RU178114U1 - DEVICE FOR ECOLOGICAL ATMOSPHERE AND SOIL MONITORING - Google Patents

Abstract

The utility model relates to the field of meteorology and instruments for measuring environmental characteristics and can be used for environmental monitoring of atmospheric air and soil. The device contains sensors for temperature, humidity, gas sensors, sensors for temperature, humidity and soil acidity, a timer, a storage device, an input / output device, integrators for the values of gas analysis sensors, dose rate sensors for each gas sensor, comparison blocks, a logic element, sensors directions and speeds of air movement, precipitation sensor, block for estimating sources of emissions into the atmosphere, concentrator, switchboard and block for remote data transmission to the center environmental monitoring for operational decisions. The technical result consists in increasing the efficiency of the device for environmental monitoring of air pollution and soil. 1 ill.

Description

The utility model relates to the field of meteorology and instruments for measuring environmental characteristics and can be used for environmental monitoring of atmospheric air and soil.

A known system of automated monitoring of environmental parameters, consisting of a control point, which contains a thermostatic unit of radiation, chemical, biological control to which an automatic or automated sampling device is connected, a unit of radiation, chemical, biological control devices is connected by a communication channel to a collection, processing, display point information (RF patent for utility model No. 101208, IPC G01W 1/02, published January 10, 2011, Bull. No. 1).

This device does not provide operational detection of exceeding the specified values of levels of air pollution and the assessment of sources of polluting emissions into the atmosphere.

Known automatic post for monitoring air quality, containing a block of gas analysis equipment, a meteorological unit and a control system, a gamma background meter, an aerosol unit, a unit for measuring solar radiation parameters, a system for measuring soil temperature at different levels, while the control system includes a unit control and computer, all of the mentioned blocks, background gamma meter and soil temperature measuring system are connected to the computer, and the control unit is connected to the gas analysis equipment block, to the block measuring meteorological parameters and with

aerosol block (RF patent for utility model No. 67733, IPC G01W 1/02, published October 27, 2007, Bull. No. 30).

The design of this device is complex, cumbersome and requires a computer to control the automatic post directly in the measurement process and does not provide rapid detection of exceeding the permissible levels of atmospheric air pollution.

Closest to the claimed utility model is a device for monitoring the physicochemical state of the soil and atmosphere containing temperature and humidity sensors, gas sensors, temperature, humidity and acidity sensors, an autonomous power source, a timer, a storage device and an input-output device for communication with external computer (RF patent for utility model No. 153292, IPC G01W 1/02, published July 10, 2015, Bull. No. 19).

This device does not provide the required performance of the device for environmental monitoring of air and soil pollution in terms of the operational determination of the territorial location and intensity of the source of pollutant emissions into the atmosphere in real time.

The objective of the utility model is to increase the efficiency of the device for environmental monitoring of air pollution and soil pollution.

The problem is solved due to the fact that the device for environmental monitoring of the atmosphere and soil, containing temperature and humidity sensors, gas sensors, temperature, humidity and acidity sensors, a timer, a storage device and an input-output device for communication with an external computer are additionally introduced integrators of gas analytic sensor values, dose rate adjusters for each gas analytic sensor, gas analytic sensor comparison units, OR logic element, dates air flow direction and speed sensors, a precipitation sensor, an atmospheric emission source estimation unit, a concentrator, a switch and a remote data transmission unit to an environmental monitoring center for making operational decisions, and the output of each gas analyzer through an integrator of gas analyzer values is connected to the first input of the corresponding the comparison unit for gas analysis sensors and the input of the hub, the second input of the corresponding unit for comparison of gas analysis sensors is connected to by the setpoint of dose load values for each gas analyzer, the outputs of the gas analytic sensor comparison units are connected through the logic element OR to the control input of the switch, the first timer output is connected to the reset inputs of the gas analyzer value integrators, the second to the clock input of the concentrator, the outputs of the temperature and humidity sensors connected to the inputs of the concentrator, the outputs of the direction and velocity sensors of the air and the precipitation sensor are connected to the inputs of the concentrate ora and the inputs of the unit for estimating sources of emissions into the atmosphere, the output of which is connected to the input of the concentrator, the output of the hub through the switch is connected to the inputs of the storage device and the remote data transmission unit to the environmental monitoring center for making operational decisions, the outputs of the temperature, humidity and soil acidity sensors the inputs of the storage device, the output of which is connected to the input-output device for communication with an external computer.

The figure shows the structure of the device for environmental monitoring of the atmosphere and soil.

The device for environmental monitoring of the atmosphere and the soil contains an air temperature sensor 1, an air humidity sensor 2, gas analysis sensors 3, a soil temperature sensor 4, a soil moisture sensor 5, an acidity sensor 6 of the soil, a timer 7, a storage device 8, an input / output device 9 for communication with external computer, integrators 10 values of gas analysis sensors 3, dose rate adjusters 11 for each gas analysis sensor 3, comparison units 12 gas analysis sensors 3, logical element "OR" 13, direction sensor 14 air movement, speed sensor 15 air movement, precipitation sensor 16, unit for estimating sources of emissions 17 into the atmosphere, a hub 18, a switch 19 and a remote data transmission unit 20 to an environmental monitoring center for operational decisions, with the output of each gas analyzer 3 through an integrator 10 values of gas analysis sensors 3 is connected to the first input of the corresponding unit of comparison 12 gas analysis sensors 3 and the input of the concentrator 18, the second input of the corresponding unit of comparison 12 gas analysis sensors 3 is connected to the output of the dose rate adjuster 11 for each gas analytic sensor 3, the outputs of the comparison blocks 12 of the gas analytical sensors 3 are connected to the control input of the switch 19 through the OR logic 13, the first output of the timer 7 is connected to the reset inputs of the integrators 10 of the gas analytical sensors 3, the second with a clocked input of the hub 19, the outputs of the sensors of temperature 1 and humidity 2 of the air are connected to the inputs of the hub 18, the outputs of the sensors of the direction 14 of air movement, speed 15, the air movement and the precipitation sensor 16 are connected to the inputs of the concentrator 18 and the inputs of the unit for estimating the sources of emissions 17 into the atmosphere, the output of which is connected to the input of the concentrator 18, the output of the concentrator 18 through the switch 19 is connected to the inputs of the storage device 8 and the remote data transmission unit 20 to the center environmental monitoring for operational decisions, the outputs of the sensors of the soil temperature 4, soil moisture 5 and soil acidity 6 are connected to the inputs of the storage device 8, the output of which is connected to the device yes O 9 for connection to the external computer.

The device for environmental monitoring of the atmosphere and soil works as follows.

The device for environmental monitoring of the atmosphere and soil is installed in a place selected for monitoring and fixed by immersion of the probe with sensors for temperature 4, humidity 5 and acidity 6 of the soil in the soil with a depth of 10-15 centimeters.

The measured values from the temperature sensor 4 of the soil, the moisture sensor 5 of the soil and the acidity sensor 6 of the soil are recorded and stored in the storage device 8 until the data is taken through the input-output device 9 for communication with an external computer.

Gas analysis sensors 3 measure the instantaneous values of the content of pollutants in the surface layer of atmospheric air at the location of the device for environmental monitoring of the atmosphere and soil. The data of the gas analysis sensors 3 are measured on a time interval set by the timer 7, during which the measured values of the gas analysis sensors 3 are integrated on the integrators 10. As a result, the outputs of the integrators 10 generate signals corresponding to the dose of pollutants for the time period set by the timer 7.

These values, together with the values from the temperature sensors 1 and humidity 2 of the air, direction sensors 14 and air velocity 15, the precipitation sensor 16 and the unit for estimating the sources of emissions 17 into the atmosphere by a signal from the timer 7 are recorded on the hub 18 and recorded through the switch 19 in remembering

device 8. Subsequent acquisition of environmental monitoring values is carried out through input-output device 9 for communication with an external computer by overwriting data by the operator.

The signals from the outputs of the integrators 10 are fed to the comparison units 12, where they are compared with the dose loads 11 set by the adjusters for each gas analyzer 3. In case of exceeding the installed loads, the excess signals are sent to the outputs of the comparison units 12 and fed to the OR logic element 13 As a result, if the set values are exceeded for at least one gas analytic sensor 3, a control signal is generated for the switch 19, which switches the flow of environmental monitoring data from the storage device 8 to the remote data transmission unit 20 to the center for environmental monitoring. In this case, the data is quickly sent to the center for environmental monitoring to make decisions on reducing air emissions by emission sources.

The unit for estimating the sources of emissions 17 into the atmosphere based on measurements from the air direction sensor 14, the air speed sensor 15, and the precipitation sensor 16 calculates and estimates the source of emissions at a given time at given meteorological parameters, which is fed to the concentrator 18.

As a result, the territorial location of the source of pollutant emissions into the atmosphere is quickly determined with the composition and intensity of the emissions and real-time detection of cases when the established dose threshold values of emissions are exceeded, which is an integral requirement for improving the overall performance of the environmental monitoring device.

Thus, the technical result of the utility model is to increase the efficiency of the device for environmental monitoring of air pollution and soil pollution.

Claims (1)

An atmospheric and soil environmental monitoring device containing temperature and humidity sensors, gas analysis sensors, soil temperature, humidity and acidity sensors, a timer, a storage device and an input / output device for communication with an external computer, characterized in that value integrators are additionally introduced into the device gas analysis sensors, dose rate adjusters for each gas analysis sensor, gas analysis sensor comparison units, OR logic element, directional sensors air velocity, precipitation sensor, unit for estimating sources of air emissions, a concentrator, a switch and a unit for remote data transmission to the environmental monitoring center for making operational decisions, and the output of each gas analyzer through the integrator of gas analyzer values is connected to the first input of the corresponding comparison unit gas analysis sensors and the input of the concentrator, the second input of the corresponding unit for comparing gas analysis sensors is connected to the output of the setpoint as values of dose loads for each gas analytic sensor, the outputs of gas analytic sensor comparison units through an OR logic element are connected to the control input of the switch, the first timer output is connected to the reset inputs of the gas analyzer value integrators, the second to the clock input of the concentrator, the outputs of the temperature and humidity sensors are connected with the inputs of the concentrator, the outputs of the direction and velocity sensors of the air and the precipitation sensor are connected to the inputs of the concentrator and the inputs a unit for estimating sources of emissions into the atmosphere, the output of which is connected to the input of the concentrator, the output of the concentrator through the switch is connected to the inputs of the storage device and the unit for remote data transmission to the center for environmental monitoring for making operational decisions, the outputs of the sensors for temperature, humidity and acidity of the soil are connected to the inputs of the storage device the output of which is connected to an input-output device for communication with an external computer.

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