RU2403393C2 - Testing device of instruments and elements of systems of air-and-gas and dust control of well atmosphere - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: device includes testing chamber, dust supply system, system for creation of the specified air humidity and temperature keeping, device for determining the degree of dust concentration, and measurement station. Measurement station includes in-series installed thermometre, flow metre, wind metre, and pressure metre. At that, device is equipped with gas inlet system, and testing chamber is of toroidal shape and represents tight closed air line having explosion proof design inside which there located are tested instruments and elements of systems of air-and-gas and dust control, and fan with controlled speed of air jet flow. At that, measurement station is also equipped with gas analyser, pitot tube, hygrometre and aspirator. At that, each of sensors of measurement station is installed inside testing chamber through the appropriate inlet devices having explosion-proof design.

EFFECT: full simulation of real operating conditions of instruments and elements of dust and gas compound systems of mine atmosphere.

1 dwg

Description

The invention relates to technical means for ensuring safety in coal mines and can be used to test instruments and elements of air-gas and dust control systems for mine atmosphere used in the coal industry.

A known bench for testing an air purifier of an internal combustion engine / internal combustion engine /, including means of simulating the supply and exhaust of air [1]. However, at this stand it is technically impossible to simulate the real conditions of the dust and gas composition of the mine atmosphere. Since this stand is intended only to simulate the dust composition of the atmosphere.

Closest to the claimed device is a stand for testing an air purifier of an internal combustion engine [2], including a test chamber, an exhaust pipe in communication with this chamber, a dust chamber for installation on the air intake of the air purifier and in communication with the test chamber, a thermometer located in the upper lid of the chamber, air heating means mounted on the side walls of the chamber. Devices for measuring the fractional composition of the dusty air mixture and determining the degree of dust concentration are connected to the dust chamber and the discharge pipe for communication of the latter with the air cleaner. A vacuum pump is placed on this pipeline, and before it a thermometer, an absolute filter are installed in series, before and after which pressure gauges, a flow meter and a stopcock, and an anemometer are placed. The output of the dust supply system is in communication with the dust chamber, and the device for creating a given air humidity with the test chamber. The dust chamber has elements for creating a given direction of dust-air flow, made in the form of guide plates, which are placed on the walls and / or in the volume of this chamber. The plates are removable with the possibility of changing the spatial position of each plate. The stand is equipped with a unit for controlling the position of the plates by means of a corresponding drive and transmission communicated with the guide plates.

This bench is made in a general industrial design and cannot be used for testing devices and elements of dust and gas composition of the mine atmosphere, since the real conditions of the state of ventilated mine workings are characterized by the presence of explosive concentrations of methane-air gas environment and coal dust.

The technical result of the implementation of the claimed invention is a complete imitation of the actual operating conditions of devices and elements of the dust and gas composition of the mine atmosphere, taking into account the explosive factor of methane-air dust environment. This is achieved by the fact that the device is equipped with a gas injection system, and the test chamber is made in a toroidal shape and is a sealed enclosed air duct made in an explosion-proof design, inside of which are tested devices and elements of air-gas and dust control systems, and a fan with an adjustable air stream flow rate while the measuring station is additionally equipped with a gas analyzer, a pitot full pressure tube, a psychrometer and an aspirator, each of which is a sensor measuring station is installed inside the test chamber through the respective opening devices made explosion-proof.

The drawing shows a diagram of a device for testing instruments and elements of systems for aerogas and dust control mine atmosphere.

A device for testing instruments and elements of systems for aerogas and dust control of a mine atmosphere consists of a test chamber (IR) 1, which is a sealed toroidal duct made in an explosion-proof design, inside of which are tested devices and / or elements of dust and aerogas control systems 2 installed in the IR through the mounting hatch 3, then a fan 4 with an adjustable air stream flow rate is installed, the set-up device is directed ia dust-air flow, made in the form of guide plates 5, a metered dust supply system, consisting of a dust meter 6 mounted on the outside of the test chamber with an electric drive 7, a dust weighing container 8 and a feeding screw 9, an inlet dust pipe 10 with an atomizer 11. The device for creating a predetermined humidity is in communication with the test chamber and is made in the form of a stand-alone unit mounted outside the test chamber 1, and is a water tank 12 having an inlet pipe 13 with a shut-off edge ohm system 14 and the capillary 15 at the free end of the pipe, introduced into the test chamber for feeding water into it. A device for creating and maintaining a given temperature, made in the form of a typical heating element 16 is installed inside the IR. The gas input device is in communication with IR and is a gas cylinder 17 with a gearbox 18, a shut-off valve 19 and an inlet pipe 20.

To monitor and record the parameters of the gas and dust medium in the test chamber 1, a measuring station 21 is used, including series-installed measuring devices. An aspirator used to determine the degree of dust concentration in the atmosphere of the test chamber, consisting of a pipe 22 of an external absorber (filter) 23 and a flow meter 24, and a pump 25. Sampling is carried out directly in zone 2 of the installation of the tested devices and / or elements of dust and gas control systems and pumped through an external absorber (filter) 23 and a flow meter 24 using a pump 25. Differential pressure gauge 26 is used to determine the air flow rate and volumetric flow in the gas and dust stream in the computer Exe the pressure pitot tube 27. The Pitot tube 27 is connected to a differential pressure gauge 26, and its one side is introduced in the IR, in the area directly install the test devices and / or elements of the dust control systems and aerogas 2 other side. The measuring station also includes a thermometer 28 and a psychrometer 29, for monitoring a given temperature and humidity regime of the gas and dust environment in the IR, respectively, as well as an anemometer 30, which serves to measure the speed of the gas and dust flow, and a gas analyzer 31, which serves to determine the percentage of gases in the IR, each of the measuring sensors 32 is a thermometer, 33 is a psychrometer, 34 is an anemometer, 35 is a gas analyzer installed inside the test chamber 1 through input devices 36 made in explosion-proof execution. All instruments of the measuring station are connected to the test process control unit.

A device for testing instruments and elements of systems for aerogas and dust control mine atmosphere works as follows. The test devices (and proposed for comparative tests) and / or elements of dust and air-gas control systems 2, through the mounting hatch 3, are installed inside the test chamber 1. A fan with an adjustable flow rate 4 is turned on, which drives the air stream circulating in the test chamber 1 The predetermined direction of the air flow in the test chamber is created by the guide plates 5, and in this way various real conditions occurring in the mine atmosphere are simulated.

The weighing container 8 is filled with a predetermined portion of dust and the dust batcher 6 is turned on, mounted outside the test chamber. The feed screw 9 receives rotation from the electric drive 7 and delivers the dust to the IR through the inlet dust pipe 10 with a spray gun 11 installed at its end. The desired humidity of the circulating dust-gas-air stream is created by opening the shut-off valve 14 and supplying the required amount of water to the IR from the tank 12 through the inlet pipeline 13 with a capillary system 15. Creating and maintaining the desired temperature is carried out by a typical heating element 16 installed inside the IR. The required concentration of gas (e.g. methane) for testing devices and / or elements of dust and air-gas control systems for mine atmosphere 2 is achieved by introducing gas into the infrared from a gas cylinder 17 with a gearbox 18 by opening the shut-off valve 19 through the inlet pipe 20.

Measuring station 21, including sequentially installed reference measuring instruments, control the dust and gas stream.

Aspirator determine the degree of concentration of dust. This is done as follows. Through the pipe 22, air samples are taken from the IR directly in the installation zone of the tested devices and / or elements of dust and air-gas control systems 2 and the selected air samples are pumped through an external absorber (filter) 23 and a flow meter 24 using a pump 25.

Differential pressure gauge 26 in combination with a pressure pipe Pitot 27 determine the speed of the air flow and volumetric flow in the gas and dust stream.

The Pitot tube 27 is connected to the differential pressure gauge 26 with one of its sides and inserted into the infrared conical tip through an input device directly into the installation zone of the tested devices and / or elements of dust and air-gas control systems 2.

The measuring station also includes a thermometer 28 and a psychrometer 29 to control a given temperature and humidity regime of the gas and dust environment in the IR, respectively, as well as an anemometer 30, which serves to measure the speed of the gas and dust flow, and a gas analyzer 31, which serves to determine the percentage of gases in the IR, each Of the measuring sensors 32 — a thermometer, 33 — a psychrometer, 34 — an anemometer, 35 — a gas analyzer were installed inside the test chamber through input devices 36 made in an explosion-proof version. All instruments of the measuring station are connected to the test process control unit.

The obtained values from the studied device 2 are compared with reliable parameters of the control devices of the measuring station 21.

Thus, the possibility of creating in the infrared atmosphere closest to the real mine atmosphere, as well as the ability to set and control various microclimate parameters (temperature, humidity, air velocity, dust and gas concentration) allows obtaining information from sensors with a greater degree of reliability of the controlled parameters .

Information sources

[1] USSR copyright certificate No. 1456816, cl. G01M 15/00, publ. 02/07/89.

[2] Patent RU 2140065 C1, 6 G01M 15/00, publ. 1999.11.20.

Claims (1)

A device for testing instruments and elements of systems for aerogas and dust control of a mine atmosphere, including a test chamber, a dust supply system, a system for creating a predetermined humidity and temperature maintenance, a device for determining the degree of dust concentration and a measuring station, including a thermometer, a flow meter, an anemometer installed in series, pressure gauge, characterized in that, in order to establish reliable values of the controlled parameters, the device is equipped with a gas input system, and tested The chamber is made in a toroidal shape and is a sealed enclosed air duct made in an explosion-proof design inside of which are tested devices and elements of air-gas and dust control systems, and a fan that controls the speed of the air stream in the test chamber, while the measuring station is additionally equipped with a gas analyzer, a tube full pressure pitot, psychrometer and aspirator, with each of the sensors of the measuring station installed inside the test th chamber through appropriate input devices made in explosion-proof execution.

Images