SU1362932A1 - Device for investigating geodetic instruments - Google Patents

Abstract

The invention relates to geodetic instrumentation and allows to improve the accuracy of the device by reducing errors in the relative position of the axes of the collimator and the table. On the bed 1 are fixed coaxially collimator T 2 and 3 with the possibility of linear and angular movements relative -t. their common axis. The device under investigation is placed on table 4, placed by the lens between lenses 12. The collimator sighting axes are combined using the images of grid 14 on the axis perpendicular to the reference reflector 11 created by the collimator 3. When the collimator 2 is focused in the plane of the centering sleeve 5, centering the table 4. The presence of two collimators makes it possible to explore devices with two-sided sighting. 2 nl. i (L cz

Description

The invention relates to geodetic instrumentation, in particular to devices for research and control of geodetic instruments.

The aim of the invention is to improve the accuracy by reducing the errors of the relative position of the axes of the collimator and the table for installing the device.

Fig. 1 is a schematic diagram of the device proposed; figure 2 is a variant of the device with an additional autocollimator.

The device contains a frame 1 ,. on which collimators 2 and 3 are fixed, table 4 for mounting the instrument with a centric sleeve 5, micrometer bandages 6 for adjusting the inclinations of the collimators in two mutually perpendicular planes, micrometer screws 7 for adjusting the displacement of the Mator 3 offset in two mutually perpendicular directions , micrometer Screws 8 for adjusting the displacement of the table ka 4 in two mutually perpendicular Directions. The collimators 2 and 3 contain blocks 9 and 10, respectively, having the ability to move along a common axis, and reference reflectors mirrors 11. Block 9 contains a lens 12, a prism 13, a grid 14 and an eyepiece 15, which allows you to view the image created by the lens in the plane of the grid. Unit 10 includes a lens 12, a prism 13, a grid 14 and an illuminator 16, which serves to illuminate the grid. Each of blocks 9 and 10 has the ability to move along the common axis of the collimators. The grids 14 are mounted in the main planes of the lenses 12, thereby eliminating the influence of the slopes of the blocks 9 and 10 when they are moved to the position of the collimator sighting axis. The collimators are refocused by moving blocks 9 and 10 along the axis of the collimators. Additional autocollimator 17, if necessary, can be installed on the outside of one of the reflectors 11, made in the form of a translucent mirror, which will allow to produce operational control over the parallelism of reflectors.

The device works as follows.

Using the collimator 3, a series of images of the grid 14 are created on an axis perpendicular to the reference reflector.

11. In these images, the installation of the reference reflectors and the alignment of the sighting axes of the collimators 2 and 3 are performed. Thus, the reference direction in two directions of sighting is provided.

Centering the table 4 osuttstst- is when focusing the collimator 2 in the plane of installation of the centering sleeve 5 by moving it in two mutually perpendicular directions.

The survey of the geodetic instrument is carried out when creating on the reference straight line images of grids 14 located at different distances from the instrument under study. Before examining the device, collimators 2 and 3 are set coaxially as follows. They are focused on infinity, then using micrometer screws 6, the mutual inclinations of the collimator sighting axes are eliminated, while the supporting reflectors are parallel to each other. The collimator 3 refocuses for a final distance, and the collimator 2 focuses on the grid image.

yarns created by the collimator 3, with the collimator sighting axes mounted coaxially with micrometer screws 7. After that, on the table 4, the centering sleeve 5 is fixed to the mark on which the collimator 2 is focused. The center of the mark is aligned with the micrometer screws 8 - matorrv. As a result of

adjustments, we obtain a reference line passing through the center of the mark, fixed in the centering sleeve 5. For research, it is mounted on the table 4. If available

sleeve 5 is used in the centering device under study. By changing the focus of the instrument collimators on the images of the grids of the collimator threads, measurements are made

over the entire working range of the device.

The parallelism of the supporting reflectors during operation can be controlled by an additional autocollimator 17.

Refocusing collimators by moving along a common optical axis, perpendicular to the reference reflectors, blocks, each of which consists of an objective lens, a grid and an eyepiece, and the arrangement of these blocks between the reference reflectors, during refocusing on the position sighting axis.

 The parallelism of the reference reflectors determines the parallelism of the collimator sighting axes; therefore, the accuracy of the reference reference is determined only by the lateral displacement of the focusing unit, which, according to technological capabilities, can be reduced to 0.01-0.005 mm throughout the refocusing range. With a distance from the device under study to the grid image of 100 m, such a shift leads to the appearance of an angular error of setting the reference straight 0.05, i.e. negligible value. Therefore, the position of the reference straight line can be characterized by a linear error in the entire refocusing range, which is 0.01-0.005 mm.

Introduction to the device of the second collimator allows

Editor Y. Sereda

Compiled by V.Sarahanov Tehred M.Didzh

Order 6356/27 Circulation 677

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, Projecto st., 4

13629324

research instruments with double-sided sight.

Claims (1)

Invention Formula A device for research of geodetic instruments, containing a frame, a first collimator, two mirrors and a table for installing the device, differing in that, in order to improve accuracy by reducing the errors of the relative position of the axes of the logjet and frame, equipped with a second collimator located coaxially with the first, a stodik is placed between their lenses coaxially with them, each of the mirrors is located perpendicular to the axis of the corresponding collimator from its side the eyepiece, each of the collimators is made with the possibility of linear movement along the axis and angular movement with respect to it with the corresponding mirror, and the table is made with the possibility of lateral movement relative to the axis. HZ Proofreader A.T. sko Subscription