SU821919A1 - Apparatus for determining theodolite eccentric position - Google Patents

Description

one

The invention relates to geodetic instrumentation, in particular to auxiliary devices for high-precision angular measurements.

Forced centering devices are known, which contain devices attached to a geodetic sign and fixing the position of the theodolite T above it.

However, these devices are characterized by the need to manufacture special expensive geodetic marks. When working in cramped conditions, the installation and use of such devices is impossible.

The closest technical entity to the present invention is a device comprising a stand with three lifting screws, a level and a landing ball 2

However, this device does not allow to determine the value of the eccentric position of the theodolite in cramped conditions inside industrial objects, etc.

The purpose of the invention is to make it possible to determine the theodolite’s eccentricity in cramped carbon.

The goal is achieved by the fact that a ruler is installed on the stand with the possibility of rotation around the vertical axis, on one of the ends of which the mark is strengthened, and on the other a meter of short distances.

Figure 1 shows the device, a general view of Figure 2 is a section along the axis of rotation.

0

The device contains a stand 1, a landing ball 2, fixing the position of the device relative to the center of the geodetic mark (for example, a pin with a ball), a ruler

5 3 with a level fixed on the vertical axis 4, coinciding with the axis of the centering block. On the ruler 3, on the axis 5, located in its plane and intersecting the axis 4, the mark 6 and

0 meter - 7 short distances (scale, mark with indicator, moire sensor, etc.).

Determining the value of eccentric

The 5th position of the theodolite is performed in the following sequence.

After the theodolite is approximately centered over the sign, the device is installed under the theodalite by aligning the landing ball 2 with the center 0

rum sign, aligning the axis 5 o - one of the observed directions and bring the plane of the ruler b horizontal position; then the theodolite tube is aimed at the sight mark 6, transferred through the zenith and the distance d is determined (see Fig. 1) by means of a small distance meter 7 {to eliminate the collimation error, similar measurements are taken with another circle); then the ruler 3 is turned around the axis 4 at a certain angle and, having performed all the measurements in the above sequence, the value of a is obtained.

From the known values a and a and the distance between the sight mark b and the 7 small distance meter, the linear value of the element of the eccentricity and the angle between it and one of the observed directions 0 are calculated using the formulas:

  +

& V l x

8 arcsm -j- At OTccos -g-,

where MO is the place of zero gauge of small distances;

t, E is the projection of the element I on the coordinate axis.

Claims (2)

1. Bolshakov V.D. et al. Methods and devices of high-precision geodetic measurements in construction. M., 1976, p. 56. 2. Bolshakov VD and others. Methods and devices of high-precision geodetic measurements in construction. M., 1976, p. 275 (prototype).