SU1201680A1 - Method of inspecting non-linearity of continuous objects - Google Patents

Abstract

The invention makes it possible to increase the accuracy of determining the linearity of long objects and at the same time determine the point of inflection. The method is based on the use of the effect of the optical lever. After mounting the sighting tube at one end of the object and at the other end of the target mark, it is loaded at the installation site of the target mark in the direction perpendicular to the axis of the sighting tube. The displacement of the target mark is measured in the direction perpendicular to the axis of the sighting tube. The displacement of the target sign in the direction of loading h and the displacement of the image on the grid of the sighting tube, which is displaced in the direction opposite to h and according to the formula / 1--, is measured. The np is the location of the inflection point, where t is the distance from the sighting tube to the target mark; - distance (Lniye from the target sign to the inflection point. 2 Il.

Description

The invention relates to measuring equipment and can be used to control the linearity of objects in various industries. 5

The aim of the invention is to improve the accuracy while finding ^ and. ^ The whole set of the shear of cantilevered objects with a butt part. ? 10 • 'Ji © fig. 1 schematically depicts a co-control object ^ with a sighting pipe and target sign installed on it; in FIG. 2 - optical measurement scheme. 15 h - offset of the target sign in the direction of loading;

h _t - the amount of displacement of the target sign relative to the sighting axis of the pipe;

ί - distance between the vizir-. ’No pipe and target mark.

The method allows by simultaneous installation on the object of the target sign to control its non-linearity and at the same time determine the location of the inflection of the object.

The method is as follows.

On the cantilevered long beam 1 with the butt part · set the sighting tube 2, and on the other end of the beam 1 - the target mark 3. The center of the crosshair of the grid of the target mark 3 point 0 ”is combined with the optical axis of the sighting tube 2. Load the beam 1 at the installation site of the target sign 3 in the direction perpendicular to the axis of the pipe 2, and measure the offset of the target sign 3 in the direction of loading, measure the linear displacement of the target sign 3 on the grid of the sighting pipe 2. Based on the data obtained according to the well-known formula for optical jnecKoro determining an inflection point of the object _1_ _t = h + h _{* where z - distance from a target mark to an inflection point;

Claims (2)

The invention relates to a measurement technique and can be used in monitoring the non-linearity of objects in various sectors of the industry. The aim of the invention is to improve the accuracy while simultaneously walking - | | and that of the cantilever fastened objects with the butt 4acj; ro. V | H1 of FIG. 1 of the schema of 4esky shows an object of control, with a mounted “1” & and target character; in fig. 2 is an optical measurement scheme. The method is carried out as follows. On the cantilever-mounted longitudinal beam 1, with the butt part, install the sighting tube 2, and at the other end of the beam 1, the target sign 3. The center of the reticle scatter of the target sign 3 combines the point O with the optical axis of the sight tube 2. Load the beam 1 at the target sign installation site 3 in the direction perpendicular to the axis of the pipe 2, and the displacement of the target sign 3 in the loading direction is measured, the magnitude of the linear displacement of the target sign 3 on the grid of the sighting tube is measured 2. On the basis of the data obtained using the well-known formula for an optical lever, the inflection point of the object is determined t - Ь Jh + h where r is the distance from the target sign to the inflection point; h is the displacement of the target sign in the direction of loading; the amount of displacement of the target mark relative to the pipe sighting axis; E is the distance between the sight tube and the target mark. The method allows, by simultaneously installing a target mark on an object, to control its non-linearity and at the same time determine the place of inflection of the object. Claims The method of controlling the non linearity of lengthy objects is that the target tube is installed at one end of the object and the target mark at the other end, and the amount of displacement of the target mark relative to the target axis of the tube is measured, characterized in that at the same time finding the place of inflection of the cantilevered object with the composer part, the sight tube is installed in the composer part, before the measurement, the object is loaded at the installation site of the target sign in the direction perpe The dipole axis of the pipe is measured, and the displacement of the target sign in the direction of loading is measured, the inflection point of the object is determined, and the data obtained are used to determine the linearity.