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    • 2. 发明授权
    • 상호상관을 이용한 반사파 중첩에 의해 초음파 또는 탄성파 속도를 측정하기 위한 측정시스템 및 측정방법
    • 使用交叉相关法测量超声波或地震波的脉冲超声波重叠的速度的系统和方法
    • KR101396875B1
    • 2014-05-19
    • KR1020130055812
    • 2013-05-16
    • 한국지질자원연구원
    • 이상규이태종김형찬
    • G01H5/00
    • G01H5/00
    • The present invention relates to a system and a method for measuring the velocity of an ultrasonic wave or a seismic wave by pulse-echo overlap using cross-correlation, configured to convert a pulse-echo signal into a digital signal by using an A/D converter, to automatically extract travel time for making a first pulse-echo of the ultrasonic wave completely overlap a second pulse-echo by using the cross-correlation and to calculate the velocity of a P-wave and an S-wave in order to solve a problem of a traditional pulse-echo overlap method, where a subjective determination of an experimentor may be intervened so precise measurement is difficult because complete automation is not realized and the experimentor overlaps wave form by adjusting offset time on an oscilloscope.
    • 本发明涉及一种用于通过使用互相关的脉冲 - 回波重叠来测量超声波或地震波的速度的系统和方法,其被配置为通过使用A / D将脉冲回波信号转换为数字信号 转换器,通过使用互相关自动提取超声波的第一脉冲回波的行进时间与第二脉冲回波完全重叠,并计算P波和S波的速度以求解 传统的脉冲 - 回波重叠方法的问题,其中可以干预实验者的主观判断,因此难以精确测量,因为没有实现完全自动化,并且实验者通过调整示波器上的偏移时间来重叠波形。
    • 3. 发明公开
    • 탄성파 속도측정을 위한 초동주시 발췌 방법
    • 拍摄弹性波速度可靠测量的第一个到达时间的方法
    • KR1020130052138A
    • 2013-05-22
    • KR1020110117403
    • 2011-11-11
    • 한국지질자원연구원
    • 이상규이태종최지향
    • G01N29/36G01N29/04
    • G01N29/04G01N29/07G01N29/36G01N33/24G01V1/28
    • PURPOSE: A first-arrival traveltime extracting method for measuring the speed of elastic waves is provided to select a plurality of candidate time points and monitoring time points and to extract first-arrival traveltime by sampling the time points, thereby improving the reliability and the accuracy of extracting the first-arrival traveltime. CONSTITUTION: A first-arrival traveltime extracting method for measuring the speed of elastic waves is as follows. A gap for obtaining a reference time point of the received elastic waves is set(S10). The moment that the received elastic waves are captured by the gap for obtaining the reference time point is obtained as the first-arrival traveltime reference time point(S20). The first-arrival traveltime candidate time point is selected from the time points after the amplitude is stabilized among the time points prior to the first-arrival traveltime reference time point(S30). One or more first-arrival traveltime monitoring time points are additionally selected from the time points close to the first-arrival traveltime candidate time points(S40). Sampling waveforms of the selected first-arrival traveltime candidate time points and the monitoring time point is performed(S50). The first-arrival traveltime is extracted from the time point having a sampling value close to zero(S60). [Reference numerals] (S10) Set a gap for obtaining a reference time point; (S20) Obtain a reference time point for a first-arrival traveltime; (S30) Select candidate time points of a first-arrival traveltime; (S40) Additionally select monitoring time points for a first-arrival traveltime; (S50) Sample the candidate time points and the monitoring time points; (S60) Extract a first-arrival traveltime from a time point having a sampling value close to zero
    • 目的:提供用于测量弹性波速度的首次到达旅行时间提取方法,以选择多个候选时间点和监视时间点,并通过对时间点进行采样来提取首次到达旅行时间,从而提高可靠性和准确性 提取首次到达旅行时间。 构成:用于测量弹性波速度的首次到达旅行时间提取方法如下。 设置用于获得接收到的弹性波的基准时间点的间隙(S10)。 获得接收到的弹性波被用于获得基准时间点的间隙捕获的时刻作为第一到达旅行时间基准时间点(S20)。 从第一到达旅行时间基准时间点之前的时间点之间的振幅稳定后的时间点选择第一到达旅行时间候选时间点(S30)。 从接近第一到达旅行时间候补时间点的时间点另外选择一个或多个第一到达旅行时间监测时间点(S40)。 执行所选择的第一到达旅行时间候补时间点和监视时间点的采样波形(S50)。 从具有接近零的采样值的时间点提取首次到达旅行时间(S60)。 (附图标记)(S10)设定用于获得基准时间点的间隙; (S20)获取第一到达旅行时间的参考时间点; (S30)选择第一到达旅行时间的候选时间点; (S40)另外选择第一到达旅行时间的监视时间点; (S50)对候选时间点和监视时间点进行采样; (S60)从具有接近零的采样值的时间点提取首次到达旅行时间
    • 6. 发明公开
    • 전기 비저항 측정 홀더 및 전기 비저항 측정기
    • 用于测量电阻率的装置和用于测量电阻率的装置
    • KR1020090077365A
    • 2009-07-15
    • KR1020080003284
    • 2008-01-11
    • 한국지질자원연구원
    • 이상규이태종성낙훈
    • G01V3/00
    • Y02A90/342
    • A holder for measuring electrical resistivity and an apparatus for measuring electrical resistivity are provided to measure the electrical resistivity of the rock sample by measuring water content percentage of the rock sample. The rock sample is flowed in the water of a sample lead-in container(100), and the right side horizontal fixing part(210) is fixed to the right side of the sample lead-in container. The right side horizontal moving bar is moved to right and left while being inserted into the sample lead-in container. The left side horizontal fixing part(310) is fixed to the left side of the sample lead-in container. The left side horizontal moving bar is moved to the left and right while being inserted into the sample lead-in container.
    • 提供用于测量电阻率的保持器和用于测量电阻率的装置,以通过测量岩石样品的含水率来测量岩石样品的电阻率。 岩石样品在样品引入容器(100)的水中流动,右侧水平固定部(210)固定在样品导入容器的右侧。 右侧水平移动杆在被插入样品导入容器中时向右和向左移动。 左侧水平固定部(310)固定在试样导入容器的左侧。 左侧水平移动杆在被插入样品引入容器中时向左和向右移动。
    • 7. 发明授权
    • 코어 시료의 전기비저항 모니터링 장치
    • 岩心样品的电阻率监测装置
    • KR101816674B1
    • 2018-01-12
    • KR1020160076380
    • 2016-06-20
    • 한국지질자원연구원
    • 이상규이태종이영민
    • G01R27/02G01R19/32G01R15/16G01R27/08
    • 본발명에따른전기비저항측정장치는, 시료의양단에각각접촉되는한 쌍의전극과, 전극에전류를인가하는전류발생기와, 코어시료양단의전위차를측정하는전위계및 전류발생기와전위계의작동을제어하는컨트롤러를구비하며, 컨트롤러를통해전기비저항측정조건을설정하여, 이측정조건에따라컨트롤러는전류발생기와전위계의작동을제어하고, 전기비저항을측정하기위한전체측정시간과, 단속적으로전류를인가하여전기비저항을측정점단위로측정할수 있도록, 측정점사이에전류를인가하지않는쉬는시간으로서의포인트딜레이를측정조건으로설정가능하다. 포인트딜레이는여러가지용도로사용될수 있지만, 주로전류의인가에따라발열된시료의온도가하강되는데필요한시간을제공하기위함이다.
    • 根据本发明的电阻率测量装置包括一对的分别与样品电极的两端接触,并且一个电流激励这些电极发电机,静电计和一个电流发生器,用于测量岩心样品之间的电位差在两个用静电在操作结束 和用于控制,通过经由控制器与电流设定电阻率测量条件,按照与测量条件控制器的整体测量时间和间歇用于控制电流发生器和电位计的操作中,测量电阻率的控制器 作为在测量点之间不施加电流的断开时间的点延迟可以被设置为测量条件,从而可以以测量点为单位来测量电阻率。 点延迟可以用于各种目的,但其主要旨在提供根据电流的应用使放热样品的温度降低所需的时间。
    • 8. 发明授权
    • 굴착공 내에서 기울어진 굴착 비트를 직립하는 굴착 비트 직립장치
    • 用于在挖掘孔中定位挖掘位的装置
    • KR101349067B1
    • 2014-01-09
    • KR1020130035914
    • 2013-04-02
    • 한국지질자원연구원
    • 이창범김형찬이태종
    • E21B10/64E21B10/00E21B12/04
    • E21B12/04E21B10/44E21B19/18
    • The present invention relates to an apparatus for erecting a slanted boring bit which corrects a boring bit position in order to keep the boring bit upright when the boring bit is slanted because the boring bit is damaged or separated from a rod inside a boring hole during boring. The apparatus for erecting a slanted boring bit which erects a slanted boring bit inside a boring hole according to the present invention comprises: a cylindrical boring bit holding unit having an opening at the bottom; and a connection unit whose one end is connected to a rod and can be detachable and which transfers the rod's torque to the cylindrical boring bit holding unit, wherein the internal diameter of the cylindrical boring bit holding unit is greater than the external diameter of the boring bit which comes into contact with the inner circumferential surface.
    • 本发明涉及一种用于竖立倾斜钻头的装置,其用于校正钻头位置,以便在钻头倾斜时保持钻头直立,因为钻孔在钻孔期间在钻孔内部的杆损坏或分离 。 根据本发明的用于竖立在镗孔内倾斜钻头的倾斜钻头的装置包括:圆柱形钻头保持单元,其在底部具有开口; 以及连接单元,其一端连接到杆上并且可拆卸并且将杆的扭矩传递到圆柱形钻头保持单元,其中圆柱形钻头保持单元的内径大于钻孔的外径 与内周面接触的位。
    • 9. 发明授权
    • 굴착공 내에서 굴착 비트를 인출하는 굴착 비트 인출장치
    • 用于在挖掘孔中挖掘钻头的装置
    • KR101287456B1
    • 2013-07-19
    • KR1020130041987
    • 2013-04-17
    • 한국지질자원연구원
    • 이창범송윤호이철우김형찬이태종
    • E21B31/00E21B31/12E21B10/64E21B12/04
    • E21B31/12E21B10/62E21B17/042
    • PURPOSE: An excavation bit drawing device drawing an excavation bit in an excavation hole is provided to correct a point of the excavation bit in the excavation hole and to draw the excavation bit to the outside of the excavation hole. CONSTITUTION: An excavation bit drawing device (100) drawing an excavation bit (3) in an excavation hole comprises a tip unit (110), a guide unit (120), a stop unit (130), and an excavation bit position fixing unit (140). The upper end of the tip unit is connected to the end of a rod, and the lower end of the tip unit comprises a connection unit (111) connected to the excavation bit. The guide unit is mounted on an outer circumference of the tip unit in order to slide in a longitudinal direction. The stop unit is integrally installed in the lower part of the tip unit and prevents the guide unit from being separated from the tip unit. The excavation bit position fixing unit matches the center of the excavation bit and the center of the tip unit.
    • 目的:提供挖掘孔中挖掘钻头的挖掘钻头拉丝装置,以校正挖掘孔中的挖掘钻头的一点,并将挖掘钻头拉到挖掘孔的外侧。 构成:在挖掘孔中绘制挖掘钻头(3)的挖掘钻头拉拔装置(100)包括尖端单元(110),引导单元(120),停止单元(130)和挖掘钻头位置固定单元 (140)。 尖端单元的上端连接到杆的端部,并且尖端单元的下端包括连接到挖掘钻头的连接单元(111)。 引导单元安装在末端单元的外圆周上以便沿纵向方向滑动。 停止单元一体地安装在末端单元的下部,并且防止引导单元与尖端单元分离。 挖掘钻头位置固定单元与挖掘钻头的中心和末端单元的中心相匹配。
    • 10. 发明授权
    • 해저열수광상탐사용 전자탐사 장치
    • 用于检测海底热沉积的电磁装置
    • KR101217545B1
    • 2013-01-02
    • KR1020120062573
    • 2012-06-12
    • 한국지질자원연구원
    • 이성곤박인화이태종송윤호최지향
    • G01V3/165G01V3/10
    • PURPOSE: A submarine hydrothermal deposit detection electronic device by installing a transmitting coil around a huge external frame for detecting submarine hydrothermal deposits in a wide range is provided to facilitate marine flooding and resolve the instability of a first magnetic field by a transmitting coil. CONSTITUTION: An submarine hydrothermal deposit detection electronic device(1) comprises an external frame(100), a connecting frame(200), a transmitting coil(300), a receiving coil(400), a bucking coil(500). The connecting frame connects both end parts of the external frame. The transmitting coil, installed at the external frame, forms a first magnetic field. The receiving coil, installed at a central part of a connecting frame, detects the magnitude of a second magnetic field formed on seafloor by the first magnetic field. The bucking coil is extended from the transmitting coil and is installed at the central part of the connecting frame apart from an outer periphery of the receiving coil. The bucking coil eliminates contribution of the first magnetic field from the detected magnitude of magnetic field of the receiving coil.
    • 目的:提供一种海底热液沉积物检测电子装置,通过在巨大的外部框架周围安装一个传感线圈,用于检测大范围的海底热液沉积物,以促进海洋淹没,并通过发射线圈解决第一磁场的不稳定性。 构造:海底热液沉积物检测电子设备(1)包括外框(100),连接框架(200),发射线圈(300),接收线圈(400),抗弯线圈(500)。 连接框架连接外框的两端部。 安装在外框上的发射线圈形成第一磁场。 安装在连接框架的中心部分处的接收线圈通过第一磁场检测在海底上形成的第二磁场的大小。 起吊线圈从发射线圈延伸并且安装在连接框架的中心部分,与接收线圈的外周隔开。 抵消线圈消除了来自接收线圈的检测到的磁场强度的第一磁场的贡献。