| 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 | 用于基板定位和检测的偏移校正方法和装置 | CN200780036424.1 | 2007-09-14 | CN101523287A | 2009-09-02 | 杰克·陈; 安德鲁·D·贝利三世; 本·穆林; 斯蒂芬·J·凯恩 |
| 本发明提供一种用于捕获基板图像的斜角检测模块。该模块包括与基板夹头连接的旋转马达,该旋转马达被配置为旋转该基板夹头从而使该基板旋转。该模块还包括照相机和与照相机连接的光学罩,该光学罩被配置为可以旋转的,使闪光可以朝向该基板。该照相机装载在照相机支架上,该照相机支架被配置为使该照相机可水平旋转180度,使得该照相机可以捕获图像,该图像至少包括该基板的俯视图,仰视图和侧视图之一。该模块还包括背光装置,该背光装置被配置为提供光照给该基板,从而使该照相机能捕获该图像,该图像显示基板和背景间的对比。 | ||||||
| 2 | 键盘式薄片状活字排字设备 | CN85107757 | 1985-10-17 | CN85107757B | 1987-06-17 | 盛谏 |
| 一种键盘式薄片状活字排字设备。它包括键盘式薄片状活字拣字机,拼版板和所用的那种薄片状活字。当操作者按动拣字机的整字键盘时,联动机构将存贮在键体内部贮字腔中的一叠活字中的一片活字推入输字导管,经导管的引导和传送带的传送,活字最后依按键的先后次序黏在透明胶带纸上形成活字胶带。借助拼版板将活字胶带剪贴为原版。本发明可用于制作照相制版、复印、光电誊印的原版和计算机信息处理(薄片状活字背面印有条形码)。 | ||||||
| 3 | 键盘式薄片状活字排字设备 | CN85107757 | 1985-10-17 | CN85107757A | 1987-04-22 | 盛谏 |
| 一种键盘式薄片状活字排字设备。它包括键盘式薄片状活字拣字机,拼版板和所用的那种薄片状活字。当操作者按动拣字机的整字键盘时,联动机构将存贮在键体内部贮字腔中的一叠活字中的一片活字推入输字导管,经导管的引导和传送带的传送,活字最后依按键的先后次序黏在透明胶带纸上形成活字胶带。借助拼版板将活字胶带剪贴为原版。本发明可用于制作照相制版、复印、光电誊印的原版和计算机信息处理(薄片状活字背面印有条形码)。 | ||||||
| 4 | EXPOSURE MASKS | PCT/GB0004386 | 2000-11-17 | WO0137042A3 | 2002-05-10 | LAU SIMON |
| Printing, marking or etching a surface is achieved using a mask or masks in combination with electromagnetic radiation (such as a laser or the like) or otherwise exposing one or more selected areas of a surface for treatment, utilising transmissive, non-transmissive or modified transmissivity portions of one or more layers of material of the mask. In one embodiment a surface of a first radiation transmissive layer of the mask is partially covered by a second layer of material which is substantially non-transmissive to radiation. An uncovered portion of the transmissive layer is in the shape of an element (such as a character, symbol or shape) to be printed, marked, etched or the like on the surface. | ||||||
| 5 | VERFAHREN ZUR HERSTELLUNG VON RASTERNÄPFCHEN IN EINER TIEFDRUCKFORM UND IN DEM VERFAHREN VERWENDBARER GRUNDKÖRPER | EP01980111.7 | 2001-11-15 | EP1333976B1 | 2006-08-23 | FRAUCHIGER, Jakob |
| The invention relates to the production of a rotogravure form, preferably comprising a rotationally symmetrical base body (1) and with screen cavities (5) as print information, by means of time-modulated, particularly pulsed laser radiation (9), whereby an erosion support layer (13) is applied to the surface regions (8), provided for information engraving on the base body (1), through which the screen cavities (5) are produced in said surface regions (8) with the laser radiation (9), by means of material ablation. Said erosion support layer (13) is subsequently removed to give burr-free screen cavities (5). | ||||||
| 6 | A method for forming plate characters in a half-tone gravure platemaking process | EP90310458.6 | 1990-09-25 | EP0477443A1 | 1992-04-01 | Takakura, Kouichi |
A method for forming plate characters in a half-tone gravure platemaking process wherein the laser beam is moved so that it will be irradiated on a light sensitive material for forming a plate character on the light-sensitive material by exposure. The plate character is made with a frame portion and a filling portion. The frame portion is formed with continuous groove-form cells which have a predetermined length and width and dot-form projections are formed in the groove-form cells for preventing ink flow. The filling portion is formed by dot-form cells which have a shadow-portion dot percentage. |
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| 7 | ENERGIZABLE DESIGN IMAGE APPARATUS | PCT/US2006023702 | 2006-06-19 | WO2007021362A3 | 2009-04-23 | JONNALAGADDA KRISHNA D; GAMOTA DANIEL R; GYORFI JULIUS S; KALYANASUNDARAM KRISHNA; MOK SWEE M; TOLOO MANSOUR; COLLINS TIMOTHY J; ZHANG JIE; KLOSOWIAK TOMASZ L |
| An energizable design image portion (203) of a provided design pattern is printed on a provided substrate (201) using a functional ink comprised of at least one energy emissive material. A passive design image portion (202) of that design pattern is then also printed on that substrate using at least one graphic arts ink. In a preferred embodiment this apparatus may further comprise electrically conductive electrodes (204) on the substrate to permit selective energization of the energy emissive material to thereby induce illumination of the energizable design image portion of the design pattern. | ||||||
| 8 | OFFSET CORRECTION METHODS AND ARRANGEMENT FOR POSITIONING AND INSPECTING SUBSTRATES | PCT/US2007078578 | 2007-09-14 | WO2008042581A3 | 2008-10-09 | CHEN JACK; BAILEY ANDREW D III; MOORING BEN; CAIN STEPHEN J |
| A bevel inspection module for capturing images of a substrate is provided. The module includes a rotational motor, which is attached to a substrate chuck and is configured to rotate the substrate chuck thereby allowing the substrate to revolve. The module further includes a camera and an optic enclosure, which is attached to the camera and is configured to rotate, enabling light to be directed toward the substrate. The camera is mounted from a camera mount, which is configured to enable the camera to rotate on a 180 degree plane allowing the camera to capture images of at least one of a top view, a bottom view, and a side view of the substrate. The module yet also includes a backlight arrangement, which is configured to provide illumination to the substrate, thereby enabling the camera to capture the images, which shows contrast between the substrate and a background. | ||||||
| 9 | VERFAHREN ZUR HERSTELLUNG VON RASTERNÄPFCHEN IN EINER TIEFDRUCKFORM UND IN DEM VERFAHREN VERWENDBARER GRUNDKÖRPER | EP01980111.7 | 2001-11-15 | EP1333976A1 | 2003-08-13 | FRAUCHIGER, Jakob |
| The invention relates to the production of a rotogravure form, preferably comprising a rotationally symmetrical base body (1) and with screen cavities (5) as print information, by means of time-modulated, particularly pulsed laser radiation (9), whereby an erosion support layer (13) is applied to the surface regions (8), provided for information engraving on the base body (1), through which the screen cavities (5) are produced in said surface regions (8) with the laser radiation (9), by means of material ablation. Said erosion support layer (13) is subsequently removed to give burr-free screen cavities (5). | ||||||
| 10 | A method for forming plate characters in a half-tone gravure platemaking process | EP90310458.6 | 1990-09-25 | EP0477443B1 | 1998-04-08 | Takakura, Kouichi |
| 11 | A method for forming plate characters in a half-tone gravure platemaking process | EP90310456.0 | 1990-09-25 | EP0477441B1 | 1998-04-08 | Takakura, Kouichi |
| 12 | EXPOSURE MASKS | EP00976171.9 | 2000-11-17 | EP1234215A2 | 2002-08-28 | LAU, Simon |
| Printing, marking or etching a surface is achieved using a mask or masks in combination with electromagnetic radiation (such as a laser or the like) or otherwise exposing one or more selected areas of a surface for treatment, utilising transmissive, non-transmissive or modified transmissivity portions of one or more layers of material of the mask. In one embodiment a surface of a first radiation transmissive layer of the mask is partially covered by a second layer of material which is substantially non-transmissive to radiation. An uncovered portion of the transmissive layer is in the shape of an element (such as a character, symbol or shape) to be printed, marked, etched or the like on the surface. | ||||||
| 13 | A method for forming plate characters in a half-tone gravure platemaking process | EP90310457.8 | 1990-09-25 | EP0477442A1 | 1992-04-01 | Takakura, Kouichi |
5n7 A method for forming plate characters in a half-tone gravure platemaking process in which a laser beam intermittently irradiates a photosensitive material, thus forming plate characters therein as a result of exposure by the laser beam. The outlie portion of each character is made up of continuous groove-form cells and inner portion of the character (the filled portion) is made up of independent dot- form cells corresponding to the dot percentage of a shadow portion or with island-form projections to the extent that ink flow (running) does not occur when the cells are filled with ink as a result of the plate surface being wiped by a doctor blade. The outline portion of each character is made up of groove-form cells having a narrow width without causing ink flow (running) when the cells are filled with ink as a result of the plate surface being wiped by a doctor blade. |
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| 14 | A method for forming plate characters in a half-tone gravure platemaking process | EP90310456.0 | 1990-09-25 | EP0477441A1 | 1992-04-01 | Takakura, Kouichi |
A method for forming plate characters in a half-tone gravure platemaking process being characterized in that a laser beam moved so that the laser beam is intermittently irradiated onto a light sensitive material and a plate character is formed on the light-sensitive material by exposure. The character thus formed is made up with a character frame portion and a character fill portion surrounded by the character frame portion, the character frame portion being formed by a plurality of intermittently arranged groove-form cells each having a predetermined length and a width which can prevent flow of ink when ink is applied by wiping the plate surface with a doctor, and the character fill portion being formed by dot-form cells which have a shadow-portion dot percentage. |
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| 15 | 기판을 포지셔닝 및 검사하기 위한 오프셋 정정 방법 및 장치 | KR1020097007283 | 2007-09-14 | KR1020090057426A | 2009-06-05 | 첸잭; 베일리앤드류디3세; 무링벤; 카인스티븐제이 |
| A bevel inspection module for capturing images of a substrate is provided. The module includes a rotational motor, which is attached to a substrate chuck and is configured to rotate the substrate chuck thereby allowing the substrate to revolve. The module further includes a camera and an optic enclosure, which is attached to the camera and is configured to rotate, enabling light to be directed toward the substrate. The camera is mounted from a camera mount, which is configured to enable the camera to rotate on a 180 degree plane allowing the camera to capture images of at least one of a top view, a bottom view, and a side view of the substrate. The module yet also includes a backlight arrangement, which is configured to provide illumination to the substrate, thereby enabling the camera to capture the images, which shows contrast between the substrate and a background. | ||||||
| 16 | 사진식자기의 모니터 표시장치 | KR1019830003089 | 1983-07-06 | KR100016580B1 | 1984-03-14 | 후세시게루-1 |
| 17 | OFFSET CORRECTION METHODS AND ARRANGEMENT FOR POSITIONING AND INSPECTING SUBSTRATES | PCT/US2007078578 | 2007-09-14 | WO2008042581B1 | 2008-12-11 | CHEN JACK; BAILEY ANDREW D III; MOORING BEN; CAIN STEPHEN J |
| A bevel inspection module for capturing images of a substrate is provided. The module includes a rotational motor, which is attached to a substrate chuck and is configured to rotate the substrate chuck thereby allowing the substrate to revolve. The module further includes a camera and an optic enclosure, which is attached to the camera and is configured to rotate, enabling light to be directed toward the substrate. The camera is mounted from a camera mount, which is configured to enable the camera to rotate on a 180 degree plane allowing the camera to capture images of at least one of a top view, a bottom view, and a side view of the substrate. The module yet also includes a backlight arrangement, which is configured to provide illumination to the substrate, thereby enabling the camera to capture the images, which shows contrast between the substrate and a background. | ||||||
| 18 | CONVEX PRINTING TABLE | PCT/US2002/026257 | 2002-08-19 | WO2003018313A3 | 2003-03-06 | LIBERMAN, Boris |
The present invention is a convex printing table for use with wide-format and super wide-format digital printers, which print on flexible substrate (6) up to 5 meters in width. The convex profile of the table creates contact force (30) between the flexible substrate and the support surface(4). This contact force lessens the formation of wrinkles in the flexible substrate (6) during the printing process, which permits the print heads to be positioned closer to the flexible substrate (6) than with the flat tables currently in use. The size and number of wrinkles and the distance of the print heads from the flexible substrate (6) impact the overall quality of the finished product. The convex printing table also provides a plurality of flat printable regions, enabling use with a four-color digital printer. The print heads are deployed so as to allow all four print heads to apply printing medium simultaneously and during passes across the flexible substrate (6) in either direction, which increases the quality of the color of the finished product. |
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| 19 | METHOD FOR THE PRODUCTION OF SCREEN CAVITIES IN A ROTOGRAVURE FORM AND BASE BODY APPLICABLE IN SAID METHOD | PCT/CH2001/000668 | 2001-11-15 | WO02040272A1 | 2002-05-23 | |
| The invention relates to the production of a rotogravure form, preferably comprising a rotationally symmetrical base body (1) and with screen cavities (5) as print information, by means of time-modulated, particularly pulsed laser radiation (9), whereby an erosion support layer (13) is applied to the surface regions (8), provided for information engraving on the base body (1), through which the screen cavities (5) are produced in said surface regions (8) with the laser radiation (9), by means of material ablation. Said erosion support layer (13) is subsequently removed to give burr-free screen cavities (5). | ||||||
| 20 | 스크린 프린터 | KR1020140107760 | 2014-08-19 | KR101926496B1 | 2018-12-07 | 정광민; 편승현 |
