CN208171330U - A kind of water conservancy information processing system based on Internet of Things - Google Patents
A kind of water conservancy information processing system based on Internet of Things Download PDFInfo
- Publication number
- CN208171330U CN208171330U CN201820638655.5U CN201820638655U CN208171330U CN 208171330 U CN208171330 U CN 208171330U CN 201820638655 U CN201820638655 U CN 201820638655U CN 208171330 U CN208171330 U CN 208171330U
- Authority
- CN
- China
- Prior art keywords
- water
- sensor
- monitoring
- things
- river
- 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.)
- Expired - Fee Related
Links
Abstract
The utility model provides a kind of water conservancy information processing system based on Internet of Things, including:Data acquisition unit comprising:Water level sensor and monitoring probe on multiple first monitoring points in the first water flow domain are set;Water quality sensor on multiple second monitoring points in the second water flow domain is set;Flow sensor on multiple third monitoring points in third water flow domain is set, wherein, the third monitoring point includes the immigration mouth of a river, the departure mouth of a river and groundwater monitoring well, and multiple flow sensors are separately positioned on the immigration mouth of a river, the departure mouth of a river and groundwater monitoring Jing Chu;Precipitation rain fall sensor, air velocity transducer, Temperature Humidity Sensor and soil moisture sensor on multiple 4th monitoring points in predetermined soil region are set;The server being connected by narrowband Internet of Things with data acquisition unit;The display unit being connected with server by narrowband Internet of Things.The water conservancy information processing system based on Internet of Things of the utility model preferably can cope with and dispose a variety of water conservancy disasters.
Description
Technical field
The utility model relates at hydraulic engineering construction technology field more particularly to a kind of water conservancy information based on Internet of Things
Reason system.
Background technique
Hydraulic engineering construction has increasingly highlighted it with development with advances in technology and has automated, is information-based and accurate
Change.It is applied to the information processing system and method for hydraulic engineering at present, mostly uses the stronger purpose of specific aim greatly and set.Example
Such as, if for the wawter bloom situation in master goal waters, i.e., in multiple monitoring points of the target water, setting wawter bloom detects dress
It sets, and the wawter bloom information that wawter bloom detection device detects is transmitted to laboratory or monitoring center, in order to experimenter
It is analyzed.
It follows that existing known information processing method and system function for hydraulic engineering is more single.However,
With the development of social progress and science and technology, the water conservancy disaster that we are faced takes place frequently, such as flood, arid, water pollution
And water resources management etc., thus by the more single hydraulic engineering information processing method of above-mentioned function and system, it is difficult to answer
To the purpose with a variety of water conservancy disasters of disposition.
Utility model content
Based on prior art defect above-mentioned, the utility model embodiment provides a kind of water conservancy information based on Internet of Things
Processing system preferably can cope with and dispose a variety of water conservancy disasters.
To achieve the goals above, the utility model provides the following technical solution.
A kind of water conservancy information processing system based on Internet of Things, including:
Data acquisition unit, the data acquisition unit include:
Water level sensor and monitoring probe on multiple first monitoring points in the first water flow domain, the level sensor are set
Device is used to detect the height of water level that first water flow domain corresponds to first monitoring point, and the monitoring probe is for obtaining institute
The first water flow domain is stated corresponding to the water logging video in the preset range of first monitoring point;
Water quality sensor on multiple second monitoring points in the second water flow domain is set, and the water quality sensor is for detecting
The water quality situation in second water flow domain;
Flow sensor on multiple third monitoring points in third water flow domain is set, wherein the third monitoring point packet
The immigration mouth of a river, the departure mouth of a river and groundwater monitoring well are included, multiple flow sensors are separately positioned on the immigration mouth of a river, go out
The border mouth of a river and groundwater monitoring Jing Chu, to flow through the immigration mouth of a river, the departure mouth of a river and groundwater monitoring well for detection respectively
Water flow;
Precipitation rain fall sensor, air velocity transducer, the temperature and humidity being arranged on multiple 4th monitoring points in predetermined soil region pass
Sensor and soil moisture sensor, the precipitation rain fall sensor and air velocity transducer are respectively used to detect the predetermined soil region pair
It is pre- that the rainfall and wind speed of 4th monitoring point described in Ying Yu, the Temperature Humidity Sensor and Temperature Humidity Sensor are respectively used to detection
Determine temperature and humidity and moisture content of the soil region corresponding to the soil of the 4th monitoring point;
The server being connected by narrowband Internet of Things with the data acquisition unit, the server can receive the number
The data sent according to acquisition unit are simultaneously handled it;
The display unit being connected with the server by narrowband Internet of Things, the display unit is for showing described in warp
Data after server process.
Preferably, further include:The alarm sensor being connected with the server by narrowband Internet of Things, the alarm pass
Sensor receives the triggering that the server is sent when the water quality sensor detects water quality data beyond preset threshold range
Signal is to execute alarm operation.
Preferably, second water flow domain has water supply line, is provided with control switch, the control on the water supply line
System switch is connected by narrowband Internet of Things with the water quality sensor, and the control switch is detected in the water quality sensor
Water quality data is closed when exceeding preset threshold range to cut off the water supply line.
The water conservancy information processing system based on Internet of Things of the utility model embodiment, by the way that the first water flow domain is arranged in
Water level sensor and monitoring probe on multiple first monitoring points prevent flood, by the way that the more of the second water flow domain are arranged in
Water quality sensor on a second monitoring point prevents and treats water pollution, by being arranged on multiple third monitoring points in third water flow domain
Flow sensor multiple four monitorings in predetermined soil region the problem of reply and handle in terms of water resources management, are set
Precipitation rain fall sensor, air velocity transducer, Temperature Humidity Sensor and soil moisture sensor on point command drought resisting, to preferably realize
Cope with and dispose a variety of water conservancy disasters.
Detailed description of the invention
Fig. 1 is a kind of module map of water conservancy information processing system based on Internet of Things of the utility model embodiment.
Specific embodiment
As shown in Figure 1, the utility model embodiment provides a kind of water conservancy information processing system based on Internet of Things, it is special
Sign is, including:Data acquisition unit, the data acquisition unit include:Multiple first monitorings in the first water flow domain are set
Water level sensor and monitoring probe on point, the water level sensor is for detecting first water flow domain corresponding to described first
The height of water level of monitoring point, the monitoring probe is for obtaining first water flow domain corresponding to the predetermined model in the first monitoring point
Enclose interior water logging video;Water quality sensor on multiple second monitoring points in the second water flow domain, the water quality sensor are set
For detecting the water quality situation in second water flow domain;Flow sensing on multiple third monitoring points in third water flow domain is set
Device, wherein the third monitoring point includes the immigration mouth of a river, the departure mouth of a river and groundwater monitoring well, multiple flow sensors
It is separately positioned on the immigration mouth of a river, the departure mouth of a river and groundwater monitoring Jing Chu, to flow through the immigration water for detection respectively
Mouthful, departure the mouth of a river and groundwater monitoring well water flow;Rainfall on multiple 4th monitoring points in predetermined soil region is set
Sensor, air velocity transducer, Temperature Humidity Sensor and soil moisture sensor, the precipitation rain fall sensor and air velocity transducer difference
For detect the predetermined soil region correspond to the 4th monitoring point rainfall and wind speed, the Temperature Humidity Sensor and
Temperature Humidity Sensor is respectively used to detect temperature and humidity and moisture of the predetermined soil region corresponding to the soil of the 4th monitoring point
Content;The server being connected by narrowband Internet of Things with the data acquisition unit, the server can receive the data
Data that acquisition unit is sent simultaneously are handled it;The display unit being connected with the server by narrowband Internet of Things,
The display unit is for showing the data after the server process.
In the present embodiment, the water level sensor on multiple first monitoring points in the first water flow domain is set and monitoring is visited
Head can be used in the prevention of flood.
Specifically, being obtained when occurring extensive, duration heavy rainfall in the first water flow domain by water level sensor
Height of water level data in first water flow domain, to start a possibility that land-surface processes model prediction flood occurs.And pass through monitoring
The deformation for stopping the dam in the first water flow domain, displacement, crack information are presented to policymaker by probe, and policymaker can be according to these
The position that the judgement of information straight tube may inrush, so that server can be with the media announcements such as short message, TV, PDA, mobile phone correlation
Personnel carry out the preparation for robbing burst-stopping.
By the way that water level sensor and monitoring probe are arranged on multiple first monitoring points in the first water flow domain, and pass through Internet of Things
Water level sensor and monitoring probe are obtained information and are rendered as policymaker by display unit by net, can largely be mentioned
The science and validity of height prevention flood.
In the present embodiment, the water quality sensor on multiple second monitoring points in the second water flow domain is set, can be used
In water prevention and cure of pollution.
Specifically, server can be connected with alarm sensor with signal, alarm sensor detects water in water quality sensor
Prime number executes alarm operation according to the trigger signal that server is sent is received when exceeding preset threshold range.
Also, the second water flow domain has water supply line, and control switch is provided on water supply line for example to be solenoid valve,
Control switch can be connected by narrowband Internet of Things with water quality sensor, can detect water quality data in water quality sensor
It closes when beyond preset threshold range to cut off water supply line.
Further, water quality sensor passes through to river, lake, reservoir, potable water source district, Groundwater Observation point etc.
The remote sensing in the second water flow domain and the observation on ground realize the automatic monitor for continuously of water quality in the second water flow domain, objectively record water
Matter situation finds the variation of water quality in time, and then realizes and carry out water pollution forecast to the second water flow domain or downstream, reaches grasp
Water quality and pollutant flux prevent and treat the purpose of water pollution accident.
The water quality parameter of perception is passed to the display list of environmental management department etc. by water quality sensor by narrowband Internet of Things
Member carries out water quality assessment.And alarm sensor is set, it is automatic by water quality sensor when certain pollutant concentration is more than setting value
It is connected with alarm sensor and control switch, start alarm sensor and water supply line is automatically closed.
In the present embodiment, the flow sensor on multiple third monitoring points in third water flow domain is set, can be used
In water resources management.
Specifically, water resources management is mainly reflected in the effect in social perspectives, to " water intaking-water delivery-water supply-
With water-draining-reuse " etc. links carry out whole process, conduct monitoring at all levels.
It is multiple including the immigration mouth of a river, the departure mouth of a river and groundwater monitoring well to flowing through by using flow sensor
Water flow at third monitoring point is detected, and can enter a country to the third water flow domain including river, Water Functional Zone etc. water
Amount, outflow data and the water intaking at water family and draining data are checked, to accurately grasp the use feelings of water resources situation
Condition provides support to the scientific allocation of water resource and precision management to realize.
In the present embodiment, precipitation rain fall sensor, wind speed biography on multiple 4th monitoring points in predetermined soil region are set
Sensor, Temperature Humidity Sensor and soil moisture sensor can be used on drought resisting commander.
Specifically, corresponding to the 4th monitoring point to predetermined soil region by using precipitation rain fall sensor and air velocity transducer
Rainfall and wind speed are detected, and correspond to the 4th to predetermined soil region by Temperature Humidity Sensor and Temperature Humidity Sensor
The temperature and humidity and moisture content of the soil of monitoring point are detected, and the overall condition to water resource in predetermined soil region is realized
Real-time monitoring, avoid the spatio-temporal restriction of artificial arrangement monitoring point and the discontinuity of data acquisition, give full play to the world
Integrated advantage, can round-the-clock 24 hours continuously carry out data information acquisition, realize to arid occur omen,
Process, the whole Quantitative Monitoring of the extent of injury.
It can be seen that the water conservancy information processing system based on Internet of Things of the utility model embodiment, by setting the
Water level sensor and monitoring probe on multiple first monitoring points in one water flow domain prevent flood, by being arranged second
Water quality sensor on multiple second monitoring points in water flow domain prevents and treats water pollution, by third water flow domain is arranged in multiple
The problem of flow sensor on three monitoring points is come in terms of coping with and handling water resources management, is arranged in the more of predetermined soil region
Precipitation rain fall sensor, air velocity transducer, Temperature Humidity Sensor and soil moisture sensor on a 4th monitoring point command drought resisting, from
And preferably realize reply and a variety of water conservancy disasters of disposition.
The foregoing is merely several embodiments of the utility model, those skilled in the art is public according to utility model file
The content opened can carry out various changes or modifications without departing from the spirit and model of the utility model to the utility model embodiment
It encloses.
Claims (3)
1. a kind of water conservancy information processing system based on Internet of Things, which is characterized in that including:
Data acquisition unit, the data acquisition unit include:
Water level sensor and monitoring probe on multiple first monitoring points in the first water flow domain are set, and the water level sensor is used
Correspond to the height of water level of first monitoring point in detection first water flow domain, the monitoring probe is for obtaining described the
One water flow domain corresponds to the water logging video in the preset range of first monitoring point;
Water quality sensor on multiple second monitoring points in the second water flow domain is set, and the water quality sensor is described for detecting
The water quality situation in the second water flow domain;
Flow sensor on multiple third monitoring points in third water flow domain is set, wherein the third monitoring point include into
The border mouth of a river, the departure mouth of a river and groundwater monitoring well, multiple flow sensors are separately positioned on the immigration mouth of a river, departure water
Mouth and groundwater monitoring Jing Chu, for detecting the water for flowing through the immigration mouth of a river, the leave the country mouth of a river and groundwater monitoring well respectively
Flow;
Precipitation rain fall sensor on multiple 4th monitoring points in predetermined soil region, air velocity transducer, Temperature Humidity Sensor are set
And soil moisture sensor, the precipitation rain fall sensor and air velocity transducer, which are respectively used to detect the predetermined soil region, to be corresponded to
The rainfall and wind speed of 4th monitoring point, the Temperature Humidity Sensor and Temperature Humidity Sensor are respectively used to detect predetermined soil
Ground region corresponds to the temperature and humidity and moisture content of the soil of the 4th monitoring point;
The server being connected by narrowband Internet of Things with the data acquisition unit, the server can receive the data and adopt
Collect the data that unit is sent and it is handled;
The display unit being connected with the server by narrowband Internet of Things, the display unit is for showing through the service
Device treated data.
2. the water conservancy information processing system based on Internet of Things as described in claim 1, which is characterized in that further include:With it is described
The alarm sensor that server is connected by narrowband Internet of Things, the alarm sensor detect water in the water quality sensor
Prime number executes alarm operation according to the trigger signal that the server is sent is received when exceeding preset threshold range.
3. the water conservancy information processing system based on Internet of Things as claimed in claim 2, which is characterized in that second water flow domain
With water supply line, control switch is provided on the water supply line, the control switch passes through narrowband Internet of Things and the water
Matter sensor is connected, control switch pass when the water quality sensor detects water quality data beyond preset threshold range
It closes to cut off the water supply line.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820638655.5U CN208171330U (en) | 2018-05-02 | 2018-05-02 | A kind of water conservancy information processing system based on Internet of Things |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820638655.5U CN208171330U (en) | 2018-05-02 | 2018-05-02 | A kind of water conservancy information processing system based on Internet of Things |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208171330U true CN208171330U (en) | 2018-11-30 |
Family
ID=64368257
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820638655.5U Expired - Fee Related CN208171330U (en) | 2018-05-02 | 2018-05-02 | A kind of water conservancy information processing system based on Internet of Things |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208171330U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109764916A (en) * | 2019-03-06 | 2019-05-17 | 张永祥 | A kind of water conservancy Internet of things system based on cloud computing |
CN111397665A (en) * | 2020-04-24 | 2020-07-10 | 许艳杰 | Water conservancy monitoring system based on thing networking |
CN111829614A (en) * | 2020-06-24 | 2020-10-27 | 武汉世纪水元科技股份有限公司 | Forecasting system based on 4G water level video identification |
-
2018
- 2018-05-02 CN CN201820638655.5U patent/CN208171330U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109764916A (en) * | 2019-03-06 | 2019-05-17 | 张永祥 | A kind of water conservancy Internet of things system based on cloud computing |
CN111397665A (en) * | 2020-04-24 | 2020-07-10 | 许艳杰 | Water conservancy monitoring system based on thing networking |
CN111829614A (en) * | 2020-06-24 | 2020-10-27 | 武汉世纪水元科技股份有限公司 | Forecasting system based on 4G water level video identification |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN208171330U (en) | A kind of water conservancy information processing system based on Internet of Things | |
CN110196083B (en) | Method and device for monitoring and identifying polluted path of drainage pipe network and electronic equipment | |
KR101328026B1 (en) | Aquatic environment monitoring system using the profiling technology according to water depth and aquatic environment monitoring method | |
CN110412230B (en) | Water pollution monitoring and early warning device based on fish behaviors and early warning method thereof | |
CN106337485A (en) | Intelligent drainage network system and method for road safety | |
CN112734694A (en) | Water quality monitoring method based on big data | |
CN102637003A (en) | Water pollution monitoring automatic sampling decision making system and sampling device | |
CN104863049A (en) | Intelligent detecting and controlling system for chemical dangerous articles in highway bridge runoff | |
CN114626583B (en) | Prediction and evaluation method for rebound potential of groundwater in heterogeneous polluted site after remediation | |
KR20090107245A (en) | Nonpoint pollution source monitoring system and the method thereof | |
CN205750502U (en) | A kind of can management and control blowdown monitoring system | |
CN113125659A (en) | Water quality monitoring platform | |
CN204715204U (en) | Highway bridge runoff Hazardous Chemical Substances intelligent detection and control system | |
KR101935498B1 (en) | Monitoring system of nonpoint pollution abatement facility | |
CN205450701U (en) | Drain pipe intelligent monitoring system based on thing networking | |
CN106949934A (en) | A kind of flood-control and drought relief prior-warning device and system | |
NO20101556A1 (en) | Method and system for monitoring and locating foreign water intrusion into pipelines | |
CN111176175A (en) | Intelligent sewer monitoring system based on Internet of things technology | |
CN103979238A (en) | Multi-channel leakage monitoring method for buried tank area of gas station | |
CN209673139U (en) | A kind of bridge floor runoff environmental pollution emergency event emergency waste water identification device | |
Panasiuk et al. | Identifying sources of infiltration and inflow in sanitary sewers in a northern community: comparative assessment of selected methods | |
CN113436046A (en) | Environmental pollution tracing system and method based on artificial intelligence and big data | |
CN108120815B (en) | A kind of enterprise's sewage discharge management system for internet of things | |
CN207484630U (en) | A kind of highway deck runoff real time monitoring and processing system | |
CN107292525B (en) | A kind of calculation method of river warning line |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181130 Termination date: 20210502 |