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    • 2. 发明公开
    • 지반 함수비 평가를 위한 관입형 지반조사장치
    • 渗透式场地探测装置
    • KR1020160096339A
    • 2016-08-16
    • KR1020150017841
    • 2015-02-05
    • 고려대학교 산학협력단
    • 이종섭홍원택변용훈정영석
    • G01N27/02G01V3/12E02D1/00
    • Y02A90/342G01N27/026G01V3/12
    • 본발명의일 실시예에따른관입형지반조사장치는측면에복수의장착홈부가마련된로드본체; 복수의장착홈부에끼움결합되어, 로드본체가관입된지반의유전상수를측정하는복수의전극; 로드본체의일단에결합되어, 지반에관입되는원추형콘부; 로드본체의타단에결합되어로드본체의길이를연장시켜, 로드본체가지반에삽입되는깊이를연장하는연장부; 연장부에착탈가능하게연결되는가이드부; 가이드부의길이방향을따라상하로이동가능하게가이드부에연결되어, 상하이동하면서연장부를가압하여원추형콘부가지반에관입되도록하는가압부; 및복수의전극에전기적으로연결되고, 복수의전극의지반으로의관입깊이에따라, 지반의체적함수비(water content, θ)를측정하는측정부를포함하는것이바람직하다.
    • 根据本发明的一个实施例,一种穿透式地面基础检查装置优选地包括:杆体,其具有形成在侧表面上的多个安装槽单元; 安装并联接到安装槽的多个电极,测量由所述杆体穿入的所述基础基底的介电常数; 连接到杆体的端部的锥体部分穿透地基; 连接到所述杆体的另一端的延伸单元,以延伸所述杆体的长度,延伸所述杆体插入到所述地基中的深度; 引导单元,其可拆卸地连接到所述延伸单元; 连接到引导单元的按压单元沿着导向单元的纵向方向上下移动,通过上下移动来按压引导延伸单元,以使锥体单元穿透地面基础; 以及测量单元,其电连接到所述电极,根据所述电极穿透所述地基的深度来测量所述地基的含水量()。
    • 3. 发明公开
    • 밸브 시스템
    • 阀门系统
    • KR1020140007153A
    • 2014-01-17
    • KR1020120074389
    • 2012-07-09
    • 한국원자력연구원
    • 최종원이대형박경우고용권
    • G01V9/02E21B47/047E21B49/08
    • Y02A90/342
    • Disclosed is a valve system for a hydraulic test device. The valve system is installed in a guide pipe for guiding underground water inside a packer section to the outside of a borehole by using multiple packers. The valve system comprises a valve, which is capable of being rotated and opening and closing a flow path of the guide pipe selectively, and a connecting member, which is connected to the ground level by being attached to the valve to allow the valve to rotate. The valve is rotated through an operation of one end of a ground side of the connecting member. In this way, a separate electric apparatus is unnecessary since the valve is opened and closed manually, and a correct hydraulic test result can be drawn since the valve is opened and closed immediately without a retardation phenomenon of a signal.
    • 公开了一种用于液压测试装置的阀系统。 阀系统安装在引导管中,用于通过使用多个封隔器将封隔器部分内的地下水引导到钻孔的外部。 该阀系统包括能够选择性地旋转并打开和关闭导管的流路的阀,以及连接构件,该连接构件通过附接到阀连接到地面水平以允许阀旋转 。 阀通过连接构件的接地侧的一端的操作旋转。 以这种方式,由于阀门被手动打开和关闭,所以不需要单独的电气设备,并且由于阀门立即打开和关闭而没有信号的延迟现象,因此可以抽出正确的液压测试结果。
    • 4. 发明公开
    • 수처리 시설용 오염도 측정 장치
    • 污水处理设备污染物水平测量装置
    • KR1020120116594A
    • 2012-10-23
    • KR1020110034119
    • 2011-04-13
    • 주식회사 유비이엔씨(주)평화엔지니어링
    • 김회진
    • G01N27/00G01N33/18G01V3/18
    • Y02A90/342
    • PURPOSE: A pollution level measuring device for a water treatment facility is provided to measure a pollution level of a measurement object, a filter, the ground, and processing water, thereby properly replacing or cleaning a filter. CONSTITUTION: A pollution level measuring device for a water treatment facility comprises a surface layer electrode(10), a lower layer electrode(20), an electric wire(30), a current meter(40), a voltage meter(50), and a power source(60). The surface layer electrode is installed in a superficial layer of the measurement object. The lower layer electrode is installed in the lower part of the measurement object. The electric wire connects the superficial and lower layer electrodes. The current meter is serially installed in the electric wire. The voltage meter is paratactically installed in the electric wire. The power source supplies current to the superficial layer electrode, lower layer electrode, current meter, and voltage meter.
    • 目的:提供一种水处理设备的污染水平测量装置,以测量测量对象,过滤器,地面和处理水的污染水平,从而正确更换或清洁过滤器。 构成:水处理设备的污染等级测量装置包括表层电极(10),下层电极(20),电线(30),电流计(40),电压表(50) 和电源(60)。 表层电极安装在测量对象的表层中。 下层电极安装在测量对象的下部。 电线连接表层和下层电极。 电流表串联安装在电线中。 电压表是电连接在电线上。 电源向表层电极,下层电极,电流表和电压表提供电流。
    • 5. 发明授权
    • The method of monitoring the behavior of carbon dioxide in the saline aquifer
    • 监测二氧化碳在盐水中的行为的方法
    • KR100964713B1
    • 2010-06-21
    • KR20100023976
    • 2010-03-17
    • KOREA INST GEOSCIENCE & MINERA
    • PARK SAM GYUYUTAKA SASAKICHO SUNG JOON
    • G01V3/00G01V3/38G06F19/00
    • G01V3/12Y02A90/342
    • PURPOSE: A method of monitoring a behavior of carbon dioxide in saline aquifer using ocean electrical probing is provided to calculate an input variable needed for numerical analysis by measuring the electrical resistivity of a rock acquired for sample and pore ware. CONSTITUTION: The sandstones sample is collected from the ocean floor(S10). The effective porosity of the collected sample is calculated(S20). The electrical resistivity of the collected sample is measured(S30). The electrical resistivity of the pore water with different concentration is measured(S40). An input variable for numerical analysis is obtained(S50). The strata model is set(S60). The numerical analysis using the input variable is implemented(S70).
    • 目的:提供一种使用海洋电探测监测盐水含水层二氧化碳的行为的方法,通过测量样品和孔器具获得的岩石的电阻率来计算数值分析所需的输入变量。 构成:砂岩样品从海底采集(S10)。 计算收集样品的有效孔隙率(S20)。 测量所收集样品的电阻率(S30)。 测量不同浓度的孔隙水的电阻率(S40)。 获得用于数值分析的输入变量(S50)。 地层模型设置(S60)。 实现使用输入变量的数值分析(S70)。
    • 6. 发明公开
    • GPS와 GPR을 이용한 하상 지반 조사 시스템
    • 使用GPS和GPR(地面雷达)检测河底图和波动的系统
    • KR1020040092508A
    • 2004-11-04
    • KR1020030025974
    • 2003-04-24
    • 지오글로버스(주)
    • 손강희
    • G01V3/00
    • Y02A90/342G01V3/30G01S13/885G01S13/89G01S19/01G01V3/12
    • PURPOSE: A system for investigation of river bottom topography and fluctuation using GPS and GPR(ground penetrating radar) is provided to perform an accurate investigation process without an error by storing and utilizing the information obtained from the GPS and the GPR. CONSTITUTION: An aquatic moving unit(10) is moved on surface of water. A GPR(20) is installed on the aquatic moving unit and includes a control unit and a transmitting/receiving radar. A GPS(30) is installed on the aquatic moving unit to calculate position information. An information processing unit(40) exchanges data between the GPR and the GPS. The information processing unit includes a data storage part for storing topographical information and position information, a map storage part for storing an electronic map, a topographical map generator for generating a river bottom topography map, and an output unit for outputting the river bottom topography map.
    • 目的:使用GPS和GPR(地面穿透雷达)对河底形貌和波动进行调查的系统,通过存储和利用从GPS和GPR获得的信息,无误地进行准确的调查过程。 构成:水上活动单元(10)在水面上移动。 GPR(20)安装在水上移动单元上,包括一个控制单元和一个发射/接收雷达。 GPS(30)安装在水上移动单元上以计算位置信息。 信息处理单元(40)在GPR和GPS之间交换数据。 信息处理单元包括用于存储地形信息和位置信息的数据存储部分,用于存储电子地图的地图存储部分,用于生成河底地形图的地形图生成器,以及用于输出河底地形图的输出单元 。
    • 7. 发明公开
    • 지하수 수위·수질 자동관측기
    • 观测地下水位和水质水质的自动观测装置
    • KR1020020059153A
    • 2002-07-12
    • KR1020010000169
    • 2001-01-03
    • 한국농어촌공사
    • 김경만
    • G01V3/18
    • Y02A90/342G01V9/02G01F23/26G01N33/18G06Q50/06
    • PURPOSE: An automatic observation apparatus for observing an underground water level and water quality of subterranean water is provided to measure accurately the underground water level and the water quality and reduce unit costs of the automatic observation apparatus. CONSTITUTION: An underground water level sensor(10) is serially connected with an electric conductivity sensor(12). A single sensor cable is commonly used in the underground water level sensor(10) and the electric conductivity sensor(12) when the underground water level sensor(10) is serially connected with the electric conductivity sensor(12). Namely, the electric conductivity sensor(12) is connected with a lower end portion of the single sensor cable and the underground water level sensor(10) is connected with a connector under the electric conductivity sensor(12). The underground water level sensor(10) has a diameter of 25mm. The length of the underground water level sensor(10) including the connector is 145mm. The underground water level sensor(10) has a measuring range of 0 to 100m and accuracy of ±4cm.
    • 目的:提供一种用于观察地下水位和地下水水质的自动观测装置,以准确测量地下水位和水质,降低自动观测装置的单位成本。 构成:地下水位传感器(10)与电导率传感器(12)串联连接。 当地下水位传感器(10)与电导率传感器(12)串联连接时,地下水位传感器(10)和电导率传感器(12)中通常使用单个传感器电缆。 也就是说,电导率传感器(12)与单个传感器电缆的下端部连接,地下水位传感器(10)与电导率传感器(12)下方的连接器连接。 地下水位传感器(10)的直径为25mm。 包括连接器的地下水位传感器(10)的长度为145mm。 地下水位传感器(10)的测量范围为0〜100m,精度为±4cm。
    • 8. 发明公开
    • 무인원격 지하수관측 자동제어시스템
    • 自动,遥控无人控制地下水观测系统
    • KR1020020024746A
    • 2002-04-01
    • KR1020000056538
    • 2000-09-26
    • 투빅스(주)
    • 김종수
    • G01V3/18
    • Y02A90/342G01V9/02G01D21/02G01N33/18G06Q50/06G08C17/02
    • PURPOSE: A system for automatically and remotely manless controlling underground water observation is provided to maintain cleaning underground water by remote monitoring each observatory of underground water. CONSTITUTION: The system for automatically and remotely manless controlling underground water observation includes a sensor probe(50). The sensor probe(50) has the plurality of observation sensors which is connected through a hartland cable with a data logger(20) of an underground water observatory(10). An uninterruptible power supply(30) is connected with the logger(20) for supplying an electric power to an underwater pump(42) for a predetermined time period when the electric power supply is failed. The data logger(20) is connected with a wire/wireless communication network(60) which is connected with a modem(72) of a host computer(90). The data logger(20) pumps the underground water out when the underground water is polluted.
    • 目的:通过远程监测地下水的每个观测站,提供一种自动远程控制地下水观测系统,以维持地下水的清洁。 构成:用于自动和远程无人控制地下水观测的系统包括传感器探头(50)。 传感器探头(50)具有通过哈特兰电缆与地下水观测台(10)的数据记录器(20)连接的多个观测传感器。 当电力供应失败时,不间断电源(30)与记录器(20)连接,用于向水下泵(42)供电预定时间段。 数据记录器(20)与与主计算机(90)的调制解调器(72)连接的有线/无线通信网络(60)连接。 当地下水被污染时,数据记录器(20)将地下水抽出。
    • 9. 发明公开
    • 급이기의 물 공급 제어방법
    • KR20180046815A
    • 2018-05-09
    • KR20160142487
    • 2016-10-28
    • A01K7/02F16K31/06G01N27/12G01V3/00
    • Y02A90/342
    • 본발명은전기가공급되지않을때에는솔레노이드밸브가개방동작을유지하고, 전기가공급될때에만폐쇄동작을수행하도록하여정전이나기타밸브및 제어부의고장시에도가축에게제시간에물을안정적으로공급할수 있도록한 급이기의물 공급제어방법을제공한다. 이를구현하기위한본 발명은급수공급관에설치된솔레노이드밸브가전기가공급되지않은상태에서개방상태를유지하고, 전기가공급되면폐쇄동작하도록하여사료받침대로물의공급을제어토록하는급이기의물 공급제어방법에있어서, 상기사료받침대에설치된센서가상기사료받침대로공급된물을감지하였는지를판단하는단계, 상기센서가물을감지하였다고판단되었을때, 상기솔레노이드밸브로전기를공급하여상기솔레노이드밸브의폐쇄동작시키는단계로이루어짐을특징으로한다.