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    • 1. 发明授权
    • Air conditioner and heat exchanger used therein
    • 其中使用的空调和热交换器
    • US5181392A
    • 1993-01-26
    • US655144
    • 1991-02-13
    • Masaaki ItohHiroaki MatsushimaHiroshi KogureMitsutaka ShizuyaChie Kobayashi
    • Masaaki ItohHiroaki MatsushimaHiroshi KogureMitsutaka ShizuyaChie Kobayashi
    • F25B6/04F24F3/153F24F13/22F25B13/00F25B29/00F25B39/04F25B49/02
    • F24F13/22F24F3/153F25B13/00F25B49/027F25B2313/023F25B2700/2116
    • Disclosed is an air conditioner and, in particular, an air conditioner which is capable of blowing out warm air in heating mode. In the air conditioner of this invention, the condenser is thermally separated into an air-upstream-side and an air-downstream-side heat exchanger, and the heat exchange capacity of the air-downstream-side heat exchanger is adjusted, so that, under preset operating conditions, the entire refrigerant in the air-downstream-side heat exchanger can be kept in the superheated-gas phase, thus making it possible to blow out warm air having a temperature higher than the condensation temperature. Further, the refrigerant temperature at the outlet of the air-downstream-side heat exchanger is measured by a temperature sensor, and the revolving speed of the compressor, the revolving speed of the fan, etc., is so controlled that the temperature measured is kept at a level higher than the condensation temperature. Thus, under all operating conditions, the entire refrigerant in the air-downstream-side heat exchanger can be kept in the superheated gas phase, thereby making it possible to blow out warm air having a temperature higher than the condensation temperature.
    • 公开了一种空调机,特别是能够在加热模式下吹出暖风的空调机。 在本发明的空调机中,冷凝器被热分离成空气上游侧和空气下游侧热交换器,并且调节空气 - 下游侧热交换器的热交换容量, 在预设操作条件下,空气 - 下游侧热交换器中的整个制冷剂可以保持在过热气相中,从而可以吹出温度高于冷凝温度的暖风。 此外,通过温度传感器测量空气 - 下游侧热交换器的出口处的制冷剂温度,并且控制压缩机的转速,风扇的转速等被控制,使得测得的温度为 保持在比冷凝温度高的水平。 因此,在所有的运行条件下,空气 - 下游侧热交换器中的整个制冷剂可以保持在过热气相中,从而能够吹出温度高于冷凝温度的暖风。
    • 2. 发明授权
    • Method and apparatus for dividing shape expressed on three-dimensional
space into elements
    • 将在三维空间上表示的形状分割为元素的方法和装置
    • US5892515A
    • 1999-04-06
    • US560012
    • 1995-11-17
    • Chie KobayashiIchiro NishigakiYoshifumi YamashitaHiromitsu MoriyamaHiromi AoyamaKeiko HoshinoMakoto Onodera
    • Chie KobayashiIchiro NishigakiYoshifumi YamashitaHiromitsu MoriyamaHiromi AoyamaKeiko HoshinoMakoto Onodera
    • G06T17/20G06T17/00
    • G06T17/20
    • A shape model as an object to be analyzed and division information used to produce a finite element mesh are entered, and a recognition model is produced by allocating each edge line segmented by structural points of the shape model to any one coordinate axial direction in an orthogonal coordinate system. A mapping model is produced in which an orthogonal lattice is produced on a surface and the inside of an approximated shape model, and is displayed on a screen. The mapping model is modified by a system user in an interactive operation. A finite element mesh is generated from lattice points of the modified mapping model. The data input by the system user is processed in an input/output data processing unit, and shape model data of the object to be analyzed is produced in a shape model producing unit. Based on the division information input by the system user, a finite element mesh is generated on the shape model by a finite element mesh producing unit. The line segment allocation directions of the recognition model are displayed in a recognition model producing unit, so that an allocation direction can be modified in a recognition model modifying unit by the system user in a interactive mode. The finite element model data produced from the optimized recognition model is registered into a database.
    • 输入作为要分析对象的形状模型和用于产生有限元网格的分割信息,并且通过将形状模型的结构点分割的每个边缘线分配成正交的任何一个坐标轴方向,产生识别模型 坐标系。 产生映射模型,其中在近似形状模型的表面和内部产生正交格子,并且显示在屏幕上。 映射模型由交互式操作中的系统用户进行修改。 从修改的映射模型的格点生成有限元网格。 在输入/输出数据处理单元中处理由系统用户输入的数据,并在形状模型生成单元中生成待分析对象的形状模型数据。 基于系统用户输入的分割信息,通过有限元网格生成单元在形状模型上生成有限元网格。 识别模型的线段分配方向被显示在识别模型生成单元中,从而可以在交互模式下由系统用户在识别模型修改单元中修改分配方向。 将从优化识别模型生成的有限元模型数据注册到数据库中。
    • 3. 发明申请
    • RF RECEIVING COIL AND MAGNETIC RESONANCE IMAGING APPARATUS USING THE SAME
    • RF接收线圈和磁共振成像装置使用它
    • US20130076361A1
    • 2013-03-28
    • US13703134
    • 2011-05-26
    • Takeshi TaniguchiTooru OosawaChie Kobayashi
    • Takeshi TaniguchiTooru OosawaChie Kobayashi
    • G01R33/34
    • G01R33/34092G01R33/34046G01R33/34084G01R33/3678
    • To order to provide an RF receiving coil having a structure that can be safely mounted on an object and an MRI apparatus including the RF receiving coil, the RF receiving coil includes a main body having one or more flexible closed conductor loops for receiving a nuclear magnetic resonance signal, a flexible outer cover section that covers the closed conductor loop, a preamplifier section that amplifies the nuclear magnetic resonance signal received by the closed conductor loop, and a housing section in which the preamplifier section is housed and which is more rigid than the outer cover section. The RF receiving coil is mounted on the object in a state where the main body is bent such that the end surfaces of both ends of the main body face each other, and the MRI apparatus performs imaging using such an RF receiving coil.
    • 为了提供具有能够安全地安装在物体上的结构的RF接收线圈和包括RF接收线圈的MRI装置,RF接收线圈包括具有一个或多个柔性闭合导体环的主体,用于接收核磁 谐振信号,覆盖闭合导体环路的柔性外盖部分,放大由封闭导体环路接收的核磁共振信号的前置放大器部分和容纳前置放大器部分的壳体部分,其中比前述放大器部分更坚硬 外盖部分。 RF接收线圈以主体弯曲的状态安装在物体上,使得主体的两端的端面彼此面对,并且MRI装置使用这样的RF接收线圈进行成像。