A device and method for dynamically monitoring ocean wave height and synchronously realizing friction power generation

A technology of dynamic monitoring and friction power generation, which is applied in the field of electronic information to achieve the effect of improving energy utilization and measurement accuracy

Inactive Publication Date: 2020-07-03
SOUTHWEST PETROLEUM UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] Aiming at the measurement error caused by friction in the process of real-time monitoring of ocean waves and how to maximize the use of energy, the present invention proposes a device and method for dynamically monitoring ocean wave height and synchronously realizing friction power generation

Method used

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  • A device and method for dynamically monitoring ocean wave height and synchronously realizing friction power generation
  • A device and method for dynamically monitoring ocean wave height and synchronously realizing friction power generation
  • A device and method for dynamically monitoring ocean wave height and synchronously realizing friction power generation

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Embodiment

[0030] Such as figure 1 As shown, the device is installed on the basis of the base system; firstly, install the stop block 10 in the middle of the slide bar 9; The through hole on the annular surface of the outer ring 5, the inner magnetic ring 3 and the outer ring 5 are connected by a strut 4, and the outer surface of the outer ring 5 is fixed with bolts, and the connecting rod 2 is inserted into the inner magnetic ring The through hole of the torus of 3 is fixed by welding; the third step is to install the top limit block 10 of the slide bar 9; the fourth step is to install the shell 7, the connecting rod 2 passes through the through hole on the upper surface of the shell 7, and the lower part of the shell 7 and the weight plate 8. The upper surface is attached, and the two parts of the shell 7 are docked and fixed with bolts; the fifth step is to fix the floating ball 1 and the connecting rod 2 by welding; finally, the contact part of the shell 7 and the connecting rod 2, t...

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Abstract

The invention relates to a device and a method for dynamically monitoring a wave height of ocean and synchronously implementing friction power generation. The device is composed of a floater system, abase system and a shell. The floater system moves synchronously with the sea waves, and comprises a floating ball, four connecting rods, an inner circular magnet ring, four supporting rods and an outer circular ring. The base system is stationary relative to a geodetic coordinate and comprises a counterweight disk, three slide bars, an electric energy receiving module and a sea wave monitoring module. The shell is waterproof and is composed of two identical hollow plastic semicircular cylinders. When the sea waves occur, the base system and the outer shell generate relative displacement withthe floater system, the outer circular ring moves up and down relative to the slide bars in the base system, and power generation materials on the surfaces of the two components generates power through friction; and the inner circular magnet ring moves up and down relative to the base system, an ampere circular magnetic field generated by the pulse current intersects with a permanent magnetic field of the magnet ring, a stress wave pulse signal is generated in a waveguide, and a real-time wave height can be obtained by detecting the time interval between the two pulses.

Description

technical field [0001] The invention belongs to the field of electronic information technology and the field of new energy development and utilization technology, and specifically relates to a device and method for dynamically monitoring ocean wave height and synchronously realizing friction power generation. Background technique [0002] Ocean waves are the most common phenomenon of seawater fluctuations, which are closely related to ocean hydrology research and wave energy development and utilization. Monitoring real-time information of ocean waves, such as wave height, wave direction, and period, is also of great significance for coastal protection and offshore marine activities. The wave height and period of ocean waves are actual physical quantity signals, and the values ​​are constantly changing. It is very necessary to design a real-time wave monitoring instrument that can complete the signal acquisition and convert the constantly changing actual physical quantity si...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01C13/00H02N1/04
CPCG01C13/00H02N1/04
Inventor 朱红钧唐涛李国民王珂楠胡昊
Owner SOUTHWEST PETROLEUM UNIV
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