SU969103A1 - Sight autocollimator device - Google Patents

Abstract

A VISE AUTO-COLLIMATION DEVICE containing a telephoto lens, an autocollimation eye, a beam-splitting prism, a collimation illuminator, and a readout node, characterized in that, in order to improve the accuracy of the angular measurements in two coordinate planes in the internal vertical and automatic collimation, the position of the surface is at the same level as in the out of position and the position of the surface is at the same level. coaxially mounted with a collimation illuminator behind the beam-splitting prism, the mechanism of joint, made in the form of a lens and a flat mirror with independent suspension to The device can be mounted using flat springs at an angle of 90 to each other and interconnected by levers whose turning axes are parallel to the strokes to cross over the autocollimation mark. .

Description

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The invention relates to the field of optical instrumentation, namely to optical measuring devices, and can be used to align composite optical elements arranged in series along the axis.

Known autocollimating sight devices for angular measurements include a telephoto lens, an autocollimation ocular system, a reading device, for example, TV-3 theodolites, GS-5 goniometers, AKM1000 ClJ autocollerators.

The closest in technical essence to the proposed device is an autocollimation sight device - an AK-0.25 autocollimator containing a telephoto lens, an autocollimation eye, a beam-splitting prism, a collimation illuminator and a reading unit C2J,

A disadvantage of the known autocollimator is that the body rotates around the sighting axis, disturbing the stability of its direction, as a result of which, during repeated adjustment measurements, reproducibility of the base direction is not ensured, which is the main alignment of the alignment.

 Moreover, with the help of a well-known autocollimator, no angular measurements can be made in the sighting mode, except when the object is illuminated and ACCURVATED crosshair, whose image is like the b index of the rmicrometer's optical eye. However, during alignment, there is a requirement for accurate angular measurements for illuminated objects of a different shape, for example, points.

The goal of the invention is to provide accurate angular measurements in two coordinate planes in the modes of sighting and autocollimation with a stable position of the sighting axis of the device.

This goal is achieved by the fact that the alignment mechanism, made in the form of a lens, and combined with a collimation, illuminator behind the beam-splitting prism, is inserted into the target coaxially mounted camera with a collimation illuminator behind the beam prism, made in the form of a lens and made in the form of a lens, and combined in with independent suspension to the device body with the help of flat springs located at 90 degrees dod and connected to each other by levers whose pivot axes are parallel to the stroke m

brighten up the autocollimation brand.

Figure 1 shows the described device, the incision; Fig. 2 is a section A-L in Fig. 1 in Fig. 3 - view 5 of the field of view.

The autocollimation target device contains a telephoto lens 1, an autocollimation eyepiece system 2-6, a reading device 7.8, 10 9 and a combination mechanism 10-20.

The autocollimadic ocular system consists of a beam-splitting prism 2, an eyecup 3 and a collimation illuminator including a light source 4, a condenser 5 and an autocollimation mark 6. The autocollimation mark 6. is a silver-plated plate on which a cross is etched. Q In the focal plane of telephoto lens 1, a reading device is placed — a two-coordinate optical eye of a p-micrometer, including —in the compensator lens 7, a second 25 scale 8 and a minute scale 9. The scales 8 and 9 are two-coordinate. .

In the course of the rays on the same axis with a collimation illuminator for the light. A prism 2 is equipped with a combination mechanism (images of an autocollimation cross and an object), which consists of a lens 10 and a flat mirror 11.

Objective 10 is set so that its focal plane is interconnected with the measuring plane (the tick plane of the second scale-8 and minute scale 9) and the plane - e-collimation brand 6, Zerkako 11 is set to. a lever 12, which 0 is associated with the device body 13 through a lever .14 and flat pru)) tires 15, 16, which are located at an angle of 90 ° to each other.

The screw 17 and the spring 18, fixed 5 n. In the case 13, are designed to rotate the mirror 11 around an axis parallel to the vertical bar to cross over the autocollimation mark b.

The screw 19 and the spring 20, fixed in the lever 14, are intended to rotate the mirror 11 around an axis parallel to the horizontal stroke to cross over the autocollimation mark 6.

5 To eliminate extraneous images and scattered light, there is a slide valve 21, installed between the beam-splitting prism 2 and the objective lens 10,

0 Sighting autocollimating device operates as follows. The rays going through the telephoto lens 1, pass the beam-splitting prism 2 and build the image of the lens in

5 planes of tick marks second scale 8

and MHfiyxHoft scale 9 optical eyepiece p-; liquometer.

The rays coming from the light source 4 / through the condenser 5 and the autocollimation mark b, pass the beam splitter 2 and the lens 10, are reflected from the flat mirror 11 and fall back onto the lens 10 and the beam-separating prism 2. Having reflected from the face of the beam splitter 2, the rays The image of the light of brand 6 is also in the plane of the second scale 8 and the minute scale 9 of the optical eye of the rmicrometer.

Moving the flat mirror 11 with the help of a screw 17 or 19, the image of the autocollimatio string, mark b, is combined with the image of the object superimposed on it.

The image shift of the light autocollimation grade 6 is recorded by an optical eye with a p-micrometer. When the device operates in auto collimation mode, the slide valve 21 is behind / covered,

The proposal has a technical and economic effect, expressed in the fact that the autocollimation target device, equipped with a combination mechanism, made in the form of a lens and a flat-mirror with independent suspension to the device body, is a high-precision angle-measuring tool and can work in two modes - autocollimation and sighting with a stable position of the device sighting axis. This allows the device to be used to align the constituent elements. .

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Claims (1)

VISIOR AUTOCollimation device containing a telephoto lens, an autocollimation eyepiece, a beam splitting prism, a collimation illuminator and a reading unit, characterized in that, in order to improve the accuracy of angular measurements in two coordinate planes in the modes of sighting and autocollimation with a stable position of the sight axis, the alignment mechanism coaxially mounted with a collimation illuminator behind a beam splitting prism, made in the form of a lens and a flat mirror with independent suspension to the housing construction using flat springs located at an angle of 90 ° to each other and interconnected by levers whose rotation axes are parallel to the strokes of the crosshairs of the autocollimation mark.