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    • 4. 发明授权
    • Color filter substrate manufacturing method, display device manufacturing method, color filter substrate, and display device
    • 滤色器基板的制造方法,显示装置的制造方法,滤色器基板以及显示装置
    • US09034541B2
    • 2015-05-19
    • US14118927
    • 2012-05-24
    • Takayuki NakanoYutaka MiyajimaHirokazu YoshiokaKeita Katayose
    • Takayuki NakanoYutaka MiyajimaHirokazu YoshiokaKeita Katayose
    • G02B5/20H01L33/50G02F1/1335H01L27/12H01L27/15
    • H01L33/50G02B5/201G02B5/223G02F1/133516H01L27/124H01L27/1262H01L27/153
    • The present invention provides a color filter substrate manufacturing method which can prevent the occurrence of color mixing between adjacent pixels despite of the use of an inkjet method, and which are unlikely to cause flicker when used for displays such as televisions. The prevent invention is a color filter substrate manufacturing method including: a first inkjet step of applying inks simultaneously to at least two of a plurality of regions separated by a grid-shaped partition; and a second inkjet step of applying an ink to at least one of regions to which the inks are not applied in the first inkjet step, wherein at least one of inks applied in the first inkjet step is a first ink that is applied to a first target region without applying inks to regions vertically and horizontally adjacent to the first target region, and at least one of the other inks applied in the first inkjet step is a second ink that is applied to a second target region while another ink is applied to one of regions vertically and horizontally adjacent to the second target region.
    • 本发明提供了一种滤色器基板的制造方法,其可以防止相邻像素之间的颜色混合的发生,尽管使用喷墨方法,并且当用于诸如电视机的显示器时不太可能引起闪烁。 防止发明是一种滤色器基板的制造方法,包括:第一喷墨工序,将墨水同时施加到由格栅状分隔开的多个区域中的至少两个区域; 以及第二喷墨步骤,在第一喷墨步骤中将油墨施加到不施加油墨的区域中的至少一个,其中在第一喷墨步骤中施加的油墨中的至少一种是施加到第一喷墨步骤的第一油墨 目标区域,而不将油墨施加到与第一目标区域相邻的垂直和水平的区域,并且在第一喷墨步骤中施加的其它油墨中的至少一个是施加到第二目标区域的第二油墨,而另一个油墨被施加到一个 的垂直和水平的第二目标区域附近的区域。
    • 5. 发明授权
    • Manufacturing method of metal oxide semiconductor material for gas sensor
    • 用于气体传感器的金属氧化物半导体材料的制造方法
    • US08529799B2
    • 2013-09-10
    • US13060886
    • 2009-08-28
    • Tetsuji ImamuraDaisuke KuwaharaTakayuki NakanoTakahiro Ishibashi
    • Tetsuji ImamuraDaisuke KuwaharaTakayuki NakanoTakahiro Ishibashi
    • H01B1/02H01B1/22
    • C01G55/00C01G15/00C01P2004/03C01P2006/40C01P2006/80
    • Provided is a manufacturing method of a metal oxide semiconductor material for gas sensors by which an oxide precursor and noble metal colloid particles will not readily cohere in the manufacturing process. The manufacturing process implements a precursor solution synthesis step 1 of synthesizing an oxide precursor solution in which an oxide precursor is dispersed, a pH adjustment step 3 of adjusting the pH of the oxide precursor solution, a precursor-colloid dispersion preparation step 5 of preparing an oxide precursor-noble metal colloid dispersion in which the oxide precursor and the noble metal colloid are dispersed substantially uniformly, a purifying step 7 of purifying the oxide precursor-noble metal colloid dispersion to obtain a purified oxide precursor noble metal colloid dispersion, and a freeze-drying step 11 of freeze-drying an precipitate of the purified oxide precursor-noble metal colloid dispersion.
    • 提供了一种用于气体传感器的金属氧化物半导体材料的制造方法,在制造过程中氧化物前体和贵金属胶体颗粒将不容易凝固。 制造方法实现了前体溶液合成步骤1,其合成其中分散有氧化物前体的氧化物前体溶液,调节氧化物前体溶液的pH的pH调节步骤3,前体 - 胶体分散体制备步骤5, 氧化物前体和贵金属胶体基本上均匀分散的氧化物前体 - 贵金属胶体分散体,纯化氧化物前体 - 贵金属胶体分散体以获得纯化的氧化物前体贵金属胶体分散体的纯化步骤7和冷冻 干燥步骤11,将纯化的氧化物前体 - 贵金属胶体分散体的沉淀物冷冻干燥。
    • 6. 发明授权
    • Method and device for cleaning circulation water
    • 循环水清洗方法及装置
    • US08349190B2
    • 2013-01-08
    • US12985954
    • 2011-01-06
    • Yoshiyuki TaguchiTakayuki NakanoMasahito Kato
    • Yoshiyuki TaguchiTakayuki NakanoMasahito Kato
    • C02F1/461
    • C02F1/46109C02F1/4602C02F1/4608C02F2001/46119C02F2001/46133C02F2103/023C02F2201/46135C02F2201/4614C02F2201/4617C02F2209/04
    • The object of the invention is to provide a method for cleaning circulation water, which reduces the cost of operation and maintenance as much as possible, without a cumbersome cleaning operation such as by detaching electrode plates from an electrolysis cleaning tank and removing scale from inside the tank, and to provide a device used in this method. Accordingly, the present invention provides a method for cleaning circulation water, comprising the steps of flowing circulation water to be cleaned between electrode plates placed in a face-to-face manner between one another; and applying DC voltage between the electrode plates, allowing one or more metal ions contained in the circulation water to be precipitated onto the negative electrode plates by electrolysis, to clean the circulation water, wherein the electrode plates used are made of titanium plates, and wherein a desired amount of current flows, while an anodized oxide coating formed on the surface of the positive electrode plates is compulsively subject to dielectric breakdown by increasing the voltage applied to the anodized oxide coating. FIG. 1 is a representative drawing.
    • 本发明的目的是提供一种清洁循环水的方法,尽可能地降低操作和维护的成本,而不需要麻烦的清洁操作,例如通过将电极板从电解清洗槽中分离出来并从内部去除垢 罐,并提供在该方法中使用的装置。 因此,本发明提供了一种清洗循环水的方法,其特征在于,包括以下步骤:将彼此面对面地放置的电极板之间的待清洁循环水流动; 并且在电极板之间施加直流电压,通过电解使循环水中包含的一种或多种金属离子通过电解沉积到负​​极板上,以清洁循环水,其中使用的电极板由钛板制成,其中 期望量的电流流动,而形成在正电极板的表面上的阳极化氧化物涂层强制地通过增加施加到阳极化氧化物涂层上的电压而进行电介质击穿。 图。 图1是代表图。
    • 7. 发明授权
    • Method and device for cleaning circulation water
    • 循环水清洗方法及装置
    • US07901620B2
    • 2011-03-08
    • US11886412
    • 2005-04-25
    • Yoshiyuki TaguchiTakayuki NakanoMasahito Kato
    • Yoshiyuki TaguchiTakayuki NakanoMasahito Kato
    • C02F1/00
    • C02F1/46109C02F1/4602C02F1/4608C02F2001/46119C02F2001/46133C02F2103/023C02F2201/46135C02F2201/4614C02F2201/4617C02F2209/04
    • The object of the invention is to provide a method for cleaning circulation water, which reduces the cost of operation and maintenance as much as possible, without a cumbersome cleaning operation such as by detaching electrode plates from an electrolysis cleaning tank and removing scale from inside the tank, and to provide a device used in this method. Accordingly, the present invention provides a method for cleaning circulation water, comprising the steps of flowing circulation water to be cleaned between electrode plates placed in a face-to-face manner between one another; and applying DC voltage between the electrode plates, allowing one or more metal ions contained in the circulation water to be precipitated onto the negative electrode plates by electrolysis, to clean the circulation water, wherein the electrode plates used are made of titanium plates, and wherein a desired amount of current flows, while an anodized oxide coating formed on the surface of the positive electrode plates is compulsively subject to dielectric breakdown by increasing the voltage applied to the anodized oxide coating. FIG. 1 is a representative drawing.
    • 本发明的目的是提供一种清洁循环水的方法,尽可能地降低操作和维护的成本,而不需要麻烦的清洁操作,例如通过将电极板从电解清洗槽中分离出来并从内部去除垢 罐,并提供在该方法中使用的装置。 因此,本发明提供了一种清洗循环水的方法,其特征在于,包括以下步骤:将彼此面对面地放置的电极板之间的待清洁循环水流动; 并且在电极板之间施加直流电压,通过电解使循环水中包含的一种或多种金属离子通过电解沉积到负​​极板上,以清洁循环水,其中使用的电极板由钛板制成,其中 期望量的电流流动,而形成在正电极板的表面上的阳极化氧化物涂层强制地通过增加施加到阳极化氧化物涂层上的电压而进行电介质击穿。 图。 图1是代表图。
    • 8. 发明授权
    • Mobile communication terminal apparatus and received signal strength detecting method
    • 移动通信终端设备和接收信号强度检测方法
    • US06725041B1
    • 2004-04-20
    • US09807282
    • 2001-04-11
    • Takayuki Nakano
    • Takayuki Nakano
    • H04Q720
    • H04W36/30H04B7/022H04B17/318
    • A determining section 106 compares received signal strengths of the respective pilot signals stored in a strength table 105 with a predetermined threshold of received signal strength, and reports a pilot signal exceeding the predetermined threshold to a control section 107. The control section 107 instructs a strength extracting section 104 to increase the number of received signal strength extraction times of the pilot signal exceeding the predetermined threshold. The strength extracting section 104 extracts received signal strengths from the respective pilot signals based on the instructed number of times. The strength table 105 detects the received signal strengths of the respective pilot signals at timing when the number of received signal strength extraction times reaches the predetermined number of times.
    • 确定部分106将存储在强度表105中的各个导频信号的接收信号强度与接收信号强度的预定阈值进行比较,并将超过预定阈值的导频信号报告给控制部分107.控制部分107指示强度 提取部分104以增加超过预定阈值的导频信号的接收信号强度提取时间的数量。 强度提取部104基于指示次数从各导频信号中提取接收信号强度。 强度表105在接收信号强度提取次数达到预定次数的定时检测各导频信号的接收信号强度。
    • 9. 发明授权
    • Polyester composition
    • 聚酯组成
    • US4914145A
    • 1990-04-03
    • US62415
    • 1987-06-16
    • Akira TohdohTakashi NagaiTakayuki NakanoTakashi Ueda
    • Akira TohdohTakashi NagaiTakayuki NakanoTakashi Ueda
    • C08K5/00C08L67/02
    • C08L67/02C08K5/00
    • As an outline of the invention of the present inventors, the gist of the present invention resides in the following:A polyester composition comprising:(A) 100 parts by weight of a substantially linear polyester comprising, as the main constituent unit, ethylene terephthalate;(B) 0.05 to 15 parts by weight of a crystallization promotor; and(C) 0.1 to 15 parts by weight of at least one plasticizer selected from the group consisting of (C.sub.1), (C.sub.2), (C.sub.3) and (C.sub.4) which are defined as follows:(C.sub.1) a condensation product of a compound of the formula (I):(HQ-R).sub.2 S (I) wherein two R groups may be the same as or different from each other and represent a hydrocarbon group selected from the group consisting of aliphatic, alicyclic, and aromatic hydrocarbon groups and any combination thereof, and two Q groups may be the same as or different from each other and represent oxygen or sulfur, with an organic compound containing two alcoholic or phenolic hydroxyl groups:(C.sub.2) an ester compound derived from an organic acid and a compound selected from the group consisting of compounds of the above-mentioned formula (I) and the condensation products (C.sub.1).(C.sub.3) an ether compound derived from a compound selected from the group consisting of compounds of the above-mentioned formula (I) and the condensation products (C.sub.1) and a compound selected from the group consisting of monohydric alcohols and monohydric phenols.(C.sub.4) a modified polyolefin wax selected from oxidized polyolefin waxes, unsaturated carboxylic acid or its derivative graft-modified polyolefin waxes, unsaturated epoxy compound-modified polyolefin waxes, unsaturated silane compound-modified polyolefin waxes, and styrene type monomer-modified olefin waxes.
    • 作为本发明人的发明的概要,本发明的要点在于:聚酯组合物,其包含:(A)100重量份的基本上线性的聚酯,其包含作为主要构成单元的对苯二甲酸乙二醇酯; (B)0.05〜15重量份的结晶促进剂; 和(C)0.1至15重量份的至少一种选自(C1),(C2),(C3)和(C4)的增塑剂,其定义如下:(C1) 式(I)化合物:(HQ-R)2S(I)其中两个R基可以相同或不同,表示选自脂肪族,脂环族和芳族烃基的烃基 和它们的任何组合,两个Q基彼此可以相同或不同并且表示氧或硫,与含有两个醇或酚羟基的有机化合物:(C2)衍生自有机酸的酯化合物和 选自上述式(I)的化合物和缩合产物(C1)的化合物的化合物。 (C3)衍生自选自上述式(I)的化合物和缩合产物(C1)的化合物的化合物和选自一元醇和一元酚的化合物的醚化合物。 (C4)选自氧化聚烯烃蜡,不饱和羧酸或其衍生物接枝改性聚烯烃蜡的改性聚烯烃蜡,不饱和环氧化合物改性聚烯烃蜡,不饱和硅烷化合物改性聚烯烃蜡和苯乙烯类单体改性烯烃蜡。
    • 10. 发明授权
    • Molding polyamide composition
    • 成型聚酰胺组合物
    • US4607073A
    • 1986-08-19
    • US699399
    • 1985-02-07
    • Takeshi SakashitaHidehiko HashimotoTakayuki Nakano
    • Takeshi SakashitaHidehiko HashimotoTakayuki Nakano
    • C08G69/00C08G69/26C08K3/00C08L77/00C08K3/36C08K3/34C08K3/10
    • C08G69/265C08K3/0033
    • Disclosed is a molding reinforced polyamide composition comprising [A] a polyamide selected from a polyamide composed of (a) aromatic dicarboxylic acid component units comprising 60 to 77 mole % of terephthalic acid component units and 23 to 40 mole % of aromatic dicarboxylic acid component units other than terephthalic acid component units and (b) 1,6-diaminohexane units and a polyamide composed of (a) aromatic dicarboxylic acid component units comprising 60 to 100 mole % of terephthalic acid component units and 0 to 40 mole % of aromatic dicarboxylic acid component units other than terephthalic acid component units and (b) units of a linear aliphatic alkylene-diamine component having 7 to 18 carbon atoms, and [B] a filler in an amount of 0.5 to 200 parts by weight per 100 parts by weight of said polyamide.This composition has excellent heat resistance characteristics, mechanical properties, chemical and physical properties and molding characteristics in combination.
    • 公开了一种成型增强聚酰胺组合物,其包含[A]一种聚酰胺,其选自由(a)包含60〜77摩尔%的对苯二甲酸成分单元和23〜40摩尔%的芳香族二羧酸成分单元的(a)芳香族二羧酸成分单元构成的聚酰胺 (b)1,6-二氨基己烷单元和由(a)包含60-100摩尔%对苯二甲酸组分单元和0-40摩尔%芳族二羧酸的芳族二羧酸组分单元组成的聚酰胺 除对苯二甲酸成分单元以外的成分单元和(b)碳原子数为7〜18的直链脂肪族亚烷基二胺成分的单元,[B]相对于100重量份 说聚酰胺。 该组合物具有优异的耐热特性,机械性能,化学和物理性能以及成型特性的组合。