SU1668856A1 - Arrangement for testing levelling devices - Google Patents

Abstract

The invention relates to the field of measurement technology and can be used to check the parallelism of the sighting axis of optical instruments of the "level" type horizon, determined by the level of these devices. The aim of the invention is to increase the control accuracy by increasing the sensitivity twice when using a differential control circuit formed by a system of reflectors. The light beams of the illuminator 9 pass through the controlled level 8. Then one part of the beam of rays passes through the glass plane-parallel plate 7, enters the autocollimator 1 and forms on its grid an image of the grid of the controlled level 8. Another part of the beam of rays after the controlled level 8 passes through the glass this plane-parallel plate 7, is reflected from mirror 6, from liquid 4 in bath 3, then from mirror 5 and enters autocollimator 1, forming on its mesh an image of a grid of a controlled level 8. The distance between With two images of the grid of the monitored level 8 in the grid plane of the autocollimator 1, the angle between the sighting axis of the monitored level 8 and the horizon is determined. 1 il.

Description

The invention relates to measuring equipment and can be used to check the parallelism of the sighting axis of optical instruments of the type level to the horizon, determined by the level of the instruments.

The aim of the invention is to increase accuracy by increasing the sensitivity and twice when using a differential control circuit formed by a system of reflectors.

The drawing shows a functional diagram of a device

The device comprises a base (not shown) and a self-collimator 1, a precision rotary assembly 2 mounted rotatably on a vertical axis, a bath 3 with liquid 4 mounted on a precision rotary assembly 2, mirrors 5 and 6 mounted on a precision rotary, sequentially mounted on the base node 2 at equal angles to the surface of the liquid, a glass plane-parallel plate .7, basing; a node (not shown) designed to • place a controlled level ψ 8 so that one part of its entrance pupil is optically connected through a glass plane-parallel plate 7, mirror 6, liquid 4 in the bath 3 and mirror 5 with the exit; the pupil of the autocollimator 1, and the other part of its exit pupil is optically connected; _k through a plane-parallel plate 7 with the exit pupil of the autocollimator 1, the Illuminator I is installed in front of the eyepiece of the controlled level 8.

Before using the device, check the parallelism of the optical axis of the autocollimator 1 to the horizon, the equality of the tilt angles of the mirrors 5 and ₍ 6 to the optical axis of the autocollimator 1, as well as the perpendicularity of the axis of rotation of the precision rotary assembly 2 to the horizon.

Under these conditions, autocollimation blocks, one of which is formed after reflection of one part of the beam of rays of the autocollimator 1 from the glass plane-parallel plate 7, and the second after reflection of the second part of the beam of rays of the autocollimator 1 from the mirrors 6 and 5, liquid ^ in the bath 3 and the glass plane-parallel plate 7 are aligned with the center of overlap of the grid of the autocollimator 1 at two positions of the rotary assembly after its rotation through 180 °.

The device operates as follows.

In the basing device, the controlled level 8 is installed in a horizontal position on the level (not shown) of the controlled level 8, and a illuminator is installed in front of the eyepiece of the level 8

9. The beam bundles of the illuminator 9 pass through a controlled level 8, then one part of the beam of rays passes through a glass plane-parallel plate 7, enters the autocollimator 1 and forms a grid image of a controlled level 8 on its grid (not shown).

The second part of the beam of rays after the controlled level 8 passes through a glass plane-parallel plate 7, is reflected from the mirror 6 from the liquid 4 in the bath 3, from the mirror 5 and enters the autocollimator 1, forming a grid image of the controlled level 8 on its grid. The distance between two grid images controlled level 8 in the grid plane of the autocollimator 1 determine the angle between the sighting axis of the controlled level 8 and the horizon.

Improving the accuracy of control in the proposed device is due to a twofold increase in sensitivity compared to known devices due to the use of a differential control circuit formed by a system of reflectors (mirrors 5 and 6, as well as liquid 4 in the bath 3), partially overlapping the exit pupil of the controlled level 8.

Claims (1)

Claim A device for checking levels, containing a base and a sequentially installed on the base of an autocollimator, a liquid bath, a glass plane-parallel plate and a basing unit designed to place a controlled level so that its entrance pupil is optically connected through a plane-parallel plate with an autocollimator, characterized in that, with In order to increase accuracy, it is equipped with a precision swivel unit mounted between the autocollimator and a plane-parallel plate with the possibility of rotation from around the vertical axis, by two mirrors mounted on a precision rotary assembly at equal angles to the liquid surface so that part of the exit pupil of the autocollimator is optically connected through the first mirror, the liquid in the bath and the second mirror with a plane-parallel plate, a illuminator installed in front of the level eyepiece, and a liquid bath is placed on a precision swivel assembly.