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    • 1. 发明授权
    • Valve assembly for gas container
    • 气体容器阀组件
    • US08573253B2
    • 2013-11-05
    • US11884129
    • 2006-02-20
    • Nobuyuki OgamiNobuo KobayashiAkira Yamashita
    • Nobuyuki OgamiNobuo KobayashiAkira Yamashita
    • F17C1/00F17C13/04B67D7/36
    • F17C13/04F17C2201/0104F17C2205/0323F17C2205/0338F17C2205/0391Y10T137/8326Y10T137/86348Y10T137/86372Y10T137/87249
    • There is disclosed a valve assembly for a gas container capable of appropriately discharging a gas from the gas container, even if a valve of a discharge passage has a failure or the like. The valve assembly for the gas container disposed at the gas container has, as passages which allow the inside of the gas container to communicate with the outside, a filling passage which fills the gas container with the gas and a discharge passage which discharges the gas. Furthermore, the valve assembly has a filling-side valve disposed at the filling passage and configured to close this passage, a discharge-side valve disposed at the discharge passage and configured to close this passage, a communication path which connects a downstream side of the discharge-side valve to a downstream side of the filling-side valve, and a shut-off valve disposed at the communication path. When the discharge-side valve does not open due to the failure or the like, the shut-off valve is opened to allow the gas to flow through the filling passage, the communication path and the discharge passage in this order.
    • 公开了一种能够适当地从气体容器排出气体的气体容器的阀组件,即使排出通路的阀具有故障等。 用于设置在气体容器中的气体容器的阀组件具有允许气体容器内部与外部连通的通道,填充有气体的气体容器的填充通道和排出气体的排出通道。 此外,阀组件具有设置在填充通道处并且构造成关闭该通道的填充侧阀,排出侧阀设置在排出通道处,并被构造成关闭该通道,连通路径 排出侧阀到填充侧阀的下游侧,以及截止阀,设置在连通路径。 当排出侧阀由于故障等而不打开时,截止阀打开以允许气体依次流过填充通道,连通路径和排出通道。
    • 2. 发明申请
    • Seal Structure of High-Pressure Tank
    • 高压罐密封结构
    • US20080111322A1
    • 2008-05-15
    • US11794139
    • 2006-01-24
    • Hirokazu OtsuboChihiro UchimuraNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • Hirokazu OtsuboChihiro UchimuraNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • F16J15/02
    • F16L55/1108F17C2205/0305
    • Disclosed is a seal structure of a high-pressure tank capable of properly securing seal efficiency. The seal structure of the high-pressure tank includes a plurality of seal members that have mutually different seal properties and that are installed between a ferrule of the high-pressure tank and a valve body attached to the ferrule. One of the plurality of seal members has low temperature resistance, and the other has high temperature resistance. A first seal member is an O-ring formed of butyl rubber or silicone. A second seal member is an O-ring formed of EPDM. Furthermore, the two O-rings are different in gas permeability from each other. This seal structure can be applied between the ferrule and the valve body, in addition, between the ferrule and a liner, between the ferrule and a shell, and between the valve body and the shell.
    • 公开了能够正确地确保密封效率的高压罐的密封结构。 高压罐的密封结构包括具有相互不同的密封特性并且安装在高压罐的套圈和附接到套圈的阀体之间的多个密封构件。 多个密封部件中的一个具有耐低温性,另一种具有耐高温性。 第一密封构件是由丁基橡胶或硅酮形成的O形环。 第二密封构件是由EPDM形成的O形环。 此外,两个O形环的透气性彼此不同。 此外,该密封结构还可以应用在套圈和阀体之间,套管和衬套之间,套圈和壳体之间以及阀体和壳体之间。
    • 3. 发明申请
    • Combined Pressure Reducing and Shut-Off Valve
    • 联合减压和关闭阀
    • US20070204915A1
    • 2007-09-06
    • US11659740
    • 2005-08-26
    • Masahiko KimbaraNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • Masahiko KimbaraNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • F16K31/14
    • G05D16/2086G05D16/10Y10T137/7782Y10T137/7826
    • A pressure-reducing valve is disclosed which is capable of preventing leakage of a fluid from a passage aperture in a state in which the passage aperture is closed by a valve body. The pressure-reducing valve is structured such that a plunger is moved upward due to a biasing force of a shut spring when a magnetic field generated around and inside a solenoid body is released. Thus, the valve body is pushed up from below by a pressing portion of the plunger with a pressing force based on the biasing force of a shut spring. Due to the valve body being pushed up, the upper end of the valve body is placed in close contact with the inner peripheral portion of the passage aperture so that the passage aperture is closed. In this manner, leakage of hydrogen gas from a primary pressure chamber to a secondary pressure chamber (leakage of the gas pressure) can be prevented with certainty, and thus an unintentional increase of the pressure at the secondary pressure chamber side can be prevented with certainty.
    • 公开了一种减压阀,其能够防止在通道孔被阀体关闭的状态下流体从通道孔泄漏。 减压阀被构造成使得当螺线管体内部和内部产生的磁场被释放时,柱塞由于闭合弹簧的偏置力而向上移动。 因此,阀体通过基于弹簧的偏置力的按压力被柱塞的按压部从下方向上推动。 由于阀体被向上推动,阀体的上端与通道孔的内周部分紧密接触,使得通道孔闭合。 以这种方式,可以确定地防止氢气从一次压力室泄漏到二次压力室(泄漏气体压力),从而可以确定地防止二次压力室侧的压力的无意的增加 。
    • 5. 发明授权
    • Fluid on-off valve device
    • 流体开关阀装置
    • US08186377B2
    • 2012-05-29
    • US11887727
    • 2006-04-13
    • Tsukuo IshitoyaNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • Tsukuo IshitoyaNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • F16K15/00
    • F16K25/005F16J15/104F16J15/48F16K1/44F16K15/025Y10T137/7868Y10T137/7869
    • A check valve (fluid on-off valve device) capable of attaining high sealability in either case where a differential pressure is high or low, comprises a valve body assembly (valve body) contacting and separating from a valve seat portion for communicating and blocking a fluid passage. The valve body assembly comprises a valve body, a low-pressure seal portion constituted out of soft material and a high-pressure seal portion constituted out of harder material than the low-pressure seal portion. In blocking a fluid passage, when a differential pressure between an upstream path and a downstream path in the fluid passage is relatively low, the low-pressure seal portion comes into close contact with a protrusion to block the fluid passage, while when the differential pressure is relatively high, the low-pressure seal portion is compressively deformed by the differential pressure and the high-pressure seal portion comes into close contact with the valve seat body, thus blocking the fluid passage.
    • 在差压高或低的情况下能够获得高密封性的止回阀(流体开关阀装置)包括阀体组件(阀体),与阀座部分接触和分离,用于连通和阻塞 流体通道 阀体组件包括阀体,由软质材料构成的低压密封部和由比低压密封部更硬的材料构成的高压密封部。 在堵塞流体通道时,当流体通道中的上游路径和下游路径之间的压差相对较低时,低压密封部分与突起紧密接触以阻塞流体通道,而当压差 相对较高,低压密封部被差压压缩变形,高压密封部与阀座体紧密接触,堵塞流体通路。
    • 6. 发明授权
    • Seal structure of high-pressure tank
    • 高压罐密封结构
    • US07971852B2
    • 2011-07-05
    • US11794139
    • 2006-01-24
    • Hirokazu OtsuboChihiro UchimuraNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • Hirokazu OtsuboChihiro UchimuraNobuo KobayashiNobuyuki OgamiAkira Yamashita
    • F16K51/00
    • F16L55/1108F17C2205/0305
    • Disclosed is a seal structure of a high-pressure tank capable of properly securing seal efficiency. The seal structure of the high-pressure tank includes a plurality of seal members that have mutually different seal properties and that are installed between a ferrule of the high-pressure tank and a valve body attached to the ferrule. One of the plurality of seal members has low temperature resistance, and the other has high temperature resistance. A first seal member is an O-ring formed of butyl rubber or silicone. A second seal member is an O-ring formed of EPDM. Furthermore, the two O-rings are different in gas permeability from each other. This seal structure can be applied between the ferrule and the valve body, in addition, between the ferrule and a liner, between the ferrule and a shell, and between the valve body and the shell.
    • 公开了能够正确地确保密封效率的高压罐的密封结构。 高压罐的密封结构包括具有相互不同的密封特性并且安装在高压罐的套圈和附接到套圈的阀体之间的多个密封构件。 多个密封部件中的一个具有耐低温性,另一种具有耐高温性。 第一密封构件是由丁基橡胶或硅酮形成的O形环。 第二密封构件是由EPDM形成的O形环。 此外,两个O形环的透气性彼此不同。 此外,该密封结构还可以应用在套圈和阀体之间,套管和衬套之间,套圈和壳体之间以及阀体和壳体之间。