High-density fish pond breeding and monitoring system based on the technology of Internet of Things

Abstract

The invention provides a high-density fish pond breeding and monitoring system based on the technology of Internet of Things, which belongs to the technical field of high-density aquatic product cultivation. The system comprises a monitoring platform, a measuring device and a water quality adjusting device. The monitoring platform comprises a water quality data detection module and a control module. The control module controls the high-density fish pond breeding environment according to the detection data of the water quality data detection module and carries out automatic breeding operation.The measuring device measures the water quality condition and sends the water quality condition to the water quality data detection module. The water quality adjusting device conducts water quality adjusting operation based on the control instruction sent by the control module. The high-density fish pond comprises a circulating breeding sub-pond, a purification sub-pond, a sewage collecting pond and a sewage filtering pond. Water in the circulating breeding sub-pond flows into the purifying sub-pond by sequentially passing through the sewage collecting pond and the sewage filtering pond, and the purified water is injected into the circulating breeding fishpond through a layered water injection structure. According to the invention, local or remote intelligent management and control like water injection, dirt absorption, sterilization, oxygen adding, feeding can be realized through the technology of the Internet of Things.

Description

technical field [0001] The invention relates to the technical field of high-density aquatic product cultivation, in particular to a high-density fish pond cultivation monitoring system based on Internet of Things technology. Background technique [0002] The traditional extensive farming model is a production method that depends on the weather, which is inevitably affected and restricted by natural conditions such as climate and water quality changes. It not only has problems such as low yield, monotonous breeding varieties, frequent disease occurrence, and high breeding risks. , and cause serious environmental damage and pollution, which is not conducive to the effective use of resources and the sustainable development of aquaculture. The abuse of antibiotics and other drugs has led to a decline in the quality of aquatic products, and the food safety of farmed aquatic products cannot be guaranteed, which has largely affected the sustainable development of aquaculture. [0...

AI Technical Summary

Problems solved by technology

[0005] With the development of the Internet of Things technology, the existing farming model has also proposed a farming monitoring system based on the Internet of Things technology. There are different farming monitoring systems based on different farming fish ponds, and the existing farming monitoring system is only for the existing farmed fish. Ponds have realized automated farming but the above problems have not been solved

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