A micro-monitoring system for groundwater content and water quality

Abstract

The invention discloses a micro-monitoring system for groundwater content and water quality, which comprises a buoy shell. The buoy shell is provided with buoy cavities penetrating left and right. The upper side of the underground waterway is provided with a telescopic cavity. Slidingly connected with a water intake pipe extending into the cavity of the buoy; the invention sets a detection point above the water intake point of the groundwater, and through wireless transmission, the water quality of each water level can be detected in real time, saving labor consumption and making detection The result is more efficient, and by cleaning the water intake pipeline, the groundwater at the time of water intake is guaranteed to be the current water quality, and will not be affected by the water intake pipeline for detection, and by protecting the signal antenna that transmits the signal, the signal antenna will not be in the air. Damage is caused during lightning protection, and the lightning rod is retracted during signal transmission, which ensures the efficiency and safety of signal transmission.

Description

technical field [0001] The invention relates to the technical field of water quality monitoring systems, in particular to a micro-monitoring system for groundwater content and water quality. Background technique [0002] The water quality monitoring system is a set of online automatic analysis instruments as the core, using modern sensing technology, automatic measurement technology, automatic control technology, computer application technology and related special analysis software and communication network to form a comprehensive online automatic monitoring system . [0003] Traditional water quality monitoring requires manual water intake at various groundwater points and bringing sample water back to the laboratory for testing. The process is complex and inefficient, requiring a large number of manual participation, which consumes a lot of labor. [0004] The traditional water quality monitoring system often pollutes the water samples due to the collected water resources...

AI Technical Summary

Problems solved by technology

[0003] Traditional water quality monitoring requires manual water intake at various groundwater points and bringing the sample water back to the laboratory for testing. The process is complex and inefficient, requiring a lot of manual participation, which consumes a lot of labor

[0004] The traditional water quality monitoring system often pollutes the water samples due to the collected water resources, the residual dirt in the pipes and the algae bred by the water intake, so that the detection data is not accurate enough, and the water quality is often misjudged.

[0005] The traditional water quality monitoring system will cause unstable data transmission due to the influence of the lightning rod, and the signal antenna will be damaged due to the strong magnetic field during lightning protection, which will greatly affect the life of the antenna and increase the subsequent maintenance cost

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