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    • 1. 发明授权
    • Ion exchange filter
    • 离子交换过滤器
    • US07635427B2
    • 2009-12-22
    • US11604680
    • 2006-11-28
    • Koji SuzukiKeisuke Wakabayashi
    • Koji SuzukiKeisuke Wakabayashi
    • B01D24/04B01D24/16
    • B01J47/024
    • An ion exchange filter for a fuel cell system includes a housing with a fluid flow-in port and a cartridge which is disposed inside the housing and in which an ion exchange resin is filled, the fluid flowing in the cartridge through the flow-in port is filtrated therein by the ion exchange resin and the filtrated fluid flows out through the flow-out port. The housing has a casing having an opened upper end and a lid closing the upper end opening, and the fluid flow-in port has an outer peripheral wall of the casing at a portion above a bottom surface of the cartridge disposed inside the housing and the fluid flow-out port is formed to the lid, and a gap is formed between the housing and the cartridge for flowing the fluid flowing inside the housing through the flow-in port towards the bottom portion of the housing.
    • 用于燃料电池系统的离子交换过滤器包括具有流体流入口的壳体和设置在壳体内部并且其中填充有离子交换树脂的筒,流体通过流入口流入筒中 通过离子交换树脂过滤,过滤流体通过流出口流出。 壳体具有敞开的上端和关闭上端开口的盖的壳体,并且流体流入口在壳体的底表面上方的位于壳体内部的部分的外侧壁上具有壳体的外周壁, 流体流出口形成在盖上,并且在壳体和筒之间形成间隙,用于使流过壳体的流体流过流入口朝向壳体的底部。
    • 2. 发明申请
    • Ion exchange filter
    • 离子交换过滤器
    • US20070119770A1
    • 2007-05-31
    • US11604680
    • 2006-11-28
    • Koji SuzukiKeisuke Wakabayashi
    • Koji SuzukiKeisuke Wakabayashi
    • B01D27/02
    • B01J47/024
    • An ion exchange filter for a fuel cell system includes a housing provided with a fluid flow-in port and a cartridge which is disposed inside the housing and in which an ion exchange resin is filled, the fluid flowing in the cartridge through the flow-in port is filtrated therein by the ion exchange resin and the filtrated fluid flows out through the flow-out port. The housing is provided with a casing having an opened upper end and a lid closing the upper end opening, and the fluid flow-in port is provided with an outer peripheral wall of the casing at a portion above a bottom surface of the cartridge disposed inside the housing and the fluid flow-out port is formed to the lid, and a gap is formed between the housing and the cartridge for flowing the fluid flowing inside the housing through the flow-in port towards the bottom portion of the housing. The fluid then flows from the bottom portion to an upper portion in the housing.
    • 一种用于燃料电池系统的离子交换过滤器,包括设置有流体流入口的壳体和设置在壳体内部并且其中填充有离子交换树脂的药筒,流体通过流入的药筒 端口通过离子交换树脂过滤,过滤的流体通过流出口流出。 壳体设置有具有敞开的上端和关闭上端开口的盖的壳体,并且流体入口在壳体的外表面上设置有位于设置在内部的盒的底表面上方的部分的外周壁 壳体和流体流出端口形成在盖上,并且在壳体和盒之间形成间隙,用于使流过壳体的流体流过流入口朝向壳体的底部。 然后,流体从底部流动到壳体中的上部。
    • 3. 发明授权
    • Fuel cell system
    • 燃料电池系统
    • US07442454B2
    • 2008-10-28
    • US10780767
    • 2004-02-19
    • Keisuke Wakabayashi
    • Keisuke Wakabayashi
    • H01M8/04
    • H01M8/04485B01J49/85C02F1/42C02F2303/16H01M8/04044H01M8/04656
    • A fuel cell is protected from performance degradation and damage by determining when an ion exchange resin filter needs replacement before the occurrence of an increase in the electric conductivity of water used in the fuel cell system. The replacement time of the ion exchange resin filter 11 is judged by an ion-exchange capacity judging part 152 on the basis of the result of comparing a reference electric conductivity as preset with the electric conductivity of coolant water circulating in a coolant water cycle as measured by an electric conductivity meter 12 a predetermined time after a coolant water pump 14 starts operation.
    • 在燃料电池系统中使用的水的电导率增加发生之前,通过确定何时离子交换树脂过滤器需要更换,可以防止燃料电池的性能下降和损坏。 离子交换树脂过滤器11的更换时间由离子交换容量判定部152基于将预先设定的基准电导率与测定的冷却水循环中的冷却水的电导率进行比较的结果来判定 通过电导率计12在冷却水泵14开始运转之后的预定时间。
    • 6. 发明授权
    • Electric water pump
    • 电动水泵
    • US08476795B2
    • 2013-07-02
    • US13064720
    • 2011-04-11
    • Keisuke WakabayashiMasanori UmenoNobuyuki Kabasawa
    • Keisuke WakabayashiMasanori UmenoNobuyuki Kabasawa
    • H02K11/00
    • H02K29/08F04D13/064F04D13/0686H02K5/128H02K2211/03
    • In a circuit substrate of an electric water pump, a Hall IC can be mounted on a circuit substrate at an optimum position in a stable and durable state. The electric water pump includes a motor housing, a stator constituted by a stator core covered by a resin insulator and a coil, a circuit substrate, a holder 6 mounted on the circuit substrate, and a Hall IC mounted on the holder. A holder accommodation portion, into which the holder is inserted, is formed in the insulator, the stator is disposed in and fixed to the motor housing, the circuit substrate is appropriately mounted on the motor housing, and the holder 6 is inserted into and supported by the holder accommodation portion.
    • 在电动水泵的电路基板中,霍尔IC可以以稳定且持久的状态在最佳位置安装在电路基板上。 电动水泵包括电动机壳体,由被树脂绝缘体覆盖的定子铁芯和线圈构成的定子,电路基板,安装在电路基板上的保持架6以及安装在保持架上的霍尔IC。 在绝缘体中形成有保持器容纳部分,其中插入有保持器,定子被布置在电机壳体中并固定到电动机壳体上,电路基板被适当地安装在电动机壳体上,并且保持器6插入并被支撑 通过支架容置部分。
    • 9. 发明授权
    • Fluid flow controlling device and an incubator incorporating the same
therein
    • 流体流动控制装置和包含其中的培养箱
    • US5971912A
    • 1999-10-26
    • US787905
    • 1997-01-23
    • Naoki HonmaShinichi KobayashiKeisuke WakabayashiKazuo Matubara
    • Naoki HonmaShinichi KobayashiKeisuke WakabayashiKazuo Matubara
    • A61M16/20A61G11/00G05D7/01G05D11/00G05D11/03
    • G05D11/003A61G11/00A61G11/006Y10T137/2521
    • A fluid flow controlling device having a working member capable of reciprocating in a tubular case. The working member comprises a pressure detecting portion to detect the pressure of a second fluid, which flows into the tubular case through a second inlet, and to move the working member forwards; and a valve element to decrease the opening of the first outlet in relation to the opening of the first inlet, through which the first fluid is led into the tubular case, in correspondence with the displacement of the working member. By the use of the above fluid flow controlling device, it becomes easy to control the quantity of the first fluid led into the tubular case in relation to that of the second fluid, and it becomes possible to sufficiently supplying the first fluid to the tubular case even when the second fluid is exhausted and cannot be supplied any more so long as the first fluid is not exhausted. Further, the above fluid flow controlling device has a simple structure, performs a reliable action, does not break easily, and is very durable.
    • 一种流体流动控制装置,具有能够在管状壳体中往复运动的工作构件。 工作构件包括压力检测部分,用于检测通过第二入口流入管状壳体的第二流体的压力,并使工作构件向前移动; 以及阀元件,其相对于第一入口的开口减小第一出口的开口,第一流体通过该第一入口与工作构件的位移对应地引导到管状壳体中。 通过使用上述流体流量控制装置,可以容易地控制相对于第二流体引导到管状壳体中的第一流体的量,并且可以将第一流体充分地供应到管状壳体 即使当第二流体被排出并且不能再供给时,只要第一流体没有被排出。 此外,上述流体流动控制装置具有简单的结构,执行可靠的动作,不容易破坏,并且非常耐用。