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Water conservancy intelligent management platform based on Internet of Things

A management platform and IoT technology, applied in the field of water conservancy intelligent management platform, can solve the problems of sample confusion, low frequency, and low accuracy of experimental data, and achieve the effects of ensuring accuracy, saving resources, and low energy consumption

Pending Publication Date: 2020-10-30
江苏国能电气自动化有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Water quality monitoring requires repeated sampling of the water in the water area, and then accurately input and save the experimental data. When sampling water areas of different depths, manual water collection is inconvenient and dangerous, and it is difficult to ensure that the water samples come from where they are located, resulting in Confusion, the accuracy of the experimental data is not high, secondly, the efficiency of manual inspection is low, the frequency is small, and the water quality data cannot be fed back in time

Method used

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  • Water conservancy intelligent management platform based on Internet of Things
  • Water conservancy intelligent management platform based on Internet of Things
  • Water conservancy intelligent management platform based on Internet of Things

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] see figure 2 , including a power supply module 5, a video monitoring and acquisition module 31, a monitoring and display system 32, a system host 19, a water quality collector 36 and a water quality analysis module 18. The video monitoring and acquisition module 31 is mainly composed of a pole 20, a monitor 21 and a cable 22 , the system host 19 is mainly composed of a CPU processor 33, a data acquisition module 34, and a communication module 35. The model of the CPU processor 33 is selected as S3C6410, and the communication module 35 is an industrial-grade 5-port LTE 4G gateway CM8551G. The system host 19 is fixed in the box On the cover 61 and connected with the water quality analysis module 18, the data acquisition module 34 of the system host 19 collects the analysis data transmitted by the water quality analysis module 18, and the CPU processor 33 organizes the data and transmits the data to the monitoring and display system 32 through the communication module 35. ...

Embodiment 2

[0035] see figure 1 , the water quality collector 36 has a support plate 1 and the lower end surface of the support plate 1 is fixedly connected with the buoy 2, and the upper end surface of the support plate 1 has a first hoist 3, a second hoist 4, a water tank 6 and a power supply module 5, and the second hoist 4 A steel anchor 8 is connected to the steel anchor 8 through its coiled anchor cable 7, and the steel anchor 8 is used to stabilize the support plate 1 and other components on it, and the first winch 3 is connected to a cage 11 through its coiled sling The lifting of the cage 11 carries out the extraction and detection of water samples of different depths. There is a submersible pump 12 inside the hanging cage 11 and the submersible pump 12 is connected to the inside of the cylinder 14 installed in the water tank 6 through the water pipe 13. The lower end surface of the cylinder 14 is It has a conveying pipe 16 communicating with its interior and has an electric drai...

Embodiment 3

[0037] see image 3 All sides of the hanging cage 11 are fixedly connected with filter screens 23, the four corners of the upper end surface of the hanging cage 11 are provided with connectors 10 for fixing the slings 9, and the side walls of the hanging cage 11 are fixedly connected with a monitor 21 , the setting of the filter screen 23 prevents the sundries in the water from being inhaled by the submersible pump 12, causing the equipment to be blocked and damaged. The monitor 21 is used to observe the situation in the water and observe the operating conditions of the equipment.

[0038]Working principle: when in use, the data acquisition module 34 collects the analysis data transmitted by the water quality analysis module 18, the CPU processor 33 organizes the data and transmits the data to the monitoring and display system 32 through the communication module 35, and the communication module 35 transmits the data to The monitoring and display system 32, firstly, the water q...

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Abstract

The invention discloses a water conservancy intelligent management platform based on the Internet of Things, which comprises a power supply module, a video monitoring acquisition module, a monitoringdisplay system, a system host, a water quality collector and a water quality analysis module, wherein the video monitoring acquisition module is mainly composed of a holding pole, a monitor and a cable, and the system host is mainly composed of a CPU processor, a data acquisition module and a communication module. The water quality collector conveys a water sample to the water quality analysis module for experimental analysis; the data acquisition module collects analysis data transmitted by the water quality analysis module, the CPU processor arranges the data and transmits the data to the monitoring display system through the communication module, the communication module transmits the data to the monitoring display system through a 4G network, the management platform monitors the waterquality in a water area in real time, and the efficiency is high.

Description

technical field [0001] The invention relates to the technical field of water conservancy engineering, in particular to an intelligent water conservancy management platform based on the Internet of Things. Background technique [0002] The benefits of water conservancy projects are random, and the benefits are different according to the different hydrological conditions every year. Farmland water conservancy projects are also closely related to changes in meteorological conditions. Wide range of influence. Water conservancy channels are water delivery structures, mostly used for irrigation and water diversion projects. When a high mountain blocks the road, you can go around the mountain or dig a water tunnel to pass through it; if it intersects with a river or a ditch, you need to set up an aqueduct or an inverted siphon. In addition, there are buildings that intersect with bridges and culverts. [0003] Water quality monitoring requires repeated sampling of the water in th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/18G01N1/20
CPCG01N1/20G01N33/18
Inventor 王柏
Owner 江苏国能电气自动化有限公司
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