SU1474454A1 - Method of leading line measurements of object replacement - Google Patents

Abstract

The invention makes it possible to control the stability of the spatial position of the trunk objects. The aim of the invention is to improve the measurement performance by measuring only the linear distances of the telescope displacement from the tailline. Turn the telescope 3, the console mounted under one of the supporting signs 1, forming the leading line. Its optical axis is combined with the first of the monitored marks 5 located on the monitored object, while ensuring that the second reference mark 2 is also located on the optical axis of the telescope. The offset distance of the axis of rotation of the telescope 3 from the alignment line is measured, and the vertex of the controlled sign displacement from the alignment line is calculated taking into account the predetermined distances between the reference and reference signs. Based on the magnitude of the displacement found, the spatial position of the object is judged. 1 il.

Description

 one

Ј Ј

cl

Ј

one

The invention relates to a measurement technique and can be used to control the stability of well-placed objects during their operation.

The purpose of the invention is to increase the measurement performance by measuring only the distance lines of the telescope offset from the alignment line.

The drawing shows the principal measurement scheme of the proposed method.

The diagram shows the first 1 and second 2 reference signs forming the leading line, the optic tube 3, the rod 4, which rotates the tube 3 around the axis of the reference mark with a radius equal to R, control signs 5, -5, installed on the objects to be monitored.

The measurements are carried out as follows.

The distance between the reference and reference signs is preliminarily measured and the leading line is fixed, for example, on the plate plane, installed above the reference sign 1, perpendicular to the axis of the reference sign.

The telescope is rotated on the rod 4 around the axis of the reference sign. The optical axis of the telescope is aligned with the first of the signs being monitored, and the second reference sign is also located on the optical axis of the telescope. For a given position of the telescope, the distance from its axis of rotation, which is located perpendicular to the optical axis, to the fixed alignment line is measured.

Thereafter, these operations are repeated sequentially for the remaining check marks.

The magnitude of the displacement of each countermark of the leading line is calculated from the condition

S

Jh

the magnitude of the linear displacement of the sign being monitored from the leading line;

0

5, -G

s; G is the distance from the axis of rotation of the telescope to the gate line;

distance between reference signs;

the distance from the second reference sign to the sign to be monitored.

The proposed method makes it possible to determine the stability of the alignment position of objects without installing additional measuring equipment on them and to perform only linear measurements.

Claims (1)

Formula inventions n and A method of fixing measurements of moving objects, which consist in setting a leading line with two reference signs, places an optical device on an axis with one of them, and sequentially guides the optical axis of the device at reference signs, which are mounted on corresponding controlled objects between reference signs, measure the distance between the reference and control marks, and the displacement controls The objects to be detected are determined by the magnitude of the displacement of the signs being monitored, characterized in that, in order to increase productivity, a telescope is used as an optical instrument, which cantileverly be mounted relative to the first reference sign so that it can be rotated around the axis perpendicular to the optical axis of the pipe and the axis the reference mark, preliminarily fix the position of the mounting line in a plane perpendicular to the rotation of the pipe, before determining the magnitude of the displacement of the reference mark, rotate the visual pipe around the axis of the first reference mark, its combined optical communication with a reference mark and the second reference mark is measured by the distance from the rotational axis of the telescope is fixed to the casement line and the measured value m of the similar triangles determined offset value sign controlled.