CN203386399U - Environment monitoring experimental system of internet of things - Google Patents
Environment monitoring experimental system of internet of things Download PDFInfo
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- CN203386399U CN203386399U CN201320290866.1U CN201320290866U CN203386399U CN 203386399 U CN203386399 U CN 203386399U CN 201320290866 U CN201320290866 U CN 201320290866U CN 203386399 U CN203386399 U CN 203386399U
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Abstract
The utility model relates to an environment monitoring experimental system of internet of things. The environment monitoring experimental system of the internet of things comprises a wind speed test module, a smog monitoring module, an illumination acquisition module, a humiture monitoring module, an environmental noise monitoring module, a radiation monitoring module, a rainfall monitoring module, an air pressure monitoring module and a laboratory server. The environment monitoring experimental system of the internet of things is developed based on the actual demands, can realize the demands of experiential teaching, improve the learning interest of students, and provide a platform for the internet of things technology application project development of the students or teachers.
Description
Technical field
The utility model relates to environment of internet of things monitoring experiment system.
Technical background
Existing environment of internet of things monitoring experiment system architecture is more single, can not meet the requirement of Students ' Learning, simultaneously also specific not, can not meet the needs of school instruction.
Summary of the invention
The utility model just is based on above problem, abstract networked environment monitoring experiment system, and it can realize the experience type teaching, excites students ' interest of study.This experiment module can meet the Practical Training teaching needs of the courses such as Internet of Things introduction, Fundamentals of Sensors & Application, wireless sensor network and application, Internet of Things engineering and application, Internet of Things standard and middleware Technology, the design of Internet of Things application module of institute's technology of Internet of things/communication engineering Specialty, and provides platform for student or teacher's technology of Internet of things application item exploitation.
Technical scheme
Environment of internet of things monitoring experiment system, comprise wind speed test module, smoke monitoring module, illumination acquisition module, temperature-humidity monitoring module, environment noise monitoring module, Radiation monitoring module, rainfall monitoring module, Pressure monitoring module and laboratory server; Wherein,
The wind speed test module comprises wind speed wind direction sensor, the Zigbee collector one be in series successively,
The smoke monitoring module comprises smoke transducer, the Zigbee collector two of series connection successively;
The illumination acquisition module comprises optical sensor, the Zigbee collector three of series connection successively, and described Zigbee collector one, Zigbee collector two, Zigbee collector three are connected to respectively Zigbee telegon one; Described Zigbee telegon one is connected to laboratory server;
The temperature-humidity monitoring module comprises Temperature Humidity Sensor, the WiFi collector one of series connection successively,
The environment noise monitoring module comprises ambient noise sensor, the WiFi collector two of series connection successively;
The Radiation monitoring module comprises solar radiation sensor, the WiFi collector three of series connection successively; Described WiFi collector one, WiFi collector two, WiFi collector three are connected to respectively described WiFi device server one, and described WiFi device server one is connected to laboratory server;
The rainfall monitoring module comprises rain sensor;
The Pressure monitoring module comprises barometric pressure sensor, and described rain sensor and barometric pressure sensor are connected to laboratory server by wired collector respectively.
Also comprise camera, image wireless transmitter and image wireless receiver, described camera is connected to the image wireless transmitter, and image wireless receiver and image wireless transmitter communicate, and described image wireless receiver is connected to laboratory server.
Also comprise the subscriber's main station, the Internet and the router that are in series successively, described router is connected to laboratory server.
Technique effect
Due to the needs based on actual, develop an actual environment of internet of things monitoring experiment system, can realize the needs of experience type teaching.Improve students ' interest of study, and provide platform for student or teacher's technology of Internet of things application item exploitation.
The accompanying drawing explanation
Fig. 1 is the structure principle chart of the utility model environment of internet of things monitoring experiment system.
Embodiment
Embodiment mono-: as shown in Figure 1, environment of internet of things monitoring experiment system be take laboratory server as core, build Zigbee WLAN (wireless local area network), WiFi WLAN (wireless local area network) and other wireless mode networking, coverture networking laboratory and neighboring area thereof, add the cable network in laboratory, thereby set up the seamless coverage of cable network, WLAN (wireless local area network).Wherein said environment of internet of things monitoring experiment system specifically comprises following part: environment of internet of things monitoring experiment system comprises wind speed test module, smoke monitoring module, illumination acquisition module, temperature-humidity monitoring module, environment noise monitoring module, Radiation monitoring module, rainfall monitoring module, Pressure monitoring module and laboratory server; Wherein,
The wind speed test module comprises wind speed wind direction sensor, the Zigbee collector one be in series successively,
The smoke monitoring module comprises smoke transducer, the Zigbee collector two of series connection successively;
The illumination acquisition module comprises optical sensor, the Zigbee collector three of series connection successively, and described Zigbee collector one, Zigbee collector two, Zigbee collector three are connected to respectively Zigbee telegon one; Described Zigbee telegon one is connected to laboratory server;
The temperature-humidity monitoring module comprises Temperature Humidity Sensor, the WiFi collector one of series connection successively,
The environment noise monitoring module comprises ambient noise sensor, the WiFi collector two of series connection successively;
The Radiation monitoring module comprises solar radiation sensor, the WiFi collector three of series connection successively; Described WiFi collector one, WiFi collector two, WiFi collector three are connected to respectively described WiFi device server one, and described WiFi device server one is connected to laboratory server;
The rainfall monitoring module comprises rain sensor;
The Pressure monitoring module comprises barometric pressure sensor, and described rain sensor and barometric pressure sensor are connected to laboratory server by wired collector respectively.
In addition, also comprise camera, image wireless transmitter and the image wireless receiver of series connection successively, described image wireless receiver is connected to laboratory server.
In addition, also comprise the subscriber's main station, the Internet and the router that are in series successively, described router is connected to laboratory server.
Experimental system innovation of the present utility model is, equipment comprises multiple several arq mode (Zigbee, WiFi, other is wireless, wired) and various environment monitoring sensor, forms the Internet of Things teaching platform of a set of covering many levels.Simultaneously, the various handheld devices of other built-in WiFi module (notebook computer, mobile phone etc.) also can this experiment porch of wireless access, becomes the part of Internet of Things experimental facilities; Other sensing module of teachers and students' teaching, research practice exploitation, be connected by the Zigbee telegon one with standard, also can access easily this experiment porch, completes test, checking.
Below based on specific embodiment of the utility model, further describe the course of work of the present utility model as follows:
The wind speed test macro mainly is comprised of wind speed wind direction sensor, Zigbee collector one, Zigbee telegon one and laboratory server.Air velocity transducer can be arranged on laboratory exterior wall window, but the wind speed of continuous monitoring infield, air quantity (air quantity=wind speed X cross-sectional area) size, can the wind speed air quantity in tunnel of living in be shown in real time, be the important instrument that on practical application in industry, the mine ventilation security parameter is measured.Native system mainly carries out the collection of air speed data by the Zigbee networking mode, send laboratory server to, implements the real-time wind speed monitoring to laboratory, and laboratory server contains the operation of wind speed test host computer, management software.
The smoke monitoring system is comprised of smoke transducer, Zigbee collector two, Zigbee telegon one and laboratory server.On two sidewalls, a smoke screen sensor respectively is installed before and after laboratory, adopt the data acquisition of Zigbee networking mode to the inside, laboratory smog, send laboratory server to, the Real-time Smoke monitoring of enforcement to laboratory, laboratory server contains the operation of smoke monitoring host computer, management software.
The illumination acquisition system is comprised of optical sensor, Zigbee collector three, Zigbee telegon one and laboratory server.On the wall of four sides, laboratory, an optical sensor respectively is installed, adopt the data acquisition of Zigbee networking mode to the inside, laboratory light, send laboratory server to, implement the real-time lighting monitoring to laboratory, laboratory server contains illumination and gathers host computer operation, management software.
Humiture observation system is comprised of Temperature Humidity Sensor, WiFi collector one, WiFi device server one and laboratory server.On the wall of four sides, laboratory, a Temperature Humidity Sensor respectively is installed, by WiFi collector one, adopt external WiFi device server one, data acquisition by the WiFi networking mode to the inside, laboratory neighbourhood noise, send laboratory server to, the real time humiture monitoring of enforcement to laboratory, laboratory server contains the operation of temperature-humidity monitoring host computer, management software.
The environment noise monitoring system is comprised of ambient noise sensor, WiFi collector two, WiFi device server two and laboratory server.On laboratory central authorities wall, an environment noise monitoring system is installed, by WiFi collector two, adopt external WiFi device server two, data acquisition by the WiFi networking mode to the inside, laboratory neighbourhood noise, send laboratory server to, the real-time noise monitoring of enforcement to laboratory, laboratory server contains the operation of environment noise monitoring host computer, management software.
Radiation monitoring system is comprised of solar radiation sensor, WiFi collector three, WiFi device server three and laboratory server.At the laboratory window, a solar radiation sensor is installed, by WiFi collector three, by WiFi device server three, transmission WiFi signal is realized the collection to the solar radiation signal, send laboratory server to, the real-time radiation monitoring of enforcement to laboratory, laboratory server contains the operation of Radiation monitoring host computer, management software.
Rainfall monitoring system is comprised of rain sensor, wired collector and laboratory server.A rain sensor is installed outside the window of laboratory, by wired collector, is adopted the wired digital transmission mode to the rainfall data collection.Complete the rainfall data collection, send laboratory server to, laboratory server contains the operation of rainfall monitoring host computer, management software.
Pressure monitoring system is comprised of barometric pressure sensor, wired collector and laboratory server.A barometric pressure sensor is installed on that sidewalls of dais, laboratory, by wired collector, adopt the wired digital transmission pattern to be gathered atmospheric pressure, send laboratory server to, laboratory server contains the operation of Pressure monitoring host computer, management software.
This system can also be attached other wireless transmission method, utilizes camera to carry out real-time video capture and transport to the environment of inside, laboratory, on laboratory server, shows, as supplementing of other wireless technology transmission mode of system.
Native system can complete the following content of courses: the experiment such as cable LAN networking, the assembling of Internet of Things information platform and test, wireless local area network building, wireless signal measurement and distribution, wired and WLAN (wireless local area network) mixed networking.The long-distance user can pass through the router access laboratory server by internet, obtains every data.
Claims (3)
1. environment of internet of things monitoring experiment system, is characterized in that: comprise wind speed test module, smoke monitoring module, illumination acquisition module, temperature-humidity monitoring module, environment noise monitoring module, Radiation monitoring module, rainfall monitoring module, Pressure monitoring module and laboratory server; Wherein,
The wind speed test module comprises wind speed wind direction sensor, the Zigbee collector one be in series successively,
The smoke monitoring module comprises smoke transducer, the Zigbee collector two of series connection successively;
The illumination acquisition module comprises optical sensor, the Zigbee collector three of series connection successively, and described Zigbee collector one, Zigbee collector two, Zigbee collector three are connected to respectively Zigbee telegon one; Described Zigbee telegon one is connected to laboratory server;
The temperature-humidity monitoring module comprises Temperature Humidity Sensor, the WiFi collector one of series connection successively,
The environment noise monitoring module comprises ambient noise sensor, the WiFi collector two of series connection successively;
The Radiation monitoring module comprises solar radiation sensor, the WiFi collector three of series connection successively; Described WiFi collector one, WiFi collector two, WiFi collector three are connected to respectively described WiFi device server one, and described WiFi device server one is connected to laboratory server;
The rainfall monitoring module comprises rain sensor;
The Pressure monitoring module comprises barometric pressure sensor, and described rain sensor and barometric pressure sensor are connected to laboratory server by wired collector respectively.
2. environment of internet of things monitoring experiment system according to claim 1, it is characterized in that: also comprise camera, image wireless transmitter and image wireless receiver, described camera is connected to the image wireless transmitter, image wireless receiver and image wireless transmitter communicate, and described image wireless receiver is connected to laboratory server.
3. environment of internet of things monitoring experiment system according to claim 1 and 2, it is characterized in that: also comprise the subscriber's main station, the Internet and the router that are in series successively, described router is connected to laboratory server.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
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| CN201320290866.1U CN203386399U (en) | 2013-05-24 | 2013-05-24 | Environment monitoring experimental system of internet of things |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201320290866.1U CN203386399U (en) | 2013-05-24 | 2013-05-24 | Environment monitoring experimental system of internet of things |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104537906A (en) * | 2014-12-24 | 2015-04-22 | 西安交通大学 | Internet of things remote test and control teaching experiment system platform |
| CN104680763A (en) * | 2015-03-19 | 2015-06-03 | 福建三鑫隆信息技术开发股份有限公司 | Data acquisition, data transmission and management system for sensor and control method of system |
| CN105551316A (en) * | 2016-01-21 | 2016-05-04 | 苏州市职业大学 | Smart office room practical training system based on IOT (Internet of Things) technology |
| CN107966534A (en) * | 2017-12-25 | 2018-04-27 | 河北先河环保科技股份有限公司 | Toxic and harmful gas network monitor instrument and monitoring data processing method with sensor detecting element |
| WO2018137112A1 (en) * | 2017-01-24 | 2018-08-02 | 深圳企管加企业服务有限公司 | Method and system for monitoring ventilation device through internet of things |
-
2013
- 2013-05-24 CN CN201320290866.1U patent/CN203386399U/en not_active Expired - Fee Related
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104537906A (en) * | 2014-12-24 | 2015-04-22 | 西安交通大学 | Internet of things remote test and control teaching experiment system platform |
| CN104680763A (en) * | 2015-03-19 | 2015-06-03 | 福建三鑫隆信息技术开发股份有限公司 | Data acquisition, data transmission and management system for sensor and control method of system |
| CN105551316A (en) * | 2016-01-21 | 2016-05-04 | 苏州市职业大学 | Smart office room practical training system based on IOT (Internet of Things) technology |
| WO2018137112A1 (en) * | 2017-01-24 | 2018-08-02 | 深圳企管加企业服务有限公司 | Method and system for monitoring ventilation device through internet of things |
| CN107966534A (en) * | 2017-12-25 | 2018-04-27 | 河北先河环保科技股份有限公司 | Toxic and harmful gas network monitor instrument and monitoring data processing method with sensor detecting element |
| WO2019128203A1 (en) * | 2017-12-25 | 2019-07-04 | 河北先河环保科技股份有限公司 | Poisonous and harmful gas network monitoring instrument with sensor detection element, and monitored data processing method |
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| C14 | Grant of patent or utility model | ||
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| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140108 Termination date: 20140524 |