| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种光阻汲取装置 | CN201510405817.1 | 2015-07-10 | CN104932203A | 2015-09-23 | 宋江江 |
| 本发明公开了一种光阻汲取装置,包括光阻瓶、设于所述光阻瓶瓶口的密封盖以及穿过所述密封盖插设于所述光阻瓶内的进气管和光阻汲取管,所述光阻瓶内还设有用于搅拌光阻的搅拌组件。本发明通过设计一种新型的光阻汲取装置,内置搅拌组件,可以有效改善高精细光阻易沉降的状况,提高彩色滤光片产品的稳定性,减少产品缺陷,提高产品的良率。 | ||||||
| 2 | 可自由封装及自由定量之液态感光树脂袋的印刷版制造方法及其设备 | CN200810038035.9 | 2008-05-26 | CN101592865A | 2009-12-02 | 黄秀臣 |
| 可自由封装及自由定量之液态感光树脂袋的印刷版制造方法及其设备,先根据印刷版的成型规格选择透明袋体,透明袋体至少有一个侧边开放,将适量液态感光树脂灌入透明袋体内,再利用可自由滚动或滑动的止推棒来阻挡液态感光树脂向未封装侧边流动,在压平液态感光树脂的过程中液态感光树脂可自由向未封装的侧边流动并同时推动止推棒向外移动至自然停止。一种实现上述制版方法的装置,由透明袋体、下透明夹持板、厚度规、上透明夹持板、光源和止推棒构成,可避免现有技术中完全封装并且定量的液态感光树脂袋不能准确配合印刷版规格、造成浪费的问题,并且可以简化印刷版的制作过程和制版机器设备,有利于提高制版工作效率。 | ||||||
| 3 | 印刷版材料、印刷版原版、印刷版的制作方法、印刷方法以及印刷版材料的制造方法 | CN200410078595.9 | 2004-09-15 | CN100549822C | 2009-10-14 | 前桥达一 |
| 一种印刷版材料产品,提供有印刷版材料,该印刷版材料包括基底和在该基底上提供的图像形成层;和在该印刷版材料的一部分上装载的无线存储标记和该无线存储标记包括半导体存储器和天线线圈,通过该天线线圈数据被写入该半导体存储器或从该半导体存储器读取该数据。该半导体存储器存储在该印刷版材料产品制造过程时所写入的产品数据。 | ||||||
| 4 | 用离子型染料-平衡离子配合物层压透明或半透明材料的方法 | CN88100324 | 1988-01-20 | CN88100324A | 1988-09-21 | 彼得·格特沙尔克 |
| 将两种或两种以上透明或半透明的基材或者一种透明和一种不透明的基材层合在一起的方法,它包括如下步骤:将光硬化组合物涂敷在第一块半透明基板的一个表面上,该光硬化组合物含有可进行自由基加成聚合或交联的化合物和染料—平衡离子配合物。将第二块半透明的基板贴合在该可光硬化组合物上,使得该光硬化组合物夹在该第一和第二块半透明基板之间;该基板在光化辐照下曝光。 | ||||||
| 5 | 一种可改善涂布覆盖不良的光刻胶瓶 | CN201510724265.0 | 2015-10-29 | CN105292762A | 2016-02-03 | 朱治国; 朱骏; 陈力钧 |
| 本发明公开了一种可改善涂布覆盖不良的光刻胶瓶,包括密封的内、外两层,外层为带有接口的光刻胶瓶身,内层为软性内囊,用于容纳光刻胶,一氮气管从接口通入瓶身和内囊之间,一光刻胶导管从接口处插入内囊中,瓶身内底部固设有一凹槽形凸起结构,内囊下端具有一与凸起结构的凹槽侧壁对应的开口,并通过其开口与凹槽侧壁密封连接,光刻胶导管下端伸入凸起结构的凹槽内,当内囊受压时,无法接触到导管下端的光刻胶出口造成其堵塞,从而避免了因此问题而导致的气泡和涂布异常现象。 | ||||||
| 6 | 应用液态感光树脂袋的印刷版制造方法及其设备 | CN200810038035.9 | 2008-05-26 | CN101592865B | 2012-01-25 | 黄秀臣 |
| 可自由封装及自由定量之液态感光树脂袋的印刷版制造方法及其设备,先根据印刷版的成型规格选择透明袋体,透明袋体至少有一个侧边开放,将适量液态感光树脂灌入透明袋体内,再利用可自由滚动或滑动的止推棒来阻挡液态感光树脂向未封装侧边流动,在压平液态感光树脂的过程中液态感光树脂可自由向未封装的侧边流动并同时推动止推棒向外移动至自然停止。一种实现上述制版方法的装置,由透明袋体、下透明夹持板、厚度规、上透明夹持板、光源和止推棒构成,可避免现有技术中完全封装并且定量的液态感光树脂袋不能准确配合印刷版规格、造成浪费的问题,并且可以简化印刷版的制作过程和制版机器设备,有利于提高制版工作效率。 | ||||||
| 7 | 蚀刻构图的硅氧烷层的方法 | CN03826965.1 | 2003-07-28 | CN1820230A | 2006-08-16 | G·贝克尔; G·加德纳; B·哈克尼斯 |
| 改写半导体材料的方法,该方法包括:(i)施加可光构图的硅氧烷组合物到基底表面上,形成膜;(ii)将该膜的一部分曝光于辐射线下,产生未曝光区域覆盖至少一部分表面和曝光区域覆盖剩余表面的部分曝光的膜;(iii)加热部分曝光的膜,其时间使得曝光区域基本上不溶于显影溶剂中和未曝光区域可溶于显影溶剂中;(iv)采用显影溶剂除去加热膜的未曝光区域,形成构图膜;(v)加热该构图膜,其时间足以形成固化的硅氧烷层;和(vi)通过暴露于含有机溶剂和碱的蚀刻溶液中,除去所有或一部分固化的硅氧烷层。 | ||||||
| 8 | 半导体封装件及其制造方法 | CN02805240.4 | 2002-01-17 | CN1514954A | 2004-07-21 | G·贝克; G·加德纳; B·哈克尼斯; L·马伦方特; S·萨尔马 |
| 一种半导体封装件,包含晶片,该晶片有源表面包含至少一个集成电路,其中每一个集成电路具有多个接合焊盘;和覆盖在晶片有源表面的固化的硅氧烷层,条件是每一接合焊盘的至少一部分未被硅氧烷层所覆盖并且其中硅氧烷层由本发明方法制备。 | ||||||
| 9 | 感光性树脂层叠体卷 | CN201380068564.2 | 2013-12-26 | CN104903207B | 2017-04-05 | 小谷雄三 |
| 本发明提供在启封时可以从感光性树脂层叠体卷端面简单地将异物去除的感光性树脂层叠体卷。该感光性树脂层叠体卷的结构是,将感光性树脂层叠体在卷芯上卷绕成卷状,以使卷端面保护部件与所卷绕的感光性树脂层叠体的端面接触的方式配置,对于卷端面保护部件,在与卷端面接触侧具有粘合剂组合物,感光性树脂层叠体至少包含支撑层与层叠于该支撑层的感光性树脂层。 | ||||||
| 10 | 感光性树脂层叠体卷 | CN201380068564.2 | 2013-12-26 | CN104903207A | 2015-09-09 | 小谷雄三 |
| 本发明提供在启封时可以从感光性树脂层叠体卷端面简单地将异物去除的感光性树脂层叠体卷。该感光性树脂层叠体卷的结构是,将感光性树脂层叠体在卷芯上卷绕成卷状,以使卷端面保护部件与所卷绕的感光性树脂层叠体的端面接触的方式配置,对于卷端面保护部件,在与卷端面接触侧具有粘合剂组合物,感光性树脂层叠体至少包含支撑层与层叠于该支撑层的感光性树脂层。 | ||||||
| 11 | 平版印刷版的包装方法 | CN200410083387.8 | 2004-10-08 | CN1605548A | 2005-04-13 | 碓井孝之 |
| 本发明提供一种平版印刷版的包装方法,通过在厚度方向交替重叠平版印刷版和复层纸,并在其上面和下面配置保护用厚纸,构成层叠捆。用包装纸包装层叠捆。此时,在平版印刷版的图像形成面的相反侧的面上,配置启封面。 | ||||||
| 12 | 印刷版材料、印刷版原版、印刷版的制作方法、印刷方法以及印刷版材料的制造方法 | CN200410078595.9 | 2004-09-15 | CN1598692A | 2005-03-23 | 前桥达一 |
| 一种印刷版材料产品,提供有印刷版材料,该印刷版材料包括基底和在该基底上提供的图像形成层;和在该印刷版材料的一部分上装载的无线存储标记和该无线存储标记包括半导体存储器和天线线圈,通过该天线线圈数据被写入该半导体存储器或从该半导体存储器读取该数据。该半导体存储器存储在该印刷版材料产品制造过程时所写入的产品数据。 | ||||||
| 13 | METHOD FOR FORMING COLOR FILTER ARRAY AND METHOD FOR MANUFACTURING ELECTRONIC DEVICE | US15684682 | 2017-08-23 | US20180059538A1 | 2018-03-01 | Mitsuhiro Yomori; Yuto Nozaki; Mariko Furuta; Kiyoto Murakumo |
| A method for forming a color filter array includes the step of forming a first color filter array by forming a first color filter film on a surface of a base member using a coating method and by patterning the first color filter film and the step of forming a second color filter array by forming a second color filter film on the surface so as to cover the first color filter array using a coating method and by patterning the second color filter film. The color filters in the first color filter array are uneven in the width of the clearance between the color filters and/or the widths of the color filters. | ||||||
| 14 | Method of manufacturing substrate and substrate and mask film | US14770979 | 2014-02-26 | US09857687B2 | 2018-01-02 | Kazunori Tsuge; Yoshihito Tanaka; Koji Akiyama; Kiyoshi Tanaka; Kazuyoshi Nishio; Takehiro Kato; Masaru Murakami; Tadayoshi Saito; Hirotoshi Yoshimura; Akira Inoue; Iwao Numakura; Noriaki Tsukada |
| A method of manufacturing a substrate includes applying solder resist ink containing a mixing resin of epoxy-based resin and acrylic-based resin on at least one surface of a substrate body to form a solder resist layer, and irradiating a predetermined portion of the solder resist layer with ultraviolet rays and controlling an amount of irradiation of the ultraviolet rays irradiated to the predetermined of the solder resist layer to form the predetermined portion in transmissivity that transmits light. | ||||||
| 15 | PHOTO-RESISTOR DRAW DEVICES | US14768403 | 2015-07-15 | US20170225137A1 | 2017-08-10 | Jiangjiang SONG |
| A photo-resistor draw device includes a photo-resistor bottle, a sealing cover arranged on an inlet of the bottle, an air tube passing through the sealing cover and being inserted within the photo-resistor bottle, and a photo-resistor draw tube. The photo-resistor bottle further includes a stirring component for stirring the photo-resistors. As the novel photo-resistor draw device includes the stirring component for preventing the high-precision photo-resistor from being subsided. Not only the stability of the color filter products may be enhanced, but also the defects may be eliminated. As such, the yield rate of the products is improved. | ||||||
| 16 | METHOD AND SYSTEM FOR GENERATING IMAGES AND OBJECTS VIA DISPLAY-AS-PRINT | US15201210 | 2016-07-01 | US20170028622A1 | 2017-02-02 | Samuel Westlind; Daniel O'Loughlin; Frank M. Stewart |
| A method for depositing onto a surface building material that is in powder, slurry or liquid form. The building material is comprised at least in part of a photosensitive material. The method involves exposing the building material to a first specific wavelength of radiation to process the building material to form a first object layer, depositing onto the first object layer additional building material in powder, slurry or liquid form, exposing the additional building material that is deposited onto the first object layer to a second specific wavelength of radiation to process the additional building material to form a second object layer, and repeating the deposition and exposure steps to create as many layers as are necessary to complete the object. A computer-implemented system for generating a two-dimensional image comprising a pixel output device, a camera, a sending program and a receiving program. | ||||||
| 17 | Printing form precursor having indicia and a method for preparing a printing form from the precursor | US14016323 | 2013-09-03 | US09477152B2 | 2016-10-25 | Robert Blomquist; Violeta Lungu; Adrian Lungu; Rajgopal Subramanian |
| The present invention relates to a photosensitive printing form precursor and a method for forming a printing form from the precursor. The precursor includes a support and a layer of a photosensitive composition adjacent the support, in which at least one indicia is disposed between the support and the photosensitive layer. The indicia identifies the precursor, is retained throughout a multi-step process to convert the precursor into a printing form and in the end-use of the printing form. | ||||||
| 18 | METHOD OF MANUFACTURING SUBSTRATE AND SUBSTRATE AND MASK FILM | US14770979 | 2014-02-26 | US20160011514A1 | 2016-01-14 | Kazunori TSUGE; Yoshihito TANAKA; Koji AKIYAMA; Kiyoshi TANAKA; Kazuyoshi NISHIO; Takehiro KATO; Masaru MURAKAMI; Tadayoshi SAITO; Hirotoshi YOSHIMURA; Akira INOUE; Iwao NUMAKURA; Noriaki TSUKADA |
| A method of manufacturing a substrate includes applying solder resist ink containing a mixing resin of epoxy-based resin and acrylic-based resin on at least one surface of a substrate body to form a solder resist layer, and irradiating a predetermined portion of the solder resist layer with ultraviolet rays and controlling an amount of irradiation of the ultraviolet rays irradiated to the predetermined of the solder resist layer to form the predetermined portion in transmissivity that transmits light. | ||||||
| 19 | Slip sheet removal | US14283296 | 2014-05-21 | US09227392B2 | 2016-01-05 | Yoel Guttmann; Gordon D. Andrew |
| A method of removing slip sheets from a printing plates stack is disclosed, wherein the slip sheets are interspersed between the printing plates includes moving at least two parallel energy chains. Each of the energy chains carries a plurality of vacuum cups over the stack of printing plates. The vacuum cups are attached to a top slip sheet placed on top of the printing plates stack and peel off sheets while vacuum is maintained and transferring the top slip sheet into a slip sheet bin. | ||||||
| 20 | SLIP SHEET REMOVAL | US14283296 | 2014-05-21 | US20150336378A1 | 2015-11-26 | Yoel Guttmann; Gordon D. Andrew |
| A method of removing slip sheets from a printing plates stack is disclosed, wherein the slip sheets are interspersed between the printing plates includes moving at least two parallel energy chains. Each of the energy chains carries a plurality of vacuum cups over the stack of printing plates. The vacuum cups are attached to a top slip sheet placed on top of the printing plates stack and peel off sheets while vacuum is maintained and transferring the top slip sheet into a slip sheet bin. | ||||||
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