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    • 5. 发明申请
    • LAMINATED PIEZOELECTRIC ELEMENT, INJECTION APPARATUS PROVIDED WITH SAME, AND FUEL INJECTION SYSTEM PROVIDED WITH SAME
    • 层叠压电元件,与其同时提供的注射装置和与其同时提供的燃油喷射系统
    • US20140020659A1
    • 2014-01-23
    • US14001166
    • 2012-02-24
    • Takeshi Kato
    • Takeshi Kato
    • H01L41/047F02M51/06
    • H01L41/0472F02M51/0603
    • There are provided a multi-layer piezoelectric element that is driven stably for a long period of time without developing cracks in a junction between a metallized layer and a lead member or a stacked body, and an injection device and a fuel injection system provided with the same. A multi-layer piezoelectric element includes a stacked body in which piezoelectric layers and internal electrodes are laminated; a metallized layer disposed on a side surface of the stacked body, the metalized layer being electrically connected to the internal electrodes; and an external electrode member disposed on the metallized layer, with an electrically-conductive adhesive layer interposed therebetween, wherein the electrically-conductive adhesive layer has a plurality of voids configured not to open on a surface thereof which surface is in contact with the metallized layer.
    • 提供了一种能够长时间稳定地驱动而不会在金属化层与引线部件或层叠体之间的连接处产生裂纹的层叠型压电元件,以及设置有 相同。 层叠型压电元件包括​​叠层体,压电层和内部电极层叠在该层叠体中; 设置在所述层叠体的侧面的金属化层,所述金属化层与所述内部电极电连接; 以及设置在所述金属化层上的外部电极构件,其间插入有导电粘合剂层,其中所述导电粘合剂层具有多个空隙,所述多个空隙构造成在其表面与所述金属化层接触的表面上开口 。
    • 8. 发明申请
    • LOAD DISTRIBUTION SYSTEM, LOAD DISTRIBUTION METHOD, AND PROGRAM
    • 负载分配系统,负载分配方法和程序
    • US20120250496A1
    • 2012-10-04
    • US13512311
    • 2010-11-18
    • Takeshi Kato
    • Takeshi Kato
    • H04L12/66H04L12/26
    • H04L47/125H04L41/044H04L41/0668H04L67/1002H04L67/2814
    • A load distribution of controllers is made possible in a combination of a switch and a controller which do not have a load distribution function independently, and in a combination of the switch and the controller that do not have a compatibility in the load distribution function due to a difference of makers. Specifically, in a system which controls a data flow flowing through the network by dynamically setting a delivery route of a packet to switches in the network by the controllers such as a server, the master controller is determined to the switch while notifying a connection from the switch to the plurality of controllers, by a proxy provided between the switch and the controller, and an inquiry message from the switch is transferred only to the master controller. A route data registration message is transmitted to the proxy from the master controller in response to the inquiry message from the switch. The route data registration message is transferred to all the switches which are dealt with the notice from the proxy.
    • 控制器的负载分布在开关和控制器的组合中是可能的,其不具有独立的负载分配功能,并且在开关和控制器的组合中,在负载分配功能中没有兼容性 制造商的差异。 具体地说,在通过由服务器等控制器动态地设定分组到交换机的分组路由来控制流经网络的数据流的系统中,主控制器被确定为交换机,同时通知来自 通过交换机和控制器之间提供的代理切换到多个控制器,并且来自交换机的询问消息仅被传送到主控制器。 响应于来自交换机的查询消息,从主控制器向代理发送路由数据注册消息。 路由数据注册消息被传送到从代理处理的通知的所有交换机。
    • 10. 发明授权
    • Method of manufacturing superconducting wire
    • 超导线制造方法
    • US07784169B2
    • 2010-08-31
    • US10569829
    • 2005-02-17
    • Jun FujikamiTakeshi Kato
    • Jun FujikamiTakeshi Kato
    • H01B12/00H01B13/00
    • H01L39/248Y10T29/49014
    • A method of manufacturing a superconducting wire includes the step of drawing a wire formed by coating raw material powder for a superconductor with a metal, the step of first rolling a multifilamentary wire after the step of drawing, and the step of first sintering the multifilamentary wire 1 after the step of the first rolling. At least one of an interval between the step of drawing and the step of the first rolling and an interval between the step of the first rolling and the step of the first sintering is less than seven days. With this method, a superconducting wire having high and uniform performance can be obtained.
    • 制造超导线的方法包括以下步骤:通过用金属涂覆用于超导体的原料粉末而形成的线,在拉拔步骤之后首先轧制多丝线的步骤,以及首先烧结多丝线 1后第一次滚动的步骤。 拉伸步骤与第一次轧制步骤之间的间隔和第一次轧制步骤与第一次烧结步骤之间的间隔中的至少一个小于七天。 通过这种方法,可以获得具有高且均匀性能的超导线。