SU555290A1 - Photometric device - Google Patents

Description

(54) PHOTOMETRIC DEVICE

Claims (2)

The invention relates to photometric devices. Photometric devices are known that contain a light source, an optical system for forming a luminous flux, a recording circuit. 1 The disadvantage of these devices is insufficient measurement accuracy and measurement complexity. It is also known that a photometric device containing a light source, an optical transducer, a mirror galvanometer, photographic material 2 The disadvantage of these devices is also the lack of measurement accuracy. The aim of the invention is to improve the measurement accuracy. This is achieved by the fact that the input surface of the Optical Converter is made in the form of a concave spherical surface with a radius of constant curvature, and the output surface is made in the form of a concave-closed surface, characterized by a differential equation. -o С: dip И-С05 С (HtgiptiL) -pSmy de r oihctd Н-рсоВФ Н - the shortest distance from the mirror of the galvanometer to the photographic material; L is the width of the record; n is the refractive index of the material from which the optical transducer is made; V is the deflection angle of the light beam; p is the radius of curvature of the input surface of the optical converter. As the working surface of the optical converter, its output surface is chosen, and the input surface is neutral, i.e. the curvature of the surface is designed so that the light rays enter the body of the optical converter without refraction, and this allows you to install the optical converter in any constructively convenient area between the galvanometer mirror and photographic material. The drawing shows schematically a photometric device. Oj of the light source 1 through the optical system 2 on the rotating mirror of the galvanometer 3, a beam of light falls and, reflected from this mirror, passes, not changing its original direction, through the opposite converter 4 and, deflected on its output surface, hits a uniformly moving photographic film. 5. Consider the polar coordinate system p, with the pole at the point O and the axis OS (the initial position of the beam). The optical transducer is designed to convert the angle (f deflection of the beam from the initial position into a function (HtgftiL)), which is the amplitude of the deflection of the beam from the initial position on the moving photographic material. To obtain a differential equation of the working surface of the optical transducer, the following data is required: the shortest distance (H a) from the mirror of the galvanometer to the photographic material; the width of the recording is L; the refractive index (n): for the material of which the transducer is made; the minimum and maximum The angles of deflection of the light beam C correspond to the points A and B. Thus, the rotation angle lies within the limits ohctg-g AO arclgJif The differential equation of the working surface of the 1st converter in polar coordinates has the following spin-off: Jfi ЖС (} Ч and-cogC | Ь + ЕЕё 1 + () - рЗЖ "Р where C aHCtg Н-рсо Ф The invention of the invention Photometric device containing a light source, an optical converter, a mirror galvanometre photo material, characterized in that, in order to improve the accuracy of measurements, the input surface of the optical converter is filled in the form of a concave spherical surface with a radius of constant curvature, and the exit surface is made in the form of a concave-convex surface, characterized by the differential equation djO gJnC Tip and-soZS ™ S.a.SY .gHf4l.) H-pcogip H - the shortest distance from the mirror is to photo material; L is the recording width; p is the refractive index of the material from which the optical transducer is made; (p is the deflection angle of the light ray; p is the radius of curvature of the input surface of the optical transducer. Sources of information taken into account during the examination: 1.Shishlovsky A. A. Applied Physical Optics, J. 1961, pp. 372-375. 2. „USSR author's certificate N 116630 M., CL G01 J 1 / 00,15.01. 1958. (prototap).