the same MM object are uniform.

The method is as follows.

One of the mirrors is taken as the base. At a distance L4 from the Mirror plane, a projection system with focus is installed and on the system screen an I4 image of the reference object MM is reflected, reflected by only one base mirror. They install a second system with focus - £ ^ at a distance '. And on its screen an even-sized image of the same reference object MN is reflected, reflected by all the mirrors. The image of the reference Object obtained on the screen of the first system is transmitted to the screen of the second system. This can be done using a television camera or using a photographic plate as the screen of the second system; with an exposed image of the reference object of the first system. A part of the image of the reference object obtained by the second projection systole, reflected only by the base mirror, is superimposed on the image constructed by the first projection system. By turning the adjustable mirrors, the image of the grid elements of the grid elements of the reference object created by the second system is completely matched with the corresponding elements of the grid image created by the first system.

An important advantage of the proposed method is the ability to quantify the deviation of flat mirrors from the correct position for mismatch. two images of the reference object, which significantly increases the accuracy of the adjustment. In addition, the method allows you to document the results of executive control of the position of the aligned mirrors.

Claims (1)

. ($ 4) METHOD OF ADJUSTING A COMPOSITE PLANE MIRROR, which consists in installing ¹ reference object in front of the mirrors, forming an image of the object with all the facets of the mirror, so that, in order to increase the accuracy of adjustment, they form an additional equal-scale image of the reference object with the base mirror, combine parts of equal-sized images formed by the base mirrors and facets, and by turning the mirrors achieve alignment. 'both images ^