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    • 2. 发明公开
    • 냉매배관모듈 및 이를 포함하는 열교환시스템
    • 制冷管道模块和热交换系统
    • KR1020100066794A
    • 2010-06-18
    • KR1020080125267
    • 2008-12-10
    • 한국원자력연구원한국수력원자력 주식회사
    • 송철화장석규백원필
    • F24F1/26F24F1/32
    • PURPOSE: A refrigerant pipe module and a heat exchange system including the same are provided to stop the circulation of refrigerant with one-time control operation and to easily disassemble an indoor unit from an outdoor unit. CONSTITUTION: A refrigerant pipe module comprises: a refrigerant pipe unit(200) which includes at least two of refrigerant pipes and transfers refrigerant through a flow path which interlinks an indoor unit and an outdoor unit; a combining unit(500) which attachably connects the refrigerant pipes each other; and a blockade unit(400) which is arranged in the end of the refrigerant pipes and prevents the flow of the refrigerant with including two or more ball valves(410,420) which contact each other. The ball valves are successively opened and closed by one-time control operation with neighboring and contacting each other.
    • 目的:提供一种制冷剂管道模块和包括该制冷剂管道组件的热交换系统,以一次性控制操作来停止制冷剂的循环,并且能够容易地将室内机与室外机拆装。 制冷剂管道模块包括:制冷剂管道单元(200),其包括至少两个制冷剂管道,并且通过将室内单元和室外单元相互连接的流路传送制冷剂; 组合单元(500),其将制冷剂管彼此连接地连接; 以及封闭单元(400),其设置在制冷剂管的端部,并且防止包含彼此接触的两个或更多个球阀(410,420)的制冷剂的流动。 球阀通过相邻的一次控制操作相继打开和关闭,并彼此接触。
    • 3. 发明公开
    • 분리형 볼밸브장치 및 볼밸브어셈블리
    • 可分离的球阀装置和球阀组件
    • KR1020100066793A
    • 2010-06-18
    • KR1020080125266
    • 2008-12-10
    • 한국원자력연구원한국수력원자력 주식회사
    • 송철화장석규
    • F16K5/06F16K5/20
    • F16K31/535F16K5/0647F16K27/067F16K35/14Y10T137/87933
    • PURPOSE: A separable ball valve device and a ball valve assembly are provided to facilitate the separation of a pipe member by opening and closing a flow path through simple control. CONSTITUTION: A separable ball valve device and a ball valve assembly comprise a piping member(100), a ball valve member(200), and an opening and closing member(300). The piping member has a flow path. The ball valve member is located inside the piping member, opens and closes the flow path, and comprises two or more ball valves(210,220) contacting each other. The opening and closing member opens and closes the flow path by controlling the ball valve member. The through-hole is formed in the ball valve. The opening and closing member comprises a gear train. The gear train of the opening and closing member comprises a first gear(310), a second gear(320) and a central gear(330).
    • 目的:提供一种可分离的球阀装置和球阀组件,以通过简单的控制打开和关闭流路来促进管件的分离。 构成:可分离的球阀装置和球阀组件包括管道构件(100),球阀构件(200)和打开和关闭构件(300)。 管道构件具有流路。 球阀构件位于管道构件内部,打开和关闭流路,并且包括彼此接触的两个或多个球阀(210,220)。 打开和关闭构件通过控制球阀构件来打开和关闭流动路径。 通孔形成在球阀中。 开闭构件包括齿轮系。 开闭构件的齿轮系包括第一齿轮(310),第二齿轮(320)和中心齿轮(330)。
    • 4. 发明公开
    • 초점이 가변되는 광학유속측정장치
    • 用于改变光束聚焦的激光多普勒速度系统
    • KR1020080085741A
    • 2008-09-24
    • KR1020080025038
    • 2008-03-18
    • 한국원자력연구원한국수력원자력 주식회사
    • 장석규백성훈송철화
    • G01M11/00G01M11/02G02B3/14
    • G01M9/065
    • An optical velocity measuring device is provided to reduce the size of a measuring sensor by employing an LDV probe for changing beam focus and to measure the boundary layer velocity and the shear stress of a surface by using one sensor. An optical velocity measuring device comprises a beam generating unit(230), a spectroscopic unit(250), a focusing lens(210), a variable focus implementation unit, a light receiving lens(220), and a computing unit. The beam generating unit generates a laser beam. The spectroscopic unit divides the laser beam into plural light sources and has a reflector(251) which reflects some of the light sources to change the path. The focusing lens having a liquid lens collects the divided light sources and focuses the light source to a certain part to measure velocity. The variable focus implementation unit changes the spherical surface of the focusing lens to adjust focal distance. The light receiving lens receives and collects scattered lights of the focused laser. The computing unit computes the velocity by using the collected scattered lights.
    • 提供一种光学速度测量装置,通过使用用于改变光束聚焦的LDV探针来减小测量传感器的尺寸,并且通过使用一个传感器来测量表面的边界层速度和剪切应力。 光速测量装置包括光束产生单元(230),分光单元(250),聚焦透镜(210),可变焦点实现单元,光接收透镜(220)和计算单元。 光束产生单元产生激光束。 分光单元将激光束分成多个光源,并且具有反射部分(251),反射器(251)反射一些光源以改变路径。 具有液体透镜的聚焦透镜收集分割光源并将光源聚焦到某一部分以测量速度。 可变焦点实现单元改变聚焦透镜的球面以调节焦距。 光接收透镜接收和收集聚焦激光器的散射光。 计算单元通过使用收集的散射光来计算速度。
    • 5. 发明公开
    • 평면광 변환 장치 및 이를 포함하는 유동 시스템
    • 平面光转换装置和流动系统
    • KR1020080060963A
    • 2008-07-02
    • KR1020060135623
    • 2006-12-27
    • 한국원자력연구원한국수력원자력 주식회사
    • 장석규정진만백성훈문상기추연준
    • G02B27/00G01F1/66
    • G02B27/18G01B11/00G02B3/06G02B5/04
    • A plane light transforming apparatus and a flow system having the same are provided to acquire an optimum measurement condition based on the flow condition by adjusting the thickness and width of a lens of a refraction unit. A plane light transforming apparatus includes a beam case(310), a beam generation unit(320), and a plane light conversion unit. The beam generation unit provides a first beam to the beam case. The plane light conversion unit is located inside the beam case, and converts the first beam into the plane light. The plane light conversion unit includes a first refraction unit(330), a path conversion unit(340), and a second refraction unit(350). The first refraction unit is located on the path of the first beam, and converts the first beam into a second beam of slit shape. The path conversion unit is located on the path of the second beam, and converts the path of the second beam into a third beam. The second refraction unit is located on the path of the third beam, and disperses the third beam.
    • 提供一种平面光转换装置和具有该平面光​​转换装置的流动系统,以通过调整折射单元的透镜的厚度和宽度来基于流动条件获得最佳测量条件。 平面光转换装置包括光束箱(310),光束产生单元(320)和平面光转换单元。 光束产生单元向光束外壳提供第一光束。 平面光转换单元位于光束箱内,并将第一光束转换成平面光。 平面光转换单元包括第一折射单元(330),路径转换单元(340)和第二折射单元(350)。 第一折射单元位于第一光束的路径上,并将第一光束转换成第二光束。 路径转换单元位于第二光束的路径上,并将第二光束的路径转换为第三光束。 第二折射单元位于第三光束的路径上,并分散第三光束。
    • 6. 发明授权
    • 이중 밸브가 구비된 파이프의 탈착 어셈블리
    • 이중밸브가구비된파이프의탈착어셈블리
    • KR100750213B1
    • 2007-08-17
    • KR1020060051128
    • 2006-06-07
    • 한국원자력연구원한국수력원자력 주식회사
    • 장석규문상기조석김복득
    • F16L37/30F16L37/28
    • An attaching and detaching assembly of a pipe having a double valve is provided to shorten working time by selectively blocking an inner passage through valves at one side of respective pipes to separate the pipes without removing fluid. An attaching and detaching assembly of a pipe having a double valve includes a first pipe, a second pipe(200), a first valve(310), a second valve(410), a first drive shaft(320), and a second drive shaft(420). The second pipe is engaged or separated with or from the first pipe. The first valve is mounted on the first pipe. An outer side surface of the first valve has a first curvature diameter. The second valve is mounted on the second pipe. An outer side surface of the second valve has a second curvature diameter having a greater value than that of the first curvature diameter. The first drive shaft is engaged with the first valve. The second drive shaft is engaged with the second valve.
    • 提供了一种具有双阀门的管道的装卸组件,通过选择性地阻塞穿过相应管道一侧的阀门的内部通道以在不移除流体的情况下分离管道来缩短工作时间。 本发明涉及一种具有双重阀门的管道的拆装组件,其包括第一管道,第二管道(200),第一阀门(310),第二阀门(410),第一驱动轴(320)以及第二驱动器 轴(420)。 第二管与第一管接合或分开。 第一个阀门安装在第一个管道上。 第一阀的外侧表面具有第一曲率直径。 第二个阀门安装在第二个管道上。 第二阀的外侧表面具有比第一曲率直径的值大的第二曲率直径。 第一驱动轴与第一阀接合。 第二驱动轴与第二阀接合。
    • 7. 发明公开
    • 수조내 유체 질량 측정 방법과 장치
    • 用于测量水箱中流体质量的方法和装置
    • KR1020000025005A
    • 2000-05-06
    • KR1019980041868
    • 1998-10-07
    • 한국전력공사한국원자력연구원
    • 장석규정장환유봉
    • G01F23/00G01F11/42G01F23/22
    • PURPOSE: A method and an apparatus for measuring a fluid mass within a waster tank are provided to measure a fluid mass within a water tank by using each characteristic frequency corresponding to each fluid amount within a water tank. CONSTITUTION: A method for measuring a fluid mass within a waster tank is to measure a fluid mass by using a reference characteristic curve line comprising each characteristic frequency corresponding the amount of maximum fluid storage of a water tank, the amount of minimum fluid storage of the water tank, an empty water tank, and the amount of arbitrary fluid storage of the water tank. An apparatus for measuring a fluid mass within a water tank comprises a vibration measurement sensor(303), a vibration generation device(302), and a computer or a microprocessor(501).
    • 目的:提供一种用于测量废水箱内的流体质量的方法和装置,用于通过使用与水箱内的每个流体量对应的每个特征频率来测量水箱内的流体质量。 构成:用于测量废水箱内的流体质量的方法是通过使用参考特性曲线来测量流体质量,该参考特性曲线包括对应于水箱的最大流体储存量的每个特征频率, 水箱,空水箱以及水箱任意储液量。 一种用于测量水箱内的流体质量的装置包括振动测量传感器(303),振动产生装置(302)和计算机或微处理器(501)。
    • 9. 发明授权
    • 대형 고압용기 분사 모의장치_
    • 大型高压容器喷雾模拟器_
    • KR100280120B1
    • 2001-04-02
    • KR1019980041869
    • 1998-10-07
    • 한국전력공사한국원자력연구원
    • 장석규정문기정장환
    • B05B13/00B05B15/00
    • 본 발명은 고압용기가 그와 연결된 배관 혹은 용기 벽면에서 저압부 혹은, 대기로 유체 또는, 가스가 분사되도록 하고, 이의 거동을 압력 감지기와 스테핑 모터 구동 압력 조절 밸브, 그리고 마이크로 프로세서 혹은 컴퓨터로 구성되는 전자 제어 압력 조절 시스템을 사용하여 미리 설정된 압력값에 따라 작동하게 함으로써 임의의 분사 거동을 다양하게 실현하게하는 장치이다.
      종래에는 대형 고압용기의 분사 거동 모의를 위하여 실제 크기로 용기를 제작하거나, 제작이 어려운 경우, 실제와 다른 조건의 모의 실험을 수행할 수밖에 없었으며 실험 조건의 정밀도도 떨어졌다. 본 장치는 이러한 문제점을 해결하기 위하여 발명된 것으로, 이 장치를 사용함으로써 원자로심, 혹은 플랜트의 대형용기의 분사 거동을 부피가 훨씬 작은 용기에서 다양한 조건으로 모의할 수 있게하여 설치 공간을 줄이고 비용을 크게 절감할 수 있도록 하였다. 또한, 모의 정밀도에 있어서도 정상 상태의 경우, 압력의 피드백 제어로 정확한 조건을 유지할 수 있으며, 실시간 모의 거동의 경우, 미리 설정된 압력값에 의하여 실험 대상을 정확하게 모의할 수 있게 하였다.
    • 10. 发明公开
    • 대형 고압용기 분사 모의장치_
    • 具有高压大容量的MOCK喷雾器
    • KR1020000025006A
    • 2000-05-06
    • KR1019980041869
    • 1998-10-07
    • 한국전력공사한국원자력연구원
    • 장석규정문기정장환
    • B05B13/00B05B15/00
    • B05B12/006B05B9/0805
    • PURPOSE: A mock sprayer is provided to minimize an establishing space as reducing a cost by mocking various cases with a pressure container without producing a real-sized large pressure container in each case and to increase the accuracy of a mock test. CONSTITUTION: A mock sprayer is composed of: a mock pressure container(302) having a sprayer(301) equipped, a supply source(303) with a high pressure for supplying the pressure, a pressure control valve(304) for driving a stepping motor(M) for controlling the pressure of the mock pressure container by connecting the two containers, a pressure measurement sensor(305) for measuring the pressure of the mock pressure container and a computer or a microprocessor(306) for driving the motor to calibrate an error as judging and comparing the measured value and a reference value. In a normal state, an accurate condition is maintained by controlling a feedback of the pressure in a real time mock moving and an object is accurately mocked by the pressure value previously established.
    • 目的:提供模拟喷雾器,通过在各种情况下不产生实际尺寸的大型压力容器,通过用压力容器嘲笑各种情况来降低成本,从而最小化建立空间,并提高模拟测试的准确性。 构成:模拟喷雾器包括:具有喷雾器(301)的模拟压力容器(302),用于提供压力的高压供应源(303),用于驱动步进的压力控制阀(304) 用于通过连接两个容器来控制模拟压力容器的压力的电动机(M),用于测量模拟压力容器的压力的压力测量传感器(305)和用于驱动电动机校准的计算机或微处理器(306) 作为判断和比较测量值和参考值的错误。 在正常状态下,通过控制实时模拟移动中的压力的​​反馈来保持准确的条件,并且物体被先前建立的压力值精确地嘲笑。