Real-time transmission ocean power parameter buoy system

A real-time transmission and buoy technology, which is applied in storage and real-time wireless transmission devices, and in the field of marine power acquisition, can solve problems such as inability to real-time monitoring, link collapse, and single working depth, and achieve system stability, pressure reduction, Guaranteed real-time effect

Inactive Publication Date: 2017-05-10
HARBIN ENG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the traditional buoy system has a simple structure, a single working depth, and high watertightness requirements. A sensor or interfa

Method used

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  • Real-time transmission ocean power parameter buoy system
  • Real-time transmission ocean power parameter buoy system
  • Real-time transmission ocean power parameter buoy system

Examples

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Example Embodiment

[0024] The present invention will be described in more detail with examples below.

[0025] The real-time transmission marine dynamic parameter buoy system of the present invention mainly includes a temperature and depth measuring instrument TD, a temperature and salinity measuring instrument CTD, an acoustic Doppler current profiler ADCP, an ADCP battery compartment, an ADCP data conversion circuit, an inductive coupling data transmitter SSM, Inductive coupling data collector HEM, inductive coupling data receiving ring CCA, inductive coupling temperature and pressure measurement cable, buoy body, buoy main control unit, FGR2 radio station, FGR2 radio antenna, 13V lithium battery pack, acoustic release and anchor block.

[0026] figure 1 The connection relationship between the various parts of the buoy system for real-time transmission of marine dynamic parameters is given, among which: 1 is the communication buoy, 2 is the shackle, 3 is the ADCP and its battery compartment, 4...

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Abstract

The invention provides a real-time transmission ocean power parameter buoy system. A lower end of a communication buoy is hung with a coupling transmission cable, and the upper end of the coupling transmission cable is provided with a sensing coupling data receiving ring, the lower end is provided with a sensing coupling data sender, and the middle part is provided with a warm depth measuring instrument and a warm salt depth measuring instrument; the lower end of the coupling transmission cable is hung with an acoustics Doppler flow velocity section plotter and an acoustics Doppler flow velocity section plotter cell silo through a buckle; a data conversion circuit of the acoustics Doppler flow velocity section plotter is connected with the sensing coupling data sender through a watertight feed line; the lower end of the acoustics Doppler flow velocity section plotter is connected with a float ball, and the lower end of the float ball is provided with a rotating ring; the rotating ring is connected with an acoustics releaser; the acoustics releaser is connected with a steel cable and a sinking block through a hoisting ring. By using the sensing coupling technology, the real-time transmission ocean power parameter buoy system transmits data with the sensor, and data is uploaded to a shore through a sea network; thus the real-time uploading and treatment can be realized.

Description

technical field [0001] The invention designs a marine environment monitoring device, specifically a device capable of collecting, storing and real-time wireless transmission of marine dynamics at different depths. Background technique [0002] The marine environment is complex and changeable. Mastering marine environmental parameters and their changing laws is of great significance for the study of marine economy and marine science and technology. As the main carrier of underwater information, the propagation of sound waves in the ocean is closely coupled with the marine dynamic process. Factors such as seawater temperature, pressure, salinity and flow velocity affect the propagation speed of sound waves in water. Changes cause changes in the speed of sound. It is of great significance to improve the detection capability of underwater acoustic equipment by realizing the synchronous observation of the environmental sound field and dynamic environment in the marine area and m...

Claims

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Application Information

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IPC IPC(8): G01C13/00B63B22/00
CPCG01C13/00B63B22/00B63B2022/006G01C13/008
Inventor 吕云飞王志宇张迪杨月赵国辰孙大军
Owner HARBIN ENG UNIV
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