A system for realizing automatic farming in deep sea

Abstract

The invention discloses a system capable of achieving automatic cultivation in the deep sea. The system is used in deep-water net cage cultivation and comprises a feed production system, a land transportation system, a storage system, a sea transportation system and a cultivation net cage system, wherein the feed production system is a feed production factory and is used for producing feed; the land transportation system comprises a feed transportation pipeline and is used for land transportation of the feed; the storage system is a storage tank; the sea transportation system comprises a feed transportation ship and is used for feed transportation; and the cultivation net cage system comprises a plurality of floating platforms, connecting pipelines for connecting the floating platforms, and movable observation balls in space which are formed by the floating platforms and connecting pipelines in a connecting manner. Compared with the prior art, the invention provides a deep-sea cultivation system with intensification, industrialization and large scale, the cultivation quality is greatly improved, the cultivation cost is reduced, and conditions of the cultivation system can be monitored at any moment.

Description

technical field [0001] The invention relates to the field of fish farming, in particular to a system for realizing automatic farming in deep sea. Background technique [0002] my country has a long coastline and abundant seafood, but with the overfishing of seafood, the resources are getting scarcer, and the supply of seafood is becoming more and more dependent on mariculture. However, near-shore development such as estuaries and bays in my country has reached saturation, and the extensive aquaculture model has caused environmental degradation, serious pollution, increased disease, and decreased health quality of aquaculture organisms, etc., indicating that the near-shore marine aquaculture model is close to the limit of development. The deep-water sea area with a water depth of more than 20m is far away from the coast and relatively open. The water quality is naturally pollution-free, the seawater has good fluidity and strong self-purification ability. It is a virgin land f...

AI Technical Summary

Problems solved by technology

Typhoon disasters occur frequently in coastal areas, and the breeding cages are often attacked by huge waves. The existing cages are directly connected by pipelines, and the structure is not stable enough to be damaged. Once some pipelines are damaged, the whole pipeline often needs to be replaced. High maintenance costs and poor economic benefits

The traditional deep-water cage itself is tens of meters underwater, and the cultured animals and cages cannot observe and grasp the underwater changes at any time. To watch the cultured animals, either raise the cage to the surface of the sea, or send divers to dive underwater to observe. It requires the cooperation of many people to complete, the labor cost is high, and the manual method is labor-intensive and time-consuming, making it difficult to form intensification and industrialization

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