SU868366A1 - Angular value measuring method - Google Patents

Description

(54) METHOD OF MEASURING ANGULAR VALUES

The invention relates to a measuring technique and can be used in the machine tool industry, construction, geodesy, shipbuilding to coordinate objects to be mounted. A known method for measuring angular values, which creates a diffracted luminous flux using ultrasound spreading in an optical medium, and finding angular values by measuring the converted frequency of oscillations. A disadvantage of the method is the low accuracy of measurements due to the inability to accurately combine a beam of rays. with optical axis. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by setting the deviation of the ultrasound frequency, isolating the variable component of the diffracted light flux at the deviation frequency, changing the ultrasound carrier frequency in proportion to the phase and amplitude of the variable variable before it disappears from the diffracted spectrum. the luminous flux and the converted frequency is the steady-state ultrasound carrier frequency. The drawing shows a block diagram of a device implementing a method for measuring angular values. The device contains an optical medium I, a vibration sensor 2 interacting with the optical medium 1, a radiation receiver 3, a radiation source 4 from which the light beam 5 propagates and a diffracted light flux 6 falling on the radiation receiver 3, a generator 7, a carrier oscillator 8, amplitude -phase indicator 9, the input associated with the radiation receiver 4, the first output through the generator 7 - with the first carrier carrier 8, the second - with the second generator input 8, the first output of which is associated with the vibration sensor 2, second

Claims (1)

Claim A method of measuring angular values, which consists in creating a diffracted light flux using ultrasound propagating in an optical medium, and finding angular values by measuring the converted oscillation frequency. This is due to the fact that, with In order to increase the accuracy of measurements, the deviation of the ultrasound frequency is set, the variable component of the diffracted light flux at the deviation frequency is isolated, the carrier frequency of the ultrasound is changed in proportion to phase ³⁰ and the amplitude of the extracted variable is to it until it disappears in the spectrum of the diffracted light flux, and the converted frequency is a steady-state 35 carrier frequency of ultrasound.