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Encapsulation structure of micro-nano bionic vector water sound sensor

An underwater acoustic sensor and vector technology, which is applied to measuring devices, measuring ultrasonic/sonic/infrasonic waves, instruments, etc., can solve the problems of microstructures that cannot be tested and affected, and achieve the effect of perfecting and improving performance indicators

Inactive Publication Date: 2010-06-16
ZHONGBEI UNIV
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

In this application, the microstructure of the resonant tunneling bionic vector underwater acoustic sensor is disclosed, but its microstructure cannot be directly placed in the environment to be tested for testing, and a certain packaging structure must be used, that is, the performance of the vector underwater acoustic sensor In addition to being affected by its microstructure, the index will also be affected by its microstructure and external packaging structure

Method used

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  • Encapsulation structure of micro-nano bionic vector water sound sensor
  • Encapsulation structure of micro-nano bionic vector water sound sensor
  • Encapsulation structure of micro-nano bionic vector water sound sensor

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Embodiment Construction

[0027] Such as Figure 8 , 10 As shown, the packaging structure of the micro-nano bionic vector underwater acoustic sensor includes a support for fixing the micro-nano bionic vector underwater acoustic sensor, a packaging shell that is covered outside the micro-nano bionic vector underwater acoustic sensor and is sealed and fixed with the support. The encapsulation shell is filled with an insulating liquid with a density close to that of water, and the encapsulation shell is a sound-permeable rubber cap 14 made of polyurethane encapsulation material with high frequency, low attenuation and low water permeability through an acoustic encapsulation process. The insulating liquid adopts castor oil 15; the support body is divided into an external support body, an internal support body 16 made of insulating material for directly fixing the micro-nano bionic vector underwater acoustic sensor, and the external support body is divided into a fixed support body 17. Connect the fixed le...

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Abstract

The invention relates to a micro-nano biomimetic vector acoustic sensor based on a micro-nano MEMS / NEMS processing technology and the bionics principle, in particular to an encapsulation structure ofthe micro-naro biomimetic vector acoustic sensor. By the encapsulation structure, the performance indexes of the vector acoustic sensor are further improved and perfected. The encapsulation structurecomprises a supporting body used for fixing the micro-nano biomimetic vector acoustic sensor, an encapsulation shell which is sheathed the micro-nano biomimetric vector acoustic sensor and is fixed with the supporting body by sealing; the encapsulation shell is filled full of insulation liquid with the same or similar density as the water and is a transaudient rubber cap manufactured by a high-frequency, low-attenuation and low seepage polyurethane potting material by an acoustic potting technique. Designed according to the bionics principle and with reasonable structure, while protecting themicro-structure of the acoustic sensor, the encapsulation structure does not affect or hinder the detection to sound signals by the micro-structure of the acoustic sensor, thus realizing the purpose of further improving and perfecting the performance indexes of the vector acoustic sensor.

Description

technical field [0001] The invention relates to a micro-nano bionic vector underwater acoustic sensor based on micro-nano MEMS / NEMS processing technology and the principle of bionics, in particular to a packaging structure of a micro-nano bionic vector underwater acoustic sensor. Background technique [0002] With the development of science and technology, the technical devices created by human beings are increasingly complex and expensive, bulky and unreliable, and cannot meet the increasingly high requirements of industry, agriculture, medicine and military technology, which forces people to find new technical principles . On the other hand, in the course of hundreds of millions of years of evolution, living things survive and develop through severe natural selection and competition in the biological world. They have developed a unique ability, especially in the visual and auditory organs. It is extremely developed, and a set of extremely precise navigation, positioning, ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01H11/06G01S7/521
Inventor 薛晨阳张文栋熊继军张斌珍张国军陈尚张开锐
Owner ZHONGBEI UNIV
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