序号 专利名 申请号 申请日 公开(公告)号 公开(公告)日 发明人
81 System and method for preparing photosensitive lithographic printing plate JP2002278964 2002-09-25 JP2004004455A 2004-01-08 AZUMA TATSUJI
<P>PROBLEM TO BE SOLVED: To provide a system and method for safely preparing a printing plate by reliably detecting the presence or absence of a slip sheet on a photosensitive planographic printing plate and/or on a key plate. <P>SOLUTION: The printing plate preparation system processes the photosensitive planographic printing plate with a superposed slip sheet and/or an original plate for the key plate with a superposed slip sheet by using a plate setter having an automatic slip sheet removing mechanism and an automatic developing machine. The system is provided with: a detecting means for detecting the presence or absence of the slip sheet; or a discriminating means for discriminating the classification of the slip sheet, original plate for the key plate or of the photosensitive planographic printing plate. <P>COPYRIGHT: (C)2004,JPO
82 Interleaving paper for photosensitive lithographic printing plate JP2000247043 2000-08-16 JP2002059669A 2002-02-26 OKANO HIROSHI; KOJIMA YASUHIKO
PROBLEM TO BE SOLVED: To provide an interleaving paper, for a photosensitive lithographic printing plate for laser exposure, which can be easily released by an automatic interleaving paper release device, even when the paper is directly arranged on a photosensitive layer. SOLUTION: The interleaving paper with 100 g or more rigidity and 2.0 g/μm or more rigidity per unit thickness is used. In addition, the interleaving paper can be released easily by the automatic interleaving paper release device by setting the smoothness of a contact area coming into contact with the photosensitive layer of the photosensitive lithographic printing plate for laser exposure at 30" or less. Further, the release properties of the paper from a support constituting the printing plate are upgraded even when a plurality of the lithographic printing plates for laser exposure are superposed, by setting the smoothness of also a non-contact area with the photosensitive layer at 30" or less.
83 JPH0570145B2 - JP16211082 1982-09-17 JPH0570145B2 1993-10-04 TADEUSU AUJIKOSUKII; ANTON MENTA; EUARUTO ROZAATO
84 Actinic radiation-reactive self-adhesive composition JP493690 1990-01-12 JPH03210312A 1991-09-13 OKAWA KAZUO; SAITO SEIICHI
PURPOSE: To obtain a self-adhesive composition which is odorless and nonirritating to the skin and can be made nonadhesive rapidly when irradiated with an actinic radiation even in air by mixing a self-adhesive organic compound with a polythiol compound and a polyene compound having at least two C-C double bonds as essential components. CONSTITUTION: A self-adhesive organic compound (A) (e.g. saturated copolyester resin or polyacrylate copolymer resin) is mixed with an actinic radiation-curing resin (B) [a composition prepared by mixing a polythiol compound (e.g. pentaerythritol tetrakisthioglycolate) with a polyene compound having at least two C-C double bonds in the molecule (e.g. acrylate resin) in an equivalent ratio of the double bonds to the thiol groups of 0.7/1.0-1.5/1.0] to obtain an actinic radiation-reactive self-adhesive composition useful in, e.g. dicing a semiconductor water. The mixing ratio is desirably such that 10-200 pts.wt. component B is present per 100 pts.wt. component A. COPYRIGHT: (C)1991,JPO&Japio
85 Adhesive system and its use JP31761387 1987-12-17 JPS63162779A 1988-07-06 RENEEANDORE ARUTEIGA GONZARESU; HAINTSU KURISUCHIAN NIKORAISEN; ANYA RUUNKE
86 JPS637476B2 - JP13002580 1980-09-18 JPS637476B2 1988-02-17 ROORENSU II BURAUN; JEEMUSU ERU BAUAA; JERARUDO DABURYU SHETSUKU
87 Radiation sensitive adhesive JP17234083 1983-09-20 JPS59126479A 1984-07-21 ROODORITSUKU YUUJIN RETSUGU; FUREDERITSUKU FUEN KUISUTO JIY; JIEFURII DAARERU SHIYUWANDAA; ROOUERU MAA SHIMUSON
88 ARTICLE WITH PATTERNED LAYER ON SURFACE PCT/US2005040275 2005-11-07 WO2006055310A3 2006-08-10 COK RONALD STEVEN; MAJUMDAR DEBASIS; IRVIN GLEN CLIFFORD JR
An article is described, comprising: a) a substrate having first regions having a microstructured surface and second regions not having a microstructured surface, where the first regions and second regions are relatively differentially wettable; and b) a patterned layer formed on the substrate from a coating that preferentially wets the relatively more wettable regions of the substrate. A method of making a patterned coating is also described, comprising the steps of: a) providing a substrate having first regions having a microstructured surface and second regions not having a microstructured surface, where the first regions and second regions are relatively differentially wettable; and b) coating the substrate with a coating material that preferentially wets the relatively more wettable regions of the substrate to form a patterned layer on the substrate.
89 レジスト膜のパターニング用有機系処理液の製造方法、及び、レジスト膜のパターニング用有機系処理液が収容された収容容器、並びに、これらを使用したレジスト膜のパターニング用有機系処理液の保管方法、パターン形成方法、及び、電子デバイスの製造方法 JP2016552010 2015-09-28 JP6427590B2 2018-11-21 山中 司
90 感光性樹脂積層体ロール JP2014554556 2013-12-26 JPWO2014104217A1 2017-01-19 小谷 雄三; 雄三 小谷
開梱時に感光性樹脂積層体ロール端面から簡単に異物が除去できる感光性樹脂積層体ロールを提供する。この感光性樹脂積層体ロールは、感光性樹脂積層体が巻芯にロール状に巻き取られており、ロール端面保護部材が、巻き取られた感光性樹脂積層体の端面に接触するように配された感光性樹脂積層体ロールであって、ロール端面保護部材は、ロール端面と接触する側に粘着剤組成物を有しており、感光性樹脂積層体は、少なくとも支持層と、支持層に積層される感光性樹脂層とを含む。
91 Packaging assembly for printing plates JP2009158037 2009-07-02 JP5250494B2 2013-07-31 ボーン ヨハネス; フォク ド リー; デュデク ディートマー; フレイ カール−ハインツ; ケー.ハーゲット ハラルド; レーナン カート; ピストール ヨハン; シュムッツ トラゴッド; ジーモン ライムント; ヴィーデンマン カール−ハインツ
92 Image forming method and image display JP2005119655 2005-04-18 JP4779415B2 2011-09-28 哲也 松山
The invention provides an image forming method of forming a full-color image in which black can be expressed in addition to a color expressed by diffracted light. Each of plural diffraction gratings R, G, and B is transferred onto a base material 30 from a transfer sheet 20 in which the plural dif fraction gratings R, G, and B are laminated, and the plural diffraction gratings R, G, and B are different from one another in a color of diffracted light observed in a particular direction. A black ink layer 34 constituted by black ink is formed on the base material 30. Thereby, a color image is formed on the base material 30, in which a color to be expressed of each pixel is expressed by a combination of luminances of colors corresponding to the diffraction gratings R, G, and B and the black ink 34.
93 Lithographic printing plate original film, lithographic printing method, and package of lithographic printing plate original film JP2011103876 2011-05-06 JP2011183812A 2011-09-22 MITSUMOTO TOMOYOSHI; OSHIMA YASUHITO
PROBLEM TO BE SOLVED: To provide a package of a lithographic printing plate original film of an on-machine development type, the lithographic printing plate original film of the on-machine development type showing excellence in on-machine development and printing durability, and the lithographic printing plate original film of the on-machine development or non-treatment (non-development) type showing good visibility of the plate after exposure, causing little damaged paper and having good printing durability. SOLUTION: In the package of the lithographic printing plate original film, an image record layer or a protective layer as the outermost layer contains an inorganic laminar compound. The lithographic printing plate original film has the protective layer containing the inorganic laminar compound, and the image record layer containing a specific binder polymer. The lithographic printing plate original film has the protective layer containing the inorganic laminar compound, and the image record layer containing an infrared absorber and an iodonium compound. COPYRIGHT: (C)2011,JPO&INPIT
94 Plate pallet alignment system JP2010550669 2009-02-12 JP2011521273A 2011-07-21 オルパック,タミール; コロリック,パヴェル; シルヴァーマン,マーク; ベレス,モシェ; レゲヴ,シャイ
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.
95 Article having a patterned layer on the surface JP2007541264 2005-11-07 JP2008520082A 2008-06-12 クリフォード,ジュニア アービン,グレン; スティーブン コック,ロナルド; マジュムダール,ディベイシス
a) ミクロ構造化表面を有する第1領域と、ミクロ構造化表面を有しない第2領域とを有する基板、ここで、該第1領域及び該第2領域は相対的に異なって濡れやすい;及びb) 該基板の該相対的により濡れやすい領域を優先的に濡らす塗膜由来の、該基板上に形成されたパターン化層を含んで成る物品を開示する。 さらに、a) ミクロ構造化表面を有する第1領域と、ミクロ構造化表面を有しない第2領域とを有する基板であって、該第1領域及び該第2領域が相対的に異なって濡れやすい基板を用意する工程;b) 該基板の該相対的により濡れやすい領域を優先的に濡らす塗膜材料を用いて該基板を塗布して、該基板上にパターン化層を形成する工程を含んで成るパターン化塗膜の形成方法も開示する。
96 Lithographic printing original plate, lithographic printing method and package of lithographic printing original plate precursors JP2006017883 2006-01-26 JP2007055224A 2007-03-08 MITSUMOTO TOMOYOSHI; OSHIMA YASUHITO
<P>PROBLEM TO BE SOLVED: To offer a package of lithographic printing original plates of on-press development type, an on-press development type lithographic printing original plate which excels in on-press developability and printing plate durability, and an on-press development type or unprocessed type (no negative-development type) lithographic printing original plate precursor which excels in the plate visibility after exposure, in printing plate durability and has few maculatures. <P>SOLUTION: A packaged 6 of lithographic printing original plate 3, wherein an image-recording layer or a protective layer of the outermost surface layer contains an inorganic layered compound. A lithographic printing original plate precursor having a protective layer containing an inorganic layered compound, and an image-recording layer containing a binder polymer. And a lithographic printing original plate having a protective layer containing an inorganic layered compound, and an image-recording layer containing an infrared absorber and an iodonium compound. <P>COPYRIGHT: (C)2007,JPO&INPIT
97 Pattern forming method, image forming method, fine particle adsorption pattern forming method, conductive pattern forming method, pattern forming material, and planographic printing plate JP2004079009 2004-03-18 JP2005037881A 2005-02-10 KANO TAKEYOSHI; KAWAMURA KOICHI
<P>PROBLEM TO BE SOLVED: To provide a pattern forming method for forming a fine and sharp pattern which can be widely applied by an easy method, to provide an image forming method employing the above method, and to provide a pattern forming material and a planographic printing plate. <P>SOLUTION: The pattern forming method includes: a process of disposing a polymerization initiating layer obtained by fixing a polymer having crosslinking groups and functional groups having polymerization initiating ability at the side chains by crosslinking reaction on a supporting body; and a process of generating a graft polymer on the surface of the polymerization initiating layer by graft polymerization by bringing a compound having a polymerizable group into contact with the polymerization initiating layer and by imagewisely adding energy so as to form a pattern comprising a polymer generated region and non-generated region. Further, the fine particle adsorption pattern forming method includes a process of adsorbing fine particles to the graft polymer (which may have conductivity). <P>COPYRIGHT: (C)2005,JPO&NCIPI
98 Printing plate exposure device JP2000034943 2000-02-14 JP2001228617A 2001-08-24 KOIZUMI TAKASHI; OKAMOTO KAZUHISA; KAWAMURA YOSHINORI; KOYANAGI YOSHIHIRO
PROBLEM TO BE SOLVED: To obtain automatic printing plate exposure device which is capable of facilitating the transporting work of a housing cassette in which printing plates are housed in a laminated state. SOLUTION: Photopolymer plates 102 are taken out of the housing cassette 208 in which the photopolymer plates 102 are housed in the laminated state and images are exposed to the photopolymer plates 102 in the automatic printing plate exposure device 100. Since a shutter 210 for opening and closing an aperture 302 of the housing cassette 208 is formed as a thin sheet, the housing cassette 208 may be accordingly formed thin. As a result, the transporting work of the housing cassette 208 is made easier by reducing the weight of the housing cassette 208 (the housing cassette may be carried even by a person of weak power).
99 Energy ray reactive adhesive composition JP493690 1990-01-12 JP3181284B2 2001-07-03 和夫 大川; 誠一 斎藤
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
100 Packaging container JP3655797 1997-02-20 JPH10236483A 1998-09-08 GOTO HIROAKI; SASAKI HIROSHI; TAKAHASHI EIJI
PROBLEM TO BE SOLVED: To obtain a satisfactory setting function against long wave length- ultraviolet rays, by forming a coating layer or a printing ink layer of a resin compound containing cycloaliphatic epoxy resin, photo-cation setting catalyst shown by a specified formula, and thioxanthene sensitizer, at the outside face of a container. SOLUTION: A photo-cation setting catalyst using sulfonate shown in the formula (in the formula, R1 , R2 , R3 show alkyl groups, methyl groups, ethyl groups, propyl groups, and butyl groups, having four or smaller carbons and it is preferable that R1 is methyl group and R2 and R3 are methyl group or ethyl group), a thioxanthene sentisizer, and a cycloaliphatic epoxy resin are combined to form a coating layer and a printing ink layer of packaging containers. The sulfonate-photo-cation setting catalyst of 1-15 pts.wt. is used against the cycloaliphatic epoxy resin of 100 pts.wt. and the thioxanthene sensitizer of 0.6-3 pts.wt. is used against the cycloaliphatic epoxy resin of 100 pts.wt.
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