会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Movable optical member control device in optical apparatus having a
control means and a conversion means
    • 具有控制装置和转换装置的光学装置中的可移动光学构件控制装置
    • US5832318A
    • 1998-11-03
    • US823898
    • 1997-03-17
    • Shigeki SatoMasaharu EguchiYoshihiko Konno
    • Shigeki SatoMasaharu EguchiYoshihiko Konno
    • G02B7/08G02B7/10G03B13/34
    • G02B7/08G02B7/102
    • A driving device includes a movable object, a driving part for moving the object, a manual operation member, a pulse generator for generating a plurality of pulses successively according to an operation of the operation member with pulse intervals varying depending on its operation speed, a data forming part for forming a plurality of data on the basis of the plurality of pulses successively according to the pulse intervals, a storage part for storing successively the plurality of data and a reading part for reading out the stored plurality of data successively and determining a drive parameter for each of the read out data corresponding to the speed for moving the object by the driving part by using the data value. The timing for reading out subsequent data is set after completion of the movement of the object on the basis of a prior data value.
    • 驱动装置包括可移动物体,用于移动物体的驱动部分,手动操作部件,脉冲发生器,用于根据操作部件的操作连续产生多个脉冲,其脉冲间隔根据其操作速度而变化, 数据形成部分,用于根据脉冲间隔连续地基于多个脉冲形成多个数据;存储部分,用于连续地存储多个数据;以及读取部分,用于连续读出所存储的多个数据,并确定一个 驱动参数,用于通过使用数据值对应于由驱动部分移动对象的速度的每个读出数据。 用于读出后续数据的定时是根据先前数据值完成对象的移动之后设置的。
    • 10. 发明申请
    • Method for manufacturing multi-layered unit for multi-layered ceramic electronic component
    • US20060254701A1
    • 2006-11-16
    • US10553536
    • 2004-04-12
    • Syougo MurosawaShigeki SatoMasaaki Kanasugi
    • Syougo MurosawaShigeki SatoMasaaki Kanasugi
    • B32B37/12B44C1/165B32B37/00B32B38/00B32B38/10
    • H01G4/30H01G4/12H01G4/308
    • It is an object of the present invention is to provide a method for manufacturing a multi-layered unit for a multi-layered ceramic electronic component which can prevent a ceramic green sheet from being deformed and destroyed and prevent a solvent contained in an electrode paste from sinking into a ceramic green sheet, thereby enabling manufacture of a multi-layered unit including a ceramic green sheet and an electrode layer laminated to each other in a desired manner. The method for manufacturing a multi-layered unit for a multi-layered ceramic electronic component according to the present invention includes a step of forming a ceramic green sheet on the surface of a first carrier film, a step of forming a release layer on the surface of a second carrier film including a surface-treated region on which a surface treatment is performed for improving releasability and non-surface-treated regions on which no surface treatment is performed on both sides of the surface-treated region and having a width substantially equal to that of the first carrier film, a step of forming an electrode layer in a predetermined pattern and a spacer layer in a complementary pattern to that of the electrode layer on the surface of the release layer, thereby forming an inner electrode layer, a step of forming an adhesive layer on the surface of a third carrier film having a width substantially equal to that of the second carrier film, a step of transferring the adhesive layer formed on the third carrier film onto the surface of the inner electrode layer, and a step of transferring the ceramic green sheet formed on the surface of the first carrier film onto the adhesive layer transferred on the surface of the inner electrode layer formed on the surface of the second carrier film, thereby fabricating a multi-layered unit including the ceramic green sheet and the inner electrode layer laminated onto each other, wherein the adhesive layer is formed by coating the surface of the third carrier film with an adhesive agent solution so that the width of the adhesive layer is narrower than the width of the third carrier film by at least 2α where α is a positive value, wider than the width of the ceramic green sheet formed on the surface of the first carrier film and the widths of the release layer and the inner electrode layer formed on the surface of the second carrier film by at least 2α and wider than the width of the surface-treated region of the second carrier film by at least 2α.