SU685963A1 - Method of periodic testing of one-beam analyzer operability - Google Patents

Description

The invention relates to an analytical technique and can be used to test the operability of single-beam analyzers containing a radiation receiver with gas-filled receiving chambers arranged in an optical sequence. Methods are known for testing the performance of analyzers, which are based on setting zero, not selectively attenuating the intensity of the radiation source in the working channel, and recording the readings. The conclusion about the performance of the analyzer is done by the absolute value of the readings. However, these methods are fundamentally inapplicable for monitoring the operability of single-beam analyzers containing a radiation receiver with gas-filled receiving chambers located in the optical sequence. There are also known methods for periodically checking the health of analyzers that establish a zero, put into operation on the way from the source to the radiation receiver channel selective frame (gas-filled or solid-state), absorbing radiation in the working part of the spectrum, record readings analysis torus, and the absolute value of the testimony is judged on his performance. The disadvantage of these methods is their relatively large complexity. The closest technical solution to the proposed method is to periodically test the performance of a single-beam analyzer that contains a radiation receiver with KaMepaNM gas-filled receiving receivers located in an optical sequence, including setting zero, attenuating the radiation intensity of the source in the working spectral region by introducing into the working channel a selective selective frame and recording the readings or 3 aty. The disadvantage of this method is the relative complexity of the verification process due to its implementation, since the selective frame is a rather complicated spectral device.

The aim of the invention is to simplify the process of testing the analyzer operability.

The goal is to achieve that in the proposed method, periodically after setting the zero of the analyzer, the radiation flux absorbed by the second camera along the radiation path is constant from check to check value, the change in analyzer readings is recorded and his performance,

The method is implemented as follows.

First, the detector's zero is set, for example with the help of the flaps, then by removing the flap from the gap between the chambers to the value set and constant from check to check, the radiation flux absorbed in the second chamber during the whole radiation range increases throughout the spectral range. The second receiving chamber generates a reference signal with respect to the signal of the first receiving chamber. Therefore, an increase in the fraction of radiation absorbed in the second chamber, equivalent in magnitude of the signal to a decrease in the fraction of radiation absorbed in the first chamber (which occurs when the measuring component is present in the measuring cell), leads to the appearance of a signal

which indicates the health of the analyzer. After this, the change in the analyzer readings is recorded.

The proposed method was used to test the operability of the optical phase analyzer for trace amounts of carbon monoxide.

The use of this method simplifies the process of testing the performance of a single-beam analyzer by replacing a complex spectral device (used as a frame in the prototype) with a simpler non-selective and simplifying its own control process.

Claims (1)

Invention Formula A method for periodically checking the operability of a single-beam analyzer comprising a radiation receiver with gas-filled receiving chambers arranged in an optical sequence, including zero setting, characterized in that, to simplify the verification process, periodically after zero setting, the radiation flux absorbed into the second along the radiation chamber increases spectral range for a constant from check to check value, record the change in the analyzer readings and by absolute value NIJ this change is judged on his performance.