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    • 1. 发明申请
    • LIGHT EMITTING DEVICE
    • 发光装置
    • US20090267093A1
    • 2009-10-29
    • US12067194
    • 2005-12-28
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • H01L33/00
    • H01L33/483H01L33/505H01L33/507H01L33/58H01L33/60H01L33/642H01L2224/45144H01L2224/48091H01L2224/73265H01L2924/19107H01L2924/00014H01L2924/00
    • A light emitting device includes a light emitting diode chip, a heat conductive plate mounting thereon the light emitting diode chip, a sub-mount member disposed between said light emitting diode chip and said heat conductive plate, a dielectric substrate stacked on the heat conductive plate and being formed with a through-hole through which the sub-mount member is exposed, an encapsulation member for encapsulation of said light emitting diode chip, and a lens superimposed on the encapsulation member. The sub-mount member is formed around a coupling portion of the light emitting diode chip with a reflective film which reflects a light emitted from a side face of the light emitting diode chip. The sub-mount member is selected to have a thickness such that the reflecting film has its surface spaced away from said heat conductive plate by a greater distance than said dielectric substrate.
    • 发光装置包括:发光二极管芯片,安装在发光二极管芯片上的导热板,设置在所述发光二极管芯片和所述导热板之间的副安装构件,堆叠在所述导热板上的电介质基板 并且形成有用于露出子安装构件的通孔,用于封装所述发光二极管芯片的封装构件和叠置在封装构件上的透镜。 副安装构件围绕发光二极管芯片的耦合部分形成有反射膜,该反射膜反射从发光二极管芯片的侧面发射的光。 子安装构件被选择为具有使得反射膜的表面与所述导热板间隔远离所述电介质基板的厚度的厚度。
    • 2. 发明授权
    • Light emitting device
    • 发光装置
    • US07956372B2
    • 2011-06-07
    • US12067194
    • 2005-12-28
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • H01L33/48
    • H01L33/483H01L33/505H01L33/507H01L33/58H01L33/60H01L33/642H01L2224/45144H01L2224/48091H01L2224/73265H01L2924/19107H01L2924/00014H01L2924/00
    • A light emitting device includes a light emitting diode chip, a heat conductive plate mounting thereon the light emitting diode chip, a sub-mount member disposed between said light emitting diode chip and said heat conductive plate, a dielectric substrate stacked on the heat conductive plate and being formed with a through-hole through which the sub-mount member is exposed, an encapsulation member for encapsulation of said light emitting diode chip, and a lens superimposed on the encapsulation member. The sub-mount member is formed around a coupling portion of the light emitting diode chip with a reflective film which reflects a light emitted from a side face of the light emitting diode chip. The sub-mount member is selected to have a thickness such that the reflecting film has its surface spaced away from said heat conductive plate by a greater distance than said dielectric substrate.
    • 发光装置包括:发光二极管芯片,安装在发光二极管芯片上的导热板,设置在所述发光二极管芯片和所述导热板之间的副安装构件,堆叠在所述导热板上的电介质基板 并且形成有用于露出子安装构件的通孔,用于封装所述发光二极管芯片的封装构件和叠置在封装构件上的透镜。 副安装构件围绕发光二极管芯片的耦合部分形成有反射膜,该反射膜反射从发光二极管芯片的侧面发射的光。 子安装构件被选择为具有使得反射膜的表面与所述导热板间隔远离所述电介质基板的厚度的厚度。
    • 3. 发明授权
    • LED lighting fixture
    • LED照明灯具
    • US07948001B2
    • 2011-05-24
    • US12066433
    • 2006-09-20
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • H01L23/28H01L23/373
    • F21K9/00F21V21/30F21Y2115/10H01L33/486H01L33/505H01L33/507H01L33/58H01L33/641H01L2224/73265H01L2924/19107
    • A light-emitting device held on a fixture body includes an LED chip, a heat transfer plate made of a thermally conductive material on which the LED chip is mounted, a wiring board having, on one side, patterned conductors, for supplying an electric power to the LED chip and formed with an aperture (exposure part) through which a LED chip mount surface of the heat transfer plate is exposed, an encapsulation part in which the LED chip is encapsulated on the one side of the wiring board, and a dome-shaped color-changing member made of a fluorescent material and an optically transparent material and placed on the one side of the wiring board. The light-emitting device is bonded to the fixture body with an insulating layer interposed therebetween, and the insulating layer has electrical insulating properties and is interposed between the heat transfer plate and the fixture body to thermally couple the same.
    • 保持在固定体上的发光装置包括LED芯片,由其上安装有LED芯片的导热材料制成的传热板,布线板,一侧具有图案导体,用于提供电力 在LED芯片上形成有露出传热板的LED芯片安装面的开口部(曝光部),将LED芯片封装在布线基板一侧的封装部和圆顶部 由荧光材料和光学透明材料制成并设置在布线板的一侧上的彩色变色构件。 发光装置以夹着绝缘层的方式与固定体接合,绝缘层具有电绝缘性,插入在传热板与固定体之间,使其热耦合。
    • 4. 发明申请
    • LED LIGHTING FIXTURE
    • LED照明灯具
    • US20100148196A1
    • 2010-06-17
    • US12066433
    • 2006-09-20
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • Kazuo KamadaYasushi NishiokaYouji Urano
    • H01L33/00
    • F21K9/00F21V21/30F21Y2115/10H01L33/486H01L33/505H01L33/507H01L33/58H01L33/641H01L2224/73265H01L2924/19107
    • A light-emitting device held on a fixture body includes an LED chip, a heat transfer plate made of a thermally conductive material on which the LED chip is mounted, a wiring board having, on one side, patterned conductors, for supplying an electric power to the LED chip and formed with an aperture (exposure part) through which a LED chip mount surface of the heat transfer plate is exposed, an encapsulation part in which the LED chip is encapsulated on the one side of the wiring board, and a dome-shaped color-changing member made of a fluorescent material and an optically transparent material and placed on the one side of the wiring board. The light-emitting device is bonded to the fixture body with an insulating layer interposed therebetween, and the insulating layer has electrical insulating properties and is interposed between the heat transfer plate and the fixture body to thermally couple the same.
    • 保持在固定体上的发光装置包括LED芯片,由其上安装有LED芯片的导热材料制成的传热板,布线板,一侧具有图案导体,用于提供电力 在LED芯片上形成有露出传热板的LED芯片安装面的开口部(曝光部),将LED芯片封装在布线基板一侧的封装部和圆顶部 由荧光材料和光学透明材料制成并设置在布线板的一侧上的彩色变色构件。 发光装置以夹着绝缘层的方式与固定体接合,绝缘层具有电绝缘性,插入在传热板与固定体之间,使其热耦合。
    • 6. 发明授权
    • Thermoelectric module
    • 热电模块
    • US06252154B1
    • 2001-06-26
    • US09407969
    • 1999-09-29
    • Kazuo KamadaShunichi Nakayama
    • Kazuo KamadaShunichi Nakayama
    • H01L3534
    • H01L35/32
    • A thermoelectric module 1 comprising p-type thermoelectric elements 3a and n-type thermoelectric elements 3b which are alternately arranged and electrically connected by electrodes 4 provided on the top side and the bottom side of each thermoelectric element 3 and a heat exchanger plate 5 which is fixed on the electrodes on each side, in which each thermoelectric element 3 has a coating film 2 of an insulating material on the sides thereof except the sides joined to the electrodes 4, and the thermoelectric elements 3 are spaced apart. The coating film 2 improves the strength and moisture resistance of the thermoelectric elements 3 to prevent thermoelectric elements from cracking or breaking even in cases where a load, a shock, or a thermal stress is imposed thereon and to protect the thermoelectric elements against corrosion in a high humidity atmosphere, providing a thermoelectric module 1 with improved operational reliability.
    • 包含p型热电元件3a和n型热电元件3b的热电模块1和设置在每个热电元件3的顶侧和底侧上的电极4交替布置和电连接,热交换器板5是 固定在每侧的电极上,其中每个热电元件3除了连接到电极4的侧面之外具有绝缘材料的涂层膜2,并且热电元件3间隔开。 涂膜2提高了热电元件3的强度和耐湿性,以防止即使在施加负载,冲击或热应力的情况下热电元件也不会破裂或断裂,并且保护热电元件免受腐蚀 高湿度气氛,提供具有改善的操作可靠性的热电模块1。
    • 10. 发明授权
    • Method of producing sintered body of material for thermoelectric element
    • 生产热电元件材料烧结体的方法
    • US06278050B1
    • 2001-08-21
    • US09602017
    • 2000-06-23
    • Yoji UranoKazuo KamadaHirokazu YoshiokaKentaro Kobayashi
    • Yoji UranoKazuo KamadaHirokazu YoshiokaKentaro Kobayashi
    • H01L3534
    • H01L35/34B22F2998/10B22F3/1208B22F3/16
    • A sintered body of a material for thermoelectric element having excellent thermoelectric performance and mechanical strength can be produced by the following method. A block of the material for thermoelectric element is provided. The block has an electric-current passing direction, in which electricity is supplied to obtain a desired thermoelectric performance of the thermoelectric element. The block is encased in an elongate capsule such that the electric-current passing direction of the block is substantially agreement with an axial direction of the capsule. After degassing the capsule, a forming operation for reducing a cross section perpendicular to the axial direction of the capsule is performed to obtain a formed capsule having a green compact of the block crushed by the forming operation therein. A heat treatment is then performed to sinter the green compact in the formed capsule. Finally, the resultant sintered body is removed from the formed capsule. This method is preferably used to manufacture a thermoelectric module that is a temperature control device using the Peltier effect.
    • 通过以下方法可以制造出具有优异的热电性能和机械强度的用于热电元件的材料的烧结体。 提供了一种用于热电元件的材料块。 该块具有电流通过方向,其中供电以获得热电元件的期望的热电性能。 块被封装在细长的胶囊中,使得块的电流通过方向基本上与胶囊的轴向方向一致。 在对胶囊进行脱气之后,进行用于减小与胶囊的轴向垂直的横截面的成形操作,以获得具有通过其中的成形操作压碎的块的生坯的成形胶囊。 然后进行热处理以烧结形成的胶囊中的生坯。 最后,从形成的胶囊中除去所得的烧结体。 该方法优选用于制造使用珀尔帖效应的温度控制装置的热电模块。