SU1423916A1 - Device for checking polyhedral angles - Google Patents

Abstract

The invention relates to the field of measuring equipment and can be used to control MHororpiaH angles. The aim of the invention is to increase the accuracy of the controp due to the measurement of the angles of the polyhedron relative to the beam of rays formed by a triangular corner reflector optically coupled to the elements of the device using a beam splitter. The beams of the collimator 1, after being reflected from the beam splitter 5, fall on the faces of the controlled polyhedron 7, are reflected from them, then from the edges of the system 3 reflectors, each pair of which forms a corresponding edge of the polyhedron 7, a three-angle corner reflector, and then fall into the system 4 register the optical signal that forms the measurement points. The beams of rays that pass through the beam splitter 5 are reflected from the triangular corner reflector 6, then from the beam splitter 5 and enter the optical signal registration system 4, forming a reference point. The difference in the position of the measuring and measuring to4eK at the output of the optical signal recording system 4 will determine the deviation of the angles of the polyhedron 7 from the nominal value, while it will not depend on the stability of the position of the optical elements of the device (collimator 1, systems 4, etc.). 1 il. (O (L 1 oo oo with

Description

The invention relates to a measurement technique and can be used to control multifaceted angles.

The aim of the invention is to increase the accuracy of control by measuring the angles of the polyhedron relative to the beam of rays formed by a three-angle corner reflector optically connected to the elements of the device with the help of a splitter.

The drawing shows the functional diagram of the device

The device contains a collimator 1, a basing device 2, a system of 3 reflectors rigidly attached to the basing device 2, a system 4 for recording an optical signal made in the form of a telescope, and a beam splitter 5 and a triangular corner reflector installed successively along the beam of the collimator 1 6, which is optically coupled by means of a beam splitter 5 to the optical signal detection system 4, the base unit 2 is optically coupled by means of a splitter 5 to the collimator 1, and the system 3 reflectors are ying as pairs of mutually perpenpikul the reflecting teley molecular weight, each of which forms with the corresponding face of the polyhedron controllable 7 installed in bazirovochnoe device 2, three- granny corner reflector.

The device works as follows

The beams of the collimator 1 hit the beam splitter 5. The beams of the collimator 1 reflected from the beam splitter 5 are successively reflected from the corresponding faces of the polyhedron monitored, and then from the system of reflectors, and then go to the input of the optical signal recording system 4. The deviation of the angle between the faces of the controlled polyhedron 7 leads to a change in the angle of the angle reflector formed by each facet of the polyhedron 7 and the corresponding faces of the system 3

users, while the register system forms measuring points corresponding to each face of the polyhedron 7.

The beams of rays that pass through the beam splitter 5 are reflected from the triangular corner reflector 6, then from the beam splitter 5 and enter the input of the optical signal recording system 4 and form a reference point.

Removing the angle of each face of the monitored polyhedron 7 from the nominal value leads to the displacement of points in the optical signal recording system 4, and the difference between the positions of the points corresponding to the faces of the polyhedron 7 relative to the reference point will determine the angle of deviation of the faces of the monitored polygraph 7 from the nominal value. Changing the position of the elements of the device (collimator 1, optical signal registration system 4, basement device 2) does not affect the measurement results, since the distances in the registration system 4 between the measuring and reading points do not change.

Claims (1)

Invention Formula A device for controlling multifaceted angles containing a collimator, a base device, a system of reflectors rigidly fixed to the base device, and an optical signal recording system optically coupled to a system of reflectors, characterized in that it is equipped with mounted along the beam of the collimator with a beam splitter and a triangular corner reflector optically coupled. By using a splitter with an optical signal recording system, the base unit is optically coupled with a splitter with a collimator, the reflector system is implemented as pairs of mutually perpendicular reflectors, each of which is designed to form a trihedral angle reflector with a corresponding faceted polyhedron. J