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
    • 4. 发明申请
    • NUCLEAR PLANT MANIPULATOR SYSTEM
    • 核工厂操纵系统
    • US20140355729A1
    • 2014-12-04
    • US14294563
    • 2014-06-03
    • WESTINGHOUSE ELECTRIC GERMANY GmbH
    • Marko ECKERTDavid KISJUHASZ
    • G21C17/013
    • G21C17/013B25J9/10B25J13/00G21C19/02G21C19/20G21C19/32
    • A nuclear plant manipulator system is disclosed which can include a manipulator with an image acquisition device and remote-control drive, a remote-operating device, as well as an analysis device for analyzing image data of the image acquisition device. The analysis device can be configured in such a way that when the manipulator moves along a path of movement based on image data, respective known objects that are found along the path of movement are automatically identified, and when such an object is passed, depending on the direction, an object counter is incremented or decremented, whereby the current value of the object counter is provided to the remote-operating device. A method is disclosed for controlling a manipulator of the nuclear plant manipulator system.
    • 公开了一种核工厂操纵器系统,其可以包括具有图像采集装置和远程控制驱动器的操纵器,远程操作装置,以及用于分析图像采集装置的图像数据的分析装置。 分析装置可以被配置成使得当操纵器基于图像数据沿着移动路径移动时,沿着移动路径找到的各个已知对象被自动识别,并且当这样的对象被通过时,依赖于 方向,物体计数器递增或递减,由此将目标计数器的当前值提供给远程操作装置。 公开了一种用于控制核电站操纵器系统的操纵器的方法。
    • 6. 发明授权
    • Condensation chamber cooling system
    • 冷凝室冷却系统
    • US09194629B2
    • 2015-11-24
    • US13630789
    • 2012-09-28
    • Westinghouse Electric Germany GmbH
    • Wolfgang TietschDaniel FreisFelix Sassen
    • F28D15/00G21C9/012G21C15/18G21C15/243G21C15/26G21C19/28G21D1/02G21D3/04
    • F28D15/00G21C9/012G21C15/18G21C15/243G21C15/26G21C19/28G21D1/02G21D3/04Y02E30/31Y02E30/32
    • A condensation chamber cooling system of a condensation chamber for a boiling water reactor has a heat exchanger outside the condensation chamber. An elongate cooling module is provided in the condensation chamber with an evaporation space in its upper region. The cooling module is configured such that the evaporation space is located above a maximum filling level of the condensation chamber. The cooling module includes at least one riser pipe and one downpipe that issue with their upper ends into the evaporation space and with their lower ends in the condensation chamber. A first pressure line leads from the evaporation space to the heat exchanger and, from there, a second pressure line which issues in the condensation chamber below the minimum filling level. Thus, the condensation chamber, the pressure lines, the cooling module and the heat exchanger form a passive closed cooling circuit.
    • 用于沸水反应器的冷凝室的冷凝室冷却系统在冷凝室外具有热交换器。 在冷凝室中设置有细长的冷却模块,其上部区域具有蒸发空间。 冷却模块构造成使得蒸发空间位于冷凝室的最大填充水平之上。 冷却模块包括至少一个提升管和一个下管,其上端发射到蒸发空间中,并且其下端在冷凝室中。 第一压力线从蒸发空间引导到热交换器,并且从那里引起第二压力管线,其在冷凝室中发生低于最小填充水平的第二压力管线。 因此,冷凝室,压力管线,冷却模块和热交换器形成被动闭合冷却回路。
    • 8. 发明授权
    • Fuel element storage and cooling configuration
    • 燃料元件储存和冷却配置
    • US09058906B2
    • 2015-06-16
    • US13222346
    • 2011-08-31
    • Marcel SchmidtDaniel FreisNorbert Haspel
    • Marcel SchmidtDaniel FreisNorbert Haspel
    • G21C13/00G21C19/07G21C19/08G21C19/40G21C15/00
    • G21C19/07G21C15/00G21C19/08G21C19/40
    • A fuel element storage and cooling configuration includes a fuel element storage pool and a cooling system having at least one first heat exchanger disposed in the fuel element storage pool and at least one second heat exchanger disposed in a heat sink and located at a distance therefrom, above a highest point of the first heat exchanger. The two heat exchangers are connected, using a pipe system, to form a closed circuit, which is at least partially filled with a flowable coolant. If the temperature of the first heat exchanger is increased with respect to the second heat exchanger, natural circulation of the coolant, and thus heat transport from the fuel element storage pool to the heat sink, is ensured without a pump apparatus.
    • 燃料元件储存和冷却配置包括燃料元件储存池和冷却系统,该冷却系统具有设置在燃料元件储存池中的至少一个第一热交换器和至少一个第二热交换器,该热交换器设置在散热器中, 高于第一换热器的最高点。 使用管道系统连接两个热交换器以形成至少部分地填充有可流动冷却剂的闭合回路。 如果第一热交换器的温度相对于第二热交换器增加,则无需泵装置即可确保冷却剂的自然循环,从而从燃料元件储存池向散热器的热传递。
    • 9. 发明申请
    • Condensation Chamber Cooling System
    • 冷凝室冷却系统
    • US20130140005A1
    • 2013-06-06
    • US13630789
    • 2012-09-28
    • WESTINGHOUSE ELECTRIC GERMANY GMBH
    • Wolfgang TietschDaniel FreisFelix Sassen
    • F28D15/00
    • F28D15/00G21C9/012G21C15/18G21C15/243G21C15/26G21C19/28G21D1/02G21D3/04Y02E30/31Y02E30/32
    • A condensation chamber cooling system of a condensation chamber for a boiling water reactor has a heat exchanger outside the condensation chamber. An elongate cooling module is provided in the condensation chamber with an evaporation space in its upper region. The cooling module is configured such that the evaporation space is located above a maximum filling level of the condensation chamber. The cooling module includes at least one riser pipe and one downpipe that issue with their upper ends into the evaporation space and with their lower ends in the condensation chamber. A first pressure line leads from the evaporation space to the heat exchanger and, from there, a second pressure line which issues in the condensation chamber below the minimum filling level. Thus, the condensation chamber, the pressure lines, the cooling module and the heat exchanger form a passive closed cooling circuit.
    • 用于沸水反应器的冷凝室的冷凝室冷却系统在冷凝室外具有热交换器。 在冷凝室中设置有细长的冷却模块,其上部区域具有蒸发空间。 冷却模块构造成使得蒸发空间位于冷凝室的最大填充水平之上。 冷却模块包括至少一个提升管和一个下管,其上端发射到蒸发空间中,并且其下端在冷凝室中。 第一压力线从蒸发空间引导到热交换器,并且从那里引起第二压力管线,其在冷凝室中发生低于最小填充水平的第二压力管线。 因此,冷凝室,压力管线,冷却模块和热交换器形成被动闭合冷却回路。