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    • 5. 发明授权
    • Portable liquid oxygen unit with multiple operational orientations
    • 便携式液氧机组,具有多种操作方向
    • US07766009B2
    • 2010-08-03
    • US11942378
    • 2007-11-19
    • Mark Robert FryeLeonardo Shiki TomaRichard Scott Remes
    • Mark Robert FryeLeonardo Shiki TomaRichard Scott Remes
    • A62B7/06
    • F17C13/006F17C3/08F17C7/04F17C9/02F17C13/005F17C13/084F17C2221/011F17C2223/0153F17C2223/047F17C2225/0123F17C2260/027F17C2270/02F17C2270/025Y10S128/27
    • A portable liquid oxygen (LOX) storage/delivery apparatus is provided, including an insulated (LOX) container having an interior, a bottom portion and a sidewall, the sidewall including a first side portion and a second side portion, both extending between the top portion and the bottom portion, and a port system in communication with the interior of the container for charging the container and for withdrawing LOX and gaseous oxygen from the container. The gaseous oxygen is withdrawn from the container through a first outlet and LOX is withdrawn from the container through a second outlet. Gaseous oxygen can be withdrawn from the container through the first outlet and LOX can be withdrawn from the container through the second outlet when the container is positioned in a first orientation with the sidewall vertically oriented, as well as when the container is positioned in a second orientation with the second side portion oriented downwardly and with the first side portion oriented upwardly and overlying the second side portion, and any position in between.
    • 提供便携式液氧(LOX)储存/输送装置,其包括具有内部,底部和侧壁的绝缘(LOX)容器,所述侧壁包括第一侧部和第二侧部,两者在顶部 部分和底部,以及与容器内部连通的端口系统,用于对容器充电并从容器中取出LOX和气态氧。 气态氧通过第一出口从容器中排出,LOX通过第二出口从容器中取出。 气体氧可以通过第一出口从容器中取出,并且当容器定位在侧壁垂直定向的第一方位时,以及当容器位于第二出口处时,LOX可以通过第二出口从容器中取出 其中第二侧部分向下取向并且第一侧部分向上取向并覆盖第二侧部,以及其间的任何位置。
    • 6. 发明授权
    • Portable liquid oxygen unit with multiple operational orientations
    • 便携式液氧机组,具有多种操作方向
    • US06575159B1
    • 2003-06-10
    • US09696208
    • 2000-10-26
    • Mark Robert FryeLeonardo Shiki TomaRichard Scott Remes
    • Mark Robert FryeLeonardo Shiki TomaRichard Scott Remes
    • A62B706
    • F17C13/006F17C3/08F17C7/04F17C9/02F17C13/005F17C13/084F17C2221/011F17C2223/0153F17C2223/047F17C2225/0123F17C2260/027F17C2270/02F17C2270/025Y10S128/27
    • A portable liquid oxygen (LOX) storage/delivery apparatus is provided, including an insulated (LOX) container having an interior, a bottom portion and a sidewall, the sidewall including a first side portion and a second side portion, both extending between the top portion and the bottom portion, and a port system in communication with the interior of the container for charging the container and for withdrawing LOX and gaseous oxygen from the container. The gaseous oxygen is withdrawn from the container through a first outlet and LOX is withdrawn from the container through a second outlet. Gaseous oxygen can be withdrawn from the container through the first outlet and LOX can be withdrawn from the container through the second outlet when the container is positioned in a first orientation with the sidewall vertically oriented, as well as when the container is positioned in a second orientation with the second side portion oriented downwardly and with the first side portion oriented upwardly and overlying the second side portion, and any position in between.
    • 提供便携式液氧(LOX)储存/输送装置,其包括具有内部,底部和侧壁的绝缘(LOX)容器,所述侧壁包括第一侧部和第二侧部,两者在顶部 部分和底部,以及与容器内部连通的端口系统,用于对容器充电并从容器中取出LOX和气态氧。 气态氧通过第一出口从容器中排出,LOX通过第二出口从容器中取出。 气体氧可以通过第一出口从容器中取出,并且当容器定位在侧壁垂直定向的第一方位时,以及当容器位于第二出口处时,LOX可以通过第二出口从容器中取出 其中第二侧部分向下取向并且第一侧部分向上取向并覆盖第二侧部,以及其间的任何位置。
    • 8. 发明授权
    • Fluid control valve for pressure vessel
    • 用于压力容器的流体控制阀
    • US06412484B1
    • 2002-07-02
    • US09592664
    • 2000-06-13
    • John I. IzuchukwuStan A. SandersRichard Scott Remes
    • John I. IzuchukwuStan A. SandersRichard Scott Remes
    • A62B700
    • F16L55/02A61M16/0825A61M16/208A62B7/02
    • A fluid transfer control valve is connected to a pressure vessel formed from a plurality of hollow, polymeric chambers interconnected by polymeric conduit sections disposed between adjacent ones of the chambers. The valve includes a valve body and a pressure relief mechanism attached to the body. The pressure relief mechanism is operative to release pressure from the pressure vessel when the pressure within the vessel exceeds a predetermined maximum pressure. In a preferred embodiment, the relief mechanism comprises a rupture disk. The pressure relief valve may also include a filter element disposed along a fluid flow path defined within the valve body and/or a restrictive flow path for reducing the pressure of fluid flowing through the valve body.
    • 流体转移控制阀连接到由多个中空聚合物室形成的压力容器,所述多个中空的聚合物室通过设置在相邻的室之间的聚合物管道部分相互连接。 该阀包括阀体和附接到主体的压力释放机构。 当容器内的压力超过预定的最大压力时,减压机构可操作以从压力容器释放压力。 在优选实施例中,释放机构包括破裂盘。 减压阀还可以包括沿着限定在阀体内的流体流路设置的过滤元件和/或用于减小流过阀体的流体的压力的限流流路。
    • 9. 发明授权
    • Wearable storage system for pressurized fluids
    • 用于加压流体的可穿戴式存储系统
    • US06513522B1
    • 2003-02-04
    • US09592902
    • 2000-06-13
    • John I. IzuchukwuStan A. SandersRichard Scott Remes
    • John I. IzuchukwuStan A. SandersRichard Scott Remes
    • A61M1500
    • A62B7/02A61M16/0666A61M16/0825A61M16/201A61M16/202A61M16/208A61M16/209
    • A wearable storage system for pressurized fluid includes a pressure vessel formed from a plurality of polymeric hollow chamber having either en ellipsoidal or spherical shape and interconnected by a plurality of relatively narrow conduit sections disposed between consecutive ones of the chambers. The pressure vessel includes a reinforcing filament wrapped around the interconnected chambers and interconnecting conduit sections to limit radial expansion of the chambers and conduit sections when filled with a fluid under pressure. The container system further includes a fluid transfer control system attached to the pressure vessel for controlling fluid flow into and out of the pressure vessel. A gas delivery mechanism for delivering gas stored in the pressure vessel to the patient in a controlled manner is connected to the fluid transfer control system. The pressure vessel and the fluid transfer control system are incorporated into a wearable garment to provide an ambulatory supply of gas for the patient.
    • 用于加压流体的可佩戴存储系统包括由具有椭圆形或球形形状的多个聚合物中空室形成的压力容器,并且通过设置在连续腔室之间的多个相对较窄的导管部分相互连接。 压力容器包括缠绕在相互连接的腔室和相互连接的导管部分上的增强丝,以限制在充满压力的流体时腔室和导管部分的径向膨胀。 容器系统还包括连接到压力容器的流体传递控制系统,用于控制流入和流出压力容器的流体流动。 用于将以压缩方式将存储在压力容器中的气体输送给患者的气体输送机构连接到流体传送控制系统。 压力容器和流体转移控制系统结合到可穿戴的衣服中以为患者提供动态供气。