SU282675A1 - AUTO-COLLIMATION EXAMINER - Google Patents

Description

The invention relates to the field of geodesic ontic-mechanical and mechanical engineering and concerns, in particular, test equipment for the study of high-precision levels, devices called examiners.

The known autocollimation examiners, which contain a nlos mirror and a stationary autocollimation ionic system, are enlarged on the examiner's rotary mechanism, since long autofocus autocollimators and inclined mechanisms with a large lever length must be used to ensure sufficient sensitivity.

In the proposed examiner to increase the sensitivity of the device without increasing the dimensions, the flat mirror is made with a two-sided reflective coating, and the autocollimation system has two symmetric channels for independent design of the halves 1, its reference index on the opposite sides of the mirror and after reflection from it - in the field of view reading microscope. The image of the scale of the ocular micrometer is displayed in the same field of view.

the viewer and the field of view of his reading microscope.

With the base / side of the flat hinge 2, the cornus 3 of the mechanism is tilted relative to the base by screw 4. The lagers 5 are fixed to the upper section of the body, into which the test ampoule 6 is installed. From below there is a flat mirror 7 with a double sided coating.

An optical measuring system, containing two symmetric autocollimating optical channels, is mounted on a non-moving base. Each channel consists of a source of light 8 and a grid 9 common to both channels, prisms 10, an optical micrometer compensator, such as a rotatable plane-parallel plate 11 rigidly connected to the plate of another channel and a scale 12 of an optical micrometer common

for both channels, lens 13, prisms 14 and 15, and a two-sided flat mirror 7, common to both channels.

Both optical channels are connected by prisms 16 and 17, which are a high-magnitude block for combining the axes of both autocollimation optical channels with the optical axis of the ocular microscope, consisting of a lens 18 (1), a prism 19 and an oculum 20 (2). For illumination, the microsites of the ocular micrometer are provided. Prisms 21 and 22 and l.insa 23 (P) are provided. Vpnt 25 is used to tilt the support 24 of the plane-parallel micrometer plates. To ensure the stability of the relative position of the grid 9 and prisms 10, 16 R 17 o, and a common block is glued together on a glass base 26.

A beam of rays from the bulb 8, illuminating the dash of the grid I reflected by the prisms 10 into the lenses 13. The lenses 13, in the focal plane of which the grid 9 is located, send parallel beams of rays through the prism 14 to the control element (mirror 15). Reflect: Led from the mirror surfaces of the mirror 15, parallel beams of rays through prisms 14 are directed to objectives 13, which, through the blades 11 and prisms 16. And 18, build autocollimation images of halves of the grid 9 in the plane of the border 27 of the silver layer on the hypotenuse face prisms 17. Next, the beam of rays by lens 18 is directed to the exit face of prism 19 with 1 small and large aperture windows, transferring to the large aperture window the autocolleted images 28 of the grid 8 and the image 29 of the section 27 border. J2 mi rometra, osvesh, ennye bulb through

the prism 21 is projected through the prism 22 by the lens 23 into the plane of the object lens 18 and then with this lens into the plane of the small chart window, where it is considered together with the image 29 of the interface and image ™ 28 through the ocular 20.

The study of the price of the high-level division is carried out as usual.

Subject invention

The autocollimation examiner containing a flat mirror fixed on the examiner's mechanism, and a fixed auto collimation system, characterized in that, in order to increase the sensitivity of the instrument. A. When reducing the size, the flat mirror is made with two-sided reflection, it covers and the autocollimation system with two symmetric channels for independent projection of the halves of the total reference index on opposite sides of the mirror, and after reflection from it - in the field of view of the reference micrograph the osprey, into which the image of the scale of the ocular M. micrometer is displayed.