SU1257480A1 - Transducer of moisture content of gaseous mixtures - Google Patents

Abstract

A gas mixture moisture sensor is related to measurement technology. In order to increase the sensitivity of humidity measurements, a spherical mirror 4 is inserted into the device, located at a double focal distance from the working receiver 6 and the radiation source 1, which makes it possible to ensure the necessary HF level of illumination of the receiving platform of the working radiation receiver. Under such illumination, the sensitivity of the circuit is increased, and double reflection from a flat mirror allows one to record the initial moment of condensation at which the condensate is in the liquid phase, as a result of which the accuracy of measuring the humidity of gas mixtures significantly increases. Setting the working receiver at a distance of 0.3-0.4 R from the radiation source, where R is the radius of curvature of the spherical mirror, significantly reduces the ingress of dew-scattered light on the working receiver. 1 il. (L

Description

The invention relates to a measurement technique, namely, devices for determining the moisture content of gas mixtures by the optical method, and can be used in the practice of hydro-meteorological services, humidity control systems in rooms, as well as in optics when studying the optical properties of various gases.

The purpose of the invention is to improve the accuracy of measuring the humidity of gas mixtures,

The drawing shows a block diagram of the proposed sensor moisture gas mixtures.

The sensor contains radiation source 1 sequentially arranged along the light beam, flat reflecting mirror 2 with cooling system 3, spherical mirror 4, diaphragm 5, working radiation receiver 6, radiation monitoring receiver 7 and measuring circuit 8 electrically connected with the control and working receivers radiation.

The sensor of humidity of gas mixtures works as follows.

The radiation — from the radiation source 1, reflected from the flat reflecting mirror 2 — hits the spherical mirror 4. The distance from the radiation source 1 to the spherical mirror 4 along the light beam is equal to the radius of curvature of the spherical mirror. The radiation from the spherical mirror 4, second reflected from the flat reflecting mirror 2, is focused in the plane of the diaphragm 5 and hits the working radiation receiver 6. The working radiation receiver 6 is located at the double focal distance from the spherical mirror 4 along the light beam. The radiation control receiver 7 is located directly in the radiation beam of the source 1. In the working state, with the same illumination of the working and monitoring radiation detectors, the output voltage of the amplifier of the measuring circuit 8 is set to zero. With the aid of the cooling system 3, the flat reflecting mirror 2 is cooled until dew falls on it. When dew is formed on the flat reflection mirror of mirror 2, the input currents of the amplifier of the measuring circuit 8 appear unbalanced. At this time, the temperature of the flat reflecting mirror 2 is measured.

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The humidity of the gaseous medium is determined using psychrometric tables based on the temperature of the flat reflecting mirror 2, measured at the time of the dew, and on the temperature of the surrounding gaseous medium.

Introducing a spherical mirror sensor and arranging a working radiation receiver at a double focal distance from a spherical mirror, symmetrically with the radiation source relative to the axis of the optical system, provides the necessary level of illumination of the receiving platform of the radiation working receiver. With such illumination, the sensitivity cxei-ibi increases, and twofold reflection from a flat mirror of radiation from a source on the way to the working receiver allows recording the initial condensation moment at which the condensate is in the liquid phase, as a result of which the accuracy of measuring the humidity of gas mixtures significantly increases. Installing the working receiver at a distance of 0.3-0.4 R from the radiation source significantly reduces the ingress of dew-scattered light on the working receiver, which also increases the sensitivity of the sensor.

Claims (1)

Invention Formula A gas mixture moisture sensor containing a radiation source, a flat reflective mirror with a cooling system, a working receiver and a measuring circuit, as well as a control receiver included in the keys of a bridge measuring circuit, characterized in that, in order to increase the sensor sensitivity by reducing the illumination level of the working receiver while simultaneously increasing the aperture angle of the optical system, it additionally contains a spherical mirror located on a double focal distance from the source and the working receiver, while the working radiation receiver and the source are located symmetrically relative to the axis of the optical system of the sensor, and the shortest distance between the radiation source and the working receiver is 0.3-0.4 R, where R is the radius of the spherical mirror .