| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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| 181 | Packaged body of lithographic printing plate precursors | EP06001601.1 | 2006-01-26 | EP1685957B1 | 2013-12-11 | Mitsumoto, Tomoyoshi; Oshima, Yasuhito |
| 182 | Plate cutting apparatus | EP10382251.6 | 2010-09-20 | EP2302455B1 | 2012-05-09 | Moliner Verdaguer, Mª Teresa |
| 183 | PLATE PALLET ALIGNMENT SYSTEM | EP09718893.2 | 2009-02-12 | EP2255249B1 | 2012-05-09 | KOROLIK, Pavel; BERES, Moshe; OLPAK, Tamir; REGEV, Shay; SILVERMAN, Mark |
| A plate pallet alignment and loading apparatus (10) for originally packed plate pallet (13) into a printing plate imaging device (71) includes plate pallet adaptor (11) wherein the originally packed plate pallet (13) is placed on top; plate pallet position detectors (15, 21, 31) attach to the plate pallet adaptor (11); a pallet alignment and loading apparatus (10) loads the plates from the originally packed plate pallet (13) into the printing plate imaging device; interleaf removal system (16) separates separation paper sheets placed between the plates; and plate pallet position correction actuators (43, 44, 45) corrects the plate pallet position in respect to the plate loading system (14) in response to pallet position results read from the plate pallet position detectors. | ||||||
| 184 | Plate cutting apparatus | EP10382251.6 | 2010-09-20 | EP2302455A1 | 2011-03-30 | Moliner Verdaguer, Mª Teresa |
This plate cutting apparatus, which is for cutting photopolymer plates (2), belongs to the type of cutting devices for sheet-like articles which, working according to the scissors principle, are provided with a stationary, horizontal rectilinear blade (5) acting as a counter blade for a moving disc blade (3), both being contained in one same vertical plane which is perpendicular to the flat surface of the sheet to be cut. The apparatus is formed by the association of a moving cutting member (3) having a disc blade (4), which may slide along a rail (18) and a stationary rectilinear counter blade member (5), which is parallel to said rail (18), which are permanently disposed with partial successive mutual surfaces in sliding contact, which surfaces are contained in a common plane (6) sloping at an acute angle relative to the plane of the support surface (7) for the plate sheet (2) to be cut at the ends thereof, determining the value of the resulting dihedral angle of the single bevel cut (8) made at the ends of the plate sheet (2) by the relative movement of both members.
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| 185 | PLATE PALLET ALIGNMENT SYSTEM | EP09718893.2 | 2009-02-12 | EP2255249A1 | 2010-12-01 | KOROLIK, Pavel; BERES, Moshe; OLPAK, Tamir; REGEV, Shay; SILVERMAN, Mark |
| A plate pallet alignment and loading apparatus (10) for originally packed plate pallet (13) into a printing plate imaging device (71) includes plate pallet adaptor (11) wherein the originally packed plate pallet (13) is placed on top; plate pallet position detectors (15, 21, 31) attach to the plate pallet adaptor (11); a pallet alignment and loading apparatus (10) loads the plates from the originally packed plate pallet (13) into the printing plate imaging device; interleaf removal system (16) separates separation paper sheets placed between the plates; and plate pallet position correction actuators (43, 44, 45) corrects the plate pallet position in respect to the plate loading system (14) in response to pallet position results read from the plate pallet position detectors. | ||||||
| 186 | Manufacturing method of printing plate using free-seal, free-quantity liquid photopolymer sachet and apparatus using the same | EP08254187.1 | 2008-12-30 | EP2124103A2 | 2009-11-25 | Hilson, Huang |
This invention is related to a manufacturing method of a printing plate by using a free-seal, free-quantity liquid photopolymer sachet and an apparatus thereof. Using this technology, the liquid photopolymer sachet is no longer to be limited by quantity with 3 dimensions - width, length and thickness. It is now very free, easy and convenient to use liquid photopolymer resin in a bag to make a printing plate at any width and length with any thickness you want.
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| 187 | Image forming methods, pattern forming methods, pattern forming material and planographic printing plate | EP04009407.0 | 2004-04-21 | EP1475230A3 | 2009-03-25 | Kano, Takeyoshi; Kawamura, Koichi |
The invention provides a pattern forming method including providing a polymerization initiation layer which is obtained by fixing, by a cross-linking reaction, a polymer having functional groups having polymerization initiation ability and cross-linking groups at side chains, on a support, and forming a pattern including a preparation zone and a non-preparation zone of a graft polymer by preparing the graft polymer on the surface of the polymerization initiation layer using graft polymerization, by contacting a compound having a polymerizable group on the polymerization initiation layer and supplying energy imagewise; an image forming method which applies the pattern forming method; a pattern forming material; and a planographic printing plate. A fine particle adsorption pattern forming method and a conductive pattern forming method are also provided. |
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| 188 | Lithographic printing plate precursor and lithographic printing method | EP07005150.3 | 2006-01-26 | EP1798031A2 | 2007-06-20 | Mitsumoto, Tomoyoshi; Oshima, Yasuhito |
(1) A packaged body of lithographic printing plate precursors, wherein an image-recording layer or a protective layer of the outermost surface layer contains an inorganic layered compound. |
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| 189 | INK RECEPTOR SHEET AND ITS PROCESS OF USE | EP01932883.0 | 2001-05-02 | EP1282523B1 | 2006-10-18 | SONDERGELD, Manfred; STRUEWE, Volker |
| The present invention is directed to an ink receptor sheet for ink jet printing, an ink jet printing system comprising such an ink receptor sheet and a transfer element, a process for preparing an image on a permanent support by ink jet printing, and an imaged article made by such a process. By incorporation of a photopolymerizable layer into an ink receptor sheet, the handling latitude during lamination and peeling steps of ink jet printing processes was enhanced and/or more durable and resistant images made by such ink jet printing processes were provided. | ||||||
| 190 | Lithographic printing plate precursor, lithographic printing method and packaged body of lithographic printing plate precursors | EP06001601.1 | 2006-01-26 | EP1685957A3 | 2006-08-16 | Mitsumoto, Tomoyoshi; Oshima, Yasuhito |
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| 191 | Lithographic printing plate precursor, lithographic printing method and packaged body of lithographic printing plate precursors | EP06001601.1 | 2006-01-26 | EP1685957A2 | 2006-08-02 | Mitsumoto, Tomoyoshi; Oshima, Yasuhito |
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| 192 | Plate-making system of light-sensitive lithographic printing plate and plate-making method | EP03008771.2 | 2003-04-22 | EP1356927A3 | 2004-09-22 | Higashi, Tatsuji |
A plate-making system, in which a light-sensitive lithographic printing plate carrying an interleaf paper superimposed thereon and/or an original plate for making a dummy plate carrying an interleaf paper superimposed thereon are processed in a plate-setter provided with an automatic interleaf paper-removing mechanism and an automatic developing machine, is characterized in that it comprises a means for detecting the presence of any interleaf paper on the lithographic printing plate and/or the original plate or a means for discriminating the interleaf paper, the light-sensitive lithographic printing plate and the original plate. A plate-making method of the invention is characterized by irradiating the interleaf paper, the lithographic printing plate and the original plate for making a dummy plate with sensor light rays after they are passed through the automatic interleaf paper-removing mechanism and determining the intensity of the light to thus detect any interleaf paper possibly present on the plates or discriminate the interleaf paper, the light-sensitive lithographic printing plate and the original plate for making a dummy plate from one another. The plate-making method permits the reliable detection of the presence of interleaf papers on light-sensitive lithographic printing plates and/or original plates for dummy plates and the plate-making operations can thus stably be carried out using a plate-setter and an automatic developing machine. |
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| 193 | SEMICONDUCTOR PACKAGE AND METHOD OF PREPARING SAME | EP02717346.7 | 2002-01-17 | EP1362364A2 | 2003-11-19 | BECKER, Gregory; GARDNER, Geoffrey; HARKNESS, Brian; MALENFANT, Louise; SARMAH, Satyendra |
| A semiconductor package comprising a wafer having an active surface comprising at least one integrated circuit, wherein each integrated circuit has a plurality of bond pads; and a cured silicone layer covering the active surface of the wafer, provided at least a portion of each bond pad is not covered with the silicone layer and wherein the silicone layer is prepared by the method of the invention. | ||||||
| 194 | Plate-making system of light-sensitive lithographic printing plate and plate-making method | EP03008771.2 | 2003-04-22 | EP1356927A2 | 2003-10-29 | Higashi, Tatsuji |
A plate-making system, in which a light-sensitive lithographic printing plate carrying an interleaf paper superimposed thereon and/or an original plate for making a dummy plate carrying an interleaf paper superimposed thereon are processed in a plate-setter provided with an automatic interleaf paper-removing mechanism and an automatic developing machine, is characterized in that it comprises a means for detecting the presence of any interleaf paper on the lithographic printing plate and/or the original plate or a means for discriminating the interleaf paper, the light-sensitive lithographic printing plate and the original plate. A plate-making method of the invention is characterized by irradiating the interleaf paper, the lithographic printing plate and the original plate for making a dummy plate with sensor light rays after they are passed through the automatic interleaf paper-removing mechanism and determining the intensity of the light to thus detect any interleaf paper possibly present on the plates or discriminate the interleaf paper, the light-sensitive lithographic printing plate and the original plate for making a dummy plate from one another. The plate-making method permits the reliable detection of the presence of interleaf papers on light-sensitive lithographic printing plates and/or original plates for dummy plates and the plate-making operations can thus stably be carried out using a plate-setter and an automatic developing machine. |
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| 195 | Actinic radiation-reactive pressure-sensitive adhesive composition | EP91300202.8 | 1991-01-11 | EP0439258B1 | 1995-05-03 | Ohkawa, Kazuo; Saito, Seiichi |
| An actinic radiation-reactive pressure-sensitive adhesive composition can be cured in air at a high speed, without irritation and bad smell, and comprises 1/ &cir& a pressure-sensitive adhesive organic compound, and 2/ &cir& an actinic radiation-curable resin comprising (1) one or more polythiol compounds and (2) one or more polyene compounds each having at least two actinic radiation-reactive carbon-to-carbon double bonds in the molecule. e | ||||||
| 196 | VERFAHREN ZUM VERKLEBEN ZWEIER FLACHER TEILE MIT PHOTORESISTFOLIE | EP88904915.1 | 1988-06-10 | EP0371972B1 | 1992-08-26 | TRAUSCH, Günter, Elmar |
| A photoresist film (4) is used to bond two flat parts. To obtain a bond between two flat parts (for example, the ink duct plate and cover glass in a bubble jet printer) which withstands lengthy exposure to high-frequency printing pulses, is ink-resistant, and does not alter the ink duct cross-section during bonding, the two parts are bonded with an intermediate layer consisting of a photoresist film (4). Preferably durable resist films such as known welding photoresists are used. The invention concerns bonds between the ink duct plate and the covering glass in bubble jet printers. | ||||||
| 197 | Actinic radiation-reactive pressure-sensitive adhesive composition | EP91300202.8 | 1991-01-11 | EP0439258A2 | 1991-07-31 | Ohkawa, Kazuo; Saito, Seiichi |
An actinic radiation-reactive pressure-sensitive adhesive composition can be cured in air at a high speed, without irritation and bad smell, and comprises
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| 198 | VERFAHREN ZUM VERKLEBEN ZWEIER FLACHER TEILE MIT PHOTORESISTFOLIE | EP88904915.0 | 1988-06-10 | EP0371972A1 | 1990-06-13 | TRAUSCH, Günter, Elmar |
| On utilise un film de vernis photosensible (4) pour coller ensemble deux parties plates. Afin d'assurer une liaison entre deux parties plates (par exemple la plaque où sont ménagés les canaux d'encre et le logement en verre d'une imprimante à jet de bulles) qui supporte longtemps les impulsions de hautre fréquence d'impression, qui ne soit pas affectée par l'encre et qui ne modifie pas la section transversale du canal d'encre pendant le collage, on colle ensemble les deux parties plates avec une couche intermédiaire constituée d'un film de vernis photosensible (4). On utilise de préférence des films de vernis photosensible très durables, tels les vernis connus utilisés en soudure. L'invention concerne des liaisons entre la plaque de support des canaux d'encre et le logement en verre d'imprimantes à jet de bulles. | ||||||
| 199 | Verfahren zum Kleben nichttransparenter Substrate und dazu verwendbare Klebesysteme | EP87118398.4 | 1987-12-11 | EP0272558A3 | 1990-02-21 | Artiga Gonzales, René-Andrés, Dr.; Nicolaisen, Heinz-Christian; Ruhnke, Anja |
Die Erfindung betrifft ein Verfahren zum Kleben fester Substrate unter Verwendung von Epoxidharz, Photoinitiator und gegebenenfalls Photosensibilisator enthaltenden, nach Polymerisation klebend wirkenden Mischungen, das dadurch gekennzeichnet ist, daß man eine Klebemischung aus einem oder mehreren epoxidischen Monomeren, einem unter Einwirkung elektromagnetischer Strahlung Protonen freisetzenden Photoinitiator und gegebenenfalls einem Photosensibilisator herstellt, diese auf die zu verklebenden Substratflächen aufträgt, eine Polymerisation der Klebemischung durch Bestrahlung mit elektromagnetischer Strahlung einleitet, die Polymerisation bis kurz vor den Gelpunkt des Polymeren führt, die zu verklebenden und mit Klebemischung beschichteten Substratflächen vereinigt und die verklebende Polymermischung aushärtet, sowie im genannten Verfahren verwendbare Klebesysteme, die ein oder mehrere epoxidische Monomere, einen unter Einwirkung elektromagnetischer Strahlung Protonen freisetzenden Photoinitiator und gegebenenfalls einen Photosensibilisator enthalten. |
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| 200 | Verfahren zum Kleben nichttransparenter Substrate und dazu verwendbare Klebesysteme | EP87118398.4 | 1987-12-11 | EP0272558A2 | 1988-06-29 | Artiga Gonzales, René-Andrés, Dr.; Nicolaisen, Heinz-Christian; Ruhnke, Anja |
Die Erfindung betrifft ein Verfahren zum Kleben fester Substrate unter Verwendung von Epoxidharz, Photoinitiator und gegebenenfalls Photosensibilisator enthaltenden, nach Polymerisation klebend wirkenden Mischungen, das dadurch gekennzeichnet ist, daß man eine Klebemischung aus einem oder mehreren epoxidischen Monomeren, einem unter Einwirkung elektromagnetischer Strahlung Protonen freisetzenden Photoinitiator und gegebenenfalls einem Photosensibilisator herstellt, diese auf die zu verklebenden Substratflächen aufträgt, eine Polymerisation der Klebemischung durch Bestrahlung mit elektromagnetischer Strahlung einleitet, die Polymerisation bis kurz vor den Gelpunkt des Polymeren führt, die zu verklebenden und mit Klebemischung beschichteten Substratflächen vereinigt und die verklebende Polymermischung aushärtet, sowie im genannten Verfahren verwendbare Klebesysteme, die ein oder mehrere epoxidische Monomere, einen unter Einwirkung elektromagnetischer Strahlung Protonen freisetzenden Photoinitiator und gegebenenfalls einen Photosensibilisator enthalten. |
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