Internet of Things fish pond oxygenation robot

Abstract

The invention discloses an Internet of Things fish pond oxygenation robot. The robot comprises a horizontally arranged annular buoyancy mounting plate, the inner side of the annular buoyancy mountingplate is vertically upward provided with a spherical mounting cover, a guide lifting mounting cylinder vertically penetrates through the middle of the upper end of the spherical mounting cover, an annular buoyancy cylinder is horizontally arranged on the outer side of the annular buoyancy mounting plate through a fixing mounting column arranged at the equal angle, the inside of the guide lifting mounting cylinder is vertically provided with a guide lifting mounting column through a guide lifting structure, a deflector hole is inserted vertically inside the guide lifting mounting column, the upper end of the guide lifting mounting column protrudes from the lifting mounting cylinder, a collecting installation cover is horizontally arranged, and a uniform aeration oxygenation structure is arranged at the lower end of the guide lifting mounting column. The robot has the advantages of compact structure design, stable floating, long aeration time, good oxygenation effect, stable working surface, small influence on fishery production, convenient remote control and the like.

Description

technical field [0001] The invention relates to the field of the Internet of Things, in particular to an oxygenation robot for fish ponds of the Internet of Things. Background technique [0002] The aerator is a machine that is often used in fish farming. Its main function is to increase the oxygen content in the water to ensure that the fish in the water will not be hypoxic. At the same time, it can also inhibit the growth of anaerobic bacteria in the water and prevent the deterioration of the pool water from threatening the living environment of the fish. Aerators generally rely on their own air pumps to pump air into the water to achieve the purpose of increasing the oxygen content in the water. Pond water quality and ecological environment. The water circulation flow generated by it is not suitable for the living habits of some farming objects such as eels and shrimps, but it has a good effect on promoting the health and rapid growth of fish and shrimps. However, due t...

AI Technical Summary

Problems solved by technology

The water circulation flow generated by it is not suitable for the living habits of some farming objects such as eels and shrimps, but it has a good effect on promoting the health and rapid growth of fish and shrimps. However, due to the lack of unattended operation mode and Lack of self-regulation function, causing various problems in actual use

[0003] In order to solve the above problems, the present invention is proposed, which overcomes the current use of the fish pond oxygenation robot, because the pipeline is directly filled with air, causing the aeration work surface to be unstable, splashing water, affecting the fish pond cultivation operation, and the depth cannot be reached. Problems such as stable control solve the problems of currently used fish pond oxygenation robots. Due to the use of on-site guards by personnel and the short time that air exists in the water, the scope of work is limited and the oxygenation efficiency is low. The present invention has a compact structure design. , stable floating, long aeration time, good oxygenation effect, stable working surface, little impact on fishery production, convenient remote control, etc.

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