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
    • 1. 发明授权
    • Optical device
    • 光学装置
    • US07558000B2
    • 2009-07-07
    • US11365586
    • 2006-03-02
    • Keita TanakaToru UdakaYukihiro Sano
    • Keita TanakaToru UdakaYukihiro Sano
    • G02B1/06G02B26/00
    • G02B26/005G02B3/14
    • An optical device includes: a sealed container having edge walls facing each other in a thickness direction of the container and a side wall connecting both of the edge walls; a first liquid with polarity or electrical conductivity and sealed within the container; a second liquid that is sealed within the container and does not mixed with the first liquid; and a voltage applying unit for applying a voltage across the first liquid. The first and second liquid have equal specific gravity, and transmissivity of the first liquid is lower than the transmissivity of the second liquid. An interface between the first liquid and the second liquid changes shape in response to a voltage applied by the voltage applying unit. The first liquid is formed so as to have equal specific gravity to the second liquid by mixing three or more kinds of liquids each having a different specific gravity.
    • 光学装置包括:密封容器,其具有沿着容器的厚度方向彼此面对的边缘壁和连接两个边缘壁的侧壁; 具有极性或导电性的第一液体并密封在容器内; 第二液体,密封在容器内并且不与第一液体混合; 以及施加电压跨过第一液体的电压施加单元。 第一液体和第二液体具有相等的比重,第一液体的透过率低于第二液体的透过率。 第一液体和第二液体之间的界面响应于由施加电压施加的电压而改变形状。 通过混合三种以上各自具有不同比重的液体,第一液体被形成为具有与第二液体相等的比重。
    • 4. 发明授权
    • Optical device and electroytic solution
    • 光学装置和电解液
    • US06261478B1
    • 2001-07-17
    • US09146961
    • 1998-09-04
    • Toru Udaka
    • Toru Udaka
    • G02F115
    • G02F1/1506
    • A power-saving, highly-reversible optical device is provided. The transmittance through the device is well controlled within a visible ray range. The device has good spectral characteristics while shielded from light, and the electrodes in the device are prevented from being in overpotential condition. The device has a long life, and is protected from being discolored and deteriorated in cycle use. Also, an electrolytic solution to be used in the device is provided. The optical device comprises a solution as so put between working electrodes and a counter electrode that driving control of these electrodes brings about deposition or dissolution of silver. In this, the solution is prepared by dissolving a silver salt in a solvent, to which are added a supporting salt of an alkali metal halide such as LiBr or the like, and an alkanolamine, and optionally coumarin and a mercaptoalkylimidazole.
    • 提供省电,高度可逆的光学器件。 通过器件的透射率在可见光线范围内良好控制。 该器件具有良好的光谱特性,同时屏蔽光,并且可防止器件中的电极处于过电压状态。 该设备使用寿命长,防止周期使用变色和恶化。 此外,提供了用于该器件的电解液。光学器件包括如此放置在工作电极和对电极之间的溶液,驱动这些电极的控制引起银的沉积或溶解。 在此,通过将银盐溶解在溶剂中来制备溶液,向其中加入碱金属卤化物如LiBr等的支持盐和链烷醇胺,以及任选的香豆素和巯基烷基咪唑。
    • 5. 发明授权
    • Optical device and electrolytic solution
    • 光学装置和电解液
    • US6045725A
    • 2000-04-04
    • US924599
    • 1997-09-04
    • Toru UdakaHideharu Miyagaki
    • Toru UdakaHideharu Miyagaki
    • G02F1/17G02B5/24G02F1/15G02B5/23G02F1/153
    • G02F1/1506G02B5/24
    • An optical device is provided as an optical filter including a pair of substrates at least one of which is transparent, at least one transparent electrode disposed on one side of the transparent substrate, at least one counter electrode, a spacer provided between a pair of the substrates at peripheries thereof, and an RED solution as a filtering material provided in a space between a pair of the substrates. The RED solution includes a silver salt and a mixed solvent, preferably DMSO and another solvent, for dissolving the silver salt. The transparent electrodes and the counter electrode are driven by applying a voltage thereto, and the silver salt is reversibly deposited and dissolved by controlling the voltage. The RED solution is brought to be colored and to be colorless, respectively, so that an amount of light passing through the device may be adjusted.
    • 提供一种光学器件作为滤光器,其包括一对基板,其中至少一个是透明的,设置在透明基板的一侧上的至少一个透明电极,至少一个对电极,设置在一对基板之间的间隔件 在其周围的基板和设置在一对基板之间的空间中的作为过滤材料的RED溶液。 RED溶液包括用于溶解银盐的银盐和混合溶剂,优选DMSO和另一种溶剂。 通过向其施加电压来驱动透明电极和对电极,并且通过控制电压可逆地沉积和溶解银盐。 RED溶液分别被着色并且是无色的,使得可以调节通过该装置的光量。
    • 7. 发明授权
    • Optical unit and electrolytic solution
    • 光学单元和电解液
    • US5864420A
    • 1999-01-26
    • US808485
    • 1997-03-03
    • Toru UdakaHideharu Miyagaki
    • Toru UdakaHideharu Miyagaki
    • G02F1/15G02F1/153
    • G02F1/1506
    • To provide an optical unit which can be driven with low electrical power, is controllable in its transmittance in visible light, has satisfactory spectroscopic properties in a light-screening state, and exhibits a life span extended by reducing the over-voltage upon the electrodes; and to provide an electrolytic solution to be used in the optical unit. An optical unit comprising a pair of opposing electrodes 2 and 3, and an electrolytic solution 1 comprising a solvent and a silver bromide dissolved therein, the electrolytic solution further containing a metal salt such as copper bromide to be co-deposited with silver, and the electrolytic solution being disposed between the opposing electrodes such that deposition/dissolution of silver is caused by drive-controlling these electrodes.
    • 为了提供能够以低功率驱动的光学单元,其在可见光中的透射率是可控的,在遮光状态下具有令人满意的分光特性,并且通过减小电极上的过电压而延长寿命; 并提供在光学单元中使用的电解液。 包括一对相对电极2和3的光学单元以及溶解有溶剂和溴化银的电解液1,电解液还含有与银共沉积的金属盐如溴化铜,并且 电解液设置在相对电极之间,使得银的沉积/溶解是由驱动控制这些电极引起的。
    • 8. 发明授权
    • Electric dimming device and its driving method
    • 电动调光装置及其驱动方法
    • US07230598B2
    • 2007-06-12
    • US10311656
    • 2002-04-19
    • Masaru KawabataToru UdakaToshiharu YanagidaToshifumi TakaokaKazuhiro Tanaka
    • Masaru KawabataToru UdakaToshiharu YanagidaToshifumi TakaokaKazuhiro Tanaka
    • G09G3/36
    • H04N5/238G02F1/13306G02F1/133528G02F1/13725
    • An electrical dimmer device and its driving method applicable to, for example, an image pickup unit and a display unit operate so that when a control signal for stop adjustment is changed from its current value of stop adjustment to a larger value, which occurs when the light transmissivity of a positive type liquid crystal is raised, or when the light transmissivity of a negative type liquid crystal is lowered, the control signal is temporarily varied to an intermediate value that is larger than the larger value. The energy of the varied larger value and a time during which that varied value is applied are determined in accordance with predetermined values. By doing so, it is possible to make a response speed when changing the light transmissivity extremely faster and thus attain a response time, of for example, one field period of time or less required for a stop mechanism of a video camera.
    • 适用于例如图像拾取单元和显示单元的电气调光装置及其驱动方法进行操作,使得当用于停止调整的控制信号从其当前的停止调整值改变为更大的值时 正型液晶的透光率提高,或者当负型液晶的透光率降低时,控制信号暂时变化为大于较大值的中间值。 根据预定值确定变化的较大值的能量和施加该变化值的时间。 通过这样做,可以更快地改变光透射率时作出响应速度,从而获得例如对于摄像机的停止机构所要求的一个场周期或更短的响应时间。
    • 9. 发明授权
    • Display element and production thereof
    • 显示元素及其制作
    • US07072091B2
    • 2006-07-04
    • US10482265
    • 2002-06-07
    • Toru UdakaTatsuhiko MatsumotoKazuhiro Noda
    • Toru UdakaTatsuhiko MatsumotoKazuhiro Noda
    • G02F1/15
    • G02F1/1508
    • A high-quality-easy-to-fabricate display element and a process for production thereof. The display element (18) has between transparent pixel electrodes (2) and a common electrode (6) a polymeric electrolyte (5) which contains a coloring substance (metal ions) such as AgI which separates out, dissolves, or changes in color upon electrochemical reduction or oxidation. The process includes placing a monomer or an uncrosslinked polymer of a solution (5A) as a starting material for the polymeric electrolyte layer (5), together with the coloring substance (metal ions) and a supporting electrolyte, between the transparent pixel electrodes (2) and the common electrode (6) and polymerizing or crosslinking the starting material by thermal polymerization or the like, thereby forming the polymeric electrolyte layer (5).
    • 高质量易制造的显示元件及其制造方法。 显示元件(18)在透明像素电极(2)和公共电极(6)之间具有聚合物电解质(5),其包含诸如AgI的着色物质(金属离子),其分离出,溶解或颜色变化 电化学还原或氧化。 该方法包括将透明像素电极(5A)之间的单体或未交联的聚合物(5A)作为高分子电解质层(5)的起始材料与着色物质(金属离子)和支持电解质一起放置 2)和公共电极(6),并通过热聚合等使原料聚合或交联,从而形成高分子电解质层(5)。