SU767514A1 - Method for correcint angle i in survyeor level - Google Patents

Description

one

The invention relates to geodetic instrumentation and can be used in levels. Preferred field of use high-precision levels.5

There is a known method of correcting the non-parallelism of the sighting axis and the level (angle) axis of the levels, which consists in moving the sighting axis until they are parallel-. Yu Ti U.

The disadvantage of this method is the low accuracy of correction of the angle t in the level.

The closest technical solution is a method of correcting the non-parallelism of the sighting axis and the axis of the level, which means that the sighting axis of the level is set to the Reacted bill determined by the known method. Then, using the corrective screws of the cylindrical level, they combine the ends of the bubble {2 observed through the contact prism.

The disadvantage of the method is the low accuracy of the correction of the angle I. For example, to correct such an angle from to O at the price of the division level. n PG 10 and the length of the level 100 mm,., necessary correctional screw hiero-.

Place the free end of the rim level exactly 3.5 microns, which is practically impossible. In addition, bubble fluctuations significantly reduce correction accuracy.

 The purpose of the invention is the correction of small angles i, as well as the elimination of bubble oscillations when the level is inclined.

The goal is achieved by moving the contact prism along the level scale to align the ends of the level bubble.

As is known, the level axis is tangent to the inner surface of the level ampoule at the zero point. In modern level levels, the zero-point position is determined and determined by the location of the contact prism. By moving it with the correction screw along the level scale, it is possible to change the position of the zero point, and, therefore, select one or another level axis from the entire COBO-J package.

The elimination of non-parallel axes is as follows.

First, the angle I is checked in a known manner (leveled from the middle, then the same excess is measured by leveling forward and the correct computation is established on the rail with the erection screw. Then corrective wimtm remestihot from the contact prism until the contact of the bubble codes in the field is reached. That is, the zero-point is actually moved and the level axis that is parallel to the sighting axis is selected. The speed and accuracy of correction is improved here. At a price t of 1 level level 1G J | ia 2 mm of scale moving the prism by 1 µm with з corresponds to a change in the angle t; by about 005, i.e. it is possible to reduce the Zepsean angle to practically zero. There are no bubble fluctuations during the correction, which improves the accuracy and speed of correction of the invention. at the leveler, in the installation in the installation of the sight: 3 ... /; h-,:,,

4 axles with an elevation screw for a charge. There is a certain reading on the rail, combining the ends of a bubble of a cylindrical level observed through a contact prism, characterized in that, in order to correct small angles i and eliminate bubble oscillations when the level is inclined, the contact prism moves along the level until the ends of the bubble are aligned. Sources of information taken into account in the examination 1. Instructions for investment, I, I, III and IV classes, M., Nedra, 1974, p. 63. 2. Heyfets 5.S. and others. Workshop on engineering geodesy M., Nedra, 1973, p.145 (prototype).

Claims (1)

Claim. The way to correct the corners of the level, which consists in installing the sighting axis with the elevation screw on the dawn ^ '. a certain reference on the rail, combining the ends of the bubble of the cylindrical level observed through the contact prism, characterized in that, in order to correct small angles I and to exclude bubble oscillations when the level is inclined, the contact prism is moved along the level scale until the ends of the level bubble are aligned.