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    • 5. 发明公开
    • 유속측정시스템
    • 流体速度测量系统
    • KR1020110085731A
    • 2011-07-27
    • KR1020100005665
    • 2010-01-21
    • 강릉원주대학교산학협력단
    • 박상덕김호섭신승숙
    • G01P5/20G01P5/18G01F1/708
    • G01P5/20G01F1/7082G01P5/22G06T1/0007
    • PURPOSE: A flow velocity measurement system is provided to measure a movement of a floating member floated in a water body using a filming device instead of the naked eye, thereby acquiring flow rate data quickly and precisely. CONSTITUTION: A floating member floats in a water body and moves together with a water body. A filming device(30) consecutively photographs the floating member which moves together with the water body by installing the filming device at a measurement point where the floating member is able to be measured. The filming device is able to achieve the travel time and distance information for flow velocity calculations of the water body. The floating member includes a buoy part(22) and a draft part. The draft part is connected to the buoy part and supports the buoy part by submerged in the water body.
    • 目的:提供一种流速测量系统,用于使用成像装置代替裸眼来测量漂浮在水体中的浮动部件的运动,从而快速准确地获取流速数据。 构成:浮动件浮在水中,与水体一起移动。 拍摄装置(30)通过将成像装置安装在能够测量浮动部件的测量点处,连续地拍摄与水体一起移动的浮动部件。 拍摄装置能够实现水体流速计算的旅行时间和距离信息。 浮动部件包括浮标部分(22)和牵伸部分。 牵引部分连接到浮标部分,并通过淹没在水体中来支撑浮标部分。
    • 6. 发明公开
    • 약액 유량 측정 장치 및 방법
    • 用于测量化学液体流速的装置和方法
    • KR1020110042878A
    • 2011-04-27
    • KR1020090099740
    • 2009-10-20
    • 세메스 주식회사
    • 박춘희
    • G05D7/00H01L21/66G01F1/708
    • G05D7/00G01F1/708H01L22/34
    • PURPOSE: A device and method for measuring the liquid chemistry flux are provided to measure the accurate discharging flow rate of liquid chemistry by accurately supplying liquid chemistry discharging information through a liquid chemistry information control part. CONSTITUTION: A liquid chemistry information control part(100) senses the discharging information of the liquid chemistry discharged from a liquid chemistry storage(31). The liquid chemistry information control part offers the discharging information of the detected liquid chemistry. A flow meter control part(200) checks the discharging information of the offered liquid chemistry. The flow meter control part applies a hold time according to the discharging information of the checked liquid chemistry and measures the output flux of the liquid chemistry. The medicinal fluid discharge sensor senses the discharging information of the liquid chemistry discharged from the liquid chemistry storage.
    • 目的:提供液体化学通量测量装置和方法,通过液体化学信息控制部分精确提供液体化学物质排放信息,测量液体化学物质的精确排放流量。 构成:液体化学信息控制部(100)检测从液体化学物质储存部(31)排出的液体化学物质的排出信息。 液体化学信息控制部分提供检测到的液体化学物质的放电信息。 流量计控制部件(200)检查所提供的液体化学物质的排放信息。 流量计控制部根据所检查的液体化学物质的排出信息施加保持时间并测量液体化学物质的输出通量。 药液排出传感器检测从液体化学储存器排出的液体化学物质的排出信息。
    • 7. 发明公开
    • 열 신호 기록 장치
    • 热信号写
    • KR1020080106221A
    • 2008-12-04
    • KR1020087021537
    • 2007-03-05
    • 사파스고교 가부시키가이샤
    • 이마이,히로시마쯔시마,케이치우시구사,요시히로
    • G01F1/68G01F1/708G01P5/18
    • G01F1/7084G01P5/10G01P5/18
    • A heat signal writer in which the writing pattern of a heat signal is clarified. The heat signal writer (10), arranged fixedly at an appropriate part of a channel (1) passing a medium in order to write a heat signal in the medium moving through the channel (1), comprises a Peltier element (11) for writing a heat signal by performing temperature variation in a desired pattern through heating and/or cooling, a channel supporting member (12) where the distal end of a cone composed of a thermal conductive material having the bottom face side kept in tight contact with one side of the Peltier element (11) comes into direct contact with the channel (1), a heat sink (13) kept in tight contace with the other side of the Peltier element (11), and a heat resistant coating portion covering the periphery of the Peltier element (11) and the channel supporting member (12) with thermal insulation resin (14) excepting the channel contact surface (12a) at the distal end. ® KIPO & WIPO 2009
    • 一种热信号写入器,其中澄清了热信号的写入模式。 热信号写入器(10)固定地布置在通过介质的通道(1)的适当部分,以便在通过通道(1)移动的介质中写入热信号,包括用于写入的珀尔帖元件(11) 通过加热和/或冷却以期望的图案进行温度变化的热信号;通道支撑构件(12),其中由具有底面侧的导热材料构成的锥体的远端与一侧紧密接触 珀耳帖元件(11)与通道(1)直接接触,与珀尔帖元件(11)的另一侧保持紧密连接的散热器(13),以及覆盖周边的耐热涂层部分 所述珀耳帖元件(11)和所述通道支撑部件(12)具有绝热树脂(14),所述绝缘树脂除了所述远端处的所述通道接触表面(12a)之外。 ®KIPO&WIPO 2009
    • 9. 发明公开
    • 염하구 지역 지하수 유동 측정 방법
    • 地下水流量测量方法
    • KR1020170121482A
    • 2017-11-02
    • KR1020160049952
    • 2016-04-25
    • 경남대학교 산학협력단
    • 정우창
    • G01F1/708G01F15/18G01P5/08G01N21/25G04R20/02
    • G01F1/7084G01F15/185G01N21/255G01P5/086G04R20/02
    • 본발명은염하구지역지하수유동측정방법에관한것으로서, 더욱상세하게는염하구지역에서지하수의과도한양수로해수침투가발생하는경우해안대수층에서의지하수의유동양상을분석하는기술에관한것이다. 본발명에따른염하구지역지하수유동측정방법은정호내 유향유속측정기를투하하여지하수방향성과선형유속을측정하는단계; 멀티스펙트럼스캐너와테마틱매퍼의지구관측센서가구비된인공위성으로상기정호상부의수치지형도를산출하는단계; 상기정호내 암석코어를회수하여지반물성을산출하고자 NX규격으로시추작업을수행하는단계; 상기정호내 지반상대밀도, 연경도및 전단강도의토질정수를추정하기위하여표준관입시험을수행하는단계; 상기정호내 투수성을산출하기위하여수위하강법으로현장투수시험을수행하는단계;가포함되는것을특징으로한다.
    • 更具体地说,本发明涉及一种用于分析当在盐沼地区由于地下水的过度泵送而发生海水渗透时沿海含水层中的地下水流型的技术。 根据本发明的用于测量盐水河口中的地下水流量的方法包括以下步骤: 通过使用配备有主光图仪的多光谱扫描仪和地面观测传感器的卫星来计算地图上部的数字地形图; 根据NX标准执行钻探操作以恢复地面岩芯; 执行标准渗透测试以估计土壤中土壤相对密度,柔软度和剪切强度的土壤参数; 并且通过水位下降法进行现场透水性测试以计算水箱中的透水性。