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    • 3. 发明申请
    • Cooling device, manufacturing method, and manufacturing line for hot rolled steel band
    • 冷轧钢带的冷却装置,制造方法和生产线
    • US20060060271A1
    • 2006-03-23
    • US10508029
    • 2002-08-08
    • Akio FujibayashiMasato SasakiYoshimichi HinoAtsushi Watanabe
    • Akio FujibayashiMasato SasakiYoshimichi HinoAtsushi Watanabe
    • C21D1/60
    • C21D1/667B21B45/0218B21B45/0233B21B45/0281C21D1/60C21D8/0263C21D9/573
    • The present invention relates to a cooling apparatus for hot rolled steel strip comprising: top surface cooling means provided above a hot rolled steel strip transferred with transfer rollers after hot rolling to cool the top surface of the hot rolled steel strip; and bottom surface cooling means provided below the hot rolled steel strip to cool the bottom surface of the hot rolled steel strip, each of the top surface cooling means and the bottom surface cooling means comprising: a protective member disposed close to the surface of the hot rolled steel strip, having at least one cooling water passage hole; at least one cooling water header opposing the hot rolled steel strip separated. by the protective member; and cooling water jetting nozzles protruding from the cooling water header and jetting cooling water approximately vertically toward the surface of the hot rolled steel strip through the cooling water passage hole, wherein the tips of the cooling water jetting nozzles are disposed farther from the hot rolled steel strip than the surface, opposing the hot rolled steel strip, of the protective member. The hot rolled steel strip can be stably transferred, and cooled rapidly and uniformly, using the cooling apparatus of the present invention.
    • 本发明涉及一种用于热轧带钢的冷却装置,包括:在热轧后用转印辊转印的热轧钢带上方设置的顶表面冷却装置,以冷却热轧钢带的顶表面; 以及设置在热轧钢带下方的底面冷却装置,以冷却热轧钢带的底面,每个顶表面冷却装置和底面冷却装置包括:靠近热表面设置的保护构件 具有至少一个冷却水通道孔的轧制钢带; 与热轧钢带相对的至少一个冷却水集管分离。 由保护构件; 以及冷却水喷射喷嘴,其从冷却水集管突出,并且通过冷却水通过孔向冷轧钢带的表面大致垂直地喷射冷却水,其中,冷却水喷射喷嘴的顶端远离热轧钢 保护构件的表面与热轧钢带相对的条带。 使用本发明的冷却装置,可以将热轧钢带稳定地转移并快速且均匀地冷却。
    • 6. 发明授权
    • Conveyance device for base material having both surfaces coated with coating solution
    • 基材的输送装置,两面均涂有涂层溶液
    • US08875651B2
    • 2014-11-04
    • US13381322
    • 2010-06-25
    • Atsushi Watanabe
    • Atsushi Watanabe
    • B05C3/12B05C13/02H01M4/04B05C9/04B65H23/022B65H23/032B65H23/038H01M4/88B05C5/02
    • H01M4/0404B05C5/0254B05C9/04B05D2252/02B05D2252/10B65H23/022B65H23/0324B65H23/038H01M4/8828Y02E60/50
    • A double-sided coated substrate transport device (1) is described. A die head for front face coating (3) and a die head for back face coating (4) coat a coating liquid onto a substrate 1. A drying oven (5) dries the coating liquid applied to the substrate (1), to form coating films on the front and back faces of the substrate (1). A first and second rotating body unit (20A, 20B) are respectively furnished independently at widthwise edge sections of the substrate (1). Each of the first and second rotating body units has a free roller (21) and a drive roller (22) constituting a pair of rotating bodies, and a rotating body swivel section (23). The free roller (21) and the drive roller (22) grip the widthwise edge sections of the substrate (1) from the front and back sides. The rotating body swivel section (23) allows the orientation of the free roller (21) and the drive roller (22), respectively, to be modified separately for the first rotating body unit (20A) and the second rotating body unit (20B), so that the rotation axis of the free roller (21) and the drive roller (22) is inclined towards the downstream side in the substrate transport direction as seen from the outside in the substrate widthwise direction, with respect to a line perpendicular to the substrate transport direction.
    • 对双面涂布基板输送装置(1)进行说明。 用于前面涂层的模头(3)和用于背面涂层的模头(4)将涂布液涂覆到基材1上。干燥箱(5)将施加到基材(1)上的涂布液干燥,形成 在基板(1)的前表面和背面上涂覆膜。 第一和第二旋转体单元(20A,20B)分别独立地设置在基板(1)的宽度方向的边缘部分。 第一和第二旋转体单元中的每一个具有构成一对旋转体的自由辊(21)和驱动辊(22),以及旋转体旋转部(23)。 自由辊(21)和驱动辊(22)从前侧和后侧夹紧基板(1)的宽度方向的边缘部分。 旋转体旋转部(23)能够分别对第一旋转体单元(20A)和第二旋转体单元(20B)分别改变自由辊(21)和驱动辊(22)的取向, 使得自由辊(21)和驱动辊(22)的旋转轴线在从基板宽度方向的外侧观察到的基板输送方向上的下游侧相对于垂直于基板横向的线倾斜 基材输送方向。
    • 7. 发明授权
    • Valve timing control device of internal combustion engine
    • 内燃机气门正时控制装置
    • US08863708B2
    • 2014-10-21
    • US13614256
    • 2012-09-13
    • Atsushi WatanabeYasuhide TakadaOsamu FujitaTetsuya Shibukawa
    • Atsushi WatanabeYasuhide TakadaOsamu FujitaTetsuya Shibukawa
    • F01L1/34
    • F01L1/3442F01L2001/34423F01L2001/3443F01L2001/34459F01L2001/34466
    • Even if an internal combustion engine is stopped having a lock pin of a vane rotor kept disengaged from a lock recess, subsequent engine starting can instantly move the vane rotor to a desired angular position where the lock member an be engaged with the lock recess. The vane rotor has therein two passage control mechanisms each having a hydraulically actuated valve body. When the valve body is moved to a given position, retarding and advancing hydraulic holes become communicated to each other through an annular groove of the valve body. Due to this ON communication, retarding and advancing operation chambers become communicated, so that reciprocative swing movement of the vane rotor induced by an alternating torque produced at the starting of the engine is effectively made and thus the vane rotor can be quickly turned to the desired angular position for ease of engine starting.
    • 即使停止具有叶片转子的锁定销与锁定凹部脱离的内燃机,随后的发动机起动可以将叶片转子立即移动到锁定构件与锁定凹部接合的期望角度位置。 叶片转子具有两个通道控制机构,每个具有液压致动阀体。 当阀体移动到给定位置时,延迟和前进的液压孔通过阀体的环形槽相互连通。 由于这种ON通信,延迟和前进操作室变得通信,从而有效地在发动机启动时产生的交替转矩引起的叶片转子的往复摆动运动,从而可以将叶片转子快速转向所需的 角位置,便于发动机起动。
    • 10. 发明授权
    • Gas sensor element and method of manufacturing the same
    • 气体传感器元件及其制造方法
    • US08636886B2
    • 2014-01-28
    • US13071916
    • 2011-03-25
    • Atsushi Watanabe
    • Atsushi Watanabe
    • G01N27/407
    • G01N33/0037G01N27/4071G01N27/4075G01N27/4077G01N27/417Y02A50/245
    • A gas sensor element includes a base member comprising a plurality of laminated solid electrolyte layers, and having a space that communicates with the outside of the gas sensor element and allows introduction of the gas to be measured into the gas sensor element, and a porous measurement electrode that is formed on a surface of the space inside the base member, and is covered with a porous measurement electrode protective layer, wherein an average pore size A of the measurement electrode and an average pore size B of the measurement electrode protective layer satisfy the relationship “0.05≦B/A≦0.9”, the measurement electrode has an average pore size of 0.5 to 15 μm, and the measurement electrode protective layer has an average pore size of 0.05 to 9 μm, a porosity of 5 to 50%, and a thickness of 10 to 200 μm.
    • 一种气体传感器元件,包括:多个叠层固体电解质层的基体构件,具有与气体传感器元件的外部连通的空间,并将被测量气体导入气体传感器元件;多孔测定 电极,其形成在基体的内部的空间的表面上,并被多孔测量电极保护层覆盖,其中测量电极的平均孔径A和测量电极保护层的平均孔径B满足 关系“0.05 @ B / A @ 0.9”,测定电极的平均孔径为0.5〜15μm,测定电极保护层的平均孔径为0.05〜9μm,孔隙率为5〜50% 厚度为10〜200μm。