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All-sea-depth turbulent mixing matrix profile observation system based on MEMS technology

A hybrid matrix and cross-section observation technology, applied in the field of ocean turbulence observation, can solve the problems of inability to realize full-sea depth synchronous multi-sampling point stereo observation, and achieve the effect of ingenious design and reasonable structure

Active Publication Date: 2016-12-14
ZHONGBEI UNIV +1
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  • Abstract
  • Description
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Problems solved by technology

[0004] In order to solve the problem that the existing ocean turbulence observation technology cannot realize full-sea depth synchronous multi-sampling point stereoscopic observation, the present invention provides a full-sea turbulence mixing matrix profile observation system based on MEMS technology

Method used

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  • All-sea-depth turbulent mixing matrix profile observation system based on MEMS technology
  • All-sea-depth turbulent mixing matrix profile observation system based on MEMS technology
  • All-sea-depth turbulent mixing matrix profile observation system based on MEMS technology

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Embodiment Construction

[0021] A full-sea deep turbulent mixed matrix profile observation system based on MEMS technology, including mother bomb observation system and bullet observation system;

[0022]The mother bomb observation system includes a mother bomb shell 101, a mother bomb fairing 102, a pull lock 103, an attitude stabilization beam 104, a communication module 105, a mother bomb sensing module 106, a mother bomb operation monitoring module 107, and a mother bomb data storage module 108, the mother bomb micro-control unit 109, the mother bomb battery 110, the mother bomb electromagnetic dumping mechanism, the mother bomb counterweight 111, the water depth monitoring module 112, and the mechanical arm 113;

[0023] The female bullet casing 101 adopts a cylindrical structure; the upper end of the female bullet casing 101 is provided with an end wall, and the lower end is provided with an opening; Divided into an upper chamber and a lower chamber; the bomb fairing 102 covers the lower opening...

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Abstract

The invention relates to an oceanic turbulence observation technique, and in particular to an all-sea-depth turbulent mixing matrix profile observation system based on an MEMS technology. The invention solves the problem that the existing oceanic turbulence observation technology cannot realize all-sea-depth three-dimensional simultaneous observation of multiple sampling points. The all-sea-depth turbulent mixing matrix profile observation system based on an MEMS technology includes a mother bomb observation system and sub-bomb observation systems. the mother bomb observation system includes a mother bomb shell, a mother bomb fairing, a pulling lock, an attitude stabilization beam, a communication module, a sub-bomb sensor module, a mother bomb operation monitoring module, a mother bomb data a storage module, a mother bomb micro control unit, a mother bomb battery, a mother bomb electromagnetic cast mechanism, a mother bomb weight, a water depth monitoring module and a mechanical arm. Each sub-bomb observation system includes a sub-bomb shell, a sub-bomb fairing, a navigation positioning module, a sub-bomb sensing module, a sub-bomb operation monitoring module, a sub-bomb data storage module, a sub-bomb micro-control unit, and a sub-bomb battery. The invention is applicable to the observation of oceanic turbulence.

Description

technical field [0001] The invention relates to ocean turbulence observation technology, in particular to a full-sea deep turbulence mixing matrix profile observation system based on MEMS technology. Background technique [0002] The deep ocean occupies 92.4% of the global ocean, contains rich resources and has an important strategic position. Exploring the deep ocean is one of the important challenges for the sustainable development of human beings, an important part of the scientific research on the global environment and climate change, and an important field of basic research in natural sciences. There are many physical phenomena in the deep ocean, ranging from mesoscale eddies in the deep ocean, western boundary currents at the basin scale, and ocean heat conveyor belts at the global scale. The complex process coupling and energy cascades between these dynamical processes at different scales directly determine the energy and material transport process in the deep ocean...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B63C11/52G01M10/00
CPCB63C11/52G01M10/00
Inventor 薛晨阳张国军何常德王任鑫韩建强何剑穆继亮年夫顺张增星王大为田竹梅
Owner ZHONGBEI UNIV
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