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Shrimp-rice symbiosis system capable of remotely monitoring pests in real time

A real-time monitoring and remote technology, applied in the field of aquaculture, can solve the problems that threaten the survival of crayfish, affect the output and quality of crayfish, and achieve the effect of optimizing the killing effect of pests, simple structure and scientific design.

Pending Publication Date: 2020-01-24
崇州市隆兴镇千禾农机服务专业合作社
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem solved by the present invention is to provide a shrimp-rice symbiotic system for remote real-time monitoring of insect pests, and solve the problems in the prior art that poor water quality affects the production and quality of crayfish, and insect pests in rice fields threaten the survival of crayfish

Method used

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  • Shrimp-rice symbiosis system capable of remotely monitoring pests in real time
  • Shrimp-rice symbiosis system capable of remotely monitoring pests in real time

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Embodiment

[0023] as attached figure 1 and 2 As shown, the shrimp-rice symbiosis system of the present invention capable of remote real-time monitoring of insect pests described in the present invention includes a shrimp pond 1, wherein the shrimp pond 1 is fixedly connected to the nitrification pond 3 through the first connecting pipe 2, and One side of the nitrification tank 3 is provided with a filter tank 4, and one side of the filter tank 4 is provided with a paddy field 5, and a water pump 7 is installed on one side of the bottom of the paddy field 5, and the water pump 7 is connected to the drain port 11 through the second connecting pipe 8. Fixed connection, and outlet 11 is positioned at the top of shrimp pond 1, and described second connection pipe 8 is equipped with aeration pump 10, is connected with culvert pipe 9 between the junction of described filter tank 4 and paddy field 5;

[0024] In the paddy field 5 of the present invention, pest remote real-time monitoring equipm...

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Abstract

The invention discloses a shrimp-rice symbiosis system capable of remotely monitoring pests in real time, and solves the problems in the prior art that the yield and quality of crayfish are not affected due to poor water quality, and the labor intensity for farming crayfish in a rice field is high. A shrimp pond is connected with a nitrification pond provided with a filtering pond on one side through a first connecting pipe, a paddy field is arranged on one side of the filtering pond, a water pump connected with a water outlet through a second connecting pipe is arranged on one side of the bottom of the paddy field, the water outlet is positioned above the shrimp pond, an oxygenation pump is arranged on the second connecting pipe, and a culvert is arranged at the joint of the filtering pond and the paddy field; a remote real-time pest monitoring device arranged in the rice field comprises at least one pest trapping device, a power supply device, an environment monitoring device, a dataprocessing system, a data transmission device and a terminal device. The shrimp-rice symbiosis system is capable of remotely detecting pests in real time and eliminating the pest threat as early as possible, so that a good water source is provided for the survival of crayfish.

Description

technical field [0001] The invention belongs to the technical field of breeding, and in particular relates to a shrimp-rice symbiosis system capable of remote and real-time monitoring of insect pests. Background technique [0002] In recent years, with the domestic and foreign demand for shrimp increasing year by year, industrialized shrimp farming has been vigorously promoted. Crayfish farming in rice fields can effectively save land resources, and rice fields can also provide a good living environment for crayfish. Crayfish farming in rice fields has been widely used in recent years. However, the cultivation of crayfish in paddy fields mainly relies on physical and chemical water purification methods to achieve purification and achieve high density. The cost of equipment, facilities and operation is extremely high, which is difficult for ordinary owners to accept. The existing breeding costs are high and the market is competitive. problem of weakness. In addition, rice i...

Claims

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Application Information

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IPC IPC(8): A01G22/22A01K61/59A01K63/04A01M1/22
CPCA01G22/22A01K61/59A01K63/042A01K63/045A01K63/047A01M1/223Y02A40/81
Inventor 吴艳蓉杜德新李良玉魏文燕
Owner 崇州市隆兴镇千禾农机服务专业合作社
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