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公开(公告)号:KR101485026B1
公开(公告)日:2015-01-28
申请号:KR1020130080827
申请日:2013-07-10
申请人: 한국지질자원연구원
摘要: 본 발명은 지질조사용 시추코어 커팅 장치 및 이를 이용한 시추코어 커팅 방법에 관한 것으로, 보다 상세하게는 원형의 시료관을 이용하여 코어시료를 채취한 시추코어를 용이하게 양분할 수 있도록 한 것이다.
특히, 본 발명은 원형의 시료관을 이용하여 코어시료를 채취할 수 있어, 시추시 코어시료의 손상을 방지할 수 있음은 물론, 다양한 직경의 시추코어에 대하여, 코어시료의 손상을 방지하면서 코어시료를 감싸고 있는 시료관 만을 절개할 수 있기 때문에, 다양한 형태의 시추장치들과 연계하여 사용할 수 있다.
또한, 본 발명은 시료관의 절개시 발생되는 열을 효율적으로 제거함으로써, 열에 의한 코어시료의 특성변화를 미연에 방지하도록 함으로써, 시추코어의 분석결과에 대한 신뢰성을 향상시킬 수 있다.
따라서, 지질조사 분야, 특히 지질조사를 위한 시추코어의 보관 기술과 관련된 분야는 물론, 이와 유사 내지 연관된 분야에서 신뢰성 및 경쟁력을 향상시킬 수 있다.-
公开(公告)号:KR101485027B1
公开(公告)日:2015-01-21
申请号:KR1020130076397
申请日:2013-07-01
申请人: 한국지질자원연구원
IPC分类号: G01N1/44
摘要: 멀티 가스 채널 구조를 갖는 시료연소장치를 개시한다. 상기 멀티 가스 채널 구조를 갖는 시료연소장치는 마이크로파를 통해 유기시료를 연소시키는 시료연소부; 밸브가 구비된 복수 개의 가스 채널들이 형성되고, 상기 밸브의 제어를 통해 상기 시료연소부로부터 연소된 연소가스를 상기 복수 개의 가스 채널들 중 적어도 하나 이상의 가스 채널에 선택적으로 분배하는 멀티 가스 채널 분배 포트; 및 상기 멀티 가스 채널 분배 포트로부터 제공된 상기 연소가스 내의 불순물 기체를 제거하는 적어도 하나 이상의 연소가스분리부;를 포함하고, 상기 밸브는 제어장치의 제어신호에 따라 구동되며, 상기 연소가스분리부는 기체크로마토그래피법을 통해 상기 연소가스 내의 불순물 기체를 제거하는 것을 특징으로 한다.
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公开(公告)号:KR101465017B1
公开(公告)日:2014-11-25
申请号:KR1020130007420
申请日:2013-01-23
申请人: 한국지질자원연구원
IPC分类号: G01N1/02
摘要: 본 발명은 수평토층의 채집 및 배출이 용이한 수평토층 채집장치에 관한 것으로, 수직으로 적층된 토층의 수직단면에 수평방향으로 삽입되는 사각 외측 몸체부, 상기 사각 외측 몸체부의 내부에 일정간격 이격되어 설치되고, 상기 사각 외측 몸체부와 분리 가능하도록 결합하며, 내부에 수평토층을 수납하는 수납공간이 형성된 사각 내측 몸체부, 상기 사각 외측 몸체부의 일면과 상기 사각 내측 몸체부의 일면 사이의 이격공간에 상하이동이 가능하게 위치된 단절부, 상기 단절부의 하부에 연결되고, 상기 사각 외측 몸체부의 일면에 대응하는 타면과 상기 사각 내측 몸체부의 일면에 대응하는 타면 사이의 이격공간까지 연장되어 이격공간의 상부로 돌출하는 스트링부, 상기 사각 외측 몸체부의 하단에 장착되고, 상기 사각 외측 몸체부의 하단에서 커팅부재가 수평토층을 커팅하도록 구동시키는 구동부재를 구비하는 토층 절단부 및 일단이 상기 구동부재와 연결되고, 타단에 상기 구동부재의 구동에 의해 회전하는 오거(auger)부재가 구비되며, 상기 사각 외측 몸체부의 하단으로부터 돌출된 오거부를 포함하고, 상기 사각 내측 몸체부는 양 단부가 하부로 절곡되어 측면이 형성된 상부몸체부 및 양 단부가 상부로 절곡되어 측면이 형성된 하부몸체부의 결합으로 이루어지는 것을 특징으로 한다.
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公开(公告)号:KR1020140094856A
公开(公告)日:2014-07-31
申请号:KR1020130007420
申请日:2013-01-23
申请人: 한국지질자원연구원
IPC分类号: G01N1/02
摘要: The present invention relates to a horizontal soil stratum sampling device capable of easily collecting and discharging a horizontal soil stratum. The horizontal soil stratum sampling device comprises a rectangular outer body part horizontally inserted in the vertical cross section of the vertically laminated soil stratum; a rectangular inner body part separated from the rectangular outer body part at a predetermined gap, coupled to the rectangular outer body part to be separated, and having an internal storage space for storing the horizontal soil stratum; a blocking part positioned in one separated space between one surface of the rectangular outer body part and one surface of the rectangular inner body part to be vertically moved; a string part connected to the lower part of the blocking part, and protruding to the upper part of the other separated space while being extended to the other separated space between the other surface of the rectangular outer body part and the other surface of the rectangular inner body part; a soil stratum cutting part mounted on the bottom of the rectangular outer body part, and having driving members arranged on the bottom of the rectangular outer body part so that a cutting member can be driven to cut the horizontal soil stratum; and an auger part having one end connected to the driving members and the other end on which auger members rotated by the driving members are arranged, and protruding from the bottom of the rectangular outer body part. The rectangular inner body part is formed by coupling an upper body part having both ends bent downward to make the lateral surfaces and a lower body part having both ends bent upward to make the lateral surfaces.
摘要翻译: 本发明涉及一种能够容易地收集和排放水平土层的水平土层采样装置。 水平土层取样装置包括水平插入垂直层叠土层垂直横截面的矩形外体部分; 与矩形的外部主体部分以预定的间隔分离的矩形的内部主体部分,其联接到待分离的矩形外部主体部分,并具有用于存储水平土层的内部存储空间; 位于所述矩形外部主体部分的一个表面和所述矩形内部主体部分的一个表面之间的一个分离空间中的待垂直移动的阻挡部分; 连接到阻挡部分的下部的弦部分,并且突出到另一分离空间的上部,同时延伸到矩形外部本体部分的另一个表面和矩形外部主体部分的另一个表面之间的另一个分隔空间 身体的一部分; 安装在矩形外部主体部分的底部的土层切割部分,并且具有布置在矩形外部主体部分的底部上的驱动构件,从而可以驱动切割构件切割水平土层; 以及一个螺旋部分,其一端连接到驱动构件,另一端布置有由驱动构件旋转的螺旋推运构件,并且从矩形外部主体部分的底部突出。 矩形内部主体部分通过将具有向下弯曲的两个端部的上部主体部分联接以形成侧面而形成,并且具有向上弯曲的两个端部的下部主体部分以形成侧面。
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公开(公告)号:KR1020140085033A
公开(公告)日:2014-07-07
申请号:KR1020120155161
申请日:2012-12-27
申请人: 한국지질자원연구원
摘要: The present invention relates to an optically stimulated luminescence (OSL) age dating method for a sediment core whose cut surface is exposed to light, which can perform OSL age dating, by dividing particles of a sediment core sample into non-homogeneous soil and sandy soil according to the size in order to remove the core sample exposed to light and by performing a single aliquot regenerative dose through quartz separation, in order to perform OSL age dating using the sediment core sample already exposed to light due to cutting. The OSL age dating method comprises as follows: a first step which prepares a sediment core sample whose cut surface is exposed to light; a second step which classifies the sediment core sample into non-homogeneous soil and sandy soil according to the particle size; a third step which removes part of the sediment core sample to a fixed depth from the cut surface based on the non-homogeneous soil and sandy soil classified in the second step; a fourth step which separates quartz from the sediment core sample whose part is removed to the fixed depth from the cut surface; and a fifth step which performs age dating of the separated quartz. The fifth step measures the sediment age of the quartz as a single aliquot regenerative dose of the OSL age dating method.
摘要翻译: 本发明涉及通过将沉积物芯样品的颗粒分为不均匀的土壤和砂质土壤,其切割面暴露于光的光学激发发光(OSL)年龄测年方法,其可以执行OSL年龄测年 根据大小以去除暴露于光的核心样品和通过石英分离进行单次等分试样再生剂量,以便使用已经暴露于光的切屑沉积物芯样品进行OSL年龄测年。 OSL年龄测定方法包括如下步骤:准备切割表面暴露于光的沉积物芯样品的第一步骤; 第二步,根据粒度将沉积物岩心样品分为非均质土壤和沙土; 第三步骤,基于分类在第二步骤中的非均质土壤和沙土,将部分沉积物芯样品从切割表面去除固定的深度; 第四步骤将石英与其部分从切割表面移除到固定深度的沉积物芯样品; 以及执行分离的石英的年龄约会的第五步骤。 第五步测量石英的沉积年龄作为OSL年龄测定方法的单次等分再生剂量。
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公开(公告)号:KR101303959B1
公开(公告)日:2013-09-05
申请号:KR1020130018077
申请日:2013-02-20
申请人: 한국지질자원연구원
摘要: PURPOSE: A continuous recovery method for the separation of uranium and vanadium is provided to apply an optimal leaching condition, thereby increasing the leaching rates of the uranium and the vanadium from a black slate and efficiently extracting the uranium and the vanadium from the black slate. CONSTITUTION: A continuous recovery method for the separation of uranium and vanadium includes: a step (S10) of crushing and pulverizing a black slate; a step (S20) of primarily leaching the crushed and pulverized black slate; a step (S30) of separating the primarily leached black slate into solid and liquid; a step (S40) of secondarily leaching the separated solid, and then secondarily separating the solid into solid and liquid; a step (S50) of re-leaching the secondarily separated liquid with the crushed and pulverized black slate, and then primarily separating the leached liquid into solid and liquid; a step (S60) of solvent-extracting the uranium from the primarily separated liquid; a step (S70) of washing and stripping a remaining organic solution after solvent-extracting the uranium; a step (S80) of depositing the uranium in a remaining stripping solution after stripping, separating the uranium into solid and liquid, drying a precipitate from the separation of the uranium, and then recovering the uranium; a step (S90) of oxidizing the vanadium from a remaining raffinate after solvent-extracting the uranium, and then solvent-extracting the vanadium; a step (S100) of washing and stripping the remaining organic solution after solvent-extracting the vanadium; and a step (S110) of depositing the vanadium in the remaining stripping solution after stripping, separating the vanadium into solid and liquid, calcining a precipitate from the separation of the vanadium, and then recovering the vanadium. [Reference numerals] (S10) Step of crushing and pulverizing a black slate; (S100) Step of washing and stripping the remaining organic solution; (S110) Step of depositing the vanadium in the remaining stripping solution, separating the vanadium into solid and liquid, calcining a precipitate from the separation of the vanadium, and then recovering the vanadium; (S20) Step of primarily leaching the crushed and pulverized black slate; (S30) Step of separating the primarily leached black slate into solid and liquid; (S40) Step of secondarily leaching the separated solid and then secondarily separating the solid into solid and liquid; (S50) Step of re-leaching the secondarily separated liquid with the crushed and pulverized black slate and then primarily separating the leached liquid into solid and liquid; (S60) Step of solvent-extracting the uranium from the primarily separated liquid; (S70) Step of washing and stripping a remaining organic solution after solvent-extracting the uranium; (S80) Step of depositing the uranium in a remaining stripping solution, separating the uranium into solid and liquid, drying a precipitate, and then recovering the uranium, and then recovering the uranium; (S90) Step of oxidizing the vanadium from a remaining raffinate and then solvent-extracting the vanadium
摘要翻译: 目的:提供分离铀和钒的连续回收方法,以应用最佳浸出条件,从而从黑色石板提高铀和钒的浸出率,并有效地从黑色石板中提取铀和钒。 构成:分离铀和钒的连续回收方法包括:粉碎和粉碎黑色板岩的步骤(S10); 主要浸出粉碎和粉碎的黑色板岩的步骤(S20) 将主要沥滤的黑色板岩分离成固体和液体的步骤(S30); 二次浸出分离固体的步骤(S40),然后将固体二次分离成固体和液体; 用粉碎和粉碎的黑色石板再次浸出二次分离的液体的步骤(S50),然后主要将浸出的液体分离成固体和液体; 从主要分离的液体中溶剂萃取铀的步骤(S60) 在溶剂萃取铀之后洗涤和汽提剩余的有机溶液的步骤(S70) 在剔除之后将铀沉积在剩余的汽提溶液中的步骤(S80),将铀分离成固体和液体,从分离铀干燥沉淀物,然后回收铀; 在溶剂萃取铀之后,将剩余的残液中的钒进行氧化,然后对钒进行溶剂萃取的工序(S90) 在溶剂提取钒之后洗涤和汽提剩余的有机溶液的步骤(S100); 以及在汽提后将钒沉积在剩余的汽提溶液中的步骤(S110),将钒分离成固体和液体,从分离钒煅烧沉淀物,然后回收钒。 (S10)粉碎粉碎黑色板岩的工序; (S100)洗涤和除去剩余的有机溶液的步骤; (S110)将钒沉积在剩余的汽提溶液中,将钒分离成固体和液体,从钒的分离中煅烧沉淀物,然后回收钒; (S20)主要浸出粉碎和粉碎的黑色板岩的步骤; (S30)将主要浸出的黑色板岩分离成固体和液体的步骤; (S40)二次浸出分离后的固体,然后二次将固体分离成固体和液体的步骤; (S50)将被粉碎和粉碎的黑色石板再次浸出二次分离液体的步骤,然后主要将浸出的液体分离成固体和液体; (S60)从主要分离的液体中溶剂萃取铀的步骤; (S70)溶剂萃取铀后洗涤和汽提剩余的有机溶液的步骤; (S80)将铀沉积在剩余的汽提溶液中,将铀分成固体和液体,干燥沉淀物,然后回收铀,然后回收铀的步骤; (S90)从剩余的残液中氧化钒,然后溶剂萃取钒的步骤
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公开(公告)号:KR101227924B1
公开(公告)日:2013-01-30
申请号:KR1020120086573
申请日:2012-08-08
申请人: 한국지질자원연구원
摘要: PURPOSE: A clinometer with a detachable measuring rod and a measuring plate and a method for measuring a strike and an inclination using the same are provided to prevent damage of the clinometer caused by falling the clinometer as a user can easily hold the clinometer. CONSTITUTION: A clinometer with a detachable measuring rod(400) and a measuring plate(350) comprises a body unit(100), a measurement unit(200), and a support unit(300). The measurement unit is installed in the body unit, thereby measuring a strike and an inclination. The support unit is joined to the body unit to be detachable and the measurement rod is embedded in bottom both surfaces. The measuring plate is joined to both sides of the support unit. The measurement rod is exposed to outside while sliding in the inside of the support unit, thereby being adhered to joint planes of strata. Guide grooves which slide-moves the measurement rod are formed in the bottom both surface of the support unit.
摘要翻译: 目的:提供具有可拆卸测量杆和测量板的测量仪以及使用其测量撞击和倾斜的方法,以防止由于使用者可以容易地固定测斜仪而使测斜仪下降造成的测量仪损坏。 构成:具有可拆卸测量杆(400)和测量板(350)的测力计包括主体单元(100),测量单元(200)和支撑单元(300)。 测量单元安装在身体单元中,从而测量罢工和倾斜度。 支撑单元连接到主体单元以可拆卸,测量杆嵌入底部的两个表面。 测量板连接到支撑单元的两侧。 测量杆在支撑单元的内部滑动时暴露于外部,从而粘附到地层的接合平面。 滑动移动测量杆的引导槽形成在支撑单元的底部两个表面上。
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公开(公告)号:KR101227915B1
公开(公告)日:2013-01-30
申请号:KR1020110103352
申请日:2011-10-11
申请人: 한국지질자원연구원
摘要: PURPOSE: A vertical soil sampler for seabed is provided to accurately analyze the physical and chemical properties of soil by sampling soil without distortion. CONSTITUTION: A vertical soil sampler for seabed comprises a first outer tube(200), a second outer tube(100), a support frame, and multiple anchors. The first outer tube comprises an inclined rotary blade. The second outer tube is located on the outer side of the first outer tube and has bearings(110) and connection members(120). The bearings are coupled to the first outer tube. When the first outer tube is rotated, vertical force is transferred to the second outer tube. The support frame supports the first outer tube. The anchors are connected to the support frame using a chain.
摘要翻译: 目的:提供用于海床的垂直土壤取样器,以通过对土壤进行取样而不变形地准确分析土壤的物理化学性质。 构成:用于海底的立式土壤取样器包括第一外管(200),第二外管(100),支撑框架和多个锚固件。 第一外管包括倾斜的旋转叶片。 第二外管位于第一外管的外侧,并具有轴承(110)和连接构件(120)。 轴承联接到第一外管。 当第一外管旋转时,垂直力传递到第二外管。 支撑框架支撑第一外管。 锚杆使用链条连接到支撑框架。
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公开(公告)号:KR101227892B1
公开(公告)日:2013-01-30
申请号:KR1020120026344
申请日:2012-03-15
申请人: 한국지질자원연구원
摘要: PURPOSE: An underwater environment measuring apparatus and an underwater environment measuring method thereof are provided to simultaneously measure water level of underwater environment to reduce the risk of collision. CONSTITUTION: A underwater measuring device comprises a GPS unit(100), a buoyancy member(200), a pressure tank(300), several state metering units(400), and a distance metering unit(500). The GPS unit generates location information by specially fixing a present location. The buoyancy member equipped in the lower part of the GPS unit has inner space and varies buoyancy by changing an inner volume by increasing and decreasing air. The pressure tank equipped at the lower part of buoyancy material provides buoyancy with an atmospheric difference. Several state metering units equipped at the lower part of the pressure tank comprise a flow measuring sensor which measures flux. The distance metering unit equipped in the lower part of a state metering unit measures a distance to an underwater bottom surface.
摘要翻译: 目的:提供水下环境测量仪器和水下环境测量方法,同时测量水下环境的水位,降低碰撞的风险。 构成:水下测量装置包括GPS单元(100),浮力构件(200),压力罐(300),多个状态计量单元(400)和距离计量单元(500)。 GPS单元通过专门定位当前位置来生成位置信息。 配备在GPS单元下部的浮力部件具有内部空间,并且通过增加和减少空气来改变内部体积来改变浮力。 浮力材料下部配备的压力罐具有大气差异的浮力。 配备在压力罐下部的几个状态计量单元包括测量通量的流量测量传感器。 配置在状态计量单元的下部的测距单元测量到水下底面的距离。
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