SU556316A1 - Method for determining the parallelism of the axis of the level of the sighting axis of the autocollimation nivolir - Google Patents

Description

one

The invention relates to the field of optical instrument making, and mainly geodesic, and can be used to control the quality of the alignment of autocollimated levels.

The methods for checking the parallelism of the axis of the level with the vizier of the axis of the level are as follows: the excess between two base points when installing the level in the middle between the points and an example of these points at a distance from the closest one equal to the distance between the points is determined twice.

The resulting difference in elevations contains information about the relative position of the level axes and the sighting, but this information is accompanied by an error that occurs when the leveling tube refocuses due to a shift in the focusing lens.

This error, together with errors of counts on rails, distorts the observation materials, which reduces the accuracy of the final results. In addition, the disadvantage of this method is the complexity of the methodology and the need for calculations when obtaining the final result.

The method of determining the parallelism of the axis of the level of the sighting axis of an autocollimation level, which is closest to the invention to the technical essence, consists in a two-sided observation and by an autocollimation method of a control element with a flat pattern 2 reflecting planes.

The purpose of the invention is to increase the accuracy of controlling the parallelism of the axes.

This is achieved by controlling the control element perpendicularly to the sighting axis of the level on one of the sides, and when viewing from another level of the level of the vizier, the axis is oriented perpendicular to the opposite side of the control element and by displacing the bubble from the middle of the level ampoule, double the non-parallelness level axis of the sighting axis.j

FIG. 1 shows a scheme for the implementation of the described method of controlling the parallelism of the axis of the level of the sighting axis of an autocollimation level. FIG. Figure 2 illustrates the geometric relationship of the vizier of the level axis and the level axis to the control element and the plane of the horizon.

To determine the parallelism with this method, the autocollimation level 1 (see Fig. 1, position a) is placed in front of the control element 2. The level bubble is brought to the middle of the ampoule and, by changing the position of element 2, it is set by the autocollimation method perpendicular to the target axis of the level. With new installation

level 1 (position b), its sighting axis is oriented, by the autocollimation method, alternately to the anti-mastic reflecting surface of the control element. The value of the displacement of the bubble from the middle of the level ampoule corresponds to twice the angle between the sight axis of the level and the level axis and therefore for adjustment it is enough to adjust its bubble by half the offset towards the middle of the ampoule by means of adjustment screws. This position is shown in FIG. 2. After bringing the bubble into the center of the level ampoule, its axis 3 is set parallel to the plane of the horizon NN, and the sight axis 4 of the test level is inclined at an angle f (position a). At the same angle, the plane 5 of the control element is inclined. After the leveling axis 4 of the level is attached to the opposite side of the control element (position b), the level 3 axis will be inclined to the plane of the horizon by an angle of 2i and after the level bubble is shifted half the deviation towards the middle, the level axis will become parallel to the level sight axis. Using the method of determining the parallelism of the axis of the level of the sighting axis of an autocollimation level provides, in comparison with a known method, the following advantages: the possibility of obtaining results that are free from a fault of the sighting axis

when refocusing and sampling errors on the scales of control elements; obtaining by the a-vtocollammation method of double magnitude of non-parallelism of the sighting axis of the level axis (2i), which improves the accuracy of the method; simplification of the measurement procedure; the possibility of obtaining results without calculations.

Claims (2)

1. Deemlich F. Geodetic Instrumentation. M., ed. Nedra, 1970, p. 352. 2. Auth. St. No. 310110, cl. G 01С 1/06, 1970 (prototype).