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    • 5. 发明申请
    • Direct liquid feed fuel cell system
    • 直接液体进料燃料电池系统
    • US20070178358A1
    • 2007-08-02
    • US11442530
    • 2006-05-30
    • Dong-kee SohnSang-Kyun KangKyung ChoiYoung-Jae Kim
    • Dong-kee SohnSang-Kyun KangKyung ChoiYoung-Jae Kim
    • H01M8/04
    • H01M8/0267H01M8/0258H01M8/0263H01M8/04007H01M8/04059H01M8/04089H01M8/04194H01M8/1011Y02E60/523
    • A direct liquid feed fuel cell system that includes a housing, a fuel cell stack in which air flow channels are formed, in the housing; and a fan that supplies air between the housing and a part of the air flow channels, wherein the fuel cell stack is obliquely mounted toward the fan. The fuel cell system can be arranged so that the airflow channels are substantially vertical, in order for air to be supplied between the housing and an upper part of the airflow channels, with the fuel cell stack downwardly obliquely mounted toward the fan. Furthermore, an outlet in the housing on an opposite side of the fuel cell stack from the fan can allow air that has passed through the air flow channels to be exhausted from the fuel cell system after passing through a space between a part of the fuel cell stack and the housing.
    • 一种直接液体进料燃料电池系统,其包括壳体,其中形成有空气流动通道的燃料电池堆; 以及风扇,其在所述壳体和所述空气流动通道的一部分之间提供空气,其中所述燃料电池堆向所述风扇倾斜安装。 燃料电池系统可以布置成使得气流通道基本垂直,以便在壳体和气流通道的上部之间供应空气,燃料电池堆向下倾斜地安装到风扇上。 此外,在燃料电池堆与风扇相反侧的壳体中的出口可以允许已经通过空气流动通道的空气在通过燃料电池的一部分之间的空间从燃料电池系统排出 堆叠和房屋。
    • 8. 发明授权
    • Operating method for inkjet head
    • 喷墨头操作方法
    • US07950759B2
    • 2011-05-31
    • US11730881
    • 2007-04-04
    • Young-Jae KimJae-Woo JoungChang-Sung ParkYoung-Seuck Yoo
    • Young-Jae KimJae-Woo JoungChang-Sung ParkYoung-Seuck Yoo
    • B41J29/38
    • B41J2/04588B41J2/04581B41J2/14233B41J2002/14411
    • A method of operating an inkjet head to eject ink droplets, for an inkjet head including a pressure chamber that is contracted and expanded in a particular period, including: decompression-operating the membrane, such that the volume of the pressure chamber is increased, in correspondence with the period in which the pressure chamber is expanded; compression-operating the membrane, such that the volume of the pressure chamber is decreased, in correspondence with the time point at which the pressure chamber is converted from an expanded state to a contracted state; decompression-operating the membrane, such that the volume of the pressure chamber is increased, in correspondence with the period in which the pressure chamber is contracted; and compression-operating the membrane, such that the volume of the pressure chamber is decreased, in correspondence with the time point at which the pressure chamber is converted from a contracted state to an expanded state.
    • 一种操作喷墨头以喷射墨滴的方法,对于包括在特定时间段内收缩和膨胀的压力室的喷墨头,包括:减压操作膜,使得压力室的体积增加, 与压力室膨胀的时间对应; 压缩操作膜,使得压力室的体积相应于压力室从膨胀状态转变为收缩状态的时间点减小; 减压 - 操作膜,使得压力室的体积相应于压力室收缩的时间段增加; 并且压缩操作膜,使得压力室的体积相应于压力室从收缩状态转变为膨胀状态的时间点而减小。
    • 10. 发明申请
    • Operating method for inkjet head
    • 喷墨头操作方法
    • US20070257948A1
    • 2007-11-08
    • US11730881
    • 2007-04-04
    • Young-Jae KimJae-Woo JoungChang-Sung ParkYoung-Seuck Yoo
    • Young-Jae KimJae-Woo JoungChang-Sung ParkYoung-Seuck Yoo
    • B41J29/38
    • B41J2/04588B41J2/04581B41J2/14233B41J2002/14411
    • An operating method for an inkjet head is disclosed. With a method of operating an inkjet head to eject ink droplets, for an inkjet head including a pressure chamber that is contracted and expanded in a particular period, a membrane included in one side of the pressure chamber, and a nozzle connected to the pressure chamber, where the method includes: (a) decompression-operating the membrane, such that the volume of the pressure chamber is increased, in correspondence with the period in which the pressure chamber is expanded; (b) compression-operating the membrane, such that the volume of the pressure chamber is decreased, in correspondence with the time point at which the pressure chamber is converted from an expanded state to a contracted state; (c) decompression-operating the membrane, such that the volume of the pressure chamber is increased, in correspondence with the period in which the pressure chamber is contracted; and (d) compression-operating the membrane, such that the volume of the pressure chamber is decreased, in correspondence with the time point at which the pressure chamber is converted from a contracted state to an expanded state, the operating waveform delivered to the actuator is designed in consideration of all of the resonance frequencies of the actuator, pressure chamber, and meniscus, whereby the ejection speed of ink droplets may be increased and the size of the ink droplets may be minimized, without being subject to the effects of resonance of the actuator during the process of ejecting the ink droplets.
    • 公开了一种用于喷墨头的操作方法。 通过操作喷墨头以喷射墨滴的方法,对于包括在特定时间段收缩和膨胀的压力室的喷墨头,包括在压力室一侧的膜和连接到压力室的喷嘴 其中所述方法包括:(a)减压操作所述膜,使得所述压力室的体积与所述压力室膨胀的时段相对应地增加; (b)对膜进行压缩操作,使得压力室的体积相应于压力室从膨胀状态转变为收缩状态的时间点减小; (c)减压操作膜,使得压力室的体积相应于压力室收缩的时间段增加; 和(d)对膜进行压缩操作,使得压力室的容积对应于压力室从收缩状态转变为膨胀状态的时间点而减小,输送到致动器的操作波形 考虑到致动器,压力室和弯液面的所有共振频率而设计,从而可以增加墨滴的喷射速度,并且可以使墨滴的尺寸最小化,而不会受到共振的影响 在喷墨过程中的致动器。