Improve and Design the Pressure Sensor

碩士 === 國立臺北科技大學 === 製造科技研究所 === 95 === This research is to improve the second generation of mold cavity pressure sensor which was made by oneself and a new pressure sensor is designed, in this paper, which are called the third generation pressure sensor, the fourth generation pressure sensor and the...

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Main Authors: You-Yan-Zeng, 曾友彥
Other Authors: 蔡定江
Format: Others
Language:zh-TW
Published: 2007
Online Access:http://ndltd.ncl.edu.tw/handle/t68244
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spelling ndltd-TW-095TIT056210292019-06-27T05:10:14Z http://ndltd.ncl.edu.tw/handle/t68244 Improve and Design the Pressure Sensor 壓力感測器的改良與設計 You-Yan-Zeng 曾友彥 碩士 國立臺北科技大學 製造科技研究所 95 This research is to improve the second generation of mold cavity pressure sensor which was made by oneself and a new pressure sensor is designed, in this paper, which are called the third generation pressure sensor, the fourth generation pressure sensor and the fifth generation pressure sensor . There are three shortcomings in the second generation of pressures sensor: First, in the working environment is tested, when rising hurriedly in pressure, because the strength of structure is insufficient so the piezocrystal is easy to crack. Second, insulation is bad, it is easy to the short circuit and lose function. Third, the machining accuracy is insufficient, it is unstable to cause the response of the piezocrystal. To three disappearances, in this study, the structure of piezocrystal is improved as follows:Utilize insulation of ceramics and rigidity is strong to as the piezocrystal structure. Utilize insulation of the Teflon and its high-temperature characteristic, combine the spring to buffer, prevent the piezocrystal structure from shorting out, cracking and malfunctioning. Utilize the Teflon to make the piezocrystal structure,combine with the spring washer as the inside structure of the pressure sensor to protect the pressure sensor. The third generation pressure sensor , the fourth generation pressure sensor and the fifth generation pressure sensor both do the static, dynamic analysis of structural mechanics, including the working stress analysis of pressure sensor , the relation that the pressure corresponds with what the voltage outputs in the mold, natural frequency, modal shape and transient analysis. It is known by the analysis result that theirs mechanical characteristic are fine, the third generation pressure sensor make test result to be good , the fourth generation pressure sensor and the fifth generation pressure sensor are only analyzed, according to the analysis, natural frequency can reach 1.7kHz and 10 kHz, it can promote the range of working frequency while survey pressure. 蔡定江 2007 學位論文 ; thesis 87 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立臺北科技大學 === 製造科技研究所 === 95 === This research is to improve the second generation of mold cavity pressure sensor which was made by oneself and a new pressure sensor is designed, in this paper, which are called the third generation pressure sensor, the fourth generation pressure sensor and the fifth generation pressure sensor . There are three shortcomings in the second generation of pressures sensor: First, in the working environment is tested, when rising hurriedly in pressure, because the strength of structure is insufficient so the piezocrystal is easy to crack. Second, insulation is bad, it is easy to the short circuit and lose function. Third, the machining accuracy is insufficient, it is unstable to cause the response of the piezocrystal. To three disappearances, in this study, the structure of piezocrystal is improved as follows:Utilize insulation of ceramics and rigidity is strong to as the piezocrystal structure. Utilize insulation of the Teflon and its high-temperature characteristic, combine the spring to buffer, prevent the piezocrystal structure from shorting out, cracking and malfunctioning. Utilize the Teflon to make the piezocrystal structure,combine with the spring washer as the inside structure of the pressure sensor to protect the pressure sensor. The third generation pressure sensor , the fourth generation pressure sensor and the fifth generation pressure sensor both do the static, dynamic analysis of structural mechanics, including the working stress analysis of pressure sensor , the relation that the pressure corresponds with what the voltage outputs in the mold, natural frequency, modal shape and transient analysis. It is known by the analysis result that theirs mechanical characteristic are fine, the third generation pressure sensor make test result to be good , the fourth generation pressure sensor and the fifth generation pressure sensor are only analyzed, according to the analysis, natural frequency can reach 1.7kHz and 10 kHz, it can promote the range of working frequency while survey pressure.
author2 蔡定江
author_facet 蔡定江
You-Yan-Zeng
曾友彥
author You-Yan-Zeng
曾友彥
spellingShingle You-Yan-Zeng
曾友彥
Improve and Design the Pressure Sensor
author_sort You-Yan-Zeng
title Improve and Design the Pressure Sensor
title_short Improve and Design the Pressure Sensor
title_full Improve and Design the Pressure Sensor
title_fullStr Improve and Design the Pressure Sensor
title_full_unstemmed Improve and Design the Pressure Sensor
title_sort improve and design the pressure sensor
publishDate 2007
url http://ndltd.ncl.edu.tw/handle/t68244
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AT céngyǒuyàn yālìgǎncèqìdegǎiliángyǔshèjì
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