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    • 22. 发明申请
    • Injection member of molding machine and molding method
    • 注塑成型机及成型方法
    • US20090194897A1
    • 2009-08-06
    • US11631165
    • 2005-06-30
    • Satoshi SugiyamaHiroyoshi Sumen
    • Satoshi SugiyamaHiroyoshi Sumen
    • B29C45/77B29C45/50
    • B29C45/50B29C45/60
    • An injection member of a molding machine is provided which can shorten the molding cycle and maintenance time, and prevent occurrence of galling between a cylinder member and an injection member. The injection member of the molding machine includes a supply section (P1) to which a molding material is supplied via a molding material supply port of the cylinder member, a compression section (P2) for melting and compressing the molding material supplied from the supply section (P1), and a metering section (P3) for metering the molding material supplied from the compression section (P2). The supply section (P1) has a pressure adjustment changeover point (q1) shifted rearward from its front end by a predetermined distance, and is divided at the pressure adjustment changeover point (q1). The pressure of the molding material is gradually reduced in a pressure gradual reduction area (AR1) from the rear end of the supply section (P1) to the pressure adjustment changeover point (q1). The pressure of the molding material is adjusted in a pressure adjustment area (AR2) from the pressure adjustment changeover point (q1) to the front end of the supply section (P1).
    • 提供了一种成型机的注射构件,其可以缩短模制周期和维护时间,并且防止气缸构件和注射构件之间发生磨损。 成型机的注射部件包括供给部(P1),经由筒部件的成型材料供给口供给成形材料的供给部(P1),从供给部供给的成型材料熔融并压缩的压缩部(P2) (P1)和用于计量从压缩部(P2)供给的成型材料的计量部(P3)。 供给部(P1)具有从其前端向后移动预定距离的压力调节切换点(q1),并在压力调节切换点(q1)处被分割。 在从供给部(P1)的后端到压力调节切换点(q1)的压力逐渐减小区域(AR1)中,成型材料的压力逐渐降低。 压力调节区域(AR2)从压力调节切换点(q1)到供给部(P1)的前端调整成型材料的压力。
    • 23. 发明申请
    • Specimen optical information recognizing device and its recognizing method
    • 标本光信息识别装置及其识别方法
    • US20090021722A1
    • 2009-01-22
    • US11659132
    • 2005-08-01
    • Ken TsukiiJie XuKenichi KimuraSatoshi Sugiyama
    • Ken TsukiiJie XuKenichi KimuraSatoshi Sugiyama
    • G01N21/00G01M7/00G01F23/00A61N5/00
    • G01N21/6452G01N21/253G01N2201/08
    • A specimen optical information recognizing device comprises a specimen containing section (14) containing a specimen (12) to be measured, a specimen measuring section (20) having a light source (16) for outputting light for observing the specimen (12) and a photodetecting section (18) for collecting optical information from the specimen (12), and an optical waveguide (22) for propagating light between the specimen containing section (14) and the specimen measuring section (20). The optical information on the specimen is recognized by using the measurement values acquired under at least two measurement conditions. The specimen optical information recognizing device may further comprises a measurement auxiliary liquid interposed between the end of the optical waveguide and the specimen. Further, the specimen containing section may have a feature that the longitudinal cross section is of a recessed shape, and the aperture depth of the recessed portion is greater than the aperture diameter. The specimen containing section may further have a feature that a through hole is provided at least in a part near the bottom of the specimen containing section.
    • 样本光学信息识别装置包括:样本容纳部(14),其包含待测试样本(12);样本测量部(20),具有用于输出用于观察样本(12)的光的光源(16);以及 用于从样本(12)收集光学信息的光电检测部分(18)和用于在样本容纳部分(14)和样本测量部分(20)之间传播光的光波导(22)。 通过使用在至少两个测量条件下获取的测量值来识别样品上的光学信息。 样本光学信息识别装置还可以包括插入在光波导的端部和样本之间的测量辅助液体。 此外,试样容纳部可以具有纵向截面为凹状的特征,凹部的开口深度大于孔径。 样品容纳部还可以具有至少在样本容纳部的底部附近的部分设置通孔的特征。
    • 25. 发明授权
    • Rotation sensor and coupling for rotation sensor
    • 旋转传感器和旋转传感器联轴器
    • US07174794B2
    • 2007-02-13
    • US10844509
    • 2004-05-13
    • Satoshi Sugiyama
    • Satoshi Sugiyama
    • G01L3/00G01N3/02
    • B62D6/10B62D15/0215F16D3/26F16D3/42G01D5/34738
    • A coupling includes a first coupling member, a second coupling member, and a third coupling member being located in between the first coupling member and the second coupling member. The third coupling member has formed thereon a first pair of connecting elements diametrically opposed to one another and defining a first axis, and further has formed thereon a second pair of connecting elements diametrically opposed to one another and defining a second axis that is substantially perpendicular to the first axis. The first coupling member has formed thereon a third pair of connecting elements configured to conform to the first pair of connecting elements of the third coupling member. Formed on the second coupling member is a fourth pair of connecting elements configured to conform to the second pair of connecting elements of the third coupling member.
    • 联接器包括第一联接构件,第二联接构件和位于第一联接构件和第二联接构件之间的第三联接构件。 第三联接构件在其上形成有彼此径向相对并限定第一轴线的第一对连接元件,并且还在其上形成有彼此径向相对并且限定基本上垂直于第二轴线的第二轴线的第二对连接元件 第一轴。 第一联接构件在其上形成有构造成符合第三联接构件的第一对连接元件的第三对连接元件。 形成在第二联接构件上的是第四对连接构件,其构造成与第三联接构件的第二对连接构件相一致。
    • 27. 发明授权
    • Cutting method of ceramic honeycomb formed body
    • 陶瓷蜂窝成型体的切割方法
    • US06711979B1
    • 2004-03-30
    • US09787842
    • 2001-06-07
    • Takashi MiyakawaYuji UedaSatoshi Sugiyama
    • Takashi MiyakawaYuji UedaSatoshi Sugiyama
    • B28B1114
    • B28B11/16B28B11/14B28D5/045Y10T83/0207Y10T83/706
    • The present invention provides a cutting method of a ceramic honeycomb formed body 5 for cutting the ceramic honeycomb formed body 5 with a fine line stretched at an appropriate tension substantially at right angles to the direction of throughholes 9 thereof. The method comprises the steps of providing a cutting guide groove 10 running through the outer periphery of the ceramic honeycomb formed body substantially at right angles to the direction of throughholes 9, and putting a fine line 2 to the cutting guide groove 10, to cut the ceramic honeycomb formed body 5 only by pressing the fine line 2 against the ceramic honeycomb formed body 5. By using this cutting method, it is possible to cut a ceramic honeycomb formed body having thin partition walls of under 125 &mgr;m without causing a distortion. The possibility to reduce the cutting frequency of the fine line leads to possibility to improve the cutting efficiency.
    • 本发明提供了一种陶瓷蜂窝成形体5的切割方法,该陶瓷蜂窝成形体5以细孔线以与其通孔9的方向成直角的适当张力拉伸的细线切割陶瓷蜂窝成形体5。 该方法包括以下步骤:提供穿过陶瓷蜂窝成形体的外周的切割引导槽10,其基本上与通孔9的方向成直角,并将细线2放入切割引导槽10中,以切割 陶瓷蜂窝成形体5仅通过将细线2压靠在陶瓷蜂窝成形体5上。通过使用该切割方法,可以切割具有125μm以下的薄隔壁的陶瓷蜂窝成形体,而不会产生变形。 降低细线的切割频率的可能性导致提高切割效率的可能性。
    • 29. 发明授权
    • Cutting apparatus for ceramic green bodies
    • 陶瓷绿体切割装置
    • US06520061B2
    • 2003-02-18
    • US09432604
    • 1999-11-03
    • Ken FukutaYuji UedaSatoshi Sugiyama
    • Ken FukutaYuji UedaSatoshi Sugiyama
    • B26D146
    • B26D1/547B23D57/0007B23D57/0053B28B11/163Y10S83/954Y10T83/04Y10T83/4722Y10T83/7055Y10T83/707Y10T83/7101Y10T83/9292Y10T83/937
    • An apparatus for cutting green ceramic bodies, includes a traveling path for green ceramic bodies, beds for supporting green ceramic bodies at constant intervals in series along the traveling path, an arm on each side of the traveling path, two drive portions for moving respective arms perpendicularly relative to the traveling path, a drive portion for moving both arms in the same direction as the traveling path, a wire for cutting green ceramic bodies, extending between the arms, and wire supporting portions, on respective arms. Each wire supporting portion includes a servo motor with an axis of rotation, a magnet member around the axis of rotation, a bobbin having a conical surface around which wire is wound, and magnetically coupled to the axis of rotation by the magnet member, and a traversing mechanism for varying the position where the wire is wound around the length of the conical surface.
    • 一种用于切割绿色陶瓷体的装置,包括用于生坯陶瓷体的行进路径,沿着行进路径以恒定间隔支撑生坯陶瓷体的床,在行进路径的每一侧上的臂,用于移动各个臂的两个驱动部 垂直于行进路径的驱动部分,用于沿与行进路径相同的方向移动两个臂的驱动部分,用于在相应的臂上在臂和线支撑部分之间切割生坯陶瓷体的线。 每个线支撑部分包括具有旋转轴线的伺服电机,围绕旋转轴线的磁体构件,具有绕其缠绕线圈的锥形表面的线轴,并且通过磁体构件磁耦合到旋转轴线, 横向机构用于改变线绕着锥形表面的长度缠绕线的位置。