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Underwater floating type ecological environment monitoring system and underwater floating type ecological environment intelligent breeding monitoring method

A technology of environmental monitoring and ecological environment, applied in cross fields, can solve the problems of backward breeding basic conditions, unsatisfactory aquaculture automation popularization, and low degree of automation, so as to reduce user workload, reduce breeding risks, and achieve a high degree of automation Effect

Pending Publication Date: 2020-04-07
李博思 +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The popularization of aquaculture automation in my country is not ideal, and the basic conditions of aquaculture are backward. Most of the country uses simple aerators, bait feeding machines and other equipment. There are few applications such as water quality monitoring and circulation breeding, and the degree of automation is low.

Method used

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  • Underwater floating type ecological environment monitoring system and underwater floating type ecological environment intelligent breeding monitoring method
  • Underwater floating type ecological environment monitoring system and underwater floating type ecological environment intelligent breeding monitoring method
  • Underwater floating type ecological environment monitoring system and underwater floating type ecological environment intelligent breeding monitoring method

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Embodiment Construction

[0043] The present invention will be further described below in conjunction with embodiment, but protection scope of the present invention is not limited to this:

[0044] combine Figure 1-Figure 3, an underwater mobile ecological environment monitoring system, which includes: fish pond 1, water inlet pump 2, water outlet pump 3, oxygen pump 4, soft bionic fish 5, temperature sensor 6, pressure sensor 7, photosensitive sensor 8, dissolved oxygen Sensor 9, PH sensor 10, pool main control module 11, WiFi communication module 12, water inlet pipe 13, water outlet pipe 14, oxygen inlet pipe 15 and monitoring platform 16, temperature sensor 6, pressure sensor 7 and photosensitive sensor 8 are installed on the software bionic on the fish 5, and is connected with the bionic fish main control module 5-11 arranged on the soft bionic fish 5 body, the bionic fish main control module 5-11 is wirelessly connected with the pool main control module 11 through the WiFi communication module 1...

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Abstract

The invention discloses an underwater floating type ecological environment monitoring system and an underwater floating type ecological environment intelligent breeding monitoring method. The system comprises a fishpond, a water inlet pump, a water outlet pump, an oxygen pump, soft bionic fish, a pond main control module, a WiFi communication module, a water inlet pipe, a water outlet pipe, an oxygen inlet pipeline and a monitoring platform, the temperature sensor, the pressure sensor and a photosensitive sensor are installed on the soft bionic fish and connected with a bionic fish main control module arranged on the soft bionic fish body, and the bionic fish main control module is in wireless connection with the pool main control module through the WiFi communication module; and the poolmain control module is connected with the monitoring platform through an upper computer to upload data. Suspension or submerging of the bionic fish is realized by adjusting opening and closing of theX-shaped connecting rod structure in the bionic fish; the bionic fish can bend forwards and backwards by adjusting the counterweight iron block to slide on a mass center adjusting beam; through bionicfish path planning design, the same kind of bionic fish adapts to water bodies with different densities to achieve fishpond intelligent breeding on-line monitoring, and fishpond water inlet and outlet and an oxygenation pump system are automatically regulated and controlled according to fishpond environment indexes and on-line monitoring data of different breeding types and different stages.

Description

technical field [0001] The patent of the present invention relates to interdisciplinary fields such as aquaculture, water quality detection, embedded control, bionics, Internet+, etc., and specifically relates to an underwater mobile fish pond environment automatic monitoring system for analyzing indicators that affect the growth environment of different types of fish and shrimp and Smart farming methods. Background technique [0002] There are complex physical, chemical, biological, and meteorological processes in aquaculture water, and the quality of aquaculture water directly determines the output and quality of aquatic products. On the whole, the aquaculture industry in developed western countries has basically realized the automation of aquaculture, the improvement of aquaculture varieties, and the informatization of aquaculture management. The popularization of aquaculture automation in my country is not ideal, and the basic conditions of aquaculture are backward. Mos...

Claims

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Application Information

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IPC IPC(8): G05D27/02
CPCG05D27/02
Inventor 李博思吉徐辉刘欣雨
Owner 李博思
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