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    • 4. 发明公开
    • 다중전극탐침봉을 이용한 시추공 방위 비저항탐사방법
    • 多个电极探针和电阻率检测在探测孔中使用相同
    • KR1020040029828A
    • 2004-04-08
    • KR1020020060254
    • 2002-10-02
    • 김필선박병기
    • 김필선박병기
    • G01V3/00
    • Y02A90/342G01V3/20G01V3/38G01V2200/16G01V2210/1216G06F17/10
    • PURPOSE: A multiple electrode probe and resistivity survey using the same at exploratory hole are provided to explore for data like a local fracture zone direction, a direction of a fault, underground water, fracture zone, mineral and environmental pollution range in detail. CONSTITUTION: A connection unit(40) is combined to an end of a hollow probe(10), and an underground water blocking hole(11) is projected from an upper part and a bottom part of one side of the probe, and the probe has an open aperture(12). A rubber packer(20) is comprised in the probe, and is installed to contact an exploring hole wall through the open aperture by being expanded while air is absorbed from an air pump. And a multiple electrode(30) is installed to coincide with the underground water blocking hole and to adhere to one side of the exploring hole wall when the rubber packer is expanded by being connected to an electrode connection line(31).
    • 目的:探索多孔电极探针和探测孔使用其的电阻率测量,详细探讨局部断裂带方向,断层方向,地下水,断裂带,矿物和环境污染等方面的数据。 构成:连接单元(40)组合到中空探针(10)的端部,并且地下水阻挡孔(11)从探针一侧的上部和底部突出,并且探针 具有开口(12)。 橡胶封隔器(20)包括在探针中,并且安装成通过在空气从空气泵吸收空气的同时通过开口孔接触探孔孔壁。 并且,当通过连接到电极连接线(31)将橡胶封隔器膨胀时,多个电极(30)被安装成与地下水阻塞孔重合并粘附到探孔孔的一侧。
    • 7. 发明授权
    • 2차원 수치모델링 및 역산을 이용하여 사전정보를 반영하는 3차원 자력역산 방법
    • 基于二维前向建模和反演的组合的三维磁力反演方法作为反映A-PRIORI信息的技术
    • KR101348787B1
    • 2014-01-07
    • KR1020130123078
    • 2013-10-16
    • 한국광물자원공사
    • 고광범유영준한경수
    • G06T17/05
    • G06T17/05G01V3/38G01V99/005
    • The present invention proposes a method for reflecting three-dimensional (3D) advance information and, particularly, a 3D magnetic inversion method for reflecting advance information using two-dimensional (2D) forward modeling and 2D inversion, which is capable of forming a 3D advance information model and a 3D initial magnetic susceptibility model based on a combination of 2D forward modeling and 2D inversion and performing 3D magnetic inversion based on the models. The proposed method of the present invention comprises the steps of: selecting a region of interest to perform 3D magnetic inversion on a magnetic anomaly map for a research area and separating 2D measuring lines in the selected region of interest; forming a combination of 2D measuring lines using data on the 2D measuring lines separated in the region of interest, respectively performing 2D forward modeling and 2D inversion for 2D measuring lines included in advance information, respectively generating a set of 2D weighting function sections and a set of 2D magnetic susceptibility sections for the 2D measuring line data, and respectively a 3D advance information model and a 3D initial model using the set of 2D weighting function sections and the set of 2D magnetic susceptibility sections; progressing 3D magnetic inversion for the region of interest using the 3D advance information model and the 3D initial model; and displaying a magnetic susceptibility cube for the region of interest. Thus, the method for reflecting advance information using 2D forward modeling and 2D inversion of the present invention is a practical technique capable of successively lessening non-uniqueness of 3D magnetic inversion and drawing geologically meaningful, reasonable inversion results. [Reference numerals] (S11) Input a magnetic anomaly map for a research area; (S13) Display a region of interest on the magnetic anomaly map; (S15) Display 2D measuring lines in the region of interest; (S21-1) 2D forward modeling; (S21-2) 2D inversion; (S23-1) Generate 2D weighting function sections; (S23-2) Generate 2D magnetic susceptibility sections; (S25-1,S25-2) Input all the advance information; (S27-1) Generate a 3D advance information model; (S27-2) Generate a 3D initial model; (S30) 3D inversion; (S40) Analyze a magnetic susceptibility cube
    • 本发明提出了一种用于反映三维(3D)提前信息的方法,特别地,用于使用二维(2D)正演模型和2D反演来反射提前信息的3D磁反演方法,其能够形成3D提前 信息模型和基于2D前向建模和2D反演的3D初始磁化率模型,并基于模型进行3D磁反演。 本发明提出的方法包括以下步骤:在研究区域的磁异常图上选择感兴趣区域进行3D磁反转,并分离所选择的所选区域中的2D测量线; 使用在感兴趣区域中分离的2D测量线上的数据的2D测量线的组合,分别执行包括在预先信息中的2D测量线的2D正向建模和2D反演,分别产生一组2D加权函数部分和一组 2D测量线数据的2D磁化率部分,以及分别使用2D加权函数部分和2D磁化率部分的集合的3D预先信息模型和3D初始模型; 使用3D提前信息模型和3D初始模型对感兴趣区域进行3D磁反演; 并显示感兴趣区域的磁化率立方体。 因此,使用本发明的2D正向建模和2D反演来反映提前信息的方法是能够连续地减少3D磁反转的非唯一性并绘制具有地质意义的合理反演结果的实用技术。 (S11)输入研究区域的磁异常图; (S13)在磁异常图上显示感兴趣的区域; (S15)显示感兴趣区域的2D测量线; (S21-1)2D正演模型; (S21-2)2D反演; (S23-1)生成2D加权函数部分; (S23-2)生成2D磁化率部分; (S25-1,S25-2)输入所有提前信息; (S27-1)生成3D提前信息模型; (S27-2)生成3D初始模型; (S30)3D反演; (S40)分析磁化率立方体
    • 8. 实用新型
    • 디지털 3축 플럭스게이트 자기장 측정기를 이용한 철재가배근된 깊은 기초의 심도 탐지장치
    • 深基础深度检测装置采用钢制三轴磁通门磁场仪
    • KR200344330Y1
    • 2004-03-09
    • KR2020030039941
    • 2003-12-23
    • 지하정보기술(주)
    • 최재화차영호조철현
    • G01V3/08
    • G01V3/08G01B7/26G01R33/0206G01V3/38
    • 본 고안은 디지털 3축 플럭스-게이트 자기장 측정기를 이용한 철재가 배근된 깊은 기초의 심도 탐지장치에 관한 것으로서, 특히 시추공 내부로 삽입되어 철재로부터 발생되는 유도자기장을 감지하여 디지탈신호로 출력하는 플럭스 게이트 센서를 구비하고, 상기 센서에서 출력된 디지탈 감지정보를 먼거리 전송이 가능한 RS-422 통신규약, 호환성이 뛰어난 RS-232통신규약 및 노트북 컴퓨터와 같은 포터블 컴퓨터로의 공급이 가능한 USB통신규약으로 변환하는 수단을 구성하므로서, 플럭스 게이트 센서에서 감지된 정보를 USB선 1개만을 구비하고 있는 노트북 컴퓨터와 같은 포터블 컴퓨터를 통해 저장 및 출력할 수 있도록 하고, 제품의 외형을 축소할 수 있음은 물론 내장된 밧데리로서 작동함에 따라 장소에 구애 받지 않고 기초의 심도를 측정할 수 있으며, 디지털화된 플럭스 게이트 센서를 통해 많은 양의 자료를 감지하고 전송할 수 있게되므로 측정결과에 대한 매우 높은 신뢰도를 지니는 측정값을 얻을 수 있도록 한 디지털 3축 플럭스-게이트 자기장 측정기를 이용한 철재가 배근된 깊은 기초의 심도 탐지장치에 관한 것이다.
    • 9. 发明公开
    • 보안을 위한 소지품 검색 장치
    • 个人影响检查装置的安全
    • KR1020030053597A
    • 2003-07-02
    • KR1020010083351
    • 2001-12-22
    • 주식회사 레이콤
    • 이진이김정훈김청수
    • G01V3/08
    • G01V3/08G01K13/002G01V3/38G08B3/10
    • PURPOSE: A personal effects inspection device for security is provided to reduce a time for inspection and to detect easily illegal belongings by using a sensor portion for detecting each position of personal effects and the distribution of the physical quantity of the personal effects. CONSTITUTION: A personal effects inspection device for security includes a sensor portion(113,115), a control portion(121), a selection portion, an alarm portion(141), a display portion, a switch, and an analysis portion(151). The sensor portion(113,115) inspects personals belongings. The control portion stores and analyzes the outputs of the sensor portion to extract each position of the personal effects and the distribution of the physical quantity of the personal effects. The selection portion classifies the outputs of the control portion to a measurement mode, a replay mode, and an estimation mode. The alarm portion generates the alarm sound in response to the output of the control portion at the measurement mode. The display portion displays the distribution of the physical quantity of the personal effects at the measurement mode. The switch is used for controlling the outputs of the control portion at the replay mode in order to shift the distribution of the physical quantity of the personal effects. The analysis portion estimates shapes of the personal effects from the data of the control portion at the estimation mode.
    • 目的:提供一种用于安全的个人物品检查装置,通过使用传感器部分来检测个人物品的每个位置和个人物品的物理量的分布,减少检查时间和易于检测的非法物品。 构成:用于安保的个人物品检查装置包括传感器部分(113,115),控制部分(121),选择部分,报警部分(141),显示部分,开关和分析部分(151)。 传感器部分(113,115)检查个人物品。 控制部分存储和分析传感器部分的输出以提取个人效果的每个位置和个人效果的物理量的分布。 选择部分将控制部分的输出分类为测量模式,重放模式和估计模式。 响应于测量模式下的控制部分的输出,报警部分产生报警声。 显示部分显示在测量模式下的个人效果的物理量的分布。 开关用于在重放模式下控制控制部分的输出,以便移动个人效果的物理量的分布。 分析部分根据估计模式下的控制部分的数据估计个人影响的形状。