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    • 3. 发明授权
    • Vehicle occupant protection system
    • 车辆乘员保护系统
    • US07669891B2
    • 2010-03-02
    • US12434946
    • 2009-05-04
    • Seiji AzumaKouichi OotaMasafumi Ueda
    • Seiji AzumaKouichi OotaMasafumi Ueda
    • B60R21/18
    • B60R21/0134B60R21/0136B60R2021/01088B60R2021/01265
    • A vehicle occupant protection system includes: a seat belt apparatus including a shoulder belt (11) and a lap belt (13); an upper air bag (27, 113); a lower air bag (29, 67, 73, 83); and an inflation limiting structure (37, 53, 55, 57, 75, 85) which is provided in the lower air bag and limits inflation of a part of the lower air bag in a vehicle back-and-forth direction when the lower air bag is inflated. When the vehicle collision is detected or predicted, the upper and lower air bags are inflated and vertically come into contact with each other. Further, an upper part (41, 71, 79, 91) of the inflated lower air bag positioned above the inflation limiting structure is pressed by the upper air bag and bends toward the front of the vehicle at the inflation limiting structure.
    • 车辆乘员保护系统包括:安全带装置,包括肩带(11)和腰带(13); 上部气囊(27,113); 下部气囊(29,67,73,83); 以及设置在下部气囊中的充气限制结构(37,53,55,57,75,85),并且当下部空气限制下部气囊的一部分在车辆前后方向上的膨胀 袋子充气。 当检测到或预测到车辆碰撞时,上下气囊被充气并垂直地相互接触。 此外,位于充气限制结构上方的膨胀的下部气囊的上部(41,71,79,99)被上部气囊按压并且在充气限制结构处朝向车辆前方弯曲。
    • 4. 发明申请
    • VEHICLE OCCUPANT PROTECTION SYSTEM
    • 车辆保护系统
    • US20090278340A1
    • 2009-11-12
    • US12434946
    • 2009-05-04
    • Seiji AZUMAKouichi OotaMasafumi Ueda
    • Seiji AZUMAKouichi OotaMasafumi Ueda
    • B60R21/18
    • B60R21/0134B60R21/0136B60R2021/01088B60R2021/01265
    • A vehicle occupant protection system includes: a seat belt apparatus including a shoulder belt (11) and a lap belt (13); an upper air bag (27, 113); a lower air bag (29, 67, 73, 83); and an inflation limiting structure (37, 53, 55, 57, 75, 85) which is provided in the lower air bag and limits inflation of a part of the lower air bag in a vehicle back-and-forth direction when the lower air bag is inflated. When the vehicle collision is detected or predicted, the upper and lower air bags are inflated and vertically come into contact with each other. Further, an upper part (41, 71, 79, 91) of the inflated lower air bag positioned above the inflation limiting structure is pressed by the upper air bag and bends toward the front of the vehicle at the inflation limiting structure.
    • 车辆乘员保护系统包括:安全带装置,包括肩带(11)和腰带(13); 上部气囊(27,113); 下部气囊(29,67,73,83); 以及设置在下部气囊中的充气限制结构(37,53,55,57,75,85),并且当下部空气限制下部气囊的一部分在车辆前后方向上的膨胀 袋子充气。 当检测到或预测到车辆碰撞时,上下气囊被充气并垂直地相互接触。 此外,位于充气限制结构上方的膨胀的下部气囊的上部(41,71,79,99)被上部气囊按压并且在充气限制结构处朝向车辆前方弯曲。
    • 6. 发明申请
    • Heat exchanger
    • 热交换器
    • US20050284617A1
    • 2005-12-29
    • US11218455
    • 2005-09-02
    • Masahiro KobayashiHideaki MukaidaHiroshi MukaiyamaNorio SawadaMasafumi UedaShigeya IshigakiKoji Sato
    • Masahiro KobayashiHideaki MukaidaHiroshi MukaiyamaNorio SawadaMasafumi UedaShigeya IshigakiKoji Sato
    • F24F20060101F28D1/04F28D1/047F28F1/32
    • F28D1/0477F28F1/325
    • A heat exchanger is provided in which high heat transfer efficiency has been attained by optimizing the slit array and setting an optimum range for the width of a slit and the spacing between slits. Slits 51 and 52 formed in front of the heat transfer coil 4 and slits 55 and 56 formed behind the heat transfer coil are arranged so as to provide a mutually different length among adjoining partitioned slits in the vertical direction, as well as a mutually different length between directly opposite partitioned slits in the horizontal direction. As a result, the position at which the slit is partitioned is staggered. The two slits 53 and 54 formed side by side between heat transfer coil 4 and heat transfer coil 4 are of the same length. For a 7 mm diameter heat transfer coil, the slit width relative to the diameter of the heat transfer coil ranges from 1.2/7 (approximately 0.17) to 2.0/7 (approximately 0.29), and the slit spacing relative to the diameter of the heat transfer coil ranges from 1.3/7 (approximately 0.18) to 3.5/7 (approximately 0.5).
    • 提供了一种热交换器,其中通过优化狭缝阵列并设置狭缝宽度和狭缝之间的间距的最佳范围已经实现了高传热效率。 在传热线圈4的前方形成的狭缝51,52和在传热线圈后面形成的狭缝55,56布置成在相邻的分隔开的狭缝之间在垂直方向上提供相互不同的长度,以及相互不同的长度 在水平方向上直接相对的分隔狭缝之间。 结果,狭缝被分隔的位置交错。 在传热线圈4和传热线圈4之间并排形成的两个狭缝53和54具有相同的长度。 对于7mm直径的传热线圈,相对于传热线圈的直径的狭缝宽度范围为1.2 / 7(约0.17)至2.0 / 7(约0.29),并且相对于热的直径的狭缝间隔 传输线圈范围为1.3 / 7(约0.18)至3.5 / 7(约0.5)。