| 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 | 图像形成设备 | CN201510096554.0 | 2015-03-04 | CN105301922A | 2016-02-03 | 古坚浩子; 后藤康孝; 久保田夕纪; 小林卓也; 田中智; 佐藤纪文; 冈田圭一; 内山淳一 |
| 一种图像形成设备包括:图像形成装置,其使用粉状材料在记录介质上形成图像,所述图像被调整尺寸以延伸超出所述记录介质的边缘;收集装置,其收集由于所述图像形成装置形成所述图像而导致的延伸出所述记录介质的所述材料;以及限制单元,其按以下的方式控制所述图像形成装置:与所述图像的靠近所述记录介质的一侧相比,在所述图像的外侧,所述图像形成装置更大程度地减小在所述图像的延伸出所述记录介质的区域中的所述材料的使用量。 | ||||||
| 2 | 用于产生磁感应视觉效果的设备、系统和方法 | CN201180045791.4 | 2011-09-23 | CN103119521B | 2015-09-23 | P·德戈特; C-A·德斯普兰; M·施米德 |
| 本发明涉及用于产生磁感应视觉效果的设备、系统和方法。本发明涉及一种用于在含有可定向磁颗粒的尤其作为安全和装饰性特征的涂层内产生视觉效果的设备、系统和方法。所述设备包括印刷单元、定向装置、基板引导系统和光固化单元。将印刷单元布置为采用涂层成分在基板的第一面上印刷图像。所述定向装置包括用于对印刷图像中的涂层成分中的磁颗粒定向的磁场生成元件。将所述基板引导系统布置为使所述基板与所述定向装置发生并保持接触。在使基板仍然与所述定向装置接触的同时,光固化单元照射在所述基板上印刷的图像,从而使所述图像的涂层成分至少部分固化。将所述光固化单元配置为限制其发射的热辐射能,从而避免将所述定向装置加热到超过100°C的平均温度T1。 | ||||||
| 3 | 掩膜图形转印装置和制备掩膜图形的方法 | CN201010156361.7 | 2010-04-21 | CN102233743B | 2013-11-13 | 周伟峰; 郭建; 明星 |
| 本发明公开了一种掩膜图形转印装置和制备掩膜图形的方法。掩膜图形转印装置包括:内轮,相对于内轮的轮轴固定,所述内轮与基板在水平面上相对运动;磁化磁头,设置于内轮上与基板距离最短的内轮底部,用于磁化镀完结构层膜层的基板上对应无需掩膜保护的区域的复合粉末;非铁磁性材料形成的外轮,用于绕内轮转动,吸附经过磁化磁头磁化后的复合粉末;去磁化磁头,设置于朝向基板转动的外轮对应的内轮的边缘部,用于对外轮吸附的磁化后的复合粉末进行去磁化操作;收集斗,其外边缘与朝向基板转动的外轮一侧相切,且设置于去磁化磁头的下方,用于收集去磁化后的复合粉末。本发明能够提高LCD的制作效率和液晶面板的质量,降低LCD的生产成本。 | ||||||
| 4 | 用于在衬底上形成图像的系统和方法 | CN201110445496.X | 2011-12-27 | CN102555434B | 2016-08-24 | 凡拉帝米尔·P.·瑞克沙; 柯蒂斯·R.·鲁斯卡; 尼尔·泰特鲍姆 |
| 本发明涉及用于在衬底上形成图像的系统和方法。扫描激光器具有与涂层粘合剂相容的波长,以便当激光器扫描并照射移动网上的涂层时固化粘合剂。用于通过提供扫描穿过磁场中的移动的涂覆衬底的扫描激光器来固化薄片的系统和方法,允许当磁性排列的薄片固化到固定的位置上时形成图像。图像具有固化排列的薄片的区域。扫描激光器固化它照射的区域内的磁性排列薄片。可选地,可使用激光器的阵列,其中单独的激光器可被接通或断开,以当移动网以高速移动时固定所照射的涂层。 | ||||||
| 5 | 用于产生磁感应视觉效果的设备、系统和方法 | CN201180045791.4 | 2011-09-23 | CN103119521A | 2013-05-22 | P·德戈特; C-A·德斯普兰; M·施米德 |
| 本发明涉及用于产生磁感应视觉效果的设备、系统和方法。本发明涉及一种用于在含有可定向磁颗粒的尤其作为安全和装饰性特征的涂层内产生视觉效果的设备、系统和方法。所述设备包括印刷单元、定向装置、基板引导系统和光固化单元。将印刷单元布置为采用涂层成分在基板的第一面上印刷图像。所述定向装置包括用于对印刷图像中的涂层成分中的磁颗粒定向的磁场生成元件。将所述基板引导系统布置为使所述基板与所述定向装置发生并保持接触。在使基板仍然与所述定向装置接触的同时,光固化单元照射在所述基板上印刷的图像,从而使所述图像的涂层成分至少部分固化。将所述光固化单元配置为限制其发射的热辐射能,从而避免将所述定向装置加热到超过100°C的平均温度T1。 | ||||||
| 6 | 用于在衬底上形成图像的系统和方法 | CN201110445496.X | 2011-12-27 | CN102555434A | 2012-07-11 | 凡拉帝米尔·P.·瑞克沙; 柯蒂斯·R.·鲁斯卡; 尼尔·泰特鲍姆 |
| 本发明涉及用于在衬底上形成图像的系统和方法。扫描激光器具有与涂层粘合剂相容的波长,以便当激光器扫描并照射移动网上的涂层时固化粘合剂。用于通过提供扫描穿过磁场中的移动的涂覆衬底的扫描激光器来固化薄片的系统和方法,允许当磁性排列的薄片固化到固定的位置上时形成图像。图像具有固化排列的薄片的区域。扫描激光器固化它照射的区域内的磁性排列薄片。可选地,可使用激光器的阵列,其中单独的激光器可被接通或断开,以当移动网以高速移动时固定所照射的涂层。 | ||||||
| 7 | 掩膜图形转印装置和制备掩膜图形的方法 | CN201010156361.7 | 2010-04-21 | CN102233743A | 2011-11-09 | 周伟峰; 郭建; 明星 |
| 本发明公开了一种掩膜图形转印装置和制备掩膜图形的方法。掩膜图形转印装置包括:内轮,相对于内轮的轮轴固定,所述内轮与基板在水平面上相对运动;磁化磁头,设置于内轮上与基板距离最短的内轮底部,用于磁化镀完结构层膜层的基板上对应无需掩膜保护的区域的复合粉末;非铁磁性材料形成的外轮,用于绕内轮转动,吸附经过磁化磁头磁化后的复合粉末;去磁化磁头,设置于朝向基板转动的外轮对应的内轮的边缘部,用于对外轮吸附的磁化后的复合粉末进行去磁化操作;收集斗,其外边缘与朝向基板转动的外轮一侧相切,且设置于去磁化磁头的下方,用于收集去磁化后的复合粉末。本发明能够提高LCD的制作效率和液晶面板的质量,降低LCD的生产成本。 | ||||||
| 8 | 含有类晶体过渡金属材料的组合物及其应用方法 | CN97193257.3 | 1997-03-25 | CN1214791A | 1999-04-21 | 菲利浦·帕塔拉诺 |
| 本发明涉及的应用包括但不限于:(1)轻质铁磁应用、计算机和数据存储技术;(2)记录技术;(3)照相复制设备;(4)光开关;(5)磁模拟膜和(6)电子设备与传感器。 | ||||||
| 9 | 자기적으로 유도된 시각 효과를 생성하는 장치, 시스템 및 방법 | KR1020137008076 | 2011-09-23 | KR101809303B1 | 2017-12-14 | 데고트피에르; 데스프란드크라우데알라인; 슈미드마티유 |
| 본발명은코팅내에서자기적으로유도된시각효과, 특히배향가능한자성입자들을포함하는보안또는장식적인특징들을생성하는장치, 시스템및 방법에관한것이다. 장치는인쇄유닛, 배향수단, 기판안내시스템, 및광경화유닛을포함한다. 인쇄유닛은코팅조성물로기판의제1면에영상을인쇄하도록배열된다. 배향수단은인쇄된영상의코팅조성물내의자성입자들을배향하기위한자계발생요소를포함한다. 기판안내시스템은기판을배향수단과접촉하게하고그 접촉을유지하도록배열된다. 광경화유닛은, 기판이여전히배향수단과접촉하고있는동안에, 영상의코팅조성물을적어도부분적으로경화시키기위해기판에인쇄된영상을조사한다. 광경화유닛은그의열 방사에너지의방출이배향수단을 100℃를초과하는평균온도(T1)까지가열하지않도록제한되도록구성된다. | ||||||
| 10 | 자기적으로 유도된 시각 효과를 생성하는 장치, 시스템 및 방법 | KR1020137008076 | 2011-09-23 | KR1020140004068A | 2014-01-10 | 데고트피에르; 데스프란드크라우데알라인; 슈미드마티유 |
| 본 발명은 코팅 내에서 자기적으로 유도된 시각 효과, 특히 배향 가능한 자성 입자들을 포함하는 보안 또는 장식적인 특징들을 생성하는 장치, 시스템 및 방법에 관한 것이다. 장치는 인쇄 유닛, 배향 수단, 기판 안내 시스템, 및 광경화 유닛을 포함한다. 인쇄 유닛은 코팅 조성물로 기판의 제1면에 영상을 인쇄하도록 배열된다. 배향 수단은 인쇄된 영상의 코팅 조성물 내의 자성 입자들을 배향하기 위한 자계 발생 요소를 포함한다. 기판 안내 시스템은 기판을 배향 수단과 접촉하게 하고 그 접촉을 유지하도록 배열된다. 광경화 유닛은, 기판이 여전히 배향 수단과 접촉하고 있는 동안에, 영상의 코팅 조성물을 적어도 부분적으로 경화시키기 위해 기판에 인쇄된 영상을 조사한다. 광경화 유닛은 그의 열 방사 에너지의 방출이 배향 수단을 100℃를 초과하는 평균 온도(T1)까지 가열하지 않도록 제한되도록 구성된다.
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| 11 | 결정성 전이 금속 재료를 포함하는 조성물 및 이를 이용하는 방법 | KR1019980707613 | 1997-03-25 | KR1020000005000A | 2000-01-25 | 파탈라노필립 |
| PURPOSE: A compositions comprising crystalline-like transition metal material and methods of use thereof is provided to have a crystalline-like structure comprise transition metals that exhibit unique electronic properties. CONSTITUTION: A magnetic medium includes a plurality of magnetically polarized local domains and photomagnetic material adjacent to the magnetically polarized local domains. The photomagnetic material increases the strength of a magnetic field at a particular magnetically polarized local domain when the photomagnetic material receives light at a location adjacent to the particular local domain. Information is recorded at a particular location on the magnetic medium by placing the magnetic medium in an applied magnetic field less than the critical magnetic field required to change the polarization of the local magnetic domains. Information is recorded by applying light to the particular location of the magnetic medium to induce magnetization of the photomagnetic material at the particular location. | ||||||
| 12 | 광 기록 장치 및 광 재생 장치 | KR1019930028816 | 1993-12-21 | KR100205840B1 | 1999-07-01 | 후지히로시 |
| 광 기록 장치는 이동하는 광 자기 디스크(10)에 광 빔 d를 조사하여 조사 개시 위치에서 광 스폿트를 형성하고, 이 광 스폿트의 위치를 온도 상승시킴으로써, 광 자기 디스크(10)에 기록 데이타에 대응하는 기록 마크를 형성하는 것이다. 광 기록 장치는 광 스폿트를 광 자기 디스크(10)의 이동 방향 및 이동 속도에 추종시켜 조사 개시 위치로부터 이동시키는 일방향 주사를 기록 데이타 또는 기록 클럭에 동기시켜 반복하여 행하는 다각형 미러(8)이나 홀로그램 디스크 및 복수의 반도체 레이저를 구비한 광 빔 편향부(2a)를 갖고 있다. | ||||||
| 13 | VORRICHTUNG ZUM MAGNETISCHEN DRUCKEN, HERSTELLUNGSVERFAHREN UND VERWENDUNG | EP18175255.1 | 2018-05-30 | EP3409379A1 | 2018-12-05 | HEINATZ, Frank; UHLIG, Torsten |
Die Erfindung betrifft ein magnetisches Drucken. Hierzu wird eine Druckvorrichtung (10) vorgesehen, die eine Druckoberfläche (11) mit einem ersten Bereich und einem zweiten Bereich aufweist, wobei der erste Bereich und der zweite Bereich zumindest teilweise aneinander angrenzen und mindestens eine Grenzlinie (28) bilden. Ferner ist der erste Bereich ein erster magnetischer Bereich (24) und Teil eines ersten magnetischen Volumens (20). Hierbei weist das magnetische Volumen (20) einen ersten magnetischen Pol (21) und einen zweiten magnetischen Pol (22) auf, wobei der erste magnetische Pol (21) der Druckoberfläche (11) zugewandt ist und der zweite magnetische Pol (22) der Druckoberfläche (11) abgewandt ist. Ferner ist mit der Grenzlinie (28) eine Kontur (32) auf einem zu bedruckenden Substrat (31) hervorrufbar, wobei die Druckvorrichtung (10) eine Dicke von weniger als einem Millimeter aufweist, wobei die Druckvorrichtung (10) biegsam ist und wobei die Druckoberfläche (11) kompressibel ist.
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| 14 | System and method for forming an image on a substrate | EP11195029.1 | 2011-12-21 | EP2468423A1 | 2012-06-27 | Raksha, Vladimir P.; Hruska, Curtis R.; Teitelbaum, Neil |
A scanning laser having a wavelength compatible with a coating binder so as to cure it as the laser scans and irradiates the coating on a moving web. A system and method for curing flakes by providing a scanning laser which scans across a moving coated substrate in a magnetic field allows images to be formed as magnetically aligned flakes are cured into a fixed position. The images have regions of cured aligned flakes. The scanning laser cures the magnetically aligned flakes within it region it irradiates. Alternatively an array of lasers can be used wherein individual lasers can be switched on and off to fix irradiated coating as a moving web is moved at a high speed.
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| 15 | Optical recording device and optical reproduction device | EP93120644.5 | 1993-12-21 | EP0603842B1 | 1999-03-03 | Fuji, Hiroshi |
| 16 | Magnetic recording apparatus and magnetic recording medium with a film to be vertically magnetized sandwiched with soft magnetic films | EP92105936.6 | 1992-04-06 | EP0509361B1 | 1997-07-02 | Yamane, Haruki, c/o Oki Electric; Maeno, Yoshinori, c/o Oki Electric; Sato, Kayoko, c/o Oki Electric; Kobayashi, Masanobu, c/o Oki Electric |
| 17 | Compliant support with mutually adhered web for transfer of information | EP92420410.0 | 1992-11-12 | EP0542651B1 | 1997-01-29 | Palone, Thomas W. c/o Eastman Kodak Company |
| 18 | BISTABLE MAGNETO-OPTIC SINGLE CRYSTAL FILMS AND METHOD OF PRODUCING SAME UTILIZING CONTROLLED DEFECT INTRODUCTION. | EP92923081 | 1992-11-04 | EP0613418A4 | 1995-01-11 | BELT ROGER F; INGS JOHN B |
| A bistable single crystal magneto-optic film of preselected coercivity is described. The film is readily switchable and is characterized by a substantially square shaped hysteresis loop. The film properties are attributed to controlled introduction in the film of defects of predetermined size and distribution. Defects of from about 0.4 mu m to about 4.0 mu m present in numbers per cm2 of from about 10 to about 106, with optimal distribution falling in the range of from about 100 to about 1000, are described. Also described are methods of achieving the required defect size and distribution utilizing procedures such as ion bombardment, particle abrasion/deposition, laser ablation or annealing of the film or substrate upon which the film is supported. Devices in which the films can be used to advantage, such as flaw detecting, imaging and microwave processing, are described. | ||||||
| 19 | Media exposure system | EP94301980.2 | 1994-03-18 | EP0618514A1 | 1994-10-05 | David, Ilan Ben |
A method of exposing media and a system for performing the method are disclosed. The system includes an imaging assembly (12) and a light source (16). The imaging assembly (12) creates a physical image on a reflective imaging surface (22). The light source (16) illuminates the imaging surface and reflects the image towards a medium (18) to be exposed. In one embodiment the imaging assembly is a magnetic imaging assembly and the reflective surface (22) is magnetic. In another embodiment, the imaging assembly includes the following: a surface having a photoconductive layer, an electrostatic charger which charges the photoconductive layer, a laser writing system for locally discharging the photoconductive layer, a developer system for providing toner particles to charged portions of the photoconductive layer and a magnet for maintaining the toner particles on the surface while the light source illuminates the toner particles. |
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| 20 | BISTABLE MAGNETO-OPTIC SINGLE CRYSTAL FILMS AND METHOD OF PRODUCING SAME UTILIZING CONTROLLED DEFECT INTRODUCTION | EP92923081.0 | 1992-11-04 | EP0613418A1 | 1994-09-07 | BELT, Roger, F.; INGS, John, B. |
| A bistable single crystal magneto-optic film of preselected coercivity is described. The film is readily switchable and is characterized by a substantially square shaped hysteresis loop. The film properties are attributed to controlled introduction in the film of defects of predetermined size and distribution. Defects of from about 0.4 mu m to about 4.0 mu m present in numbers per cm2 of from about 10 to about 106, with optimal distribution falling in the range of from about 100 to about 1000, are described. Also described are methods of achieving the required defect size and distribution utilizing procedures such as ion bombardment, particle abrasion/deposition, laser ablation or annealing of the film or substrate upon which the film is supported. Devices in which the films can be used to advantage, such as flaw detecting, imaging and microwave processing, are described. | ||||||
