SU901820A1 - Device for checking hairline net of optical geodetic instruments - Google Patents

Description

The invention is associated with the development of equipment for research and verification of geodesic devices, in particular, for checking the grid of threads of optical geodetic devices such as theodolites, levels, centriors, etc. A device is known for controlling the reversal of the mesh of the instrument, made as a plumb with a load placed in a viscous liquid to reduce the oscillation of the plumb Dl. However, the known device cannot provide the necessary accuracy when combining the plumb line with the image of the prime or bisector of the grid of the threads of the instrument being turned. With its help, it is impossible to reveal deviations on the grid's primary strokes from the required position. It is also known to use a collimator to control the reversal of a grid of filaments, while it is advisable to use a viewing tube with theodolite internal focusing as a collimator. In this case, the monitoring device is a wicked sign, which has the ability to rotate around the horizontal and vertical axes of the theodolite, measuring the angle of rotation relative to these axes 2. However, using such a device, it is impossible to measure the angle of rotation of the reticle mesh of the instrument being turned the axis of rotation is parallel to the plane of the line of sight. The purpose of the invention is to provide control of arbitrary angles of reversal of the reticle, as well as the position of the inclined grid strokes. The goal is reached. the result of making the target mark as a sliding slit mark, the plane of which is perpendicular to the horizontal axis of rotation.

In addition, the sliding slit mark can be installed on the horizontal axis of rotation of the module so that the plane of the brand is parallel to the plane of the theodolite's vertical circle.

FIG. 1 shows the device, general view, section; in fig. 2 - the same in terms of.

A vertical axis 2 of rotation of the housing 3 is located in a stand 1 with three lifting screws. The horizontal axis k is located in the housing 3, rotated by a screw 5 and fixed by a locking screw 6 in any desired position. On the horizontal axis 4 there is a sliding slit mark 7 with illumination, for example, a known type 33 and a vertical transparent limb 8 with divisions, the image of which is transferred to the microscope 10 using a prism 9. To illuminate the divisions of the vertical limb 8, a capacitor 11 is provided. Parts of body 3 are fixed to sight 2 for preliminary orientation of the slit mark with respect to the instrument being scanned. The verticality of axis 2 is controlled by level 13. The axis 2 is fixed in the required position by a locking screw.

The device works as follows.

Before checking on the bench, the readings on the vertical limb are determined, corresponding to the vertical (MW) and horizontal (MG) position of the 7- mark. The rotatable optical device is installed at a distance of m from the pre-oriented and de-grounded device. Then, using screw 5, the axis k is turned together with the mark 7 to the position corresponding to the readings in the vertical circle MB or MG. A mark of the mark 7 is observed through the sighting tube of the instrument being turned. If the image of the mesh being turned does not coincide with the slit, turn the additional screw 5, mark 7, and take readings in a vertical circle in the position of alignment. The difference between the initial and the working reference on the vertical limb

characterizes the rotation angle of the grid prime relative to the vertical or horizontal. If it is necessary to check the position of the oblique line, the mark slit is pre-exposed at the required angle. To improve accuracy, an optimum slit width is set.

Using the proposed device. The mean square error of the control of arbitrary grid angles of the order of 2 can be achieved. Laboratory tests of a prototype device based on a theodolite confirm the feasibility of its use.

Claims (3)

1. A device for calibrating the grid of the filaments of optical geodetic instruments, made in the form of a sighting mark, mounted for rotation around the horizontal and vertical axes of the theodolite and equipped with devices for measuring rotation angles around the indicated axes, characterized in that, in order to control arbitrary grid turns and the position of the inclined grid lines, the sight mark is designed as a sliding slit, the plane of which is perpendicular to the horizontal axis of rotation. 2. The device under item 1, about t of l and-. So that the sliding slit mark is mounted on the horizontal axis of rotation of the theodolite so that the plane of the mark is parallel to the plane of the theodolite’s vertical circle. Sources of information taken into account in the examination 1. Efremov A.A. Assembly of optical devices. M., Higher School, 1978, p. 200. 2.Ani cat A.A. Precision theodolites T1 and T05. M., Nedra, 1378, p. 95-100. 3. Methods and instruments of high-precision geodetic measurements in construction. M., Nedra, 1976, p. 157-153.