RU2420732C1 - Gas analyser - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: gas analyser consists of case of air intake device wherein there are arranged corrugated rubber bellows 9 with two flanges and cartridge 10 with a spring. In internal crimps of the bellows there are installed spacers to ensure its rigidity and to maintain constant volume, rod 7 for bellows compression, and holder 5 with an arrester. Also, a stationary bushing directing the rod at bellows compression is assembled on an upper plate of the case. A rubber tube is put on connecting pipe 2 from an internal side. The rubber tube is connected with an internal cavity of the bellows through a lower flange. An indicator tube is connected to an opposite free end of the rubber tube. On cylinder surface of rod 7 there are made four lengthwise grooves with two recesses designed to hold two positions of the rod with an arrester. Distance between two recesses on the grooves is selected so, that the bellows intakes specified volume of analysed air when the rod travels from one recess to another.

EFFECT: raised efficiency, operation speed and reliability of system response.

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Description

The invention relates to mechanical engineering, in particular to devices of security systems.

The closest technical solution to the claimed object is a device for the quantitative determination of hydrogen sulfide content in air, containing an air intake device housing in which there is a corrugated rubber bellows with two flanges, in the internal corrugations of which spacers are installed, a rod for compressing the bellows, a clamp with a stopper installed on the upper plate of the housing there is a fixed sleeve for guiding the rod during compression of the bellows, a rubber tube connected to the internal cavity of the bellows and under Connections to its free end of the indicator tube (SU 86530 A1, 01.01.1950).

A disadvantage of the known solution is not high enough efficiency, as well as the speed and reliability of operation.

The technical result is an increase in efficiency, speed and reliability of the system.

This is achieved by the fact that in the gas analyzer for determining the concentration of harmful substances in the air of the working area, containing the air simulator of the working area in the form of a glass bottle with the vapor of the corresponding harmful substance and a universal device, the device consists of an air intake device housing, in which there is a corrugated rubber bellows with two flanges and a glass with a spring, and spacer rings are installed in the inner bellows of the bellows to give it rigidity and maintain a constant volume, while on the top plate The casing has a fixed sleeve for guiding the rod during compression of the bellows, and a rubber tube is put on the nipple from the inside, which connects through the lower flange to the inner cavity of the bellows, and four longitudinal grooves with two recesses are made on the cylindrical surface of the rod to fix two positions the stopper, and the distance between the recesses on the grooves is selected so that when the rod moves from one recess to the other, the bellows takes a given volume of air.

The drawing shows a diagram of a gas analyzer.

The gas analyzer consists of a housing 12 of the air intake device, in which a corrugated rubber bellows 11 with two flanges and a cup with a spring 10 are located. Spacer rings 9 are installed in the inner bellows of the bellows to give it rigidity and maintain a constant volume. On the upper plate 4 of the casing there is a fixed sleeve 6 for guiding the rod 7 during compression of the bellows. A rubber tube 1 is put on the fitting 2 from the inside, which is connected through the lower flange to the internal cavity of the bellows. For analysis, a glass tube filled with indicator powder is attached to the free end of the rubber tube 3 during analysis. The test air is sucked through the indicator tube after preliminary compression of the bellows rod. On the faces (under the head) of the rod, the volumes of air sucked during analysis are indicated.

Four longitudinal grooves are made on the cylindrical surface of the stem with two grooves 8, designed to fix the two positions of the stem with a stopper 5. The distance between the grooves on the grooves is selected so that when the rod moves from one groove to the other, the bellows takes a predetermined volume of the studied air.

The length of the colored column of the indicator powder in the tube is proportional to the content of the measured substance in the test air. It is determined by specially calibrated scales for each of the two volumes of extended air. Each scale indicates the length of the colored column of the indicator powder corresponds to this concentration. The time of the experiment depends on the volume of sucked air (stroke). It is measured by a stopwatch. The control suction time is also indicated on the scales. For a more accurate determination of the actual concentration of harmful gas or vapor in the air of the working area, at least three experiments are carried out, starting with measurements of a smaller volume from those indicated on the scales. If the indicator powder is not colored or the length of its colored part is very small, then proceed to the study of a larger volume of air.

When using universal gas analyzers, one should take into account the possible presence in the air of vapors of other substances or gases that distort the research results. For example, when analyzing air for the content of gasoline vapors, carbon monoxide and hydrocarbon interfere with the determination of their actual concentration, and when analyzing the content of chlorine in it, bromine and fluorine interfere.

The gas analyzer operates as follows.

The corresponding indicator tubes are prepared for each determined air impurity, filling them with the corresponding indicator powder, which is held in them with cotton swabs on both sides. In the sleeve 6 of the gas analyzer insert the rod 7 corresponding to the flow rate of the drawn air so that the latch 5 slides along the groove of the rod. The pressure of the hand from above on the rod 7 compresses the bellows 11 until the stopper does not enter the upper recess 8 of the groove of the rod 7.

Then connect one end of the indicator tube to the rubber tube of the gas analyzer, and the other end to the rubber tube of the glass bottle (not shown). Then the clamp on the rubber tube of the glass bottle is loosened, allowing air to be drawn in with vapors of the harmful substance through the indicator tube. Holding the rod 7 with one hand, the latch 5 is withdrawn with the other hand, allowing the rod 7 to rise under the action of the spring for a period of time specified on the standard scale until the stopper enters the lower recess in the rod groove. At the same time, a certain amount of air will pass through the indicator tube for a specified time.

Cover the clip on the glass bottle and release the indicator tube from the rubber tubes. An indicator tube is then applied to a standard scale, and the concentration of the harmful substance in the test air is determined by the length of the indicator powder that has changed color. Then, the actual concentration of the harmful substance is compared with the maximum permissible concentration (MPC).

Claims (1)

A gas analyzer for determining the concentration of harmful substances in the air of the working area, containing an air intake device housing in which a corrugated rubber bellows 9 with two flanges and a glass 10 with a spring are located, and spacer rings are installed in the bellows inner corrugations to give it rigidity and maintain a constant volume, stock 7 for compressing the bellows, the retainer 5 with a stopper, while on the upper plate of the body there is a stationary sleeve for guiding the rod during compression of the bellows, and on the fitting 2 from the inside There is a rubber tube that connects through the lower flange to the inner cavity of the bellows, and an indicator tube is connected to its opposite free end, on the cylindrical surface of the rod 7 there are four longitudinal grooves with two recesses designed to fix two positions of the rod with a stopper, and the distance between the recesses is the grooves are selected so that when the rod moves from one recess to the other, the bellows takes a predetermined volume of the studied air.

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