CN205120112U - Utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data - Google Patents

Utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data Download PDF

Info

Publication number
CN205120112U
CN205120112U CN201520933100.XU CN201520933100U CN205120112U CN 205120112 U CN205120112 U CN 205120112U CN 201520933100 U CN201520933100 U CN 201520933100U CN 205120112 U CN205120112 U CN 205120112U
Authority
CN
China
Prior art keywords
module
data
monitoring
monitoring modular
communication
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201520933100.XU
Other languages
Chinese (zh)
Inventor
阎戈卫
章和盛
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BEIJING SUNKING SYSTEM TECHNOLOGIES CO LTD
Original Assignee
BEIJING SUNKING SYSTEM TECHNOLOGIES CO LTD
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by BEIJING SUNKING SYSTEM TECHNOLOGIES CO LTD filed Critical BEIJING SUNKING SYSTEM TECHNOLOGIES CO LTD
Priority to CN201520933100.XU priority Critical patent/CN205120112U/en
Application granted granted Critical
Publication of CN205120112U publication Critical patent/CN205120112U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model provides an utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data which characterized in that is including delivery module, monitoring module, data conversion module, a plurality of data processing module, communication module and information processing center, the delivery module is connected with monitoring module, data conversion module setting is in the delivery module, data conversion module and monitoring module data connection, monitoring module and data processing module pass through communication module communication connection, information processing center and data processing module pass through communication module communication connection, the utility model provides a monitoring system of rivers and lakes hydrology data can be more effective, conveniently acquires hydrology data fast.

Description

A kind of monitoring system utilizing Multi-axis aircraft to monitor rivers and lakes hydrographic data
Technical field
The utility model belongs to Multi-axis aircraft monitoring technical field, particularly relates to a kind of monitoring system utilizing Multi-axis aircraft to monitor rivers and lakes hydrographic data.
Background technology
Hydraulic engineering increases day by day in national economy role, and China is as water conservancy big country, how to prevent water disaster from occurring, and how to make full use of water resource advantage, how better to develop water resources, and Jun Shi China water conservancy needs the problem of solution badly.
And will solve the problem, most importantly how to obtain hydrographic data easily more in real time.
Utility model content
For prior art Problems existing, the utility model provides a kind of monitoring system of rivers and lakes hydrographic data, can be more effective, quick and convenient acquisition hydrographic data.
The utility model realizes in the following manner:
A monitoring system for rivers and lakes hydrographic data, is characterized in that, comprises carrier module, monitoring modular, data conversion module, some data processing modules, communication module and information processing centre; Described carrier module is connected with monitoring modular; Described data conversion module is arranged in carrier module; Described data conversion module and monitoring modular data cube computation; Described monitoring modular and data processing module are communicated to connect by communication module; Described information processing centre and data processing module are communicated to connect by communication module.
Data processing module is arranged on the geographic position adapted to around tested rivers or lake, carrier module delivery monitoring modular and data conversion module, to the rivers or the lake that need monitoring, carry out data acquisition in real time, the data gathered afterwards are sent to neighbouring data processing module, are sent to information processing centre again by data processing module.
Realize in the unapproachable environment of some people, equally can Real-Time Monitoring water resources data.
Further, described carrier module adopts Multi-axis aircraft.
Further, described monitoring modular comprises locating module, video acquisition module, flow sensor, flow sensor, temperature sensor, wind gage and water quality sensing unit; Locating module, video acquisition module, flow sensor, flow sensor, temperature sensor, wind gage are connected with data conversion module respectively with water quality sensing unit.
The various hydrographic data of abundant monitoring.
Further, described monitoring modular is provided with protection box; Described protection box is suspended on carrier module lower end.
Protection box can play the effect of monitoring for protection module.
Further, described water quality sensing unit comprises lambda sensor, PH detecting sensor, Turbidity measurement sensor, conductivity detecting sensor, ammonia nitrogen detecting sensor and tds sensor.
Meticulous monitoring can go out water quality environment.
Further, described protection box is provided with upper, middle and lower-ranking space; Described upper, middle and lower-ranking space is respectively arranged with monitoring modular.
Stereoscopic multi-layer monitors water environment secondaryly.
Further, described information processing centre is provided with cell-phone customer terminal.
Further, described communication module comprises Beidou communication unit, GLONASS communication unit, Galileo communication unit, GPS communication unit, GPRS/3g/4G wireless communication unit, zigbee communication unit, bluetooth communication and WiFi communication unit.
Plurality of communication schemes combines, and makes communication more convenient, not by environmental interference.
During use, following way is utilized to monitor:
S1: arrange multiple message processing module at tested rivers or lake periphery, for receiving the data message that monitoring equipment sends;
S2: suspend monitoring modular below Multi-axis aircraft or hot air balloon, described monitoring modular, Multi-axis aircraft or hot air balloon is utilized to cruise above tested rivers or lake afterwards, monitoring modular is inserted among rivers or lake, obtain hydrographic data, by communication module, the hydrographic data recorded is sent to the message processing module arranged in S1 afterwards;
S3: data, after the data receiving monitoring modular, by the means of communication of satellite, terrestrial network (GPRS/3G/4G), are sent to data processing centre (DPC) by message processing module;
S4: the data message received is sent to cell-phone customer terminal by Data processing in time.
Mostly traditional hydrographic data monitoring method, be, by directly placing data transducer at rivers or lake, to carry out data monitoring, but for more special region, some geographic position, this type of monitoring method is labor intensive, and have certain risk.
Adopt the monitoring system that the utility model provides, then manually have hostile environment rivers and lakes to remove sensor installation to various without the need to passing through.Only need place corresponding data processing module around tested place, utilize Multi-axis aircraft afterwards, load monitoring modular, directly carry out water conservancy data acquisition to each rivers and lakes, send the data collected to data processing module afterwards, then by data processing module, data are sent to information center.
The beneficial effects of the utility model are, overcome the restriction of geographical conditions, adopt the delivery vehicle such as Multi-axis aircraft, hot air balloon, can carry out sampling monitoring at any time in any stream section in the waters such as rivers, lake; Afterwards monitored data are directly sent to neighbouring data processing module, data are sent to information processing centre by data processing module again, and information processing centre is provided with mobile phone terminal, the hydrographic information collected can be sent in user's hand in real time.
Accompanying drawing explanation
Fig. 1 is the utility model structural representation;
Fig. 2 is water quality sensing unit schematic diagram.
Embodiment
Utilize Multi-axis aircraft to monitor a monitoring system for rivers and lakes hydrographic data, it is characterized in that, comprise carrier module 1, monitoring modular 2, data conversion module 3, some data processing modules 4, communication module 5 and information processing centre 6; Described carrier module 1 is connected with monitoring modular 2; Described data conversion module 3 is arranged in carrier module 1; Described data conversion module 3 and monitoring modular 2 data cube computation; Described monitoring modular 2 is communicated to connect by communication module 5 with data processing module 4; Described information processing centre 6 is communicated to connect by communication module 5 with data processing module 4.
Data processing module is arranged on the geographic position adapted to around tested rivers or lake, carrier module delivery monitoring modular and data conversion module, to the rivers or the lake that need monitoring, carry out data acquisition in real time, the data gathered afterwards are sent to neighbouring data processing module, are sent to information processing centre again by data processing module.
Realize in the unapproachable environment of some personnel, equally can Real-Time Monitoring hydrology resource data.
Further, described carrier module 1 adopts Multi-axis aircraft or hot air balloon.
By Multi-axis aircraft or hot air balloon, arbitrarily can control the place to go of monitoring modular, be applicable to entering the unapproachable region of various manpower.
Further, described monitoring modular 2 comprises locating module 21, video acquisition module 22, flow sensor 23, flow sensor 24, temperature sensor 25, wind gage 26 and water quality sensing unit 27; Described locating module 21, video acquisition module 22, flow sensor 23, flow sensor 24, temperature sensor 25, wind gage 26 are connected with data conversion module 3 respectively with water quality sensing unit 27.
The various hydrographic data of abundant monitoring, comprises temperature, humidity, flow, water level, flow velocity, wind speed, wind direction etc., gathers the various hydrometeorological information in basin.
Further, described monitoring modular is provided with protection box 7; Described protection box is suspended on carrier module lower end.
Protection box can play the effect of monitoring for protection module.
Further, described water quality sensing unit 27 comprises lambda sensor 271, PH detecting sensor 272, Turbidity measurement sensor 273, conductivity detecting sensor 274, ammonia nitrogen detecting sensor 275 and tds sensor 276.
Meticulous monitoring can go out water quality environment.
Further, described protection box 7 is provided with upper strata 71, middle level 72, lower floor 73 3 sheaf space; Described upper, middle and lower-ranking space is respectively arranged with monitoring modular.
Stereoscopic multi-layer monitors water environment secondaryly.
Further, described information processing centre is provided with cell-phone customer terminal.
Further, described communication module comprises Beidou communication unit, GLONASS communication unit, Galileo communication unit, GPS communication unit, GPRS/3g/4G wireless communication unit, zigbee communication unit, bluetooth-communication unit and WiFi communication unit.
Plurality of communication schemes combines, and makes communication more convenient, not by environmental interference.
The system that the utility model provides, use monitoring can be carried out by following steps:
S1: arrange multiple message processing module at tested rivers or lake periphery, for receiving the data message that monitoring equipment sends;
S2: suspend monitoring modular below Multi-axis aircraft or hot air balloon, described monitoring modular, Multi-axis aircraft or hot air balloon is utilized to cruise above tested rivers or lake afterwards, monitoring modular is inserted among rivers or lake, obtain water conservancy data, by communication module, the hydrographic data recorded is sent to the message processing module arranged in S1 afterwards;
S3: data, after the data receiving monitoring modular, by the means of communication of satellite network, ground network (GPRS/3G/4G), are sent to data processing centre (DPC) by message processing module;
S4: the data message received is sent to cell-phone customer terminal by Data processing in time.
Adopt the monitoring system that the utility model provides, then manually have hostile environment rivers and lakes to remove sensor installation to various without the need to passing through.Only need place corresponding data processing module around tested place, utilize Multi-axis aircraft afterwards, load monitoring modular, directly carry out Hydrological Data Acquisition to each rivers and lakes, send the data collected to data processing module afterwards, then by data processing module, data are sent to information center.

Claims (8)

1. utilize Multi-axis aircraft to monitor a monitoring system for rivers and lakes hydrographic data, it is characterized in that, comprise carrier module, monitoring modular, data conversion module, some data processing modules, communication module and information processing centre; Described carrier module is connected with monitoring modular; Described data conversion module is arranged in carrier module; Described data conversion module and monitoring modular data cube computation; Described monitoring modular and data processing module are communicated to connect by communication module; Described information processing centre and data processing module are communicated to connect by communication module.
2. system according to claim 1, is characterized in that, described carrier module adopts Multi-axis aircraft.
3. system according to claim 1, it is characterized in that, described monitoring modular comprises locating module, video acquisition module, flow sensor, flow sensor, temperature sensor, wind gage and water quality sensing unit; Locating module, video acquisition module, flow sensor, flow sensor, temperature sensor, wind gage are connected with data conversion module respectively with water quality sensing unit.
4. system according to claim 1, it is characterized in that, described monitoring modular is provided with protection box; Described protection box is suspended on carrier module lower end.
5. system according to claim 3, it is characterized in that, described water quality sensing unit comprises lambda sensor, PH detecting sensor, Turbidity measurement sensor, conductivity detecting sensor, ammonia nitrogen detecting sensor and tds sensor.
6. system according to claim 4, it is characterized in that, described protection box is provided with upper, middle and lower-ranking space; Described upper, middle and lower-ranking space is respectively arranged with monitoring modular.
7. system according to claim 1, it is characterized in that, described information processing centre is provided with cell-phone customer terminal.
8. system according to claim 1, it is characterized in that, described communication module comprises Beidou communication unit, GLONASS communication unit, Galileo communication unit, GPS communication unit, GPRS/3g/4G wireless communication unit, zigbee communication unit, bluetooth communication and WiFi communication unit.
CN201520933100.XU 2015-11-23 2015-11-23 Utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data Active CN205120112U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520933100.XU CN205120112U (en) 2015-11-23 2015-11-23 Utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520933100.XU CN205120112U (en) 2015-11-23 2015-11-23 Utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data

Publications (1)

Publication Number Publication Date
CN205120112U true CN205120112U (en) 2016-03-30

Family

ID=55575710

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520933100.XU Active CN205120112U (en) 2015-11-23 2015-11-23 Utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data

Country Status (1)

Country Link
CN (1) CN205120112U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109990770A (en) * 2019-04-23 2019-07-09 武昌理工学院 A kind of marine information mapping system based on human-computer interaction
CN111619770A (en) * 2020-05-22 2020-09-04 中科星图(深圳)数字技术产业研发中心有限公司 Underwater unmanned aerial vehicle and control method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109990770A (en) * 2019-04-23 2019-07-09 武昌理工学院 A kind of marine information mapping system based on human-computer interaction
CN111619770A (en) * 2020-05-22 2020-09-04 中科星图(深圳)数字技术产业研发中心有限公司 Underwater unmanned aerial vehicle and control method thereof

Similar Documents

Publication Publication Date Title
CN203561360U (en) Ecological buoy monitoring system
CN203100734U (en) Remote monitoring system of marine ecological buoy
CN103529783A (en) Sugarcane planting monitoring device based on big dipper/GIS (geographic information system)
CN103678910A (en) Cloud system structure pre-warning system and method for riverway type reservoir tributary bay water bloom
CN204228163U (en) Water conservancy lake remote sensing comprehensive monitoring management system
CN107271627A (en) A kind of visualization water quality information monitoring system based on Internet of Things and big data technology
CN205120112U (en) Utilize monitoring system of multiaxis aircraft monitoring rivers and lakes hydrology data
CN104049072A (en) Remote system for monitoring water quality parameters through cellular wireless communication
CN102568171A (en) Controllable wireless transmission instrument for measuring soil tilth of field crops
CN109697323A (en) A kind of rainfall observation method merging satellite remote sensing and mobile communication base station signal
CN110095582A (en) A method of realizing real-time water quality detection
CN201927167U (en) Controllable wireless transmitting device for measuring soil moisture content of crops in field
CN205940620U (en) Water pollution monitoring early warning system
CN203657838U (en) Marine environment monitoring base station
CN203519595U (en) Water quality monitoring device based on Beidou navigation technology
CN204375148U (en) Boat-carrying ocean water quality online auto monitoring system
CN205016033U (en) Mountain landslide monitors collection system
CN206573887U (en) A kind of fishing boat environmental monitoring system
CN109246641A (en) A kind of deep-sea fishing breeding water body tour gauging system based on Beidou communication system
CN108760970A (en) A kind of multi-cartridge wetland evapotranspiration separating monitoring method
CN204758845U (en) Miniature meteorological monitoring device based on thing networking
CN203929800U (en) ADCP flow velocity telemonitoring system
CN209486331U (en) A kind of maritime meteorology and Hydrological observation system
CN109133364A (en) It can the mobile artificial ecological system of remote automatic control
CN203616494U (en) Multipoint meteorological station meteorological data automatic acquiring and collecting system

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant