RU68714U1 - DEVICE FOR AUTOMATED REMOTE ENVIRONMENTAL MONITORING - Google Patents

Abstract

The device is intended for automated remote environmental monitoring, can be used in environmental information systems in the areas of oil and gas fields, highways, sanitary and residential areas, etc. It contains blocks of uninterrupted power supply, measurement and indication, control and communication, interfacing with external devices, a panel with indicators, a signal converter, an antenna, meteorological and environmental monitoring sensors. The measurement and indication unit includes a cellular communication modem and a storage device, it transfers the processed data to a control room equipped with an automated workstation, 1 il.

Description

The proposed device relates to the field of automated environmental monitoring, in particular in environmental information systems in the areas of oil and gas fields, oil and gas transportation, metallurgical and chemical industries, highways, sanitary and residential areas. The device can also be used in the design of emergency and ecological monitoring systems for the environment of the region.

Known station environmental environmental monitoring [RF Patent No. 2196347, class. G01W 1/02, 2003], which contains a heat-insulating casing with a lid, inside of which are placed monitoring systems, measurements with instruments and assemblies, a drainage tank, a system for collecting and removing moisture condensate, made in the form of a grid of moisture-absorbing material.

A device for environmental environmental monitoring is known [RF Patent No. 2197743, cl. G01W 1/02, 2003], comprising a sealed enclosure with a streamlined cover, measuring instruments placed inside the enclosure and a weather tower fixed to the enclosure in the form of a pipe with sensor meteorological equipment.

The disadvantages of the known environmental monitoring stations are the high weight and size parameters, the inability to remotely monitor, and the insufficient amount of information received about the state of the environment.

The closest technical solution is a device for meteorological measurements [Patent for utility model No. 32232, class. G01W 1/02, 2002], containing a number of meteorological parameter sensors, a primary transducer of measured signals connected to each of the sensors, measurement and indication units, including a connected analog-to-digital converter and a digital indicator, digital indicators of all meteorological parameters are built into the instrument the panel, measurement and indication units, the interface with external devices are equipped with outputs with the ability to connect to external ones.

The disadvantage of the prototype is the inability to monitor the physical and chemical environmental factors, as well as the limited range of information transfer.

The utility model is based on the task of creating such an environmental monitoring device that would ensure

effective control of environmental parameters, as well as convenient and reliable transmission of information via cellular communications.

This object is achieved in that in a device for automated remote environmental monitoring, including meteorological sensors, a primary transducer of measured signals connected to each of the sensors, a measurement and indication unit, an uninterruptible power supply unit, a dashboard with digital indicators, an interface unit with external devices, additionally included environmental monitoring sensors, a control and communication unit, including a cellular modem, antenna and storage a device processing the information with measurement and display unit, transmitting the processed data to the control station, equipped workstation.

Figure 1 shows the structural diagram of the proposed device. It consists of an uninterruptible power supply unit 1, which is powered by an electric network or autonomous power sources, for example, a wind turbine, a solar battery or a battery, a signal converter 2, a measurement and indication unit 3, a control and communication unit 4, a panel with indicators 5, antennas 6, a unit for interfacing with external devices 7, meteorological sensors 8, chemical sensors 9, physical sensors 10.

The device is mounted outdoors, at an altitude of 1.5-2.5 m from the surface of the earth, which allows you to measure the surface concentration of pollutants, as well as adequately judge the physical impact on the environment. The ability to install the device low enough above the ground exists thanks to the anti-vandal housing.

It is proposed to use a ready-made infrastructure for the electrical service of industrial monitoring points, highways, railways, trunk pipelines, etc. For example, for environmental monitoring of large highways, the device is mounted on lighting poles. To monitor places where there is no available power supply, the device is equipped with an autonomous power source.

The environmental monitoring device operates in the automatic mode of collecting, processing and transmitting information to a data center.

Sensors 8, 9, 10 record environmental parameters: meteorological sensors 8 - temperature, humidity, atmospheric pressure, air velocity; chemical sensors 9 - gas concentrations of CO ₂ , CH ₄ , CO, NO, etc., physical sensors 10 - radiation, vibration, acoustic pollution, etc. The choice of sensor types is determined by the needs of the consumer. Sensors 8, 9, 10 transmit information to signal converter 2, where the measured meteorological, physical and chemical parameters are converted into an analog electrical signal, which is fed to the measurement and indication unit 3. It has an analog

the signal is converted to digital and fed to a panel with indicators 5 and to a control and communication unit 4, from the output of which through an antenna 6 they are transmitted via cellular communication to a control center, the location of which is determined by the capabilities of cellular communications. Cellular lines between the control room and the controlled point are highly stable, noise immunity and digital coding. For communication lines of this type, a large redundancy ratio, reliability and stability are characteristic.

Information from the monitoring point to the control center can come in several ways: 1) automatically, after each measurement; 2) accumulating in the memory of the control and communication unit 4 for a predetermined time, after which it is sent to the workstation; 3) upon receipt of a request from the operator of the control room; 4) when the threshold values of the measured parameters are exceeded, an emergency warning of the control room occurs.

Thanks to the interface unit with external devices 7, containing a COM port USB port, Bluetooth, Wi-Fi, it is possible to connect the environmental monitoring device directly to registration devices, storage devices and / or to a personal computer.

Thus, the proposed design of a device for automated remote environmental monitoring solves the problem, allowing effective monitoring of environmental parameters, as well as convenient and reliable transmission of information via cellular communications.

Claims (1)

A device for automated remote environmental monitoring, including meteorological sensors, a primary transducer of measured signals connected to each of the sensors, a measurement and indication unit, an uninterruptible power supply unit, a dashboard with digital indicators, an interface unit with external devices, characterized in that the device also includes environmental monitoring sensors, a control and communication unit, including a cellular modem, an antenna and a storage device TVO, processing information with the measurement and display unit that transmits the processed data to the control room, equipped with a workstation.