SU1156467A1 - Gas concentration optical meter - Google Patents

Abstract

OPTICAL GAS CONCENTRATION MEASURER containing a collimator, a dispersing system, a device for restructuring working spectral regions and a photodetector, characterized in that, in order to increase accuracy by isolating the harmonic component of the spectral absorption bands of the test gas, increase reliability and simplify 1 3 3 T 8 Neither the structure due to the elimination of moving parts, the dispersing system and the device for tuning the spectral bandwidths are made in the form of interference-polarized a filter consisting of two polarizer meters separated between themselves and spaced apart along the optical axis, between which there is a duplicating plate with an axis oriented perpendicular to the optical axis of the meter, and a second plate with an optical axis oriented parallel to the optical axis of the meter, made of a two-crystal electron crystal, one of the electro-optical (whose coefficients K, Kjj, K is different from zero, and provided with control electrodes connected to the generator periodically The external voltage, the amplitude of which corresponds to the allocation of the harmonic component of the spectral bands of absorption. about about 1

Description

This invention relates to a technique for measuring gaseous impurities in the atmosphere and controlling environmental pollution,

A device is known for measuring the concentration of gaseous impurities in the atmosphere in which the method of differential absorption of light inside and outside the absorption bands is used. A dispersion system in the form of a monochromator with a prism or diffraction grating and a slit is used to isolate the working parts of the spectrum. The drawbacks of the device are low measurement accuracy due to the dependence of measurement results on the uniformity of illumination of the entrance slit, as well as the complexity of the meter.

The closest technical solution to the proposed is an optical gas concentration meter containing a collimator, a dispersing system, a device for restructuring the working spectral regions and a photodetector.

The disadvantages of this meter are low measurement accuracy due to sensitivity to irregularities in the illumination of the entrance slit and the influence of extraneous gases and, in addition, the complexity of the design.

The purpose of the invention is to increase the accuracy due to the selection of the harmonic component of the spectral absorption bands of the test gas, increase reliability and simplify the design by eliminating moving parts.

This goal is achieved by the fact that in an optical gas concentration meter containing a collimator, a dispersing system, a device for restructuring the working spectral regions and a photodetector, a dispersing system and a device for restructuring the spectral bandwidths are made in the form of an interference polarization filter consisting of two crossed between themselves and separated along the optical axis of the meter polarizers, between which is placed a duplicating plate with an axis oriented perpendicular meter angles to the optical axis and a second plate having an optical axis oriented parallel to the optical axis meter manufactured from FEB guide kopreloml

a crystal, one of whose electro-optical coefficients is K, K ,, i, is non-zero, and is equipped with control electrodes connected to a generator of periodically varying voltage, the amplitude of which corresponds to the selection of the harmonic component of the spectral absorption bands.

The technical solution is shown in the drawing.

Collimator 1, polarizer 2, double plate 3 are located along the optical axis of the meter. The optical axis of the plate 3 is perpendicular to the optical axis of the meter and makes an angle of 45 with the polarization plane of the polarizer 2. It performs the function of the Wood phase plate, t. e. creates a phase dispersion of the light wave. The plate thickness is chosen so that the phase incursion between the spectral components corresponding to the maximum and minimum absorption in the test gas is half a wave. Plate 4 is made of a double-refractive crystal, one of whose electro-optical coefficients, K

5-2, K 3, for example

41

measures, the coefficient K 63, is different from nugl. The optical axis of the plate 4 is oriented parallel to the optical axis of the meter. On the light edges, this plate is provided with electrically conductive translucent electrodes 5 and 6 and performs the control function in a Pockels cell. When an electrical voltage is applied to the electrodes, this plate introduces a phase difference, folding with the phase difference created by plate 3, the setting of the interference polarization filter is measured by the wavelength.

Behind the plate 4 with electrodes 5 and 6 there is a polarizer 7, crossed with a polarizer 2.

Behind the polarizer 7, an interference filter 8 or a plate made of colored glass is installed, which performs the function of spectrum spectralization. A photomultiplier 9 is mounted behind the interference light filter 8, which is connected to a narrowband amplifier 10, a sync detector 11 and an indicator 12. The power supply 13 is covered by feedback on the average value of the anode current of the photomultiplier 9. AC voltage on the electrodes

Claims (1)

OPTICAL GAS CONCENTRATION METER, containing a collimator, a dispersing system, a device for tuning the working parts of the spectrum and a photodetector, characterized in that, in order to increase accuracy by highlighting the harmonic component of the absorption spectral bands of the structure under study by eliminating moving parts, a dispersing system and device for tuning the spectral bandwidths of the performance in the form of an interference-polarized filter consisting of two crossed between s wallpaper and polarizers spaced along the optical axis of the meter, between which a birefringent plate with an axis oriented perpendicular to the meter’s optical axis is placed, and a second plate with an optical axis oriented parallel to the meter’s optical axis made of a birefringent crystal, one of which electro-optical coefficients K _4l , K _J2 , K _{£ e} is non-zero, and equipped with control electrodes connected to a generator of periodically varying voltage, the amplitude of which corresponds to The separation of the harmonic component of the spectral bands .. SU, „. 1156467 absorption. gas, increase reliability and simplify 1 I56467