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Intelligent deep-water culture net cage system based on composite material of graphene and macromolecules

A composite material and alkene polymer technology, which is applied in the field of intelligent deep-water aquaculture cage systems, can solve the problems of easy damage to wired networks, inconvenience and loss of construction and aquaculture ships, etc., so as to improve the ability to resist wind and waves and simplify the structure. , the effect of convenient operation

Inactive Publication Date: 2016-11-16
高翔 +8
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Since the deep-water cage culture site is far away from the shore, manual on-duty monitoring will also be "one hundred secrets and one sparse", resulting in losses
Conventional wired monitoring, because of the marine aquaculture environment, the network wiring brings great inconvenience to the construction and breeding ships, and the wired network is very easy to be damaged

Method used

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  • Intelligent deep-water culture net cage system based on composite material of graphene and macromolecules

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Embodiment Construction

[0021] Such as figure 1 As shown, the present invention includes a deep-water aquaculture net cage 1, a plurality of camera modules 2, a video transmission module 3, a power supply module 4, an unmanned aerial vehicle on duty base station 5 and a monitoring module 6; wherein, the power supply module 4 is located in the deep-water aquaculture net cage 1. The upper part of the frame is connected to the camera module 2 and the video transmission module 3 respectively to provide operating voltage; The line is connected to the video transmission module 3, and the video transmission module 3 is connected to the drone on duty base station 5 by wireless, and the drone on duty base station 5 is connected to the monitoring module 6 by wireless.

[0022] The power module 4 has functions of tidal power generation and energy storage, and can be a product of the EPT2616070106 model of Zhejiang Yipaitong Technology Co., Ltd., but is not limited thereto.

[0023] The material of the framewor...

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PUM

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Abstract

The invention discloses an intelligent deep-water aquaculture cage system based on a graphene polymer composite material, including a deep-water aquaculture cage, a camera module, a video transmission module, a power supply module, an unmanned aerial vehicle on duty base station, and a monitoring module; wherein, the The power supply module is respectively connected with the camera module and the video transmission module to provide them with working voltage; the camera module is connected with the video transmission module through a data line, and the video transmission module is connected with the unmanned aerial vehicle on duty base station through wireless, and the unmanned The on-duty guard base station is connected to the monitoring module through wireless. The invention adopts the graphene polymer composite material, so that the anti-wind and wave ability of the deep-water aquaculture cage is greatly improved; the real-time transmission and monitoring of data is realized by the UAV guarding the base station, and the problem of difficult or delayed data acquisition is solved. It solves the problem of intelligent monitoring of deep-water aquaculture in the construction of large-scale "marine ranch" in the future. The system has the advantages of simple structure, convenient operation and favorable popularization.

Description

technical field [0001] The invention relates to marine deep-water aquaculture net cages, in particular to an intelligent deep-water aquaculture net cage system based on graphene polymer composite materials. Background technique [0002] At present, marine deep-water aquaculture will be more and more valued by fish farming. The use of marine deep-water aquaculture cages can open up large-scale fish farming production areas in the deep sea, and the deep-sea fish farming environment is much better than the shallow water fish farming environment. On the one hand, the deep-sea marine environment is less polluted and affected by human activities and is more suitable for fish farming. On the other hand, the production sites of deep-sea marine farming are often far away from the mainland, and can even be established in the open sea environment. Therefore, the area of ​​origin of fish farming is very wide, and in the process of deep-sea fish farming, the natural conditions of tides, ...

Claims

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Application Information

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IPC IPC(8): A01K61/00H04N7/18
CPCY02A40/81H04N7/181
Inventor 高翔胡明杰韩如冰韩中中唐庆山王斌王春见李娜
Owner 高翔
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