RU2013132301A - METHOD FOR DETERMINING ANGULAR SURFACES OF THE SURFACE OF THE OBJECT AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method for determining the angular positions of the surfaces of an object, which consists in applying a mirror-reflective coating portion to a controlled surface, forming a probing radiation flux using a light guide system and a fiber of a rotating optical nozzle, with a cyclic change in the direction of the probing radiation flux to a controlled reflective surface, receive reflected measuring fluxes, register reflected radiation fluxes, convert them into measuring electric pulses, semi reference electrical pulses are generated and the angular position of the surface is determined by the time interval between the midpoints of the measuring and reference electrical pulses, characterized in that a reference mark is installed in the optical nozzle, a stationary pulse sensor, for example, an eddy current transducer, is installed in the light guide system, the second ends bundles of emitting and receiving optical fibers are uniformly mixed, for example, in a checkerboard pattern and combined into transmitting and receiving the first collector, formed in the form of a cylinder surface so that the ends of the emitting and receiving fibers are distributed over its surface, the radiation flux of the receiving and transmitting collector is introduced into the optical fiber of the optical nozzle from the inside of the hollow cylinder of the optical nozzle. 2. A device that implements the method includes a radiation source, a fiber guide system consisting of two fiber bundles, a photodetector, two comparators with different comparing levels, a comparator level generator, two sulfur extraction units

Claims (2)

1. A method for determining the angular positions of the surfaces of an object, which consists in applying a mirror-reflective coating portion to a controlled surface, forming a probing radiation flux using a light guide system and a fiber of a rotating optical nozzle, with a cyclic change in the direction of the probing radiation flux to a controlled reflective surface, receive reflected measuring fluxes, register reflected radiation fluxes, convert them into measuring electric pulses, semi reference electrical pulses are generated and the angular position of the surface is determined by the time interval between the midpoints of the measuring and reference electrical pulses, characterized in that a reference mark is installed in the optical nozzle, a stationary pulse sensor, for example, an eddy current transducer, is installed in the light guide system, the second ends bundles of emitting and receiving optical fibers are uniformly mixed, for example, in a checkerboard pattern and combined into transmitting and receiving th collector formed in the form of a cylinder surface so that the ends of the emitting and receiving fibers are distributed over its surface, the radiation flux of the receiving and transmitting collector is introduced into the optical fiber of the optical nozzle from the inside of the hollow cylinder of the optical nozzle. 2. The device that implements the method includes a radiation source, a fiber guide system consisting of two fiber bundles, a photodetector, two comparators with different comparing levels, a comparator level generator, two units for selecting the middle of electrical pulses, a time interval recording unit, an electric motor, an optical nozzle, optical fiber optical nozzle, optical nozzle is made in the form of a hollow cylinder, optical fiber optical nozzle is installed diametrically in the side wall of the cylinder, the support label th signal installed on the optical nozzle and made, for example, a pin, a pulse of the reference signal sensor mounted on a fixed basis relative to the optical nozzle opposite the path of movement of the reference mark signal whose output is connected to the input of the second comparator.