SU691712A1 - Device for indicating presence of a gas in air - Google Patents

Description

(54) AIR GAS ALARM

The invention relates to devices for the automatic control of soda rye in the air of industrial mineralization, as well as in closed technological systems of toxic and explosive substances, in particular ammonia.

Stationary automatic gas analyzers are known for measuring and recording various toxic gases and vapors in process gas mixtures, as well as in the air of industrial premises I.

The disadvantages of gas analyzers are the complexity of the structures, cumbersome, low reliability of the detection of ammonia in the air.

The closest to the technical essence of the invention is a gas detector in the air, the contents of a hollow body with a light channel located in it, a light source and a photocell 2. With the help of a distribution mechanism, the air is sampled by alternating through a signaling device. The warning device is triggered by reducing the transparency of the medium in which the air passes.

The disadvantages of the known alarm device are the branched duct system, the design complexity, and the impossibility of using it to detect ammonia leaks,

The purpose of the invention is to provide the possibility of detecting ammonia attachments, simplifying the design, and improving the reliability of the detector.

For this, the detector is equipped with a plate with a well for the reagent and a transparent area installed in the cavity of the housing between the light source and the photocell, and a mixture of concentrated nitric acid and nylon is used as the reagent.

The drawing schematically shows the detector. ..

Inside the detector 1, there is a light source 2., which is a light bulb, and a photocell 3. Between the light source 2 and the photocell 3 is a light 4. In the cavity of the housing 1 there is a plate 5 with a well 6 for the reagent and a transparent section 7. Plate 5 inserted into the housing 1 through the through hole 8 in the housing so that the transparent portion 7 is located in the light channel 4 strictly under the light flux. The through hole 8 is closed by an airtight plug 9. To ensure the passage of air through the body cavity, there are an air inlet channel 10 provided with a downward-looking funnel (not shown) and an air outlet channel 11. For better air circulation due to The controlled air traction canal can be equipped with a tube 12. Due to the heating of the air outlet channel 1 from the light source 2, the hectare of air passing through the controlled air detector increases.

To ensure a better contact of the controlled air with the reagent in well b, the body cavity in the region of the light channel 4 has a smaller diameter than. Input 10 and output 11 air channels.

The detector works as follows.

The ammonia leak detector described uses the acid-base reaction HCO3 + NH, which results in the formation of very finely dispersed ammonium nitrate, the particles of which are with condensation drains. Having settled on the transparent part of the plate, these particles darken the transparent part and reduce the luminous flux, which from the light source enters the photocell t. By registering the photocell with a change in the luminous flux, the leakage of amyiac, is monitored. The air sucked in due to lithium ingress enters the air inlet duct 10, then half of the housing 1, where there is a plate 5 with a well b for the reagent and a transparent region 7. Well b is the plate 5

The reagent is a thick, viscous mixture of concentrated nitric acid and capron. This reagent does not flow out of the well at any position of the plate, does not dry for a long time, and retains its properties.

When there is an ammonia reagent in the air passing over the well, the reaction occurs: N% + HNO 3,.

Ammonium nitrate crystals are deposited on the transparent area 7 of plate 5, reducing the luminous flux from the light source to the photocell. The electrical signal of the photocell 3 is amplified by an amplifier, which actuates the alarm system.

Claims (2)

1. A gas alarm in the air, the contents of the second housing with a light channel, a light source and a photocell located in it, which means that in order to enable the detection of ammonia leakage, simplify the design and increase reliability, it provides , plate with a well for the reagent and a transparent area installed in the body cavity between the light source and the photocell. 2. A gas alarm in air according to claim 1, characterized in that a mixture of concentrated nitric acid and nylon is used as a reactant .. Sources of information taken into account in the examination 1. IOvlenko E.N. Automatic analyzers and signaling devices of toxic and explosive substances in the air, M., 1972, p. 118-127. 2, MG Stavitsky Fighting fires on ships. L., 1976, p. 124. G2 W