SU1520431A1 - Apparatus for analyzing gases - Google Patents

Abstract

This invention relates to analytical control and capacitive analyzers for gaseous media. The purpose of the invention is to increase the functionality of the device. The device contains a calculating device, a pipe in which an input capacitive sensor, a filter absorbing the analyzed gas components, and an output capacitive sensor, as well as pressure, temperature and humidity sensors of the analyzed gas and a fan are successively placed. A fan is placed between the input capacitive sensor and the filter, and a diaphragm with an opening is installed in front of it to reduce air pulsations in the area of the input capacitive sensor, and a light thin-walled piston body is placed in the part of the pipe behind the filter. The end of the outlet end of the pipe and the side surface of its section adjacent to this end are perforated, the length of the section of perforated pipe exceeds the thickness of the piston body, the aerodynamic resistance of the perforation when the piston body is located at the end is greater than the aerodynamic resistance of the perforation blocked by the piston body. 1 il.

Description

This invention relates to analytical control and capacitive analyzers for gaseous media and can be used in the metallurgical, chemical and other industries.

The purpose of the invention is to increase the functionality of the device.

The drawing shows a device for analyzing gases.

The device comprises a pipe 1, in which the input capacitive sensor 2 is successively placed, a replaceable filter 3 filled with a powdered substance, separating the pipe into inlet and outlet parts, an output capacitive sensor placed in the recess of the outlet wall of the pipe. Inside the pipe, at its inlet, a pressure sensor 5, a temperature sensor 6 and a humidity sensor 7 are placed.

A diaphragm 8 with an aperture and a fan 9 are arranged successively between the input capacitive sensor and the filter. The outlet part of the pipe, located behind the filter, contains a light thin-walled piston-like body 10.

The butt end of the pipe and the side surface of the pipe section, which are connected to this end, are perforated, the length of the perforated pipe section exceeds the thickness of the piston-shaped body, and the aerodynamic resistance of the perforation when the piston-shaped body is located at the end is greater than the aerodynamic resistance of the perforation that is blocked by the piston - invisible body.

Input sensors and capacitive sensors are connected to the counting device 12.

The device works as follows.

Before starting the measurement, the fan 9 is turned on in the reverse mode, and the motion is attached to the piston-like body 10 through the mesh. The gas flow sucks the piston-shaped body 10 to the filter 3, which absorbs the analyzed gas components. At the moment, the fan 9 is turned on in the forward direction and the gas, having passed the filter 3, begins to push the piston-like body 10 and clean the chamber of the output sensor from the external gas. When the piston-shaped Tteglo 10 enters the grid 11, the calculating device 12 begins to compare the capacitances of sensors 2 and k and, depending on the pressure, humidity and temperature of the test gas, shows the content of the analyzed gas.

The diaphragm 8 in combination with the filter 3 provides smooth running for a thin-walled piston-like body. Only if there was sufficient resistance to the passage of air in the filter 3, the diaphragm 8 would not be needed.

The use of filters with high resistance to the passage of gas is impractical because of economic considerations of scientific research institutes and the overrun of filter material. The use of a diaphragm allows not only to equalize the flow, but also to reduce the requirements for the filter material with respect to flow resistance.

Claims (1)

Invention Formula A gas analyzing device comprising a tube in which an inlet capacitive sensor, a filter absorbing the analyzed gas components, and an outlet capacitive sensor, as well as pressure, temperature and humidity sensors of the analyzed gas, a fan and a calculating device, that, in order to increase the functionality of the device, a diaphragm with a hole and a fan is installed in series between the input capacitive sensor and the filter, a part of the pipe located behind the filter, soda inside the light thin-walled piston-shaped body, and the end of the output end of t () wane and the side surface of the pipe section adjacent to this end face are made perforated, the length of the pipe section with perforation exceeds the thickness of the piston-shaped body, and the aerodynamic resistance of the perforation when the piston-shaped body is found at the end is longer aerodynamic resistance of perforation covered by a piston-like body. 56 7 UUU / -w p1 V ;;