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    • 91. 发明申请
    • METHOD AND APPARATUS FOR IMPRINTING ENERGY RAY-SETTING RESIN, AND DISCS AND SEMICONDUCTOR DEVICES WITH IMPRINTED RESIN LAYER
    • 用于印制能量固化树脂的方法和装置,以及带有凹凸树脂层的圆盘和半导体装置
    • US20100156006A1
    • 2010-06-24
    • US12719890
    • 2010-03-09
    • Hideaki KatahoHiroshi OkadaKenya WadaHisayoshi Ichikawa
    • Hideaki KatahoHiroshi OkadaKenya WadaHisayoshi Ichikawa
    • B29C35/08
    • G11B7/261Y10S977/887
    • Disclosed herein is a method for transferring a pattern of minute dents and projections to an energy ray-setting resin layer coated on a substrate plate by pressing a master pattern on a transfer mold, followed by irradiation of energy rays. The pattern transfer method comprises the steps of pressing a master pattern on a transfer mold against the resin layer under a predetermined imprinting pressure, irradiating the resin layer under the imprinting pressure with energy rays, interrupting the irradiation of energy rays and at the same time cancelling application of the imprinting pressure and holding the resin layer and the transfer mold in a non-pressed state to relieve the resin layer of internal stresses, and recommencing irradiation of the resin layer with energy rays to complete hardening of the resin layer which is held in contact with the transfer mold in a non-pressed state.
    • 本发明公开了一种通过将转印模具上的母版图形按压,然后照射能量射线,将微小凹凸图案转印到涂敷在基板上的能量射线固化树脂层的方法。 图案转印方法包括以下步骤:在预定的压印压力下将转印模具上的母版按压在树脂层上,用能量射线照射压印树脂层,中断能量射线的照射,同时取消 施加压印压力并将树脂层和转印模具保持在非压制状态以减轻树脂层的内应力,并用能量射线重新开始树脂层的照射,以完成树脂层的硬化,该树脂层保持在 在非压制状态下与转移模具接触。
    • 92. 发明授权
    • Screw compressor
    • 螺杆压缩机
    • US07722345B2
    • 2010-05-25
    • US11797384
    • 2007-05-03
    • Eitarou TanakaHiroshi Okada
    • Eitarou TanakaHiroshi Okada
    • F01C1/16
    • F04C18/16F04C29/122
    • In a screw compressor, a pair of rotors are located in a housing to be rotatable around their rotary axes to form in the housing a compression chamber in which gas sucked from a suction port of the housing is compressed thereby discharging the compressed gas from a discharge port of the housing. The suction port is provided in the housing at a position radial outside of the rotors, and the housing is provided with a communication passage through which the suction port communicates with the compression chamber before being communicated with the suction port. Furthermore, the communication passage is provided such that the gas sucked from the suction port flows into the communication passage in a direction approximately parallel with an axial direction of the rotors.
    • 在螺杆式压缩机中,一对转子位于壳体中以围绕其旋转轴线旋转以在壳体中形成压缩室,其中从壳体的吸入口吸入的气体被压缩,从而将压缩气体从排出口排出 住房港 吸入口设置在外壳中位于转子径向外侧的位置处,并且壳体设置有连通通道,吸入口在与吸入口连通之前通过该连通通道与压缩室连通。 此外,连通通道被设置成使得从吸入口吸入的气体沿着与转子的轴向大致平行的方向流入连通通道。
    • 94. 发明授权
    • Opening and closing apparatus for opening and closing body of vehicle
    • 车身开合车体的开闭装置
    • US07517003B2
    • 2009-04-14
    • US11480924
    • 2006-07-06
    • Hiroshi OkadaNao Mizumoto
    • Hiroshi OkadaNao Mizumoto
    • B60J5/00
    • E05F15/619E05Y2201/222E05Y2201/722E05Y2900/546
    • An opening and closing apparatus for an opening and closing body of a vehicle. The opening and closing apparatus includes a reciprocating member movable along a plane perpendicular to a hinge shaft. A connecting member is provided having a first end section fixed to the opening and closing body, and a second end section pivotally attached to the reciprocating member through a connecting shaft. The opening and closing body is moved to open and close through the connecting member upon a movement of the reciprocating member. In the opening and closing apparatus, the connecting member includes two side wall sections apart from each other in a direction parallel with the axis of the connecting shaft. A suppression member is disposed to a stationary body in the vehicle and so engaged between the two side wall sections as to be relatively movable to the connecting member.
    • 一种用于车辆的开闭体的开闭装置。 开闭装置包括可沿垂直于铰链轴的平面移动的往复运动件。 连接构件具有固定在开闭体上的第一端部和通过连接轴可枢转地安装在往复运动部件上的第二端部。 当往复运动件运动时,打开和关闭主体通过连接件移动并打开和关闭。 在开闭装置中,连接构件包括在与连接轴的轴线平行的方向上彼此分离的两个侧壁部。 抑制构件设置在车辆中的静止体上,并且在两个侧壁部之间接合以相对于连接构件移动。
    • 97. 发明申请
    • Screw compressor
    • 螺杆压缩机
    • US20070280846A1
    • 2007-12-06
    • US11797384
    • 2007-05-03
    • Eitarou TanakaHiroshi Okada
    • Eitarou TanakaHiroshi Okada
    • F01C1/16F01C1/24
    • F04C18/16F04C29/122
    • In a screw compressor, a pair of rotors are located in a housing to be rotatable around their rotary axes to form in the housing a compression chamber in which gas sucked from a suction port of the housing is compressed thereby discharging the compressed gas from a discharge port of the housing. The suction port is provided in the housing at a position radial outside of the rotors, and the housing is provided with a communication passage through which the suction port communicates with the compression chamber before being communicated with the suction port. Furthermore, the communication passage is provided such that the gas sucked from the suction port flows into the communication passage in a direction approximately parallel with an axial direction of the rotors.
    • 在螺杆式压缩机中,一对转子位于壳体中以围绕其旋转轴线旋转以在壳体中形成压缩室,其中从壳体的吸入口吸入的气体被压缩,从而将压缩气体从排出口排出 住房港 吸入口设置在外壳中位于转子径向外侧的位置处,并且壳体设置有连通通道,吸入口在与吸入口连通之前通过该连通通道与压缩室连通。 此外,连通通道被设置成使得从吸入口吸入的气体沿着与转子的轴向大致平行的方向流入连通通道。
    • 99. 发明申请
    • Screw compressor
    • 螺杆压缩机
    • US20050169789A1
    • 2005-08-04
    • US11044170
    • 2005-01-28
    • Hiroshi Okada
    • Hiroshi Okada
    • F02B33/34F04C18/08F04C18/16F04C29/00H02K5/16
    • F02B33/34F04C18/084F04C18/16
    • In a screw compressor including a pair of rotors 1 and 2 rotating while meshing with each other and having mutually different outer diameters, an inter-axial pitch C between a shaft of a large diameter rotor 1 and a shaft of a small diameter rotor 2 is smaller than an outer diameter A of the large diameter rotor 1 and is greater than an outer diameter B of the small diameter rotor 2. A ratio of a length of the large diameter rotor 1 in an axial direction to the outer diameter A is 1 or below and a ratio of a length of the small diameter rotor 2 in the axial direction to the outer diameter B is at least 1. Consequently, it becomes possible to improve workability of the rotors while an air leak between the rotors is suppressed.
    • 在包括一对彼此啮合并且具有相互不同的外径而旋转的一对转子1和2的螺杆式压缩机中,大直径转子1的轴与小直径转子2的轴之间的轴向间距C为 小于大直径转子1的外径A并且大于小直径转子2的外径B.大直径转子1的轴向长度与外径A的比例为1或 小直径转子2的轴向长度与外径B的比例为1以上,因此能够改善转子之间的空气泄漏,从而提高转子的加工性。
    • 100. 发明申请
    • Air supply apparatus for stable air supply
    • 用于稳定供气的供气装置
    • US20050163623A1
    • 2005-07-28
    • US11023557
    • 2004-12-29
    • Hiroshi Okada
    • Hiroshi Okada
    • F04C18/16F04B49/06F04C28/00F04C28/08F04B17/00
    • F04C28/08F04B49/065F04C18/16F04C2270/07
    • An air supply apparatus supplies atmospheric air to an external apparatus such as an air demander. The air supply apparatus comprises a pump, an actuator, a power consumption detector, an air pressure detector, and a controller. The pump takes in atmospheric air and discharges the atmospheric air to the external apparatus. The actuator actuates the pump. The power consumption detector detects a measurement value corresponding to a power consumption of the actuator. The air pressure detector detects a discharge pressure of the atmospheric air discharged by the pump. The controller calculates a criterion value of the measurement value when the pump takes in the atmospheric air at 1 atmospheric pressure and discharges the atmospheric air at the discharge pressure based on the rotational frequency of the pump and the measurement value. The controller also adjusts the rotational frequency based on the measurement value and the criterion value.
    • 空气供给装置向空气需求装置等外部装置供给大气。 空气供给装置包括泵,致动器,功率消耗检测器,空气压力检测器和控制器。 泵吸入大气并将大气排放到外部设备。 执行器致动泵。 功率消耗检测器检测与致动器的功率消耗相对应的测量值。 气压检测器检测由泵排出的大气的排出压力。 控制器计算当泵吸入1个大气压的大气中的测量值的标准值,并根据泵的旋转频率和测量值排出排气压力下的大气。 控制器还根据测量值和标准值调整旋转频率。