Automatic observation buoy for ocean water quality

An automatic observation and water quality technology, applied in buoys, motor vehicles, measuring devices, etc., can solve the problems of low sustainability, unfavorable civil expansion, complex structure, etc., and achieve the effect of reducing energy consumption, simple structure, and reducing power consumption.

Inactive Publication Date: 2021-12-21
余昉霖
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The existing marine water quality observation buoys have complex structures, high costs, low sustainability, and are not conducive to civilian expansion

Method used

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  • Automatic observation buoy for ocean water quality
  • Automatic observation buoy for ocean water quality
  • Automatic observation buoy for ocean water quality

Examples

Experimental program
Comparison scheme
Effect test

specific Embodiment 1

[0065] Specific embodiment one: please refer to Figure 1-8 An automatic marine water quality observation buoy, comprising a standard module 1, a detection module 2 and a control module 3.

[0066] The detection module 2 includes a collection box 201 , a collection flap 203 and a collection temperature rod 204 .

[0067] The temperature of the collecting temperature rod 204 is higher than the temperature of the water body to be measured. The collection box 201 is used for storing collected seawater. The collected seawater is used to reduce the temperature of the collection temperature rod 204 .

[0068] The collection temperature rod 204 runs through the upper wall of the collection box 201, and the collection temperature rod 204 is fixedly connected with the collection box 201. The upper end of the collection temperature rod 204 is located outside the collection box 201, and the lower end of the collection temperature rod 204 is located in the collection box 201. The rod 2...

specific Embodiment 2

[0082] Specific embodiment two: on the basis of specific embodiment one, please refer to Figure 9 A marine water quality automatic observation buoy, the outer ends of the standard temperature rod 106 and the collection temperature rod 204 are all covered with a glass cover 4. The glass cover 4 is colorless and transparent, so that sunlight can still penetrate the glass cover 4 to irradiate the standard temperature rod 106 and the collection temperature rod 204 to heat up the standard temperature rod 106 and the collection temperature rod 204.

[0083] The glass cover 4 corresponding to the standard temperature rod 106 is detachably connected to the upper end of the standard water tank 101 .

[0084] The glass cover 4 corresponding to the collection temperature rod 204 is detachably connected to the upper end of the collection box 201 .

[0085] Both the collection temperature sensor 303 and the standard temperature sensor 304 run through the corresponding glass cover 4 .

...

specific Embodiment 3

[0087] Specific embodiment three: on the basis of specific embodiment two, please refer to Figure 10 An ocean water quality automatic observation buoy, the glass cover 4 includes an outer cover 401 and an inner cover 403.

[0088] Both the outer cover 401 and the inner cover 403 are colorless and transparent.

[0089] A vacuum layer 402 is provided between the outer cover 401 and the inner cover 403 . Effectively avoid the problem that the standard temperature rod 106 and the collection temperature rod 204 absorb heat and then spread the heat to the outside, so that the temperature of the standard temperature rod 106 and the collection temperature rod 204 is not easy to diverge, and effectively enhances the temperature stability.

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Abstract

The invention discloses an automatic observation buoy for ocean water quality, and belongs to the field of ocean engineering equipment. An automatic observation buoy for ocean water quality comprises a standard module, a detection module and a control module, the detection module comprises a collection box and a collection temperature rod, the temperature of the collection temperature rod is higher than that of a water body to be detected, the collection box is used for storing collected seawater, the collected seawater is used for reducing the temperature of the collection temperature rod, and the control module comprises a controller, a power supply and a collection temperature sensor, the acquisition temperature sensor abuts against the outer end of the acquisition temperature rod so as to sense the temperature change of the acquisition temperature rod, the controller is electrically connected with the acquisition temperature sensor and converts a temperature signal into an electric signal, the controller can set a lower limit temperature, and the lower limit temperature is lower than the temperature of the acquisition temperature rod, the standard module is used for providing the time for a standard water body to reduce the temperature of the collected temperature rod to the lower limit temperature as a reference standard, and the standard water body refers to seawater of a sea area with standard cleanliness.

Description

technical field [0001] The invention belongs to the technical field of water body environmental protection equipment, and more specifically relates to an automatic ocean water quality observation buoy. Background technique [0002] Water is an essential substance for human existence. However, due to the rapid development of modern human industry, part of the natural environment has been sacrificed, such as: dust pollution, noise pollution, water pollution, etc. Among them, water pollution is particularly serious. Water pollution will cause chain pollution. Water for human drinking, water for plant irrigation, water circulating in nature, etc. will all be affected. Moreover, some pollutants are colorless and odorless, and the degree of pollution of water bodies cannot be judged only by visual inspection. Therefore, water pollution detection is an urgent problem to be solved. [0003] The ocean is an important ecological environment in nature. It has a great influence on th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N25/00G01N25/20B63B22/00
CPCG01N25/005G01N25/20B63B22/00B63B2022/006
Inventor 余昉霖
Owner 余昉霖
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