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    • 2. 发明授权
    • 관입 위치 측정 기반의 관입 시험 장치
    • 基于测量入侵情况的入侵检测设备
    • KR101527203B1
    • 2015-06-09
    • KR1020140027645
    • 2014-03-10
    • (주)지오사이언스
    • 이현재
    • E21B47/12E21B47/13G01B5/18
    • E21B47/12
    • 본발명은관입위치측정기반의관입시험장치에관한것이다. 본발명의제 1 측면은, 상기의목적을달성하기위해본 발명의실시예에따른관입위치측정기반의관입시험장치는, 무선통신부(100a)를이용해노트북(20)과블루투스방식으로데이터송수신채널설정을수행하며, 부착부(120)를통해시추장치(10)로부착되는관입위치측정기반의관입시험장치에있어서, 케이스(130)의하단면으로부터연장되어중간단에낙하추(110a)를구비하며, 끝단은시추장치(10)의로드(11)와연결되어형성되는로드연결선(110); 및광센서(100c)에의한로드연결선(110)에대한단위관입동작검출시낙하추(110a)를기준으로상하의위치이동거리측정정보를제어부(100d)로전송하여제어부(100d)에의한상하의위치이동거리측정이연산되도록하는위치측정센서(100b); 를포함하며, 제어부(100d)는연산된이동거리정보에따라관입전일경우낙하추(110a)의현재의이동된위치이동거리정보로부터관입시점을연산하는관입위치측정기반의관입시험장치를제공함에있다. 이에의해시추장치및 노트북등과같은컴퓨팅장치상으로의설치에의한시스템구성을간편하도록하게된다.
    • 根据本发明的实施例,一种基于测量入侵情况的入侵测试装置利用笔记本(20)和使用无线通信部分(100a)的蓝芽方法进行数据发送/接收信道设置,以及 通过附接部分(120)附接到钻孔设备(10)。 基于测量入侵情况的入侵测试装置包括:从壳体(130)的下端表面延伸的杆连接线(110),包括在其中间部分上的液滴重物(110a),并且具有一个 端部与钻孔设备(10)的杆(11)连接; 以及位置测量传感器(100b),当通过光传感器(100c)检测到关于杆连接线(110)的单元入侵操作时,相对于液滴重量(110a)发送垂直位置移动距离测量信息, 允许由控制器(100d)计算垂直位置移动距离。 控制器(100d)根据计算出的落锤重量尚未侵入的移动距离信息,基于关于当检查下降重量(110a)当前移动的位置的移动距离信息来计算入侵时间点。 因此,入侵检测装置具有通过安装在诸如钻孔装置,笔记本等的计算装置中变得更容易的系统结构。
    • 4. 发明公开
    • 전개가능한 센서 장치 및 방법
    • 用于从地下层收集数据的装置和方法
    • KR1020010014737A
    • 2001-02-26
    • KR1020000019773
    • 2000-04-15
    • 슐럼버거 홀딩즈 리미티드
    • 레인하르트시그레넥레녹스이레이드
    • E21B49/00
    • E21B7/06E21B23/00E21B47/01E21B47/011E21B47/12E21B49/00E21B49/10
    • PURPOSE: Provided are a method and a device for eliminating or minimizing the necessity of tripping a drilling equipment so that various stratum data from an intended underground stratum can be collected, and a formation tester to discriminate stratum parameters is introduced in a winze in a condition where a drill string provided with a drill collar, a drill bit and other drilling parts is arranged in the winze. CONSTITUTION: A shell 110 which is provided with a chamber 112 and withstandable against the forcible propulsive force into an underground stratum is used. A data sensor 114 is provided in the chamber of the shell. The shell has a first port 116 to transmit the properties of the fluid present in the underground stratum when a data collection device is arranged in the underground stratum, and the data sensor detects at least one of the properties of the fluid thereby.
    • 目的:提供一种消除或最小化钻探设备脱扣的必要性的方法和装置,以便能够收集来自预期的地下层的各种层数据,并且在条件中引入用于区分层参数的地层测试仪 其中设置有钻铤的钻柱,钻头和其他钻孔部件布置在绞盘中。 构成:使用具有室112并能抵抗强制推进力抵抗地下层的壳体110。 数据传感器114设置在壳体的腔室中。 当数据收集装置布置在地下层中时,壳体具有第一端口116,用于传递存在于地下层中的流体的特性,并且数据传感器检测到流体的特性中的至少一个。
    • 6. 发明授权
    • 굴착공 내에서 지반의 균열 검출 시스템
    • 用于检测挖掘孔中地基断裂的系统
    • KR101427155B1
    • 2014-08-07
    • KR1020130119559
    • 2013-10-08
    • 한국지질자원연구원
    • 박찬희심병완
    • E21B47/06E21B47/08G01V1/40
    • E21B47/065E21B47/0002E21B47/12G01V3/34
    • The present invention relates to a system for detecting a fracture in the ground in an excavation hole, including a temperature measuring sensor inserted in the excavation hole formed in a bedrock area to measure the temperature in the excavation hole, a transfer cable connected to the temperature measuring sensor to transfer the sensor for every section in the excavation hole, and a fracture detection device for detecting a consecutive fracture formed in the bedrock area based on the temperature measured by the temperature measuring sensor. The fracture detecting device includes a temperature receiving unit electrically connected to the temperature measuring sensor to receive the temperature in the excavation hole which is measured for a predetermined time; a temperature information storing unit for storing information about the temperature measured for the predetermined time for every section in the excavation hole; a temperature change detecting unit for detecting variations of the temperature in the section of the excavation hole from the temperature information stored in the temperature information storing unit; a fracture determining unit for determining the existence of the consecutive fracture in the bedrock based on the detected variations of the temperature in the section; a transfer cable driving unit connected to the transfer cable to generate power to move the transfer cable upward or downward in the excavation hole; and a fracture detection control unit for controlling the operation of the transfer cable driving unit to move the position of the temperature measuring sensor by the set distance, when the temperature information receiving unit receives the information about the temperature measured for the predetermined time.
    • 本发明涉及一种用于检测挖掘孔中地面断裂的系统,包括:插入在基岩区域中形成的挖掘孔中的温度测量传感器,以测量挖掘孔中的温度;连接到温度 测量传感器,用于传送挖掘孔中每个部分的传感器;以及断裂检测装置,用于基于由温度测量传感器测量的温度检测在基岩区域中形成的连续裂缝。 裂缝检测装置包括:温度接收单元,电连接到温度测量传感器以接收在预定时间内测量的挖掘孔中的温度; 温度信息存储单元,用于存储关于在所述挖掘孔中的每个部分对于所述预定时间测量的温度的信息; 温度变化检测单元,用于从存储在温度信息存储单元中的温度信息中检测挖掘孔的部分中的温度变化; 断裂确定单元,用于基于检测到的该部分中的温度变化来确定基岩中的连续断裂的存在; 连接到转印电缆的转印电缆驱动单元,以产生在开挖孔中向上或向下移动转印电缆的电力; 以及断裂检测控制单元,用于当温度信息接收单元接收到关于在预定时间内测量的温度的信息时,控制传送缆线驱动单元的操作以使温度测量传感器的位置移动设定距离。
    • 7. 发明公开
    • 정성적 지표를 이용하여 시추공 유입 상태를 결정하기 위한 장치 및 방법
    • 使用定性指标确定井下入口条件的装置和方法
    • KR1020130076772A
    • 2013-07-08
    • KR1020120155192
    • 2012-12-27
    • 하이드릴 유에스에이 메뉴팩춰링 엘엘씨
    • 저지로버트아놀드
    • E21B21/01E21B21/06
    • E21B21/08E21B47/00E21B47/10E21B47/1025E21B47/12
    • PURPOSE: A device and a method for determining a borehole inflow condition with a qualitative indicator is provided to accurately measure the flow rate of returning mud and to overcome the delay of flow rate measurement in returning mud on the water surface. CONSTITUTION: A device (100) for determining a borehole inflow condition with a qualitative indicator comprises a first sensor (110), a second sensor (120), a controller (130), and a third sensor (140). The first sensor measures the flow rate of inflow mud pumped into a well. The second sensor detects changes in flow rate of the returning mud discharged from the well. The controller is connected to the first sensor and the second sensor. The controller confirms a kick event based on monitoring and the comparison of progressive changes in the flow rates of the inflow mud and the returning mud. The third sensor is connected to the controller and supplies a measured value related to drilling to the controller.
    • 目的:提供一种利用定性指标确定钻孔入流条件的装置和方法,以准确测量返回泥浆的流量,克服水面上返回泥浆中流量测量的延迟。 构造:用于通过定性指示器确定钻孔流入状态的装置(100)包括第一传感器(110),第二传感器(120),控制器(130)和第三传感器(140)。 第一个传感器测量泵入井的流入泥浆的流量。 第二传感器检测从井排出的返回泥浆的流量变化。 控制器连接到第一传感器和第二传感器。 控制器基于监测和比较流入泥浆和返回泥浆的流量的逐渐变化来确认踢脚事件。 第三个传感器连接到控制器,并将与钻孔相关的测量值提供给控制器。
    • 8. 发明公开
    • 관측 및 통신장비가 내장된 밀폐형 덮개
    • 具有观察和通信设备的空气净化器
    • KR1020090064955A
    • 2009-06-22
    • KR1020070132344
    • 2007-12-17
    • 주식회사 지지케이
    • 안근묵
    • E03B3/15E03B3/12E21B47/12E21B47/01E21B47/00
    • E03B3/15E03B3/12E21B47/0002E21B47/011E21B47/12
    • A sealed cover with observation and telecommunication device is provided to cut down on installation cost and to maximize land utilization. A sealed cover with observation and telecommunication device comprises a cover type sealing box(100). The upper opening of the pipe installed in connection with the subsurface water is sealed hermetically to shut tightly with the cover type. In the cover type sealing box, a water level of the subsurface water, and the water quality and water temperature are observed. The accommodation space receiving the telecommunication device for transmitting observed data is formed. The cover type sealing box comprises a supporter body(110) attachably and detachably combined in the upper organ top end portion, and a cover type protective equipment(120) which is combined by the connecting member(130) with the supporter body and is comprised integrated.
    • 提供具有观察和通信设备的密封盖,以减少安装成本并最大限度地利用土地。 具有观察和通信设备的密封盖包括盖式密封箱(100)。 与地下水连接安装的管道的上部开口被密封地密封以用盖子类型紧密地闭合。 在盖式密封箱中,观察到地下水的水位以及水质和水温。 形成接收用于发送观测数据的电信设备的容纳空间。 盖式密封箱包括可连接并可拆卸地组合在上部器官上端部中的支撑体(110)和由连接构件(130)与支撑体组合的盖型保护设备(120),并且包括 集成。
    • 9. 发明公开
    • 지하 웰에서의 다운홀 특성을 측정하기 위한 방법 및 장치
    • 用于测量井下井下特征的方法和设备
    • KR20180013939A
    • 2018-02-07
    • KR20177034568
    • 2016-04-29
    • E21B47/12E21B47/04E21B47/06E21B47/09E21B47/10G05B19/406
    • G05B19/406E21B23/10E21B47/04E21B47/06E21B47/065E21B47/09E21B47/091E21B47/10E21B47/12E21B47/122E21B47/123E21B47/124G05B2219/36292
    • 본발명의실시예들은지하웰을따라특성을측정하기위한비테더링장치를제공한다. 적어도하나의실시예에따르면, 상기비테더링장치는하우징(105, 205), 및상기지하웰을따라데이터를측정하도록구성된하나이상의센서(175, 225)를포함한다. 상기데이터는상기지하웰에서하나이상의물리적, 화학적, 지질학적또는구조적특성을포함한다. 상기비테더링장치는상기데이터를측정하는하나이상의센서(175, 225)를제어하고그 측정된데이터를저장하도록구성된프로세서(125), 및상기지하웰 외부에배열된수신기로상기측정된데이터를전송하도록구성된전송기(180)를더 포함한다. 더욱이, 상기비테더링장치는상기지하웰에서상기비테더링장치의위치를제어하기위해상기비테더링장치의부력또는견인력을제어하도록구성된제어기(140)를포함한다. 상기제어기(125)는상기지하웰 내의비테더링장치의하나이상의센서(175, 225)에대한측정파라미터를규정하는명령들을포함한다.
    • 本发明的实施例提供了用于测量沿地下井的性质的烧结装置。 根据至少一个实施例,苦味装置包括壳体105,205和构造成测量沿地下井的数据的至少一个传感器175,225。 数据包括地下井中的一个或多个物理,化学,地质或结构特征。 的BET渲染设备发送的测量的数据,以控制至少一个传感器(175,225)并且被配置成存储所测量的数据处理器125,以及地下井外的接收器阵列来测量数据 Lt 180°和180°之间。 此外,BET渲染设备包括被配置为控制所述拉力的浮力或BET用于控制BET在地下井呈现设备的位置呈现设备控制器140。 控制器125包括定义地下井中苦味设备的一个或多个传感器175,225的测量参数的指令。