RU2610049C2 - Method of remote geometric leveling - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: invention can be used in the field of industrial safety when determining the relative height position (settlement) of buildings (structures), elements of process equipment, carrying out location surveys in construction, installation of technical equipment in mechanical engineering, as well as in other fields of science and technology, which require the capability to measure the exceedances in horizontal and vertical planes, in points unaccessible for direct contact. The claimed method of remote geometric leveling is the use of laser plane buider and laser rangefinder. Initially, the laser plane creates a reference visible horizontal plane, and then the height samples are taken from the plane by vertically mounted laser rangefinder at points inaccessible for direct measurements (contact).

EFFECT: expanding of the range and increase of productivity when measuring height positions in conditions where it is difficult or impossible to measure with instruments installed in the immediate vicinity of the point.

1 dwg

Description

The invention relates to the field of geodesy and can be used in the field of industrial safety when determining the mutual elevation (precipitation) of structures of buildings (structures), elements of technological equipment, carrying out alignment work in construction, when installing technical equipment in mechanical engineering, as well as in other fields of science and equipment where the ability to measure elevations in the horizontal and vertical planes of places, points inaccessible to direct contact, is required.

A known method of geometric leveling by sighting a horizontal beam with a pipe level and counting the height of the target beam at some point on a plumb rail set at this point with marks or strokes applied on it (see the Surveyor's Handbook, book 2, M., Nedra, 1985, p. 97). The disadvantages of this method include the need for a leveling rod with commensurable, measured excesses, geometric dimensions and the inability to carry out measurements in the absence of direct visibility between the leveling points, i.e., if there are obstacles in the path of the beam (the path is blocked by equipment, there are snow snowdrifts, the observation platform is made so that its surface lies above the plane of the measured points, etc.), the need for two people to participate in the measurement procedure.

Also known is the method of trigonometric leveling, which consists in determining the excess between the points from the calculation of the measured distance between the points and the angle of inclination of the line of sight (see Handbook of Surveyors, book 2, M., Nedra, 1985, p. 132). The disadvantages of this method include the need to use a more complex and expensive instrument - a tacheometer and the inability to take measurements in the absence of direct visibility between the leveling points, i.e. when there are obstacles in the path of the beam.

The aim of the invention is to provide a method for expanding the range and increasing productivity when measuring the altitude of the points in conditions when it is difficult or impossible to measure using instruments installed in the immediate vicinity of the measuring point.

The purpose of the invention is achieved by the fact that to increase productivity using a laser plane builder, a visible horizontal laser plane is created, which is used as a basis and from which measurements are made of the excesses of inaccessible points using a laser range finder located strictly vertically. In this case, the elevations between the points of the leveling path are determined as the difference between the elevations between the horizon of the visible laser reference plane and the horizons of the defined points.

The essence of the method is illustrated in FIG. 1, where the leveling scheme is presented. The drawing shows:

1 - laser plotter;

2 - laser range finder;

3 - required leveling points;

4 - outlines of building structures;

5 - reference laser plane.

The method is implemented as follows.

Using a laser plane builder, a horizontal, reference, visible, laser plane is set. The laser range finder is installed strictly vertically and the height of the required inaccessible point is measured. The elevations between the points of the leveling path are defined as the difference between the elevations between the horizon of the constructed reference laser plane and the horizons of the defined points.

Claims (1)

A method of remote geometric leveling, consisting in the use of a laser plane builder and a high-precision laser range finder, characterized in that initially, using a laser plane builder, a reference, visible, horizontal plane is created from which height samples are taken from vertically mounted laser range finder points that are inaccessible to the direct measurement (contact).

Images