CN210741562U - Energy consumption and environmental data acquisition terminal equipment for traffic industry - Google Patents

Abstract

The utility model provides an energy consumption and environmental data acquisition terminal equipment for traffic industry, include: the system comprises a front-end data acquisition system, a data receiving and processing module, a wireless communication module, a screen display module and a power supply; the front-end data acquisition system is used for acquiring physical parameter information of a specified environment area to carry out environment monitoring; the data receiving and processing module comprises a storage unit, a microprocessor and a plurality of I/O serial ports; the wireless communication module is used for the data receiving and processing module to exchange information with a remote data center and a front-end data acquisition system; the screen display module includes touch-sensitive screen and LCD screen, the touch-sensitive screen is used for right physical parameter carries out upper limit and lower limit setting, the LCD screen is used for showing multichannel video letter information and physical parameter information simultaneously, the utility model discloses can centralized monitoring quality of water, atmosphere, noise and soil index to can carry out real-time visual monitoring, improve data transmission's authenticity.

Description

Energy consumption and environmental data acquisition terminal equipment for traffic industry

Technical Field

The utility model relates to a traffic environmental protection technology field especially involves an energy consumption and environmental data acquisition terminal equipment for traffic industry.

Background

In order to respond to the national call of energy conservation and emission reduction in the traffic industry, energy consumption and environmental data of ports, roads, rivers, airports and transportation stations are monitored, environmental protection and energy conservation strategies can be made by governments and traffic departments more favorably, real-time environmental data and energy consumption data such as water resources, soil environments, atmospheric environments, noise and the like are important for the living environment of human health, the informatization degree of environmental monitoring is far from enough at present, and the requirements of environmental protection and development urgently needed in China cannot be met at all. Environmental datamation and informatization, so that people in various places can share data, which is an important direction for future environmental protection and development in China, but the existing environmental monitoring equipment cannot well meet the requirements of unified acquisition and data sharing of various environmental data, and single-point detection and data transmission are adopted, so that the cost is high, and the acquisition and transmission efficiency is low.

In summary, how to provide an energy consumption and environmental data acquisition terminal device for the transportation industry, which can perform centralized monitoring on various environmental data, can conveniently perform remote access and query, and ensure the authenticity of data transmission, is a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems and requirements mentioned above, the present solution provides an energy consumption and environmental data acquisition terminal device for the transportation industry, which can solve the technical problems mentioned above due to the following technical solutions.

In order to achieve the above object, the utility model provides a following technical scheme: an energy consumption and environmental data collection terminal device for the transportation industry, comprising: the system comprises a front-end data acquisition system, a data receiving and processing module, a wireless communication module, a screen display module and a power supply, wherein the power supply is used for providing required voltage for each module;

the front-end data acquisition system is used for acquiring physical parameter information of a specified environment area for environment monitoring and sending the parameter information to the data receiving and processing module;

the data receiving and processing module further comprises a storage unit, a microprocessor and a plurality of I/O serial ports, the storage unit comprises an RAM chip and a database, the I/O serial ports comprise an analog quantity interface, a switching quantity interface, an RS485 communication interface, a GPRS interface and an Ethernet interface, the storage unit and the I/O serial ports are electrically connected with the microprocessor, and the wireless communication module and the screen display module are electrically connected with the data receiving and processing module;

the wireless communication module is used for information communication between the data receiving and processing module and a remote data center and a front-end data acquisition system, and comprises an Ethernet and a 3G network;

the screen display module comprises a touch screen and an LCD screen, the touch screen is used for setting the upper limit and the lower limit of the physical parameters, and the LCD screen is used for simultaneously displaying multi-channel video information and physical parameter information.

Further, the physical parameter information comprises water flow, nitrogen and ammonia values, CO, PM10, temperature and humidity values, PH values and noise Lmax required index data.

Further, the power supply comprises RTC independent battery power supply, lithium battery power supply, alternating current power supply and direct current 24VDC power supply.

Further, the touch screen is a four-wire resistive touch screen.

Furthermore, the front-end data acquisition system selects a serial port communication mode within a short-distance transmission range; when the remote data are collected, the wireless communication module is selected to be connected with the mobile collection equipment, so that the environment of a specific area is monitored.

Further, the microprocessor employs an ARM9 development board.

Further, the data receiving and processing module further comprises a round-robin receiving unit, and the round-robin receiving unit is used for periodically receiving the related index information of each acquisition point sent by the front-end data acquisition system.

The system further comprises a video monitoring module, wherein the video monitoring module is used for collecting the dynamic gauge outfit data picture of the metering instrument of the collected point, and the video monitoring module sends the image information of the dynamic gauge outfit data to the data receiving and processing module through the wireless communication module.

The utility model has the advantages that the utility model can monitor water quality, atmosphere, noise and soil index in a centralized way, and compared with single-point detection and data transmission, the utility model not only reduces the cost, but also improves the efficiency of data acquisition and transmission; storing the data in a database, and performing remote access query through a server; and real-time visual monitoring can be carried out, and the authenticity of data transmission is improved.

The following description of the preferred embodiments for carrying out the present invention will be made in detail with reference to the accompanying drawings so that the features and advantages of the present invention can be easily understood.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments of the present invention will be briefly described below. The drawings are intended to depict only some embodiments of the invention, and not all embodiments of the invention are limited thereto.

Fig. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic structural diagram of the middle data receiving and processing module of the present invention.

Fig. 3 is a schematic diagram of data transmission between the data acquisition device and the remote data center in this embodiment.

Detailed Description

In order to make the technical solution of the present invention, its purpose, technical solution and advantages become clearer, the drawings of the embodiments of the present invention will be combined hereinafter, and the technical solution of the embodiments of the present invention will be clearly and completely described. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

As shown in fig. 1-3, the utility model provides an energy consumption and environmental data acquisition terminal equipment that can centralized monitoring quality of water, atmosphere, noise and soil index, accessible server carry out the remote access inquiry and can carry out real-time visual control and guarantee data transmission's authenticity for the traffic industry, this energy consumption and environmental data acquisition terminal equipment for the traffic industry include: the system comprises a front-end data acquisition system, a data receiving and processing module, a wireless communication module, a screen display module and a power supply, and further comprises a video monitoring module, wherein the video monitoring module is used for acquiring dynamic header data pictures of a metering instrument of an acquired point, the video monitoring module sends image information of the dynamic header data to the data receiving and processing module through the wireless communication module, and the image information is compared with the dynamically extracted header data through the screen display module, so that data falsification is prevented, and the authenticity of the data is improved; the power supply is used for providing required voltage for each module, and the power supply comprises RTC independent battery power supply, lithium battery power supply, alternating current power supply and direct current 24VDC power supply.

The system comprises a front-end data acquisition system, a data receiving and processing module, a wireless communication module and a data processing module, wherein the front-end data acquisition system is used for acquiring physical parameter information of a specified environment area to carry out environment monitoring and sending the parameter information to the data receiving and processing module, the physical parameter information comprises index data required by water flow, nitrogen and ammonia values, CO, PM10, temperature and humidity values, PH values and noise Lmax, the front-end data acquisition system selects a serial port communication mode in a short-distance transmission range, and the wireless communication module is selected to be connected with mobile acquisition equipment during remote data acquisition so as to realize monitoring of the environment of the specified area; the data receiving and processing module also comprises a storage unit, a microprocessor and a plurality of I/O serial ports, wherein the microprocessor adopts an ARM9 development board, the chip is provided with an I2C interface and can meet the requirements of communication and wireless networking with sensors, the I/O serial ports use the expansion ports of the I/O ports of the ARM9 development board, the functions of the ports can be specified through setting programs, different sensors can be carried on the ports to complete the acquisition of environmental parameters, the storage unit comprises a RAM storage chip and a database, the database is a SQLITE database which is a light database, is an ACID-compliant relational database management system and is contained in a relatively small C library, the design target of the data management system is embedded, the data management system is used in a plurality of embedded products at present, the data management system occupies very low resources, and in embedded devices, it may be sufficient to require only a few hundred K of memory. The device comprises 8 paths of analog quantity interfaces, an input signal type of the analog quantity interfaces is 4-20mA or 0-5V, the A/D resolution ratio is more than or equal to 12 bits, 8 paths of switching quantity interfaces are included, the input voltage range of the interfaces is 5-36V, the ARM9 development board I/O interface can be expanded into an RS232 interface by adopting an MAX3232 chip, GPRS/GSM communication is realized by a standard RS232 interface, the RS485 communication interface can be connected and expanded by adopting a MAX1482 chip, and the Ethernet interface chip adopts a model of DM 9000. The data receiving and processing module further comprises a round-robin receiving unit, and the round-robin receiving unit is used for periodically receiving the relevant index information of each acquisition point sent by the front-end data acquisition system, so that the round-robin mode effectively reduces the overall power consumption of the equipment. The storage unit and the I/O serial ports are electrically connected with the microprocessor, and the wireless communication module and the screen display module are electrically connected with the data receiving and processing module; the wireless communication module is used for information communication between the data receiving and processing module and a remote data center and a front-end data acquisition system, and comprises an Ethernet and a 3G network; the screen display module comprises a touch screen and an LCD screen, the touch screen is used for setting the upper limit and the lower limit of the physical parameters, the LCD screen is used for simultaneously displaying multi-channel video information and physical parameter information, and the touch screen is a four-wire resistor type touch screen.

In this embodiment, the data collection device mainly includes a remote data center, i.e., a remote monitoring station, a field instrument, and a human-computer interaction function, in order to facilitate the administrator to query information, the system employs a browser-based B/S mode browsing method, an embedded WEB server is directly installed on the data collection device, the administrator accesses a database on the data collection device, and a user can share data by accessing the database on the remote data center, as shown in fig. 3, a computer terminal of a monitoring room communicates with the data collection device through a cloud platform of the remote data center data sharing, a transportation hall tracks a pollution source through a combination of a basic geographic system and collected information, a front-end collection device performs data communication with the data collection device through a 3G network, and the front-end data collection system includes various electric meters, a power meter, a, Flowmeter and humiture and gas concentration sensor, this equipment can realize the comprehensive integration of energy real-time data, various relation type data and geographic information data and with the integrated application of unlimited sensor network technique, has realized the safe low-cost transmission of data, and can combine together with geographic information system GIS, and then convenient carries out the punctuation to the pollution sources, and various environmental information of audio-visual demonstration improve environmental protection management level and validity.

It should be noted that the embodiments of the present invention are only the preferred embodiments for implementing the present invention, and all the obvious modifications and changes belonging to the overall concept of the present invention should fall within the protection scope of the present invention.

Claims (8)

1. An energy consumption and environmental data acquisition terminal device for the transportation industry, comprising: the system comprises a front-end data acquisition system, a data receiving and processing module, a wireless communication module, a screen display module and a power supply, wherein the power supply is used for providing required voltage for each module;

the front-end data acquisition system is used for acquiring physical parameter information of a specified environment area for environment monitoring and sending the parameter information to the data receiving and processing module;

the data receiving and processing module comprises a storage unit, a microprocessor and a plurality of I/O serial ports, the storage unit comprises an RAM chip and a database, the I/O serial ports comprise an analog quantity interface, a switching quantity interface, an RS485 communication interface, a GPRS interface and an Ethernet interface, the storage unit and the I/O serial ports are electrically connected with the microprocessor, and the wireless communication module and the screen display module are electrically connected with the data receiving and processing module;

the wireless communication module is used for information communication between the data receiving and processing module and a remote data center and a front-end data acquisition system, and comprises an Ethernet and a 3G network;

the screen display module comprises a touch screen and an LCD screen, the touch screen is used for setting the upper limit and the lower limit of the physical parameters, and the LCD screen is used for simultaneously displaying multi-channel video information and physical parameter information.

2. The terminal device for collecting energy consumption and environmental data for transportation industry as claimed in claim 1, wherein the physical parameter information includes water flow, nitrogen ammonia value, CO, PM10, temperature and humidity value, PH value, noise Lmax required index data.

3. The energy consumption and environmental data collection terminal device for transportation industry of claim 1, wherein the power supply comprises RTC standalone battery supply, lithium battery supply, ac supply and dc 24VDC supply.

4. The energy consumption and environmental data collection terminal device for transportation industry of claim 1, wherein the touch screen is a four-wire resistive touch screen.

5. The terminal device for energy consumption and environmental data collection in transportation industry as claimed in claim 1, wherein the front end data collection system selects a serial port communication mode within a short distance transmission range; when the remote data are collected, the wireless communication module is selected to be connected with the mobile collection equipment, so that the environment of a specific area is monitored.

6. The energy consumption and environmental data collection terminal device for transportation industry of claim 1, wherein said microprocessor employs an ARM9 development board.

7. The terminal device for collecting energy consumption and environmental data in transportation industry as claimed in claim 1, wherein the data receiving and processing module further comprises a round-robin receiving unit, and the round-robin receiving unit is configured to periodically receive the index information related to each collection point sent by the front-end data collection system.

8. The energy consumption and environmental data collection terminal device for transportation industry as claimed in claim 1, further comprising a video monitoring module, wherein the video monitoring module is used for collecting dynamic header data pictures of the collected point metering instrument, and the video monitoring module sends image information of the dynamic header data to the data receiving and processing module through the wireless communication module.

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