Blue-green algae automatic identifying and salvaging equipment based on Internet of Things and using method of blue-green algae automatic identifying and salvaging equipment

Abstract

The invention discloses blue-green algae automatic identifying and salvaging equipment based on Internet of Things and a using method of the blue-green algae automatic identifying and salvaging equipment, and the following scheme is provided. The blue-green algae automatic identifying and salvaging equipment comprises a ship body, two symmetrical first cameras are fixedly connected to the top of the ship body, a first sieve plate and a second sieve plate are slidably connected into the ship body, and the first sieve plate is located below the second sieve plate; first fixing plates are fixedly connected to the inner walls of the sides, away from each other, of the ship body, and first springs are fixedly connected to the tops of the two first fixing plates. According to the blue-green algae automatic identifying and salvaging equipment based on the Internet of Things and the using method of the blue-green algae automatic identifying and salvaging equipment, the structure is compact, the position of blue-green algae is scanned through a first camera, and a high-pressure spray gun and a water suction pump are started through a control panel to enable the ship body to automatically and rapidly move to a to-be-salvaged area, manual operation is not needed, and easiness and fastness are achieved; and when a collecting box is used for salvaging the blue-green algae, garbage mixed in the blue-green algae is distinguished through a garbage basket and a round rod, so that the garbage and the blue-green algae are prevented from being mixed together, and the working intensity of blue-green algae recycling in the later period is reduced.

Description

technical field [0001] The invention relates to the technical field of cyanobacteria salvage, in particular to an Internet of Things-based automatic identification and salvage device for cyanobacteria and a method for using the same. Background technique [0002] Blue-green algae or blue-green algae cover the surface of the water body and present different colors such as blue, blue-green, etc. They belong to prokaryotic microorganisms. When a large amount of nitrogen-containing and phosphorus-containing substances are discharged into the water body, it will lead to eutrophication of the water body and promote the excessive reproduction of cyanobacteria. , the phenomenon that cyanobacteria cover the water surface and make the water body present different colors, which is called algae bloom in fresh waters and algal blooms in sea waters. [0003] Traditional cyanobacteria salvage methods mostly use a salvage ship to drive in the waters and use a special salvage device to salva...

AI Technical Summary

Problems solved by technology

[0003] Traditional cyanobacteria salvage methods mostly use a salvage ship to drive in the waters and use a special salvage device to salvage. Manual operations are required during the salvage process. Manually controlling the salvage ship to drive to the area to be salvaged and then controlling the salvage device to salvage is time-consuming and laborious. Increase the labor intensity of the staff, and it is easy to mix the surface garbage with the blue-green algae during the salvage process. Therefore, when the blue-green algae is recycled and reused later, it is necessary to classify the blue-green algae and garbage, thereby increasing the work intensity

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