SU894427A1 - Device for air sampling - Google Patents

Description

(54) DEVICE FOR AIR TESTING

The invention relates to gas samplers, namely, devices for aspiration of air sampling into the sampling vessels for subsequent measurement of the content of harmful gases in it during sanitary control, and can be used in air control systems of industrial premises and territories, mainly chemical plants.

A gas sampler is known, comprising a flow rate booster associated with a pipeline by a switching device, a sample collector and a storage tank connected in series with the sample collector I.

The disadvantage of this sampler is the poor quality of the samples taken.

The closest in technical essence to the invention is an air sampling device comprising an ejector connected to a vacuum chamber, sampling vessels and a compressed air supply line 2.

A disadvantage of the known device is the low measurement accuracy and maintenance complexity of the installation, which reduces

the quality of air flow control and, as a result, worsens the representativeness of the samples taken.

The purpose of the invention is to improve the representativeness of the samples taken and simplify operation.

This goal is achieved by the fact that the device is equipped with a pneumatic pick-up booster, a pneumatic pick-up with a shift, an element of comparison and throttles, while the sampling vessels are connected to the vacuum chamber connected to

to the first input of the reference element, and through the choke to the shift pneumatic actuator and to the second input of the comparison element, the output of which is connected to the corresponding input of the repeater amplifier .J installed on the compressed air supply line and connected to the ejector.

The drawing shows a block diagram of an air sampling device.

The device consists of an ejector 1, a dilution chamber 2, to which 20 are connected via throttles 3 sampling vessels 4, a pneumatic repeater 5 with a shift, a pneumatic repeater — a power amplifier 6, a reference element 7, a connecting line 8,

Drossel 9, connected by a line 10 to the chamber 2 of the vacuum and with the element 7 sravnench. The line 11 of the compressed air supply is connected to the repeater-amplifier 6.

The device works as follows.

The ejector 1 creates a vacuum in chamber 2. The reference pressure of the pneumatic repeater 5 is shifted along line 8 and the vacuum of chamber 2 through line 10 is supplied to the comparison element 7, which, to control the pneumatic repeater amplifier b, generates a control signal in the form of an algebraic sum of the reference pressure of the pneumatic repeater 5 shift and dilution of the chamber 2. In accordance with the magnitude of the control signal, the power amplifier-amplifier 6 sets the flow rate of the supply air through the ejector 1 and the corresponding value of the vacuum pressure in 2. Choke Leray 9 provides power air flow via line 10 and simultaneously decoupling pressure pnevmopovtoritel 5 offset from the line 10.

The controlled air due to the vacuum in the chamber 2 is sucked through the sampling vessels 4. At a certain vacuum in the chamber 2, the throttles 3 establish through the sampling vessels 4 a flow rate that provides the required change rate of the controlled air in the sampling vessels 4 for a given time interval, which ensures good representativeness of the selected sample.

In the proposed device, there is no absorber in the sampling vessels 4, and therefore the pneumatic resistance does not change as the air flows, and the air flow through the vessels 4 depends only on the amount of vacuum in chamber 2, the pneumatic resistance of chokes 3 and connecting lines.

The vacuum in chamber 2 remains strictly constant, since the first

the moment a vacuum change caused by any cause, for example, a change in the number of connected sample vessels 4, is transmitted via line 10 to the reference element 7. In this case, the control signal transmitted by the comparison element 7 to the power amplifier 6 will cause a change in the value of the supply air flow through the ejector 1, which will restore the original vacuum value in chamber 2.

The application of the invention will improve the quality of air analysis while ensuring safety and environmental protection.

Claims (2)

1. USSR author's certificate number 392375, cl. G 01 N 1/22, 1971. 2. USSR author's certificate number 522448, cl. G 01 N 1/22, 1974. Compressed Air Feed Compressed air