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    • 1. 发明申请
    • LOOP HEAT PIPE AND ELECTRONIC APPARATUS
    • 环形热管和电子设备
    • US20130083482A1
    • 2013-04-04
    • US13527920
    • 2012-06-20
    • Hiroki UchidaSusumu OgataSeiji HibinoJun Taniguchi
    • Hiroki UchidaSusumu OgataSeiji HibinoJun Taniguchi
    • F28D15/04H05K7/20
    • F28D15/043F28D15/046H01L23/427H01L2924/0002H01L2924/00
    • A loop heat pipe includes: an evaporator to convert liquid phase working fluid into vapor phase working fluid; a condenser to convert vapor phase working fluid into liquid phase working fluid; a first vapor line and a first liquid line to allow the evaporator to communicate with the condenser and form a circular main loop; and a second vapor line and a second liquid line to allow the evaporator to communicate with the condenser and form a circular auxiliary loop; wherein the evaporator includes a reservoir that temporarily stores the liquid phase working fluid, a first vapor collector that communicates with the first vapor line, a second vapor collector that communicates with the second vapor line, first wick disposed between the reservoir and the first vapor collector, and second wick disposed between the reservoir and the second vapor collector.
    • 环路热管包括:蒸发器,用于将液相工作流体转化成气相工作流体; 将气相工作流体转化为液相工作流体的冷凝器; 第一蒸汽管线和第一液体管线,以允许蒸发器与冷凝器连通并形成圆形主回路; 以及第二蒸汽管线和第二液体管线,以允许蒸发器与冷凝器连通并形成圆形辅助回路; 其中所述蒸发器包括临时存储所述液相工作流体的储存器,与所述第一蒸汽管线连通的第一蒸气收集器,与所述第二蒸气管线连通的第二蒸气收集器,设置在所述储存器和所述第一蒸气收集器 以及设置在储存器和第二蒸气收集器之间的第二芯。
    • 2. 发明授权
    • Loop heat pipe and electronic apparatus
    • 回路热管和电子设备
    • US08705236B2
    • 2014-04-22
    • US13527920
    • 2012-06-20
    • Hiroki UchidaSusumu OgataSeiji HibinoJun Taniguchi
    • Hiroki UchidaSusumu OgataSeiji HibinoJun Taniguchi
    • H05K7/20F28D15/00
    • F28D15/043F28D15/046H01L23/427H01L2924/0002H01L2924/00
    • A loop heat pipe includes: an evaporator to convert liquid phase working fluid into vapor phase working fluid; a condenser to convert vapor phase working fluid into liquid phase working fluid; a first vapor line and a first liquid line to allow the evaporator to communicate with the condenser and form a circular main loop; and a second vapor line and a second liquid line to allow the evaporator to communicate with the condenser and form a circular auxiliary loop; wherein the evaporator includes a reservoir that temporarily stores the liquid phase working fluid, a first vapor collector that communicates with the first vapor line, a second vapor collector that communicates with the second vapor line, first wick disposed between the reservoir and the first vapor collector, and second wick disposed between the reservoir and the second vapor collector.
    • 环路热管包括:蒸发器,用于将液相工作流体转化成气相工作流体; 将气相工作流体转化为液相工作流体的冷凝器; 第一蒸汽管线和第一液体管线,以允许蒸发器与冷凝器连通并形成圆形主回路; 以及第二蒸汽管线和第二液体管线,以允许蒸发器与冷凝器连通并形成圆形辅助回路; 其中所述蒸发器包括临时存储所述液相工作流体的储存器,与所述第一蒸汽管线连通的第一蒸气收集器,与所述第二蒸气管线连通的第二蒸气收集器,设置在所述储存器和所述第一蒸气收集器 以及设置在储存器和第二蒸气收集器之间的第二芯。
    • 4. 发明申请
    • COOLING APPARATUS AND ELECTRONIC APPARATUS
    • 冷却装置和电子装置
    • US20120137718A1
    • 2012-06-07
    • US13240027
    • 2011-09-22
    • Hiroki UCHIDASusumu OgataSeiji Hibino
    • Hiroki UCHIDASusumu OgataSeiji Hibino
    • F25D17/02F25D31/00
    • H05K7/20336F28D15/043
    • A cooling apparatus includes: an evaporator, including a porous body, a vapor channel and a liquid channel separated by the porous body, to evaporate a working fluid in liquid phase; a condenser to condense the working fluid in vapor phase; a liquid reservoir tank to reserve the working fluid in the liquid phase; a vapor line connecting an outlet of the vapor channel in the evaporator and an inlet of the condenser; a liquid line connecting an outlet of the condenser and a first inlet of the liquid reservoir tank; a liquid supply line connecting an outlet of the liquid reservoir tank and an inlet of the liquid channel in the evaporator; a liquid return line connecting an outlet of the liquid channel in the evaporator and a second inlet of the liquid reservoir tank; and a liquid transport unit interposed in the liquid supply line.
    • 冷却装置包括:蒸发器,包括多孔体,蒸气通道和由多孔体分离的液体通道,以蒸发液相的工作流体; 用于冷凝气相中的工作流体的冷凝器; 储液罐,用于储存液相中的工作流体; 连接蒸发器中的蒸汽通道的出口和冷凝器的入口的蒸气管线; 连接冷凝器的出口和储液箱的第一入口的液体管线; 连接储液箱的出口和蒸发器中的液体通道的入口的液体供应管线; 连接蒸发器中的液体通道的出口和储液箱的第二入口的液体返回管线; 以及插入在液体供给管线中的液体输送单元。
    • 8. 发明申请
    • POSITION ESTIMATION SYSTEM
    • 位置估计系统
    • US20090005083A1
    • 2009-01-01
    • US12163386
    • 2008-06-27
    • Jin HOSHINOSusumu OgataMasatoshi Kimoto
    • Jin HOSHINOSusumu OgataMasatoshi Kimoto
    • H04Q7/20
    • G01S5/0236G01S5/14
    • A position of a mobile communication terminal in an environment where the terminal cannot communicate with a GPS is defined more narrowly than a sector area of a base station in which the mobile communication terminal is located so that the position of the mobile communication terminal can be estimated more accurately. Even if a mobile communication terminal is in an environment where the terminal cannot communicate with a GPS, the latitude and longitude of the center of a sector of the wireless base station in which the mobile communication terminal is located is obtained according to a predetermined calculation by a base station database device, and the obtained latitude and longitude is sent back as an estimated latitude and longitude of the mobile communication terminal to the mobile communication terminal via the wireless base station.
    • 在终端不能与GPS通信的环境中的移动通信终端的位置比移动通信终端所在的基站的扇区更窄地定义,使得可以估计移动通信终端的位置 更精确地。 即使移动通信终端处于终端不能与GPS进行通信的环境中,也可以根据预定的计算得到移动通信终端所在的无线基站的扇区的中心的纬度和经度 基站数据库装置,并且将所获得的纬度和经度作为移动通信终端的估计纬度和经度经由无线基站发送回移动通信终端。
    • 9. 发明授权
    • Position estimation system
    • 位置估算系统
    • US08121621B2
    • 2012-02-21
    • US12163386
    • 2008-06-27
    • Jin HoshinoSusumu OgataMasatoshi Kimoto
    • Jin HoshinoSusumu OgataMasatoshi Kimoto
    • H04W24/00
    • G01S5/0236G01S5/14
    • A position of a mobile communication terminal in an environment where the terminal cannot communicate with a GPS is defined more narrowly than a sector area of a base station in which the mobile communication terminal is located so that the position of the mobile communication terminal can be estimated more accurately. Even if a mobile communication terminal is in an environment where the terminal cannot communicate with a GPS, the latitude and longitude of the center of a sector of the wireless base station in which the mobile communication terminal is located is obtained according to a predetermined calculation by a base station database device, and the obtained latitude and longitude is sent back as an estimated latitude and longitude of the mobile communication terminal to the mobile communication terminal via the wireless base station.
    • 在终端不能与GPS通信的环境中的移动通信终端的位置比移动通信终端所在的基站的扇区更窄地定义,使得可以估计移动通信终端的位置 更精确地。 即使移动通信终端处于终端不能与GPS进行通信的环境中,也可以根据预定的计算得到移动通信终端所在的无线基站的扇区的中心的纬度和经度 基站数据库装置,经由无线基站向移动通信终端发送所获得的纬度和经度作为移动通信终端的估计纬度和经度。
    • 10. 发明授权
    • Position determination system and position determination method
    • 位置确定系统和位置确定方法
    • US07880673B2
    • 2011-02-01
    • US11771497
    • 2007-06-29
    • Jin HoshinoSusumu OgataMasatoshi Kimoto
    • Jin HoshinoSusumu OgataMasatoshi Kimoto
    • G01S19/12
    • G01S5/0263G01S1/022
    • A position determination system includes a mobile terminal configured to receive GPS information from a GPS; a base station device configured to measure a round trip time (RTT) from the mobile terminal; a base-station position table unit configured to store position information on the base station device; a cable-length table unit configured to store a cable length between the base station device and an antenna assembly provided to the base station device, the antenna assembly communicates with the mobile terminal; and a position determination device configured to determine the position of the mobile terminal on the basis of the round trip time measured by the base station device, the cable length obtained from the cable-length table unit, the position information on the base station obtained from the base-station position table unit, and the GPS information received from the mobile terminal.
    • 位置确定系统包括被配置为从GPS接收GPS信息的移动终端; 基站装置,被配置为测量来自移动终端的往返时间(RTT); 基站位置表单元,被配置为在所述基站装置上存储位置信息; 电缆长度表单元,被配置为在基站设备和提供给基站设备的天线组件之间存储电缆长度,天线组件与移动终端通信; 以及位置确定装置,被配置为基于由所述基站装置测量的往返时间,从所述电缆长度表单元获得的电缆长度,基于从所述电缆长度表单元获得的所述基站上的位置信息来确定所述移动终端的位置, 基站位置表单元和从移动终端接收的GPS信息。