会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 62. 发明授权
    • 유용 방사성 원소의 감마선량 측정방법
    • 测量有用辐射元素的伽玛强度的方法
    • KR101552954B1
    • 2015-09-14
    • KR1020150024908
    • 2015-02-23
    • 한국지질자원연구원
    • 강무희
    • G01V5/06G01T1/167
    • G01V5/06G01T1/167
    • 본 발명은 유용 방사성 원소의 감마선량 측정방법에 관한 것으로, 시추를 통하여 시추코어를 얻는 단계와; 상기 시추코어의 자연감마선 량을 측정하여 자연감마선 량에 관한 채널별 데이터를 얻는 단계와; 상기 채널별 데이터 중 칼륨에 해당하는 채널 영역과 채널 폭을 설정하는 단계와; 상기 설정된 채널 영역에 위치하는 피크의 상기 채널폭에 해당하는 면적으로부터 자연감마선 량 중 칼륨으로부터 기인하는 칼륨 감마선량을 계산하는 단계를 포함한다.
    • 本发明涉及一种用于测量有用放射性元素的伽马射线强度的方法,包括以下步骤:通过钻孔获取钻芯; 通过测量钻芯的自然伽马射线强度来获取关于每个通道的自然γ射线强度的数据; 在每个信道的数据中配置信道域和对应于钾的信道的宽度; 并且从位于配置的通道结构域中的峰的来自相当于通道的宽度的区域的自然γ射线强度计算出钾的伽马射线强度。
    • 63. 发明授权
    • 방사선 안전관리 장치
    • 辐射安全管理单位
    • KR101451270B1
    • 2014-10-17
    • KR1020140080428
    • 2014-06-30
    • 일진방사선 엔지니어링 (주)
    • 정영근이준희김재민송기창이동기
    • G08B21/12G01T1/167H04N7/18
    • G08B21/12G01T1/167H04N7/18
    • Disclosed is a radiation safety management apparatus, capable of monitoring a wide space where a radiation work is performed, monitoring a radiation dose applied to a worker in real time, and rapidly and effectively coping with radiation, if necessary. The radiation safety management apparatus includes an ADR plus carried by the worker who works in a place related to the radiation, an access point, a plurality of radiation monitors, a base station, and an ARMS server. The ADR plus detects an individual radiation dose of the worker, transmits the individual radiation dose to the access point, and provides a wired ear set including an earphone and a microphone to the worker. The ARMS server processes information received from the access point, stores the information into a corresponding storage place, monitors an accumulated personal radiation dose of the worker made using the information, and monitors an accumulated spatial dose rate, and directly transmits a desirable indication to the worker via the base station, the access point, and the ear set.
    • 本发明公开了一种辐射安全管理装置,其能够监视进行辐射作业的宽广空间,实时监控施加于工人的辐射剂量,并且,如果需要,可快速有效地应付辐射。 辐射安全管理装置包括在与辐射有关的地方工作的工人携带的ADR plus,接入点,多个辐射监视器,基站和ARMS服务器。 ADR plus检测工作人员的个体辐射剂量,将个体辐射剂量传输到接入点,并向工作人员提供包括耳机和麦克风的有线耳机组。 ARMS服务器处理从接入点接收到的信息,将信息存储到对应的存储位置,监视使用该信息制作的工作人员累积的个人辐射剂量,并监视累积的空间剂量率,并直接向 工作人员通过基站,接入点和耳机组。
    • 64. 发明公开
    • 실시간 수질 방사능 측정장치
    • 用于检测辐射的装置
    • KR1020140115780A
    • 2014-10-01
    • KR1020130030867
    • 2013-03-22
    • 주식회사 오리온이엔씨
    • 이운장
    • G01T1/167G01N33/18
    • Y02A20/206G01T1/167G01T7/12G08C17/02H04B1/38
    • The present invention relates to a device for detecting water radioactivity in real time. The device comprises a sensor, which measures underwater radioactivity; a body, which stores data measured by the sensor and determines whether the water is contaminated; and a transceiving unit which tranceives radioactivity data of the body to/from a remote place in a wired or wireless method. The device for detecting water radioactivity is small enough to be portable, so the device can be easily moved to a place where radioactivity is measured and can measure radioactivity. Also, radioactivity can be quantitatively measured. In addition, the device receives the measured data in a wired or wireless method, thereby monitoring site conditions in real time from a remote place.
    • 本发明涉及实时检测放射性水的装置。 该装置包括测量水下放射性的传感器; 存储由传感器测量的数据并确定水是否被污染的物体; 以及收发单元,其以有线或无线方式将身体的放射性数据引导到/远离地方。 用于检测水放射性的装置足够小以便携带,因此该装置可以容易地移动到测量放射性的地方并且可以测量放射性。 此外,可以定量测量放射性。 此外,设备以有线或无线方式接收测量数据,从而远程监控实时状况。
    • 65. 发明授权
    • 방사능 검출을 위한 장치 및 방법
    • 用于检测辐射的装置和方法
    • KR101415859B1
    • 2014-08-06
    • KR1020077022252
    • 2006-02-26
    • 어드밴스드 퓨얼 리서치, 인크
    • 루벤스테인,에릭,피.
    • G01T1/00
    • G01T1/167G01T1/24G01V5/0075
    • 감광성 반도체 기반의 이미저들에 화소들로부터 디지털 이미지들 또는 전하는 방사능 물질들에 의해 방출되는 감마선들 및 에너지성 입자들을 검출하는데 사용된다. 방법들은 고 에너지 감마선들에 의해 디지털 이미지들 및 비디오 이미지들에 도입된 화소-규모의 아티팩트들을 식별하는데 사용될 수 있다. 이미지들 또는 화소들에 아티팩트들에 관한 통계적 테스트들 및 그외 비교들은 감마선들의 오-확정 검출을 방지하는데 사용될 수 있다. 시스템의 감도는 50미터를 넘어선 거리들에서 방사능 물질을 검출하는데 사용될 수 있다. 진보된 처리 기술들은 기울기 탐색들이 소스의 위치를 보다 정확하게 판정할 수 있게 하며, 그외 다른 조치들은 특정 동위원소를 식별하는데 사용될 수 있다. 서로 다른 이미저들의 통합 및 네트워크 경보들은 시스템이 방사능 객체들로부터 비-방사능 객체들을 분리할 수 있게 하여 준다.
      이미저, 네트워크 경보, 방사능 객체, 비-방사능 객체, 동위원소
    • 数字图像或手机光敏半导体相机中像素的电荷被用于检测由放射性物质发射的高能γ射线。 可以使用方法来识别由伽马射线引入到数字图像和视频图像中的像素尺度伪像。 对图像或像素中的伪像的统计测试和其他比较可以用于防止γ射线的假阳性检测。 系统的灵敏度可用于检测距离超过50米的放射性材料。 高级处理技术允许梯度搜索更准确地确定源的位置,而其他动作可用于识别特定的同位素。 不同成像器和网络警报的协调允许系统将非放射性物体与放射性物体分开。
    • 66. 发明授权
    • 토양의 방사성 오염도 측정을 위한 휴대용 대면적 서베이미터
    • 用于测量地球放射性污染的便携式测量仪
    • KR101419766B1
    • 2014-07-21
    • KR1020130069212
    • 2013-06-17
    • 동국대학교 경주캠퍼스 산학협력단
    • 문주현박찬희이아림이정민한병섭
    • G01T1/169
    • G01T1/169G01T1/167G01T1/2002G01T1/2023
    • The present invention relates to a portable large-area survey meter for measuring the radioactive contamination of a nuclear facility site and surrounding soil and, more specifically, to a portable large-area survey meter for measuring the radioactive contamination of soil, which has an accommodating part with a guide groove to detachably install, on a movable survey meter body, an alpha ray detection kit, a beta ray detection kit, and a gamma ray detection kit for detecting an alpha ray, a beta ray, and a gamma ray emitted from the soil, respectively so as to easily perform a radioactive contamination measuring survey of the soil and which measures radioactivity in real time while moving in a field without the hassle of sampling for a large-area site so as to increase efficiency.
    • 本发明涉及一种用于测量核设施场地和周围土壤的放射性污染的便携式大面积测量仪,更具体地,涉及用于测量土壤的放射性污染的便携式大面积测量仪,其具有容纳 部分具有导向槽,以可拆卸地安装在可移动测量仪表主体上的α射线检测套件,β射线检测套件和用于检测从其发射的α射线,β射线和γ射线的伽马射线检测套件 土壤分别容易进行土壤的放射性污染测量测量,并且在田间移动时实时测量放射性,而无需大面积场地的采样麻烦,从而提高效率。
    • 67. 发明公开
    • 함입형 관통확산 실험장치 및 교반장치
    • 替代通过扩展测试设备和激活设备
    • KR1020140082421A
    • 2014-07-02
    • KR1020120152363
    • 2012-12-24
    • 한국원자력연구원한국수력원자력 주식회사
    • 박정균고용권
    • G01T1/167
    • G01T1/167G01T7/02
    • A recessed test device for penetration and diffusion according to the present invention comprises a first container, which has a first open unit in the upper part; a first cover, which has an insertion hole penetrating the upper and lower surfaces on one side and is inserted into the first open unit of the first container; a second container, which has a second opening unit in the lower part and is inserted inside the first container through a first cover insertion unit; and a test piece holder, which fixes a test piece and is combined to the connection unit of a second opening unit. A test solution is stored in the first container. A diffusion solution is stored in the second container. The recessed test device for penetration and diffusion according to the present invention enables a test to be performed by injecting the test solution and the diffusion solution by using the inside and outside containers. Therefore, the volume of the test device can be reduced. Also, the volume of the outside container is larger than the volume of the inside container, so an additional tank for storing a high concentration test solution does not need to be installed. In addition, the outside container is inserted into the inside container, so storage and test can be stably performed.
    • 根据本发明的用于穿透和扩散的凹陷测试装置包括:第一容器,其在上部具有第一打开单元; 第一盖,其具有穿过一侧的上表面和下表面并插入到第一容器的第一打开单元中的插入孔; 第二容器,其在下部具有第二开口单元,并且通过第一盖插入单元插入第一容器内; 以及固定试验片并与第二开口单元的连接单元组合的试片保持器。 测试溶液存储在第一容器中。 扩散溶液存储在第二容器中。 根据本发明的用于渗透和扩散的凹陷测试装置能够通过使用内部和外部容器注入测试溶液和扩散溶液来进行测试。 因此,可以减小测试装置的体积。 此外,外部容器的体积大于内部容器的体积,因此不需要安装用于储存高浓度测试溶液的附加容器。 此外,外部容器插入到内部容器中,因此可以稳定地进行存储和测试。
    • 68. 发明授权
    • 사용후핵연료의 핵연료봉별 축방향 감마선량 및 연소도 분포 측정 방법 및 이를 이용한 시스템
    • 轴向GAMMA剂量率和燃烧轮廓确定系统及方法
    • KR101406881B1
    • 2014-06-13
    • KR1020120157517
    • 2012-12-28
    • 한국원자력연구원
    • 신희성박세환오종명서희요스시톰풀김호동
    • G21C17/06
    • G21C17/06G01T1/167G21C17/10
    • The present invention relates to a method for measuring axial gamma dose rate and burnup distribution for each nuclear fuel rod of a spent nuclear fuel and a system using the same and to a system for measuring axial gamma dose rate and burnup distribution for each nuclear fuel rod of a spent nuclear fuel comprising: a gamma dose rate measurement part (100) composed of at least one gamma dose rate detector (11) which measures the axial gamma dose rate along an axial direction of a plurality of control rod guide tubes(10) formed within a spent nuclear fuel aggregate (1); and a controller (200) for transferring a control signal for controlling drive of the gamma dose rate measurement part (100) and measuring each of the axial gamma dose rate and the burnup distribution for each of a plurality of nuclear fuel rods (20) formed within the spent nuclear fuel aggregate (1) by using the gamma dose rate measured by the gamma dose rate measurement part (100).
    • 本发明涉及一种用于测量乏核燃料的每个核燃料棒的轴向γ剂量率和燃耗分配的方法,以及用于测量每个核燃料棒的轴向γ剂量率和燃耗分布的系统 包括:由至少一个伽马剂量率检测器(11)组成的伽马剂量率测量部件(100),其测量沿着多个控制杆导管(10)的轴向的轴向γ剂量率, 在乏燃料骨料(1)内形成; 以及控制器(200),用于传送用于控制伽马剂量率测量部件(100)的驱动的控制信号,并测量形成的多个核燃料棒(20)中的每一个的轴向γ剂量率和燃耗分配 通过使用由伽马剂量率测量部件(100)测量的伽马剂量率在废核燃料聚集体(1)内。
    • 69. 发明授权
    • 방사성폐기물 드럼 TGS 분석의 기준핵종 정량분석을 위한 간섭핵종의 간섭현상 제거방법
    • 用于在TOMOGRAPHIC GAMMA扫描仪上表征主要核素的干扰校正的校准方法
    • KR101380769B1
    • 2014-04-17
    • KR1020130137572
    • 2013-11-13
    • 주식회사 고도기술
    • 정성엽전태훈
    • G01T1/36G01T1/02
    • G01T1/36G01T1/167G01T7/005G21F5/005G21F9/28
    • The present invention relates to an interference removing method of interference nuclide for quantitative analysis of standard nuclide in radioactive waste drum TGS analysis and, more specifically, an interference removing method of interference nuclide for a quantitative analysis of standard nuclide in radioactive waste drum TGS analysis, capable of maximizing accuracy on the quantitative analysis of the standard nuclide in a radioactive waste drum. The present invention includes a first step of calculating the difference between gamma-ray energy (EK) of the standard nuclide and gamma-ray energy (EI) of the interference nuclide; a second step of calculating optimal energy range factor (F(EK)); and a third step of setting final energy (EKPE) of the standard nuclide as a value in which the gamma-ray energy (EK) of the standard nuclide is added to a value in which half amplitude (FWHM(EK)) of a detector on the standard nuclide and the optimal energy range factor are multiplied. [Reference numerals] (AA) Start; (BB) End; (S102) Form a primer layer; (S104) Arrange an insulation plate; (S106) Form an insulation waterproof mortar layer; (S108) Form a waterproof mortar layer; (S110) Form a protective mortar layer; (S112) Attach a pattern sheet; (S114) Apply a pigment; (S116) Remove the pattern sheet; (S118) Forming a coating layer
    • 本发明涉及一种用于放射性废物桶TGS分析中的标准核素的干扰核素的干扰去除方法,更具体地说,涉及用于放射性废物桶TGS分析中的标准核素的定量分析的干扰核素的干扰去除方法, 能够最大限度地提高放射性废料桶中标准核素的定量分析的准确性。 本发明包括计算标准核素的γ射线能量(EK)与干扰核素的γ射线能量(EI)之差的第一步骤; 计算最佳能量范围因子(F(EK))的第二步; 以及将标准核素的最终能量(EKPE)设定为将标准核素的γ射线能量(EK)加到检测器的半幅度(FWHM(EK))的值的值的第三步骤 在标准核素上和最佳能量范围因子相乘。 (附图标记)(AA)开始; (BB)结束; (S102)形成底漆层; (S104)安排绝缘板; (S106)形成绝缘防水砂浆层; (S108)形成防水砂浆层; (S110)形成保护砂浆层; (S112)安装图案纸; (S114)涂上颜料; (S116)取下图案纸; (S118)形成涂层
    • 70. 发明授权
    • 방사성 폐기물 드럼의 방사능 량 산출 장치
    • 放射性废物废物计算放射性物质的装置
    • KR101260486B1
    • 2013-05-06
    • KR1020120018373
    • 2012-02-23
    • 한국수력원자력 주식회사
    • 강상희
    • G01T1/29G21C17/10
    • G01T1/169G01T1/02G01T1/167G01T7/005
    • PURPOSE: A device for calculating a radioactive dose of a radioactive waste drum is provided to determine the total radioactive dose of a low and intermediate level radioactive waste drum hard to measure by reflecting properties of each waste drum. CONSTITUTION: A device for calculating a radioactive dose of a radioactive waste drum comprises a first memory(110), a second memory(120), a first measuring unit(130), an estimating unit(140), a deduction unit(150), a second measuring unit(160), a first calculating unit(170), a correction unit(180), and a second calculating unit(190). The first memory stores correction factors for a radioactive distribution plate and a relevant section thereof. The second memory stores a conversion table for surface dose per unit radiation which indicates the relation between the density of each nuclide inside the radioactive waste drum and the surface dose per unit radiation. The first measuring unit measures the surface dose at 12 spots of the radioactive waste drum. The estimating unit utilizes distances between a measuring device(10) and the nuclides and the average surface dose of the 12 spots, thereby estimating positions of the nuclides inside the radioactive waste drum with a nonlinear optimization method. [Reference numerals] (10) Measuring device; (110) First memory; (120) Second memory; (130) First measuring unit; (140) Estimating unit; (150) Deduction unit; (160) Second measuring unit; (170) First calculating unit; (180) Correction unit; (190) Second calculating unit; (20) Drum
    • 目的:提供一种用于计算放射性废物鼓的放射性剂量的装置,以确定通过反映每个废物转鼓的性质来测量难以测量的低级和中级放射性废料桶的总放射性剂量。 构成:用于计算放射性废物桶的放射性剂量的装置,包括第一存储器(110),第二存储器(120),第一测量单元(130),估计单元(140),扣除单元(150) ,第二测量单元(160),第一计算单元(170),校正单元(180)和第二计算单元(190)。 第一存储器存储放射性分布板及其相关部分的校正因子。 第二个存储器存储每单位辐射的表面剂量的转换表,其表示放射性废物转鼓内的每个核素的密度与每单位辐射的表面剂量之间的关系。 第一个测量单位测量放射性废物桶的12个点处的表面剂量。 估计单元利用测量装置(10)和核素之间的距离和12个点的平均表面剂量,从而以非线性优化方法估计放射性废物滚筒内的核素的位置。 (附图标记)(10)测量装置; (110)第一记忆; (120)第二存储器; (130)第一测量单元; (140)估计单位; (150)扣除单位; (160)第二测量单元 (170)第一计算单元; (180)校正单元; (190)第二计算单元; (20)鼓