SU854137A1 - Automatic refractometer - Google Patents

Abstract

AUTOMATIC REFRACTOMETER, which contains a light source and an optical projection system installed successively along the light beam, a cuvette, a hollow cylinder with a screw slot, a photodetector, a reference photo generator and a recorder, in order to increase the accuracy, sensitivity and expansion of the dynamic the measurement range of the angular and linear deviations of the light flux, the hollow cylinder is installed in front of the photoreceiver so that its axis of rotation coincides with the direction of movement of the light beam, and m width t s and angle of the helical slot associated relation fcHCT -h un and «-t - ATTRN iFRn where - the refractive index; P is the refracting angle of the cuvette, the fcMcT focal length is optical (L projection system; number of turns of the screw slot; R is the radius of the cylinder; DI is the refractive index measuring range j ct is the helix angle of the helix. 00 el 4 CO

Description

The invention relates to the field of analytical instrumentation and can be used to measure the refractive index of the test liquid relative to the reference, as well as to measure the thickness or wedge shape of glass plates when examined in the chemical industry, biology, medicine, and so on. A refractometer is known, consisting of light source, prism capacitor, collimation lens, cuvette, mirrors, photoreceiver lens and gearbox, in which device 5 consisting of a grating is used, which in the form of a helix on a cylindrical surface or a spiral line on a flat surface located after the illuminator and connected to the drive and reading device. The disadvantages of the known refractor I meter are the dependence of the measurement accuracy on the accuracy of the image of the spiral grating with the optical grid, the accuracy of the production of the grids, the presence of a displacement device determining the stability of the refractometer operation in the image transmission system, which is unacceptable in precision measurements. high quality requirements for optical elements; the use of an amplitude method for measuring the deviations of the light flux, which imposes high requirements on the stability of the light flux, the parameters of a photoconductor and the purity of the product being measured. The closest technical solution to the invention is an automatic refractometer containing a light source and installed subsequently: along the light beam. optical projection system, cuvette, pol cylinder with screw slot, photodetector, reference photogenerator and recorder “To the disadvantages of the well-known refrac t meter refers toj. that a modulator made in the form of a hollow cylinder with a screw slot cannot satisfy all the requirements for measurement accuracy (accuracy of the slot, frequency of modulation, maximum approximation of the modulation path to the path of the light flux). The aim of the invention is to improve the accuracy, sensitivity, expansion of the dynamic range of measurements of angular and linear deviations cBeTOBord flow. The goal is achieved by the fact that in an automatic refractometer containing a light source and an optical projection system installed successively along the light beam, a cuvette, a hollow cylinder with a screw slot, a photodetector, a reference photogenerator and a handwriter, a hollow cylinder is installed in front of the photoreceiver so that its axis of rotation coincides with the direction of movement of the light beam, with the width t and the angle of inclination d. the screw slot is related by the relation t - U n / (TG R - P where h is the refractive index j P is the cell angle, the focal distance of the optical projection system; N is the number of turns of the screw slot; R is the cylinder radius; uh is the measuring range refractive index; d is the angle of inclination of the helix. The increase in the sensitivity of the refractometer is due to the possibility to cut any of the holes, without increasing the frequency of variation of the variable luminous flux and increasing the accuracy requirements for the manufacture of a cylinder with a large number of The size of the angular and linear movements of the luminous flux in the proposed device is achieved by the fact that the modulation path of the luminous flux coincides with the direction of movement of the luminous flux along the u of the lindra, since the axis of its rotation and the direction of movement of the luminous flux lie in one n, posta, Ka of FIG. 1 is a block diagram of a proposed reflector, FIG. 2 is a view A of FIG. one,

Claims (1)

An AUTOMATIC REFRACTOMETER containing a light source and an optical projection system, a cuvette, a hollow cylinder with a helical slot, a photodetector, a reference photo-generator and a recorder, which is characterized by the fact that where ^and is the refractive index, ' P is the refracting angle of the cell *, '§ f _cwcT ~ Focal length of the optical projection system; N is the number of turns of the screw slot; R is the radius of the cylinder; ΔK is the range of measurement of the refractive index; d is the angle of inclination of the helix. SU „„ 854137