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    • 2. 发明授权
    • Valve timing controller
    • 气门正时控制器
    • US07341030B2
    • 2008-03-11
    • US11712553
    • 2007-03-01
    • Akira HoriEiji IsobeYoshihito MoriyaTakashi InoueKoichi Shimizu
    • Akira HoriEiji IsobeYoshihito MoriyaTakashi InoueKoichi Shimizu
    • F01L1/34
    • F01L1/3442
    • A valve timing controller is provided with a first rotary element that rotates in response to the movement of a crankshaft, a second rotary element that rotates in response to the movement of a camshaft. A link mechanism changes a relative rotation phase between the first and second rotary elements. The first and second rotary elements include introduction passages that introduce a lubricating fluid in the first rotary element. In the link mechanism, shafts are fitted in the links. The links relatively rotate with respect to the shaft, and include conveying passages to communicate with the introduction passages and convey the lubricating fluid from the introduction passages to the circumference of the shaft.
    • 气门正时控制器设置有响应于曲轴的运动而旋转的第一旋转元件,响应于凸轮轴的运动而旋转的第二旋转元件。 连杆机构改变第一和第二旋转元件之间的相对旋转相位。 第一和第二旋转元件包括在第一旋转元件中引入润滑流体的引入通道。 在连杆机构中,轴连接在轴上。 连杆相对于轴相对旋转,并且包括与引入通道连通的输送通道,并将润滑流体从引入通道输送到轴的圆周。
    • 4. 发明授权
    • Valve timing controller
    • 气门正时控制器
    • US07458351B2
    • 2008-12-02
    • US11798548
    • 2007-05-15
    • Akihiko TakenakaEiji IsobeTakayuki InoharaYoshihito MoriyaTakashi InoueKoichi Shimizu
    • Akihiko TakenakaEiji IsobeTakayuki InoharaYoshihito MoriyaTakashi InoueKoichi Shimizu
    • F01L1/34
    • F01L1/344F01L1/352F01L1/356F01L2820/032
    • A valve timing controller includes a guide rotation member provided with a guide groove, a bearing rotation member radially supporting the guide rotation member, and a plurality of movable bodies sliding in the guide groove in accordance with a rotation of the guide rotation member. A plurality of link mechanisms connects the bearing rotation member with each one of movable bodies respectively, and rotates the bearing rotation member in accordance with a movement of the movable bodies. The valve timing of at least one of the intake valve and the exhaust valve is adjusted in accordance with a rotation of the bearing rotation body. A clearance gap is provided between the guide rotation member and the bearing rotation member in order to permit a relative radial movement of the guide rotation member with respect to the bearing rotation member.
    • 气门正时控制装置包括:导向旋转构件,其具有导向槽,支承旋转构件,径向地支撑导向旋转构件;以及多个可动体,其根据导向旋转构件的旋转而在导向槽中滑动。 多个连杆机构分别将轴承旋转构件与可移动体各自连接,并且根据可移动体的运动使轴承旋转构件旋转。 根据轴承旋转体的旋转来调节进气门和排气阀中的至少一个的气门正时。 在导向旋转构件和轴承旋转构件之间设置有间隙,以允许引导旋转构件相对于轴承旋转构件的相对径向移动。
    • 5. 发明授权
    • Magnetic-field analyzing apparatus and magnetic-field analyzing program
    • 磁场分析装置和磁场分析程序
    • US08803517B2
    • 2014-08-12
    • US12801604
    • 2010-06-16
    • Koichi Shimizu
    • Koichi Shimizu
    • G01R33/02
    • G01R33/00G01R33/1207G01R33/1215G06F17/5018G06F2217/16
    • A first equation is created, using the physical property data of a user-specified target to be analyzed, to calculate a first magnetic field due to a current vector in the target to be analyzed in such a manner that a finite element method and a boundary integral method are applicable to the first equation. A second equation is created, using the physical property data of the user-specified target to be analyzed, to calculate a second magnetic field due to a magnetization vector in the target to be analyzed in such a manner that the finite element method and the boundary integral method are applicable to the second equation. A first magnetic field and a second magnetic field are calculated using the first equation and the second equation, respectively. The sum of the first magnetic field and the second magnetic field is set to the magnetic field of the target.
    • 使用要分析的用户指定目标的物理属性数据来创建第一方程,以便以有限元方法和边界的方式计算由于要分析的目标中的当前向量的第一磁场 积分法适用于第一个方程。 使用要分析的用户指定目标的物理属性数据创建第二方程,以便以有限元法和边界的方式计算由于要分析的目标中的磁化矢量引起的第二磁场 积分法适用于第二个方程。 分别使用第一方程和第二方程来计算第一磁场和第二磁场。 将第一磁场和第二磁场的和设定为目标的磁场。
    • 7. 发明授权
    • Mesh creating device, mesh creating method and mesh creating program
    • 网格创建设备,网格创建方法和网格创建程序
    • US07197442B2
    • 2007-03-27
    • US10641006
    • 2003-08-15
    • Kenichiro AokiKoichi Shimizu
    • Kenichiro AokiKoichi Shimizu
    • G06F17/10
    • G06F17/5018G06F2217/80
    • Herein disclosed is a mesh creating device, a mesh creating method and a mesh creating program which are adapted to speed up the analysis processing without deteriorating analysis accuracy and to effectively facilitate an handling of the data after creation of the analysis model. The mesh creating device is capable of creating an analysis mesh for the data of a construction composed of a plurality of objects, and comprised of: a first mesh creating specification setting section adapted to set attributes to which said plurality of objects belong respectively and set mesh creating specifications for the respective attributes; and a mesh creating section adapted to conduct mesh creations according to the set mesh creating specifications.
    • 这里公开了一种网格创建装置,网格创建方法和网格创建程序,其适于加速分析处理而不降低分析精度,并且有效地促进了分析模型创建之后的数据的处理。 网格创建装置能够为由多个对象组成的构造的数据创建分析网格,并且包括:第一网格创建规范设置部分,用于设置所述多个对象所属于的属性并设置网格 为各自的属性创建规范; 以及适于根据所设置的网格创建规格进行网格创建的网格创建部分。
    • 8. 发明申请
    • Nozzle for continuous casting of aluminum killed steel and continuous casting method
    • 用于铝连铸铝喷枪和连铸法
    • US20050200057A1
    • 2005-09-15
    • US10513186
    • 2003-04-30
    • Koji OgataKoichi ShimizuKeisuke AsanoToshiyuki HokiiJoki Yoshitomi
    • Koji OgataKoichi ShimizuKeisuke AsanoToshiyuki HokiiJoki Yoshitomi
    • B22D11/10B22D11/00B22D41/50B22D41/54C04B35/03C21B7/14
    • B22D41/54
    • The present invention provides a technique of applying a CaO-containing material to a nozzle unit for casting of aluminum-killed steel, in such a manner that the amount of large-size alumina inclusions in slabs can be reduced irrespective of nozzle type, such as single-part type or multi-part type. The amount of large-size alumina inclusions in slabs obtained using a single-part type or multi-part type nozzle unit, which has an inner hole to be used for pouring molten steel from a tundish to a mold therethrough and CaO-containing refractories applied to a surface of the inner hole, has a strong correlation with the entire surface area of the inner hole of the nozzle unit and the amount of CaO contained in the employed refractories. According to the present invention, 50% or more of the entire surface area of the inner hole of the nozzle unit is formed of refractories containing 20 mass % or more of CaO to allow the amount of large-size alumina inclusions to be reduced.
    • 本发明提供了一种将含CaO材料施加到用于铸造铝镇静钢的喷嘴单元的技术,其方法是可以减少板坯中的大尺寸氧化铝夹杂物的数量,而不管喷嘴类型如 单件式或多件式。 使用单件式或多型式喷嘴单元获得的大型氧化铝夹杂物的量,其具有用于将钢水从中间包浇铸到模具中的内孔和用于其的含CaO耐火材料 与内孔的表面具有与喷嘴单元的内孔的整个表面积和所使用的耐火材料中含有的CaO的量的强相关性。 根据本发明,喷嘴单元的内孔的整个表面积的50%以上由含有20质量%以上的CaO的耐火材料形成,能够减少大尺寸的氧化铝夹杂物的量。
    • 9. 发明申请
    • Micromagnetization analytical program and apparatus
    • 微磁化分析程序和仪器
    • US20050075818A1
    • 2005-04-07
    • US10790208
    • 2004-03-02
    • Koichi Shimizu
    • Koichi Shimizu
    • G06F17/13G01R33/12G06F19/00
    • G01R33/1215
    • The precision of a micromagnetization analysis is improved. Parameters of the micromagnetization assigned to the center of a divided microelement and the vector potential assigned to a side or a node of the element are received in procedure 1. A magnetic field equation which supplies an external magnetic field for micromagnetization is generated in procedure 2. A solution of the magnetic field equation is obtained in display 3. A time integral of a LLG equation is obtained using the solution in procedure 4. It is determined in procedure 5 whether or not the micromagnetization obtained in procedure 4 satisfies a convergence condition. When it is not satisfied, a magnetic field equation is corrected and a time is stepwise increased in procedure 6, and the procedures in and after procedure 3 are repeated.
    • 提高了微磁化分析的精度。 在步骤1中接收分配给分割的微元件的中心的微磁化参数和分配给元件的侧面或节点的矢量电势。在步骤2中产生提供用于微磁化的外部磁场的磁场方程。 在显示器3中获得磁场方程的解。使用步骤4中的解来获得LLG方程的时间积分。在步骤5中确定在步骤4中获得的微磁化是否满足收敛条件。 当不满足时,在步骤6中校正磁场方程并逐步增加时间,并且重复步骤3中和之后的步骤。