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    • 1. 发明申请
    • Relief Valve Device
    • 泄压阀装置
    • US20080276992A1
    • 2008-11-13
    • US11718974
    • 2004-11-11
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • F16K17/38
    • F16K17/383F16K3/265Y10T137/1797Y10T137/1963Y10T137/7837
    • Under emergency, a valve body (26) displaced from a closed position (42) to an open position (43) in association with melting of a fuse member (28) receives resultant of pressing forces of a primary pressure (P1) of gas guided through a primary port (56) in an opening direction (X1) in a state where the valve body (26) is disposed at the position closer to the open position (43) including a fluid driving start position between the closed position (42) and the open position (43). The valve body 26 receives smaller resultant of the pressing forces of the primary pressure in the opening direction (X1) in a state where the valve body (26) is disposed at the position closer to the closed position (42) than to the fluid driving start position than the resultant of the pressing forces received by the valve body (26) in the state where the valve body (26) is disposed at the position closer to the open position (43) including the fluid driving start position. In this manner, it is possible to provide a compact relief valve device capable of suppressing a pressing force applied to a displacement preventing means for preventing the opening operation under normal condition and of achieving a quick opening operation under emergency condition.
    • 在紧急情况下,与保险丝构件(28)的熔化相关联地从关闭位置(42)移动到打开位置(43)的阀体(26)接收压力的主要压力(P 1) 在阀体(26)设置在更靠近打开位置(43)的位置的状态下沿打开方向(X 1)引导通过主要端口(56),包括在关闭位置之间的流体驱动开始位置 42)和打开位置(43)。 阀体26在阀体(26)设置在比关闭位置(42)更靠近关闭位置(42)的位置的状态下,比开口方向(X 1)的压力大得多。 在阀体(26)设置在包括流体驱动开始位置的更靠近打开位置的位置的状态下,由阀体(26)接收的按压力的结果导致的开动位置。 以这种方式,可以提供一种紧凑的安全阀装置,其能够抑制施加到防止移动装置的按压力,以防止在正常状态下的打开操作并且在紧急情况下实现快速打开操作。
    • 3. 发明申请
    • Pressure-reducing valve
    • 减压阀
    • US20080302428A1
    • 2008-12-11
    • US11811275
    • 2007-06-07
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • F16K31/12
    • F16K31/1221G05D16/10Y10T137/7787Y10T137/7801Y10T137/7811
    • A pressure-reducing valve includes a housing, a pressure-reducing piston, a driving piston, and a spring mechanism. The housing is provided with a primary port and a secondary port. The pressure-reducing piston is displaceably retained in an interior of the housing. The pressure-reducing piston is displaced to control an opening degree of the primary port and configured to separate the interior of the housing into a primary-pressure space connected to the primary port and a secondary-pressure space connected to the secondary port. The driving piston is displaceably retained in the interior of the housing. The driving piston is displaced to cause the pressure-reducing piston to be displaced in association therewith and has a secondary-pressure receiving surface that receives a secondary pressure from a fluid in the secondary-pressure space. The spring mechanism is configured to exert a spring force against the secondary pressure to at least one of the pistons.
    • 减压阀包括壳体,减压活塞,驱动活塞和弹簧机构。 外壳设有主端口和辅助端口。 减压活塞可移动地保持在壳体的内部。 减压活塞被移位以控制主端口的开度并且被配置为将壳体的内部分离成连接到主端口的主压力空间和连接到副端口的次级压力空间。 驱动活塞可移动地保持在壳体的内部。 驱动活塞被移动以使减压活塞相关联地移动,并且具有二次压力接收表面,该二次压力接收表面从二次压力空间中的流体接收二次压力。 弹簧机构构造成施加抵抗二次压力的弹簧力至少一个活塞。
    • 5. 发明授权
    • Solenoid valve device
    • 电磁阀装置
    • US08245730B2
    • 2012-08-21
    • US11719904
    • 2004-11-22
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • F16K39/02
    • F16K31/0606F16K31/0624F16K31/0693Y10T137/86984
    • Electric power is supplied to a coil (17) to drive a valve (16) for displacement by a magnetic action, thereby adjusting the opening of a valve path (43). The electric power for thus driving the valve (16) is supplied to the coil (17) through an electric conductor wire (18). The electric conductor wire (18) extends from a portion of a housing (15) that is exposed from a tank (11) to a portion of the housing (15) that accommodates the coil (17) therein. Thus, the housing (15) holds the electric conductor wire (18) as extending inside the housing (15). Since the electric conductor wire (18) is thus held as extending inside the housing (15), the electric conductor wire (18) is protected against vibration and impact given thereto from the outside. Thus, the electric conductor wire (18) has enhanced reliability in terms of resistance to vibration and impact. With the electric conductor wire (18) thus positioned within the housing (15), the housing (15) can house the electric conductor wire (18) neatly. Thus, the present invention can provide a highly reliable electromagnetic valve device which can be reduced in size and simplified in structure.
    • 电力被提供给线圈(17),以通过磁力驱动阀(16)进行位移,从而调节阀通道(43)的开度。 用于驱动阀(16)的电力通过导电线(18)供给到线圈(17)。 导电线(18)从容纳(1)露出的壳体(15)的一部分延伸到壳体(15)的容纳线圈(17)的部分。 因此,壳体(15)将电导线(18)保持为在壳体(15)内延伸。 由于电导线(18)因此被保持为在壳体(15)内延伸,所以电导体线(18)被保护免受来自外部的振动和冲击。 因此,电导线(18)在抗振动和冲击方面具有增强的可靠性。 由于电导线(18)因此位于壳体(15)内,壳体(15)可以整齐地容纳电导线(18)。 因此,本发明可以提供一种可靠性低的结构的电磁阀装置。
    • 6. 发明授权
    • Relief valve device
    • 泄压阀装置
    • US07814925B2
    • 2010-10-19
    • US11718974
    • 2004-11-11
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • F16K17/38F16K17/40
    • F16K17/383F16K3/265Y10T137/1797Y10T137/1963Y10T137/7837
    • Under emergency, a valve body displaced from a closed position to an open position in association with melting of a fuse member receives resultant of pressing forces of a primary pressure of gas guided through a primary port in an opening direction in a state where the valve body is disposed at the position closer to the open position including a fluid driving start position between the closed position and the open position. The valve body receives smaller resultant of the pressing forces of the primary pressure in the opening direction in a state where the valve body is disposed at the position closer to the closed position than to the fluid driving start position than the resultant of the pressing forces received by the valve body in the state where the valve body is disposed at the position closer to the open position including the fluid driving start position.
    • 在紧急情况下,与保险丝构件的熔化相关联地从闭合位置移动到打开位置的阀体在阀体的状态下接收通过主开口引导的气体的初级压力的压力的结果, 设置在更靠近打开位置的位置处,包括在关闭位置和打开位置之间的流体驱动开始位置。 在阀体设置在比液体驱动开始位置更靠近关闭位置的位置比接收到的按压力的结果的状态下,阀体在打开方向上承受较小的初级压力的压力 在阀体设置在更接近包括流体驱动开始位置的打开位置的位置的状态下通过阀体。
    • 7. 发明授权
    • Pressure-reducing valve
    • 减压阀
    • US07712482B2
    • 2010-05-11
    • US11811275
    • 2007-06-07
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • G05D16/02G05D16/10
    • F16K31/1221G05D16/10Y10T137/7787Y10T137/7801Y10T137/7811
    • A pressure-reducing valve includes a housing, a pressure-reducing piston, a driving piston, and a spring mechanism. The housing is provided with a primary port and a secondary port. The pressure-reducing piston is displaceably retained in an interior of the housing. The pressure-reducing piston is displaced to control an opening degree of the primary port and configured to separate the interior of the housing into a primary-pressure space connected to the primary port and a secondary-pressure space connected to the secondary port. The driving piston is displaceably retained in the interior of the housing. The driving piston is displaced to cause the pressure-reducing piston to be displaced in association therewith and has a secondary-pressure receiving surface that receives a secondary pressure from a fluid in the secondary-pressure space. The spring mechanism is configured to exert a spring force against the secondary pressure to at least one of the pistons.
    • 减压阀包括壳体,减压活塞,驱动活塞和弹簧机构。 外壳设有主端口和辅助端口。 减压活塞可移动地保持在壳体的内部。 减压活塞被移位以控制主端口的开度,并且被配置为将壳体的内部分离成连接到主端口的主压力空间和连接到副端口的次级压力空间。 驱动活塞可移动地保持在壳体的内部。 驱动活塞被移动以使减压活塞相关联地移动,并且具有二次压力接收表面,该二次压力接收表面从二次压力空间中的流体接收二次压力。 弹簧机构构造成施加抵抗二次压力的弹簧力至少一个活塞。
    • 9. 发明申请
    • Solenoid Valve Device
    • 电磁阀装置
    • US20090152485A1
    • 2009-06-18
    • US11719904
    • 2004-11-22
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • Kaoru NomichiSeiji IshiiMakoto Ninomiya
    • F16K31/02
    • F16K31/0606F16K31/0624F16K31/0693Y10T137/86984
    • Electric power is supplied to a coil (17) to drive a valve (16) for displacement by a magnetic action, thereby adjusting the opening of a valve path (43). The electric power for thus driving the valve (16) is supplied to the coil (17) through an electric conductor wire (18). The electric conductor wire (18) extends from a portion of a housing (15) that is exposed from a tank (11) to a portion of the housing (15) that accommodates the coil (17) therein. Thus, the housing (15) holds the electric conductor wire (18) as extending inside the housing (15). Since the electric conductor wire (18) is thus held as extending inside the housing (15), the electric conductor wire (18) is protected against vibration and impact given thereto from the outside. Thus, the electric conductor wire (18) has enhanced reliability in terms of resistance to vibration and impact. With the electric conductor wire (18) thus positioned within the housing (15), the housing (15) can house the electric conductor wire (18) neatly. Thus, the present invention can provide a highly reliable electromagnetic valve device which can be reduced in size and simplified in structure.
    • 电力被提供给线圈(17),以通过磁力驱动阀(16)进行位移,从而调节阀通道(43)的开度。 用于驱动阀(16)的电力通过导电线(18)供给到线圈(17)。 导电线(18)从容纳(1)露出的壳体(15)的一部分延伸到壳体(15)的容纳线圈(17)的部分。 因此,壳体(15)将电导线(18)保持为在壳体(15)内延伸。 由于电导线(18)因此被保持为在壳体(15)内延伸,所以电导体线(18)被保护免受来自外部的振动和冲击。 因此,电导线(18)在抗振动和冲击方面具有增强的可靠性。 由于电导线(18)因此位于壳体(15)内,壳体(15)可以整齐地容纳电导线(18)。 因此,本发明可以提供一种可靠性低的结构的电磁阀装置。