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
    • 3. 发明申请
    • LENS DEVICE
    • 镜头装置
    • US20110043932A1
    • 2011-02-24
    • US12812896
    • 2009-01-21
    • Yoshimitsu NomuraTatsuhiko ObayashiSeiichi Watanabe
    • Yoshimitsu NomuraTatsuhiko ObayashiSeiichi Watanabe
    • G02B7/02
    • G02B7/021G02B1/041G02B7/026G02B9/16G02B13/001G02B13/0035
    • A lens device (10) is constituted of a lens barrel (12), and first to third lenses (14) to (16) accommodated in the lens barrel (12). The first to the third lenses (14) to (16) are formed from plastic nanocomposite material that is plastic material in which inorganic fine particles are dispersed. First to third cushioning members (18a) to (18c) are provided between rim surfaces of flanges (14b) to (16b) of the first to the third lenses (14) to (16) and inner circumferential surfaces of the lens barrel (12), respectively. Thus, corner portions (14c) to (16c) of the first to the third lenses (14) to (16) are prevented from chipping on contact with the inner circumferential surfaces of the lens barrel (12).
    • 透镜装置(10)由透镜镜筒(12)和容纳在镜筒(12)中的第一至第三透镜(14)至(16)构成。 第一至第三透镜(14)至(16)由塑料纳米复合材料形成,其为分散有无机细颗粒的塑料材料。 第一至第三缓冲构件(18a)至(18c)设置在第一至第三透镜(14)至(16)的凸缘(14b)至(16b)的边缘表面和透镜镜筒(12)的内圆周表面 ), 分别。 因此,防止第一至第三透镜(14)至(16)的角部(14c)至(16c)与透镜镜筒(12)的内圆周表面接触而碎裂。
    • 4. 发明授权
    • Method for producing electrically-conducting material with modified surface
    • 具有改性表面的导电材料的制造方法
    • US09034148B2
    • 2015-05-19
    • US13819121
    • 2011-08-26
    • Masayasu NagoshiKaoru SatoSeiichi WatanabeSouki Yoshida
    • Masayasu NagoshiKaoru SatoSeiichi WatanabeSouki Yoshida
    • C25D5/10C25D5/16C23C26/00C25F1/00C25F3/00
    • C25D5/16C23C26/00C25F1/00C25F3/00
    • A method to inexpensively and efficiently produce conductive materials on the surface of which a nano-level fine structure is formed includes surface modification including immersing a stable anode electrode and a workpiece as a cathode electrode, the workpiece including a conductive material with a work surface, in an electrolytic solution, then applying a voltage not less than a first voltage and less than a second voltage between the stable anode electrode and the workpiece as the cathode electrode immersed in the electrolytic solution, thereby modifying the work surface, the first voltage being a voltage corresponding to a current value that is ½ of the sum of a first maximum current value appearing first in a positive voltage region and a first minimum current value appearing first in the positive voltage region with respect to voltage-current characteristics of a surface modification treatment system, the second voltage exhibiting a complete-state plasma.
    • 在其上形成纳米级精细结构的表面上廉价有效地制造导电材料的方法包括表面改性,包括浸渍稳定的阳极电极和工件作为阴极,工件包括具有工作表面的导电材料, 在电解液中,在浸渍在电解液中的阴极电极之间施加稳定的阳极和工件之间的不小于第一电压和小于第二电压的电压,从而改变工作表面,第一电压为 对应于相对于表面改性处理的电压 - 电流特性,正电压区域中首先出现的第一最大电流值和正电压区域中首先出现的第一最小电流值之和的电流值的1/2的电压 系统,第二电压呈现完全状态的等离子体。
    • 10. 发明申请
    • RESIN MATERIAL MEASURING METHOD AND RESIN MATERIAL MEASURING APPARATUS
    • 树脂材料测量方法和树脂材料测量装置
    • US20100024577A1
    • 2010-02-04
    • US12523182
    • 2008-02-04
    • Noriko EihaHidekane ItoSeiichi Watanabe
    • Noriko EihaHidekane ItoSeiichi Watanabe
    • G01N33/00
    • B29C31/063B29C31/048
    • A resin material measuring method which obtains a prescribed amount of a resin material by measuring liquid resin material, the resin material measuring method including: charging the resin material having a fluidity into an internal space of a cylinder using a cylinder-piston mechanism which includes: the cylinder having a discharge aperture at one end and the internal space being constant in cross-sectional area; and a piston which is inserted in the internal space; determining a necessary movement stroke length of the piston corresponding to the resin material of a prescribed volume according to a relationship between the volume of the resin material and the cross-sectional area and the movement stroke length; discharging the resin material from the cylinder through the discharge aperture by moving the piston by the determined movement stroke length; and cutting the discharged resin material from the resin material located inside the cylinder.
    • 一种通过测量液体树脂材料来获得规定量的树脂材料的树脂材料测量方法,所述树脂材料测量方法包括:使用气缸活塞机构将具有流动性的具有流动性的树脂材料装入圆筒的内部空间,该气缸活塞机构包括: 所述圆筒在一端具有排出孔,并且所述内部空间的横截面积恒定; 以及插入在所述内部空间中的活塞; 根据树脂材料的体积与横截面积和移动冲程长度之间的关系确定对应于规定体积的树脂材料的活塞的必要移动行程长度; 通过使活塞移动所确定的移动行程长度,通过排出孔将树脂材料从圆筒排出; 并且从位于气缸内部的树脂材料切割排出的树脂材料。