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    • 1. 发明申请
    • Turbocharger with variable nozzle mechanism
    • 具有可变喷嘴机构的涡轮增压器
    • US20090092483A1
    • 2009-04-09
    • US12284309
    • 2008-09-18
    • Tomohiro YasuiShuichi FujitaMasuo KawamotoTomoyuki Isogai
    • Tomohiro YasuiShuichi FujitaMasuo KawamotoTomoyuki Isogai
    • F01D17/16
    • F01D17/165F01D25/02F02C6/12F05D2220/40F05D2260/602
    • A turbocharger having a variable nozzle mechanism, which is accommodated in an accommodating chamber, is disclosed. The variable nozzle mechanism has a nozzle ring, a nozzle vane, a nozzle vane drive mechanism, and a support ring. The nozzle ring defines a gas passage through which exhaust gas is guided to a turbine wheel. The nozzle vane is supported by the nozzle ring and varies the flow area of the gas passage. The nozzle vane drive mechanism drives the nozzle vane. The support ring is connected to the nozzle ring. The nozzle vane drive mechanism is accommodated in the accommodating chamber as spaced from the nozzle ring through the support ring. The turbocharger has a drain passage that extends through a lower portion of the support ring and reaches the gas passage. The drain passage is located downward from the nozzle vane drive mechanism.
    • 公开了一种具有容纳在容纳室中的可变喷嘴机构的涡轮增压器。 可变喷嘴机构具有喷嘴环,喷嘴叶片,喷嘴叶片驱动机构和支撑环。 喷嘴环限定了一个气体通道,废气被引导到气体轮。 喷嘴叶片由喷嘴环支撑并改变气体通道的流动面积。 喷嘴叶片驱动机构驱动喷嘴叶片。 支撑环连接到喷嘴环。 喷嘴叶片驱动机构通过支撑环与喷嘴环间隔开地容纳在容纳室中。 涡轮增压器具有延伸穿过支撑环的下部并到达气体通道的排水通道。 排水通道从喷嘴叶片驱动机构向下定位。
    • 4. 发明申请
    • Fat Accumulation Inhibitor
    • 脂肪蓄积抑制剂
    • US20090253658A1
    • 2009-10-08
    • US12296222
    • 2007-04-06
    • Reo TanakaTomoyuki IsogaiYuko HarutaSusumu MiuraKen KatoToshimitsu YoshiokaHiroshi KawakamiSatoshi HigurashiHiroaki Matsuyama
    • Reo TanakaTomoyuki IsogaiYuko HarutaSusumu MiuraKen KatoToshimitsu YoshiokaHiroshi KawakamiSatoshi HigurashiHiroaki Matsuyama
    • A61K31/66C07F9/06
    • A61K35/20A23L2/52A23L33/19A23V2002/00A61K31/661A23V2200/332A23V2250/1844
    • To provide a fat accumulation inhibitor and a food or drink for inhibiting fat accumulation, a visceral fat accumulation inhibitor and a food or drink for inhibiting visceral fat accumulation, or an agent for accelerating increase and/or inhibiting decrease of an adiponectin concentration in blood and a food or drink for accelerating increase and/or inhibiting decrease of an adiponectin concentration in blood.A fat accumulation inhibitor for a fat cell, which comprises a milk-derived phospholipid as an active ingredient, and a food or drink for inhibiting fat accumulation in a fat cell, which comprises a milk-derived phospholipid. A visceral fat accumulation inhibitor comprising a sphingosine-containing phospholipid or a derivative thereof as an active ingredient, and a food or drink for inhibiting visceral fat accumulation. An agent for accelerating increase and/or inhibiting decrease of an adiponectin concentration in blood, which comprises a sphingosine-containing phospholipid or a derivative thereof as an active ingredient, and a food or drink for accelerating increase and/or inhibiting decrease of an adiponectin concentration in blood.
    • 提供一种脂肪蓄积抑制剂和用于抑制脂肪蓄积的食物或饮料,内脏脂肪蓄积抑制剂和用于抑制内脏脂肪蓄积的食品或饮料,或用于加速和/或抑制血液中脂联素浓度降低的试剂,以及 用于促进血液中脂联素浓度增加和/或抑制降低的食物或饮料。 一种脂肪蓄积抑制剂,其包含乳源性磷脂作为活性成分的脂肪蓄积抑制剂,以及包含乳源性磷脂的脂肪细胞中抑制脂肪蓄积的食品或饮料。 含有鞘氨醇的磷脂或其衍生物作为活性成分的内脏脂肪蓄积抑制剂和抑制内脏脂肪蓄积的食品或饮料。 用于促进增加和/或抑制血液中脂联素浓度降低的药物,其包含含鞘氨醇的磷脂或其衍生物作为活性成分,以及用于加速和/或抑制脂联素浓度降低的食品或饮料 在血中
    • 9. 发明申请
    • ROTARY MACHINE
    • 旋转机
    • US20130323034A1
    • 2013-12-05
    • US13985137
    • 2012-02-01
    • Tomoyuki Isogai
    • Tomoyuki Isogai
    • F01D11/12
    • F01D11/122F01D5/20F04D29/023F04D29/162F04D29/4206F05D2220/40F05D2230/10
    • In a compressor (11) of a turbocharger (1), a compressor wheel (14) is provided in a housing (12) to be capable of rotating. When the wheel (14) rotates, air suctioned through an inlet of the housing (12) is compressed and then discharged through an outlet of the housing, (12). Further, an abradable seal layer (16) formed on an inner surface of the housing (12) is abraded by a vane (13) of the rotating wheel (14) such that a tip clearance between the vane (13) and a part of the inner surface of the housing (12) that opposes the vane (13) is adjusted. A corner portion (13a) of the vane (13) on the outlet side of the housing (12) is shaped to move gradually further away from a shroud curve (Lc) of the seal layer (16) toward an end portion of the vane (13) on the outlet side of the housing (12).
    • 在涡轮增压器(1)的压缩机(11)中,压缩机叶轮(14)设置在壳体(12)中以能够旋转。 当轮(14)旋转时,通过壳体(12)的入口抽吸的空气被压缩,然后通过壳体(12)的出口排出。 此外,形成在壳体(12)的内表面上的可磨损的密封层(16)被旋转轮(14)的叶片(13)磨损,使得叶片(13)和一部分 调节与叶片(13)相对的壳体(12)的内表面。 在壳体(12)的出口侧上的叶片(13)的角部(13a)被成形为逐渐远离密封层(16)的护罩曲线(Lc)朝向叶片的端部 (13)在所述壳体(12)的出口侧。