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
    • 11. 发明授权
    • Heating device of the light irradiation type
    • 光照射型加热装置
    • US07912359B2
    • 2011-03-22
    • US11848359
    • 2007-08-31
    • Shinji SuzukiTetsuya KitagawaKyohei Seki
    • Shinji SuzukiTetsuya KitagawaKyohei Seki
    • F21V9/00F21V7/04
    • H01L21/67115H01L21/67109H05B3/0047
    • A heating device of the light irradiation type having an article to be heated, a guard ring located on the periphery of that article, multiple lamps located above the article to be heated and the guard ring, and a reflecting mirror located above the lamps, in which a light diffusion part is located in the upper region corresponding to the article to be heated so that the diffused light projects onto the entire surface of the article to be heated. The light diffusion part can be formed, for example, on a reflecting mirror, an optically transparent window part located between the article to be heated and the lamps or a light diffusion area formed on the light-emitting bulbs of the lamps. The size of the region occupied by the light diffusion part is such that diffused light is not projected to the guard ring.
    • 一种具有待加热物品的光照射型加热装置,位于该物品周边的保护环,位于被加热物上方的多个灯和防护环,以及位于灯的上方的反射镜, 光扩散部位于对应于被加热物的上部区域,使得漫射光投射到待加热物品的整个表面上。 光漫射部可以例如形成在反射镜上,位于待加热物品与灯之间的光学透明窗部或形成在灯的发光灯泡上的光扩散区域。 由光扩散部占据的区域的大小使得漫射光不会被投射到防护环。
    • 13. 发明授权
    • Polyamide-imide resin, flexible metal-clad laminate, and flexible printed wiring board
    • 聚酰胺酰亚胺树脂,柔性金属包覆层压板和柔性印刷线路板
    • US07364799B2
    • 2008-04-29
    • US10505697
    • 2003-02-26
    • Tomoharu KuritaShinji SuzukiCyuji Inukai
    • Tomoharu KuritaShinji SuzukiCyuji Inukai
    • B32B27/34
    • C08G73/14B32B15/08C09D179/08H05K1/0346Y10T428/31725Y10T428/31765
    • The present invention provides a non-halogen polyamide-imide resin soluble in an amide solvent at a concentration of 10%, the resulting varnish, when stored at 5° C. for 1 month, exhibiting a solution viscosity change ((solution viscosity after 1 month−initial solution viscosity)/initial solution viscosity), expressed as an absolute value, of not greater than 3.0, and the resin having a moisture absorption (25° C., 90% RH, 24 hours) of not greater than 2.0%; a flexible metal-clad laminates using such a resin; and a flexible printed wiring board prepared from such a flexible metal-clad laminate by circuit formation. The flexible metal-clad laminate of the invention does not curl under any conditions, including humid conditions, and exhibits excellent dimensional stability since the heat resistant resin used as an insulation material has low moisture absorption and low thermal expansion coefficient and there is less internal stress in the flexible metal-clad laminate. Moreover, since the solder heat resistance and the insulation properties are not impaired even after humidification and since the heat resistant resin is soluble in organic solvents with high solution stability, the flexible metal-clad laminate of the invention can be inexpensively produced.
    • 本发明提供可溶于10%浓度的酰胺溶剂的无卤素聚酰胺酰亚胺树脂,所得清漆在5℃下储存1个月后,溶液粘度变化((溶液粘度1 月初始溶液粘度)/初始溶液粘度(绝对值)为3.0以下,吸湿性(25℃,90%RH,24小时)的树脂为2.0%以下 ; 使用这种树脂的柔性金属包覆层压板; 以及通过电路形成由这种柔性覆金属层压板制备的柔性印刷线路板。 本发明的柔性覆金属层压板在包括潮湿条件在内的任何条件下都不会卷曲,并且由于用作绝缘材料的耐热树脂具有低吸湿性和低热膨胀系数,并且内应力较小 在柔性覆金属层压板中。 此外,由于即使在加湿之后焊料耐热性和绝缘性也不受损害,并且由于耐热树脂可溶于高溶液稳定性的有机溶剂中,因此可以廉价地制造本发明的柔性覆金属层压板。
    • 15. 发明申请
    • Method of stretching optical fiber base material and stretching apparatus
    • 拉伸光纤基材和拉伸装置的方法
    • US20070104444A1
    • 2007-05-10
    • US10582016
    • 2004-12-02
    • Shinji SuzukiWaichi Yamamura
    • Shinji SuzukiWaichi Yamamura
    • G02B6/00
    • C03B37/01242Y02P40/57
    • A stretching method and apparatus of an optical fiber base material including gripping both ends in a longitudinal direction of an optical fiber base material by a pair of gripping devices, and, while pulling the optical fiber base material by moving one or both of the pair of the gripping devices in a first direction parallel to the longitudinal direction, moving a heating device relative to the optical fiber base material in a second direction opposite to the first direction, wherein stretch of the optical fiber base material is performed while changing the relative moving speed Vb(x) in accordance with expression (1): Vb·[Dmax/D(x)]2≦Vb(x)≦Vb·[Dmax/D(x)]3  (1) where Vb represents a reference speed, Dmax represents a maximum outer diameter of the optical fiber base material, D(x) represents an outer diameter at a heated position x of the optical fiber base material, and Vb(x) represents a relative moving speed of the heating device relative to the optical fiber base material at the heated position x.
    • 一种光纤基材的拉伸方法和装置,包括通过一对夹持装置在光纤基材的长度方向上夹持两端,并且通过移动所述一对夹持装置中的一个或两者来拉动光纤基材 所述夹持装置在与所述长度方向平行的第一方向上,在与所述第一方向相反的第二方向上相对于所述光纤基材移动加热装置,在进行相对移动速度的同时进行所述光纤基材的拉伸 Vb(x)根据表达式(1):<?in-line-formula description =“In-line formula”end =“lead”?> Vb。[D最大值/ D(x )] 2 <= VB(x)<= VB。[D最大/ D(x)] 3(1) -line-formula description =“In-line Formulas”end =“tail”?>其中Vb表示参考速度,D 表示光纤基材的最大外径,D(x )表示外径 在光纤基材的加热位置x处,Vb(x)表示加热装置相对于加热位置x处的光纤基材的相对移动速度。
    • 17. 发明授权
    • Aperture ratio measuring apparatus for optical recording medium with pre-pits
    • 具有预凹坑的光学记录介质的孔径比测量装置
    • US06956802B2
    • 2005-10-18
    • US10079041
    • 2002-02-21
    • Masahiro KatoNaoharu YanagawaTatsuhiro YoneYuko MuramatsuShinji Suzuki
    • Masahiro KatoNaoharu YanagawaTatsuhiro YoneYuko MuramatsuShinji Suzuki
    • G11B7/004G11B7/0037G11B7/005G11B7/26G06F15/00
    • G11B7/268G11B7/00375G11B7/0053
    • An AR measuring apparatus receives the reflection light of an optical beam irradiated on an optical recording medium having a recording surface on which pre-pits are repeatedly formed between tracks by means of a first light receiving surface and a second light receiving surface, obtains a push-pull signal based on the difference between light receiving signals from the first and second light receiving surfaces, collects sample data by sampling the push-pull signals for a predetermined period of time, repeats the sampling for the predetermined period of time by a plurality of times, determines whether or not each data value corresponding to a pre-pit position of the sample data by the plurality of times is obtained by a predetermined number of times or greater, and when data values obtained by the predetermined number of times or greater are determined, calculates as an aperture ratio, a ratio between the minimum value and the maximum value of values corresponding to a pre-pit component of the data values obtained by the predetermined number of times or greater.
    • AR测量装置接收照射在具有通过第一光接收表面和第二光接收表面在轨道之间重复形成预凹坑的记录表面的光记录介质上的光束的反射光,获得推 基于来自第一和第二光接收表面的光接收信号之间的差的脉冲信号通过在预定时间段内对推挽信号进行采样来收集采样数据,通过多个 多次确定与样本数据的预凹坑位置相对应的多个数据值是否被获得预定次数以上,并且当通过预定次数以上获得的数据值为 作为孔径比,计算最小值和对应于前置凹坑部件的值的最大值之间的比率 t的预定次数或更大的数据值。
    • 18. 发明授权
    • Operation button structure
    • 操作按钮结构
    • US06914203B2
    • 2005-07-05
    • US10207812
    • 2002-07-31
    • Shinji Suzuki
    • Shinji Suzuki
    • H01H3/12H01H25/04H01H19/00
    • H01H25/041H01H2221/044
    • In the operation button structure, pressing switch contact portions are satisfactorily pressed by a tilting button operating member even if the button operating member and the switch contact portions are a long distance apart from each other or positions of the switch contact portions vary. When an operator's finger presses a right end of a button operating member, a pressing portion on a right side moves in a direction perpendicular to an upper surface of a substrate, whereby a switch contact portion on the right side is pressed. On the other hand, when the finger is lifted from the button operating member, the pressing portion retracts from the switch contact portion by a connecting portion formed in a shape having elasticity.
    • 在操作按钮结构中,即使按钮操作构件和开关接触部分彼此间隔较远或开关接触部分的位置变化,按压开关接触部也被倾斜按钮操作构件令人满意地按压。 当操作者的手指按压按钮操作构件的右端时,右侧的按压部分在与基板的上表面垂直的方向上移动,由此按压右侧的开关接触部分。 另一方面,当手指从按钮操作构件提升时,按压部分通过形成为具有弹性的形状的连接部从开关接触部分缩回。