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Buoy type deepwater quality automatic monitoring device

An automatic monitoring and water quality monitoring technology, applied in the field of water conservancy and environmental science, can solve problems such as sharp increase in workload, increase in energy consumption of winches, and self-heavy cables, and achieve the goals of reducing energy consumption, improving continuous working ability, and improving work efficiency Effect

Inactive Publication Date: 2020-11-06
CHINA INST OF WATER RESOURCES & HYDROPOWER RES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In scientific research work, it is often necessary to monitor the water quality data in deep water. The staff on the shore or on the ship use a traction rope to lower the integrated multi-parameter water quality monitor with cables to the deep water area for monitoring. The traction rope is controlled by a hoist , due to the heavy weight of the cables used for power supply and data transmission, the energy consumption of the winch is increased, and it is technically difficult to obtain electricity in the field. The necessity of saving the energy consumption of the hoist is obvious
[0003] At the same time, the traction rope can only lower one instrument at a time, so the monitoring of various water quality indicators in the same water area needs to go through multiple operations, which greatly increases the workload

Method used

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  • Buoy type deepwater quality automatic monitoring device
  • Buoy type deepwater quality automatic monitoring device
  • Buoy type deepwater quality automatic monitoring device

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Experimental program
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Effect test

specific Embodiment approach 1

[0020] see figure 1 and 2 , the structure of the present invention includes an automatic buoy 1, the top of the automatic buoy 1 is provided with a cone barrel 2, the outer surface of the cone barrel 2 is equipped with a solar power generation panel 3, and the inside of the automatic buoy 1 is embedded with a storage battery 4 connected to the solar power generation panel 3 , the inside of the cone barrel 2 is provided with a hoist 5; the bottom of the automatic buoy 1 is concavely provided with a circular instrument accommodation cabin 15, and the traction rope 6 of the hoist 5 runs through the automatic buoy 1 from top to bottom and enters the instrument accommodation cabin 15, and the instrument accommodation cabin 15 An integrated multi-parameter water quality monitor connected to the traction rope 6 is provided, a wireless charging board 8 electrically connected to the storage battery 4 is provided on the roof of the instrument holding cabin 15, and the integrated multi-p...

specific Embodiment approach 2

[0028] see figure 1 and image 3 The bottom of the base 9 is provided with a cylindrical circular groove 14 for installing water quality monitoring components. Inside, the threaded connector 16 is disc-shaped with a through hole 19 hollowed out, the bottom of the threaded connector 16 is provided with a twisting booster bar 20, the outer wall of the threaded connector 16 is provided with an external thread 17 matching the internal thread, and the water quality monitoring element is placed After entering the circular groove 14, the threaded connector 16 is installed on the lower port of the circular groove 14. The through hole 19 of the threaded connector 16 can communicate with external water, and the twisting assist bar 20 can facilitate the screwing of the threaded connector 16 .

[0029] The working principle of the present invention is: the automatic buoy 1 floats on the water surface, the solar power generation panel 3 on the cone bucket 2 generates electricity and stor...

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Abstract

The invention discloses a buoy type deepwater quality automatic monitoring device which is characterized in that a solar power generation panel is carried on the outer surface of a conical barrel, a storage battery is embedded in an automatic buoy, and a winch is arranged in the conical barrel; an instrument accommodating cabin is formed in the bottom of the automatic buoy; a traction rope of thewinch penetrates through the automatic buoy from top to bottom and enters the instrument accommodating cabin; an integrated multi-parameter water quality monitor connected with the traction rope is arranged in the instrument accommodating cabin; a wireless charging panel electrically connected with the storage battery is arranged at the top of the instrument accommodating cabin, the integrated multi-parameter water quality monitor comprises a circular base, and a rechargeable battery, a data memory and a water quality monitoring element powered by the rechargeable battery are embedded in the base. The rechargeable battery is adopted to replace a cable, energy consumption of the winch is reduced, real-time dynamic monitoring of the water quality can be achieved in a water body with the water depth of 300 m, water quality data monitored for a long time are stored in the data storage device, multiple monitoring sensors conduct real-time monitoring synchronously, and the working efficiencyis remarkably improved.

Description

technical field [0001] The invention relates to water conservancy and environmental science, in particular to a buoy type automatic monitoring device for deep water quality. Background technique [0002] In scientific research work, it is often necessary to monitor the water quality data in deep water. The staff on the shore or on the ship use a traction rope to lower the integrated multi-parameter water quality monitor with cables to the deep water area for monitoring. The traction rope is controlled by a hoist , due to the heavy weight of the cables used for power supply and data transmission, the energy consumption of the winch is increased, and it is technically difficult to obtain electricity in the field. The necessity of saving the energy consumption of the hoist is obvious. [0003] At the same time, the traction rope can only lower one instrument at a time, so the monitoring of various water quality indicators in the same water area needs to go through multiple ope...

Claims

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Application Information

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IPC IPC(8): G01N33/18
CPCG01N33/18
Inventor 王雨春胡明明包宇飞李姗泽温洁陈铭赵微苏禹铭陈天麟张家晖
Owner CHINA INST OF WATER RESOURCES & HYDROPOWER RES