RU2013154510A - CORNER INSTRUMENT - Google Patents

Abstract

An angle measuring device containing a lens, a matrix radiation detector with a computing unit, and a geometric standard channel, consisting of a lighting unit optically conjugated to the lens, having three light sources located at an angle of 120 ° to each other, a collimator unit that includes three input and three output point diaphragms, and a mirror-prism block, forming a monoblock with the diaphragms of the collimator deposited on it, rigidly connected to the reference plane of the angle measuring device and shaped in the form of a hexagonal truncated pyramid, adjacent edges of which are located at an angle of 120 ° to each other, and one of the bases of which is facing the lens, characterized in that the input and output point diaphragms are located on the side surfaces of the mirror-prism block, additionally equipped with three corner reflectors installed behind the corresponding output pinhole diaphragm with the input of radiation into the entrance pupil of the lens by reflection from the smaller base facing it a prismatic block, wherein said point apertures are arranged so that the axis of the output beam is directed at right angles to the side surface of the mirror-prism block.

Claims (1)

An angle measuring device containing a lens, a matrix radiation detector with a computing unit, and a geometric standard channel, consisting of a lighting unit optically conjugated to the lens, having three light sources located at an angle of 120 ° to each other, a collimator unit that includes three input and three output point diaphragms, and a mirror-prism block, forming a monoblock with the diaphragms of the collimator deposited on it, rigidly connected to the reference plane of the angle measuring device and shaped in the form of a hexagonal truncated pyramid, adjacent edges of which are located at an angle of 120 ° to each other, and one of the bases of which is facing the lens, characterized in that the input and output point diaphragms are located on the side surfaces of the mirror-prism block, additionally equipped with three corner reflectors installed behind the corresponding output pinhole diaphragm with the input of radiation into the entrance pupil of the lens by reflection from the smaller base facing it a prismatic block, wherein said point apertures are arranged so that the axis of the output beam is directed at right angles to the side surface of the mirror-prism block.