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    • 92. 发明授权
    • Light-emitting module and lighting apparatus with the same
    • 发光模块和照明装置相同
    • US08608340B2
    • 2013-12-17
    • US13169814
    • 2011-06-27
    • Tsuyoshi OyaizuHaruki TakeiAkiko SaitoSeiko Kawashima
    • Tsuyoshi OyaizuHaruki TakeiAkiko SaitoSeiko Kawashima
    • F21S4/00F21V7/00
    • H05B33/0806
    • According to one embodiment, a light-emitting module includes a module substrate, a first wiring pattern provided on the module substrate and including a common wire connecting portion, a second wiring pattern provided on the module substrate and including a first wire connecting portion, a second wire connecting portion, and a middle pattern portion, a first light-emitting element group arranged between the common wire connecting portion and the first wire connecting portion and including semiconductor light-emitting elements connected in series and being electrically connected to the common wire connecting portion and the first wire connecting portion, and a second light-emitting element group arranged between the common wire connecting portion and the second wire connecting portion and including semiconductor light-emitting elements connected in series and being electrically connected to the common wire connecting portion and the second wire connecting portion.
    • 根据一个实施例,发光模块包括模块基板,设置在模块基板上的第一布线图案,并且包括公共布线连接部分,设置在模块基板上的第二布线图案,包括第一布线连接部分, 第二线连接部分和中间图案部分,布置在公共线连接部分和第一线连接部分之间的第一发光元件组,并且包括串联连接并电连接到公共线连接部的半导体发光元件 第一发光元件组和第二发光元件组,配置在公共线连接部和第二线连接部之间,并且包括串联连接并与公共线连接部电连接的半导体发光元件, 第二线连接部。
    • 95. 发明授权
    • Magnetic refrigeration device and magnetic refrigeration system
    • 磁性制冷装置及磁性制冷系统
    • US08312730B2
    • 2012-11-20
    • US12396043
    • 2009-03-02
    • Tadahiko KobayashiAkiko SaitoShiori Kaji
    • Tadahiko KobayashiAkiko SaitoShiori Kaji
    • F25D17/02F25B21/00
    • F25B21/00F25B2321/0022Y02B30/66
    • A magnetic refrigeration device, which can be reduced in size and improve magnetic refrigeration efficiency, and a magnetic refrigeration system can be provided. The magnetic refrigeration device has a heat exchanger vessel of a helical structure filled with magnetic particles having a magnetocaloric effect, a magnetic circuit, a driving unit configured to relatively move the heat exchanger vessel and the magnetic circuit so that a magnetic field can be applied to and removed from the magnetic particles, a low temperature side heat exchanging unit, a high temperature side heat exchanging unit, a refrigerant flow device, and a refrigerant circuit formed by connecting the heat exchanger vessel, the low temperature side heat exchanging unit, the high temperature side heat exchanging unit, and the refrigerant flow device by a pipe for circulating a refrigerant. The magnetic refrigeration system is arranged to use the magnetic refrigeration device.
    • 可以提供可以减小尺寸并提高磁制冷效率的磁性制冷装置和磁性制冷系统。 磁性制冷装置具有填充有具有磁热效应的磁性粒子的螺旋结构的热交换器容器,磁路,构造成使热交换器容器和磁路相对移动的驱动单元,使得可以将磁场施加到 低温侧热交换单元,高温侧热交换单元,制冷剂流动装置以及通过连接热交换器容器,低温侧热交换单元,高压侧热交换单元而形成的制冷剂回路 温度侧热交换单元,以及用于循环制冷剂的管道的制冷剂流动装置。 磁性制冷系统设置为使用磁性制冷装置。
    • 100. 发明授权
    • Magnetic refrigerating device and magnetic refrigerating method
    • 磁性制冷装置及磁性制冷方法
    • US08099964B2
    • 2012-01-24
    • US11860818
    • 2007-09-25
    • Akiko SaitoTadahiko KobayashiHideyuki TsujiHideo IwasakiKatsumi HisanoAkihiro KogaAkihiro KasaharaTakuya Takahashi
    • Akiko SaitoTadahiko KobayashiHideyuki TsujiHideo IwasakiKatsumi HisanoAkihiro KogaAkihiro KasaharaTakuya Takahashi
    • F25B21/00H01F7/02
    • F25B21/00F25B2321/0021F25B2321/0023Y02B30/66
    • A magnetic refrigerating device includes: a magnetic refrigerating unit including a magnetic material “A” exhibiting a magneto-caloric effect that the temperature of the material “A” is increased by the application of a magnetic field and the temperature of the material “A” is decreased by the removal of a magnetic field, a magnetic material “B” exhibiting a magneto-caloric effect that the temperature of the material “B” is decreased by the application of a magnetic field and the temperature of the material “B” is increased by the removal of a magnetic field, a heat conductive material “a” exhibiting higher heat conductivity under the application of a magnetic field and lower heat conductivity under the removal of a magnetic field, and a heat conductive material “b” exhibiting lower heat conductivity under the application of a magnetic field and higher heat conductivity under the removal of a magnetic field, wherein the magnetic refrigerating unit is configured so as to include at least one layered structure denoted by “AaBb” or “AbBa”; and a magnetic field-applying means to apply a magnetic field to the magnetic refrigerating unit.
    • 磁性制冷装置包括:磁性制冷装置,其具有表现出通过施加磁场使材料“A”的温度升高的磁热量效应的磁性材料“A”,并且材料“A”的温度 通过去除磁场而减少磁性材料“B”,表现出通过施加磁场使材料“B”的温度降低的磁热量效应的磁性材料“B”,并且材料“B”的温度为 通过除去磁场而增加,在磁场施加下表现出更高导热性的导热材料“a”,以及在去除磁场时具有较低热导率的导热材料“a”,以及表现出较低热量的导热材料“b” 在磁场的施加下的导电性和较高的导热性,其中磁性制冷单元是可旋转的 被设计为包括由“AaBb”或“AbBa”表示的至少一个分层结构; 以及向磁性制冷装置施加磁场的磁场施加装置。