SU1363968A2 - Single-beam gas analyzer - Google Patents

Abstract

The invention can be used to control atmospheric pollution. The aim of the invention is to reduce the measurement error by increasing the utilization factor of the source radiation. The gas analyzer contains two radiation sources with optical systems, a modulator, a cuvette, a radiation receiver and an electronic processing unit. The use of an additional Radiation Source allows a higher concentration of the radiation of the main source and thereby increase the signal-to-noise ratio. 1 il. OO O5 with with about 00

Description

The invention relates to gas analyzing devices used to control the pollution of the atmosphere, and is in addition to the invention according to the authors. St. No. 1251671.

The purpose of the invention is to reduce measurement errors by increasing the utilization rate of the source radiation.

The device comprises a main radiation source 1 with reflectors, an additional radiation source 2, a reflector 3 with an aperture, a modulator 4, optical filters 5, a synchronizing pulse shaper 6, a cell 7, a radiation receiver 8 and an optical signal processing and recording unit 9, the modulator 4 is made in the form of two axial mirrors 0, I and two rotary mirrors 12, 13, pairwise parallel m - I am waiting for myself.

The device works as follows. The radiation from source 1 is directed to the axial mirror 10 of the modulator 4 so that only the inner part of the reflecting surface of the mirror is irradiated, i.e. all the radiation from the source falls on the axial mirror 10. (At the same time, the angle 1, the axial mirror optically connected photocell shaper 6, will not be irradiated). Between the source 1 and the modulator 4 at an angle to the optical axis is established a reflector 3 with a hole through which radiation is completely transmitted, and the source from source 1. Using the reflecting surface of the reflector 3, the radiant flux from the additional source 2 is also directed to the axial mirror 10, additionally irradiation and its angles, which are optically coupled to the photovoltaic cells of the former 6, which is position 5 S

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It is possible to receive synchronizing pulses at the output of the imaging unit 6, corresponding to the passage of radiation through a specific optical filter 5. The radiation modulated by the modulator 4 is directed through the cuvette 7 to the receiver 8. The block 9 connected to the imaging unit 6 is used to extract the signal -, fishing, corresponding to radiation fluxes passing through various optical filters 5, their processing and recording. Consequently, when gases appear in the cell 7, the absorption bands of which coincide with the passbands of the corresponding optical filters, the outputs of the corresponding channels of block 9 will appear signals proportional to the concentrations of these gases, which are recorded at the output of this block.

The use of an additional source and reflector with an aperture in the device described makes it possible, compared to the main invention, to carry out a higher concentration of radiation in the modulated beam and, thereby, increasing the signal to sound ratio, reduce the measurement error and, accordingly, reduce the sensitivity threshold.

Claims (1)

Invention Formula Single-beam gas analyzer auth. St. 0 No. 1251671, characterized in that, in order to reduce measurement errors by increasing the utilization rate of the source radiation, an additional radiation source and a reflector with an opening, optically coupled to axial 5 by mirrors of the modulator, the reflector being located between the main source of radiation and the modulator. 0 five Compiled by O. Golubev Rrlpcto) N. Kol daTechred I. Veoescorrector V. Gnrn to Order 2571 Circulation 41 2 Subscription M11I1 1PN of the USSR State Committee for Inventions and Discoveries 1 13035, / Moscow, Zh-35. Raushsk nab., 4/5 G1r1 ;; |:: and () dly-polygraph company, Uzhgorod, beats. Project, 4