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公开(公告)号:US20160154128A1
公开(公告)日:2016-06-02
申请号:US14876812
申请日:2015-10-06
Applicant: National Applied Research Laboratories
Inventor: Yung-Bin Lin , Yu-Sheng Lai , Meng-Huang Gu , Ho-Min Chang , Kuo-Chun Chang , Yuan-Chen Liao , Yung-Kang Wang , Mei-Yi Li , Cheng-San Wu , Wen-Kuan Yeh
Abstract: An environment monitoring system is utilized for monitoring an environmental variation status of a riverbed, a lake floor, or a seabed. The environment monitor system includes a wire drawing device configured at a monitoring point for releasing and tightening a transmission wire; a fixing pipe laid between the monitoring point and a structure layer for containing the transmission wire; a plurality of vibration sensing devices respectively configured on the transmission wire for converting sensed vibration energy to a plurality of electric signals and transmitting the plurality of electric signals by the transmission wire; an analyzing device coupled with the wire drawing device and the transmission wire for obtaining a released length of the transmission wire by the wire drawing device and determining the environmental variation status according to the released length and the plurality of electric signals to perform monitoring.
Abstract translation: 利用环境监测系统监测河床,湖底或海底的环境变化状况。 环境监视器系统包括配置在用于释放和紧固传输线的监控点处的拉丝装置; 位于监测点和用于容纳传输线的结构层之间的固定管; 分别配置在所述传输线上的多个振动感测装置,用于将检测到的振动能量转换为多个电信号,并通过所述传输线传输所述多个电信号; 与拉丝装置和传输线耦合的分析装置,用于通过拉丝装置获得传输线的释放长度,并根据释放的长度和多个电信号确定环境变化状态以进行监视。
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2.发明授权公开(公告)号:US10352698B2
公开(公告)日:2019-07-16
申请号:US15383456
申请日:2016-12-19
Applicant: National Applied Research Laboratories
Inventor: Yung-Bin Lin , Yu-Chieh Chen , Tai-Shan Liao , Kuo-Chun Chang , Bo-Han Lee , Yung-Kang Wang , Meng-Huang Gu
Abstract: Disclosed is a composite hydrological monitoring system, in which a counterweight component and a test component are respectively connected to both opposite ends of a strip and a plurality of sensors are disposed at different vertical positions. Accordingly, the scour depth can be measured by sensing the location of the counterweight component, whereas the water level and/or flow velocity can be determined by signals from the sensors. When the counterweight component moves downward with sinking of the riverbed, the strip would be pulled down and thus causes the test component to present a change in mechanical energy. Accordingly, the sinking depth can be measured by sensing the change of the mechanical energy. Additionally, since the water level variation would cause signal changes of the sensors arranged in a row along a vertical direction, the change of water level can be determined accordingly.
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公开(公告)号:US10180509B2
公开(公告)日:2019-01-15
申请号:US14876812
申请日:2015-10-06
Applicant: National Applied Research Laboratories
Inventor: Yung-Bin Lin , Yu-Sheng Lai , Meng-Huang Gu , Ho-Min Chang , Kuo-Chun Chang , Yuan-Chen Liao , Yung-Kang Wang , Mei-Yi Li , Cheng-San Wu , Wen-Kuan Yeh
Abstract: An environment monitoring system is utilized for monitoring an environmental variation status of a riverbed, a lake floor, or a seabed. The environment monitor system includes a wire drawing device configured at a monitoring point for releasing and tightening a transmission wire; a fixing pipe laid between the monitoring point and a structure layer for containing the transmission wire; a plurality of vibration sensing devices respectively configured on the transmission wire for converting sensed vibration energy to a plurality of electric signals and transmitting the plurality of electric signals by the transmission wire; an analyzing device coupled with the wire drawing device and the transmission wire for obtaining a released length of the transmission wire by the wire drawing device and determining the environmental variation status according to the released length and the plurality of electric signals to perform monitoring.
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