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
    • 1. 发明专利
    • 熱電発電システムおよび熱電発電方法
    • 热电发电系统和热电发电方法
    • JP2014216486A
    • 2014-11-17
    • JP2013092682
    • 2013-04-25
    • 株式会社東芝Toshiba Corp
    • SHINDO TAKAHIKOSASAKI KEIICHIHORIKAWA DAISUKE
    • H01L35/30H01L35/16H01L35/18H01L35/32
    • H01L35/16H01L35/18H01L35/30H01L35/32
    • 【課題】熱電変換モジュールによる発電のための条件が変動しても必要な発電を行なう。【解決手段】実施形態によれば、熱電発電システムは、複数の熱電変換モジュールの高温面側に接触させて配置され高温熱源流体が流れる高温流体配管と、熱電変換モジュールの低温面側に接触させて配置され低温冷却流体が流れる低温流体配管と、低温冷却流体の流量を調整するための高温側バルブと、低温冷却流体の流量を調整するための低温側バルブとをもつ。このシステムは、高温熱源流体および低温冷却流体についての物理量を得る取得手段と、取得した物理量が熱電変換モジュールによる所定量の発電を行うための所定の条件を満たさない際に、発電量が所定の条件を満たすように高温側バルブおよび低温側バルブの開閉制御を行う制御手段とをもつ。【選択図】図1
    • 要解决的问题:即使当热电转换模块发电的条件改变时也执行必要的发电。解决方案:根据实施例,热电发电系统包括:设置成接触的高温流体管道 具有多个热电转换模块中的每一个的高温面侧,高温热源流体通过该热电转换模块流过; 低温流体管道被设置成与每个热电转换模块的低温面侧接触,并且低温冷却流体流过该低温流体管道; 用于调节低温冷却流体的流量的高温侧阀; 以及用于调节低温冷却流体的流量的低温侧的阀。 该系统还包括:获取装置,用于获取高温热源流体和低温冷却流体的物理量; 以及控制装置,当所获取的物理量不满足用于通过热电转换模块产生预定量的电力的预定条件时,用于执行高温侧的阀的开/关控制和低温下的阀 使得发电量满足预定条件。
    • 4. 发明专利
    • Thermoelectric conversion unit
    • 热电转换单元
    • JP2010278460A
    • 2010-12-09
    • JP2010167225
    • 2010-07-26
    • Toshiba Corp株式会社東芝
    • SHINDO TAKAHIKOANDO HIDEYASUSUYAMA AKIKOITO YOSHIYASUHINO TAKEHISANAKATANI YUJIRO
    • H01L35/32H01L35/08H01L35/16H02N11/00
    • PROBLEM TO BE SOLVED: To provide a thermoelectric conversion unit which can inexpensively and stably generate electric power, while maintaining power generating efficiency in initial power generation even after the conversion unit is used repeatedly and for a long time.
      SOLUTION: The thermoelectric conversion unit 10 comprises a thermoelectric conversion mechanism 13 which has one or more p-type and n-type thermoelectric conversion elements 11 and 12, a thermoelectric conversion section 14 having a connection conductor 17 for electrically connecting the thermoelectric conversion elements 11 and 12 so as to take out electromotive forces generated by the thermoelectric conversion elements 11 and 12 as one power source and an electrode 19 for taking out the electromotive forces from the thermoelectric conversion elements 11 and 12 at both ends of the thermoelectric conversion mechanism 13 connected by the connection conductor 17, and formed by connecting the connection conductor 17, electrode 19, and thermoelectric conversion element 13 with a connecting material, and a sealing container 15 for storing and sealing a thermoelectric conversion section 14 so that the humidity is held lowest, the porosities in the p-type and n-type thermoelectric conversion elements 11 and 12 of the thermoelectric conversion mechanism 13 being 10-60%.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:即使在重复使用转换单元并且长时间之后,也能够在保持初始发电中的发电效率的同时,提供廉价且稳定地发电的热电转换单元。 解决方案:热电转换单元10包括具有一个或多个p型和n型热电转换元件11和12的热电转换机构13,具有连接导体17的热电转换部14, 转换元件11和12,以便将由热电转换元件11和12产生的电动势作为一个电源和用于从热电转换元件11和12的热电转换两端取出电动势的电极19 由连接导体17连接并通过连接导体17,电极19和热电转换元件13与连接材料连接形成的机构13,以及用于存储和密封热电转换部14以使湿度为 在p型和n型热电转换中的孔隙度最低 在热电转换机构13的元件11和12上为10-60%。 版权所有(C)2011,JPO&INPIT
    • 6. 发明专利
    • Thermoelectric conversion system
    • 热电转换系统
    • JP2009272327A
    • 2009-11-19
    • JP2008118882
    • 2008-04-30
    • Toshiba Corp株式会社東芝
    • SASAKI KEIICHIWAKAMATSU KENGONAKATANI YUJIROSHINDO TAKAHIKOITO YOSHIYASU
    • H01L35/30F25B21/02H02N11/00
    • PROBLEM TO BE SOLVED: To achieve energy saving by highly efficiently generating power while recovering exhausted heat of ≤300°C which is not utilized but exhausted in a factory or a power plant.
      SOLUTION: The thermoelectric conversion system includes: a thermoelectric conversion module 1 capable of alternately converting thermal energy and electric energy; a heat source 2 for heating a high-temperature side surface of the thermoelectric conversion module 1; a cooling source for cooling a low-temperature side surface of the thermoelectric conversion module 1; a cooling device 3 for cooling a low-temperature side surface of the thermoelectric conversion module by performing heat exchange between the cooling source for cooling the low-temperature side surface of the thermoelectric conversion module and the thermoelectric module 1; a high heat conductive material 4 for assisting heat conduction between the heat source 2 and the thermoelectric conversion module 1 and between the cooling device 3 and the thermoelectric conversion module 1; and a heat insulating material 5 provided on the surrounding portion except the heat source 2 and the cooling device 3 and used to minimize the heat radiation to the outside.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了在回收在工厂或发电厂中未利用但耗尽的≤300℃的耗尽热量的同时高效地发电而实现节能。 解决方案:热电转换系统包括:能够交替地转换热能和电能的热电转换模块1; 用于加热热电转换模块1的高温侧表面的热源2; 用于冷却热电转换模块1的低温侧表面的冷却源; 冷却装置3,用于通过在用于冷却热电转换模块的低温侧表面的冷却源和热电模块1之间进行热交换来冷却热电转换模块的低温侧表面; 用于辅助热源2和热电转换模块1之间以及冷却装置3和热电转换模块1之间的热传导的高导热材料4; 以及设置在除了热源2和冷却装置3之外的周围部分上并用于使对外部的热辐射最小化的绝热材料5。 版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Bonding method and bonded structure between different kinds of metallic material
    • 金属材料不同种类之间的结合方法和结合结构
    • JP2003053557A
    • 2003-02-26
    • JP2001240751
    • 2001-08-08
    • Toshiba Corp株式会社東芝
    • SHINDO TAKAHIKOANDO HIDEYASUUDAGAWA TAKESHISUYAMA AKIKOITO YOSHIYASU
    • B23K20/12B23K103/10B23K103/14
    • PROBLEM TO BE SOLVED: To provide a bonding method and bonded structure between different kinds of metallic material which improves impact strength of a bonded part and the reliability thereof in the bonding of different kinds of material different in material characteristic. SOLUTION: In this bonded structure between different kinds of metallic material in which a first member and a second member are coaxially bonded, a bonding surface comprising a recessed part of the first member 10 made of aluminium or an aluminium alloy and a bonding surface comprising a projected surface corresponding to the recessed surface of the second member 12 made of titanium or a titanium alloy are bonded to each other by themselves by means of friction welding and the angle formed between an edge part 14 of the bonding surface of the second member 12 and a free edge 15 of the second member is made within the range of 45-88 deg..
    • 要解决的问题:提供不同种类的金属材料之间的接合方法和接合结构,其提高接合部的冲击强度及其在材料特性不同的不同种类的材料的接合中的可靠性。 解决方案:在第一构件和第二构件同轴结合的不同种类的金属材料之间的接合结构中,包括由铝或铝合金制成的第一构件10的凹部的接合表面和包括 由钛或钛合金构成的第二构件12的凹面相对应的投影面通过摩擦焊接和第二构件12的接合面的边缘部14之间形成的角度彼此接合, 第二构件的自由边缘15在45-88度的范围内
    • 9. 发明专利
    • Thermoelectric power generation device and thermoelectric power generation system
    • 热电发电装置和热电发电系统
    • JP2013201873A
    • 2013-10-03
    • JP2012070074
    • 2012-03-26
    • Toshiba Corp株式会社東芝
    • SASAKI KEIICHISHINDO TAKAHIKOHORIKAWA DAISUKE
    • H02N11/00
    • PROBLEM TO BE SOLVED: To enhance power generation efficiency.SOLUTION: A thermoelectric power generation system includes a thermoelectric power generation device which has a thermoelectric conversion module generating electric power by a temperature difference between both surfaces, and has a first flow path and a second flow path, through which fluids differing in temperature from each other flow, arranged on both the surfaces of the thermoelectric conversion module; a first supply path which supplies the first fluid flowing through the first flow path to the first flow path by utilizing the pressure of the first fluid or a difference of elevation; and a second supply path which supplies the second fluid flowing through the second flow path and having a lower temperature than the first fluid to the second flow path by utilizing a difference of elevation.
    • 要解决的问题:提高发电效率。热电发电系统包括具有热电转换模块的热电发电装置,所述热电转换模块通过两面之间的温度差产生电力,并且具有第一流路和第二流路 布置在热电转换模块的两个表面上的通过其彼此不同温度的流体的流动路径; 第一供给路径,其通过利用第一流体的压力或高度差,将流过第一流路的第一流体供给到第一流路; 以及第二供应路径,其通过利用所述高差提供流过所述第二流动路径并且具有比所述第一流体低的温度的所述第二流体到所述第二流动路径。
    • 10. 发明专利
    • Heat storage system, heat storage system plant and power generation system
    • 热存储系统,热存储系统设备和发电系统
    • JP2011033205A
    • 2011-02-17
    • JP2009176909
    • 2009-07-29
    • Toshiba Corp株式会社東芝
    • SHINDO TAKAHIKOSASAKI KEIICHIKURI YUUJIHARAGUCHI SATOSHIWAKAMATSU KENGOKUBOTANI SATORUMURAYAMA KIYOKO
    • F28D20/02
    • Y02E60/145
    • PROBLEM TO BE SOLVED: To provide a practical heat storage system, and a heat storage system plant and power generation system utilizing the heat storage system.
      SOLUTION: This heat storage system includes a plurality of containers respectively filled with latent heat materials different from each other in phase transition temperatures, and arranged in series in order of higher phase transition temperature of the latent heat material, first inlets and first outlets respectively formed on the plurality of containers to allow a heat medium to store heat in the latent heat materials to flow therein, and second inlets and second outlets to allow a heat medium to radiate heat from the latent heat materials storing heat, to flow therefrom. At least the first container and second container adjacent to each other among the plurality of containers are connected in a state that the first outlet of the first container and the first inlet of the second container are connected, and the second inlet of the first container and the second outlet of the second container are connected to configure the heat storage system.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供实用的蓄热系统,以及利用蓄热系统的蓄热系统设备和发电系统。 解决方案:该储热系统包括分别充满相变温度相互不同的潜热材料的多个容器,并且按照潜热材料的较高相变温度,第一入口和第一入口的顺序串联布置 分别形成在多个容器上的出口,以允许热介质在潜热材料中存储热量流入其中,第二入口和第二出口允许热介质从存储热的潜热材料辐射热量,从而流过 。 至少在多个容器中彼此相邻的第一容器和第二容器在第一容器的第一出口和第二容器的第一入口连接的状态下连接,第一容器的第二入口和 第二容器的第二出口被连接以配置蓄热系统。 版权所有(C)2011,JPO&INPIT