| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Device for making stamps | EP95113172.1 | 1995-08-22 | EP0698498A3 | 1997-05-07 | Kameda, Takanobu, c/o King Jim Co., Ltd.; Kano, Machiko, c/o King Jim Co., Ltd.; Kondoh, Rui, c/o King Jim Co., Ltd.; Nakajima, Kenich, c/o Seiko Epson Corp. |
A compact print making device by which a desired imprint figure can be made easily in a short time. This print making device employs a resin seal face member, a part of which receives light having a wavelength within a predetermined range and thus is put into a state different from the state of the remaining part thereof and is adapted to have an uneven face formed by being acted upon by a predetermined fluid. The resin seal face member and an original picture representing an imprint figure are placed in such a manner that the original picture is placed just in back of the resin seal face member. Imprint figure information representing the imprint figure shown in the original picture is taken in by an information reading mechanism. A negative film making unit is driven according to the imprint figure information so as to produce a negative film. Then, the produced negative film is carried to an irradiating position. Subsequently, a light irradiating unit irradiates the resin seal face member with light through the negative film. Thereby, the state of a part, which corresponds to the imprint figure, of the resin seal face member or the remaining part thereof is changed. Finally, an uneven face thereof serving as a seal is formed by acting a predetermined fluid upon this resin seal face member. |
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| 202 | Device for making stamps | EP95113172.1 | 1995-08-22 | EP0698498A2 | 1996-02-28 | Kameda, Takanobu, c/o King Jim Co., Ltd.; Kano, Machiko, c/o King Jim Co., Ltd.; Kondoh, Rui, c/o King Jim Co., Ltd.; Nakajima, Kenich, c/o Seiko Epson Corp. |
A compact print making device by which a desired imprint figure can be made easily in a short time. This print making device employs a resin seal face member, a part of which receives light having a wavelength within a predetermined range and thus is put into a state different from the state of the remaining part thereof and is adapted to have an uneven face formed by being acted upon by a predetermined fluid. The resin seal face member and an original picture representing an imprint figure are placed in such a manner that the original picture is placed just in back of the resin seal face member. Imprint figure information representing the imprint figure shown in the original picture is taken in by an information reading mechanism. A negative film making unit is driven according to the imprint figure information so as to produce a negative film. Then, the produced negative film is carried to an irradiating position. Subsequently, a light irradiating unit irradiates the resin seal face member with light through the negative film. Thereby, the state of a part, which corresponds to the imprint figure, of the resin seal face member or the remaining part thereof is changed. Finally, an uneven face thereof serving as a seal is formed by acting a predetermined fluid upon this resin seal face member. |
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| 203 | SEAL MANUFACTURING APPARATUS | EP94909316.5 | 1994-03-15 | EP0644059A1 | 1995-03-22 | KAMEDA, Takanobu; KANO, Machiko; KONDOH, Rui; WATANABE, Kenji; ICHIKAWA, Tomoyuki; TANIGUCHI, Yuichiro; AIDA, Chieko |
The invention intends to provide a seal manufacturing apparatus with which it is possible for a non-expert to simply form a desired seal, doorplate, nameplate and the like in a short time. In the seal manufacturing apparatus of the invention, a member (42b) of a resin, of which a portion or portions acted on by predetermined physical stimuli such as ultraviolet rays, laser beams and heat is changed to have a property different from that of other portions and of which either portion can be removed by an action with a predetermined fluid, is used as a seal face member (42), on which an imprint pattern of a seal is formed. In accordance with an imprint pattern of a seal taken in by information processing means, pattern transfer control means (20) controls as to application or non-application of physical stimuli to every predetermined minute unit area to exert on the seal face member of a resin physical stimuli corresponding to an imprint pattern of a seal so as to partially change a property of the seal face member. Then, a portion or portions, of which a property has changed, or portion or portions, of which a property has not changed, is removed by water and the like to provide a seal and an uneven patterned plate having a desired pattern. |
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| 204 | Verfahren zum Verbinden der zugeschnittenen Kanten photopolymerisierter Flexodruckformen | EP88105252.6 | 1988-03-31 | EP0286020B1 | 1991-07-31 | Werther, Heinz-Ulrich, Dr.; Pieper, Hartwig; Schabinger, Willi; Kessler, Klaus |
| 205 | Verfahren zum Verbinden der zugeschnittenen Kanten photopolymerisierter Flexodruckformen | EP88105252.6 | 1988-03-31 | EP0286020A3 | 1989-04-26 | Werther, Heinz-Ulrich, Dr.; Pieper, Hartwig; Schabinger, Willi; Kessler, Klaus |
Verfahren zum Verbinden der zugeschnittenen Kanten photopolymerisierter Flexodruckformen, welche Reliefschichten und dimensionsstabile Trägerfolien aufweisen, auf einem Druckzylinder durch
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| 206 | Apparatus for cutting printing plates | EP82300732.3 | 1982-02-15 | EP0058547B1 | 1984-12-19 | Marsh, Charles Richard |
| 207 | Apparatus for cutting printing plates | EP82300732.3 | 1982-02-15 | EP0058547A1 | 1982-08-25 | Marsh, Charles Richard |
Apparatus for cutting printing plates, comprises a cutting press with relatively movable platens (5,20) one of which carries a forme cutting tool (4) for severing or partially severing from a processed sheet of flexible material a central image-bearing portion for use as a printing plate. Retractable registration and holding means (35) engage registration targets on said sheet so as to locate the sheet in registry with the forme cutting tool (4) and to hold the sheet in position at least until it is held by the pressure of the cutting tool thereon. |
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| 208 | METHOD FOR PREPARING PAPER HAVING TRANSPARENT PORTIONS, AND PAPER HAVING TRANSPARENT PORTIONS PREPARED USING SAID METHOD | PCT/RU2015000477 | 2015-07-29 | WO2016022046A3 | 2016-03-17 | TRACHUK ARKADIY VLADIMIROVICH; KURYATNIKOV ANDREY BORISOVICH; PAVLOV IGOR VASILIEVICH; KORNILOV GEORGIY VALENTINOVICH; FEDOROVA ELENA MIKHAILOVNA; MOCHALOV ALEXANDR IGOREVICH; OSTREROV MIKHAIL ANATOLIEVICH; KHOMUTINNIKOV NIKOLAY VASILIEVICH; GOVYAZIN IGOR OLEGOVICH; BUSYREV OLEG STANISLAVOVICH; PESTOV NIKOLAY NIKOLAEVICH |
| The invention relates to the pulp and paper industry, and specifically to the manufacture of paper for producing banknotes, checks, passports, identification documents, and other documents requiring counterfeit protection. The method includes locally impregnating portions of paper, said portions having certain shapes, using a solution of compounds with epoxy groups, and in the presence of a curing agent. According to the invention, the compounds with epoxy groups may be glycidyl ethers of monoatomic and polyatomic alcohols having a dynamic viscosity at a temperature of 25C of no more than 150 mPa·s. The technical result consists in producing transparent portions on paper without forming, on the surface of the paper, hard films which would hinder a subsequent printing process. | ||||||
| 209 | PROCESSING SYSTEM AND COMPONENTS THEREFOR | PCT/AT2014050286 | 2014-12-02 | WO2015085337A3 | 2015-09-17 | |
| The invention relates to a processing system (1), comprising at least one processing region (3), a control region (4), and optionally a receiving region (5) and/or a presentation region (5), wherein a removable display element (11), on which operator software is installed, is arranged. Control software corresponding with the operator software, also called "Job Control" in the following, is integrated in the control region (4). By connecting the display element (11) to the processing system (1) or by activating via a button (12) on the display element (11), the processing system (1) is connected to said display element (11). | ||||||
| 210 | SYSTEM FOR PREPARING AND PRODUCING A DIE PLATE | PCT/AT2014050115 | 2014-05-12 | WO2014183143A2 | 2014-11-20 | PINOT JEAN-PHILIPPE; VERRIER STÉPHANIE |
| The invention relates to a system (1) for preparing and producing a die plate (2), comprising at least an input device (4), a control device (5) and a processing device (6) having a processing insert (110) and recesses (113) arranged therein. The processing device (6), particularly a laser plotter (9), has a processing table (15) that is designed for receiving and positioning the processing insert (110), particularly a tray (111) or jig for at least one die plate blank (80). A removal aid (114) is associated with at least one recess (113) of the processing insert (110) and/or this recess (113) preferably has means for guiding and positioning the insert, particularly the die plate blank (80) and/or the workpiece. In order to achieve a flat planar surface (82) of a base material (81) of the die plate blank (80), the base material (81) is removably positioned on a base plate (83) for the further processing. | ||||||
| 211 | A METHOD OF MAKING AN IMPRINT ON A POLYMER STRUCTURE | PCT/SG2008000254 | 2008-07-17 | WO2009154571A1 | 2009-12-23 | SAIFULLAH M S M; KHOO RICHARD TENG THUAN; LOW HONG YEE |
| There is disclosed a method of making an imprint on a polymer structure comprising the steps of: a) providing an imprinted substrate mold having a defined imprinted surface pattern on a first side and a defined imprinted surface pattern on a second side, opposite to the first side; b) pressing a polymer structure against the first side of the imprinted substrate mold to form an imprint thereon; and c) pressing another polymer structure against the second side of the imprinted substrate mold to form an imprint thereon. | ||||||
| 212 | STAMP COMPRISING A NANOSTAMPING STRUCTURE, DEVICE AND METHOD FOR THE PRODUCTION THEREOF | PCT/EP2006008582 | 2006-09-02 | WO2007031205A3 | 2007-05-03 | THALLNER ERICH |
| The invention relates to a stamp comprising a nanostructure for introducing and/or applying nanostructures into/onto components as well as a device and a method for producing said stamp. The inventive stamp is provided with a rigid support for the nanostamping structure while the nanostamping structure is joined to the support. | ||||||
| 213 | PREINKED STAMPS WITH INK RESERVOIR DEVELOPED BY LIGHT OR HEAT USING CARBON LIQUID | PCT/PL0000010 | 2000-02-09 | WO0158689A8 | 2001-12-06 | MALCZYNSKI BOGUSLAW; AWAZU TADASHI; MATSUSHITA IKUZO |
| The principle of invention of stamp are: 1) pre-assembled before development stamp mount having already fitted - sealed by heat in stamp mount microporous material together with ink reservoir, 2) carbon liquid as light absorbent in light developing process of microporous stamp material. The microporous stamp material surface is covered by dark liquid helping into close porous by light. | ||||||
| 214 | DIRECT ELECTROSTATIC PRINTING METHOD AND APPARATUS | PCT/SE9802349 | 1998-12-17 | WO9932293A3 | 1999-09-10 | BERN BENGT; MOSSBERG MATS |
| An image recording device and method for recording an image to an information carrier. An intermediate image receiving member and a printhead structure move relative to each other during recording. The image recording device comprises an intermediate image receiving member position measuring means for measuring the position of the intermediate image receiving member in relation to the apertures to thereby via the control unit be able to synchronize the selective opening and closing of apertures through a printhead structure according to the relative movement of the printhead structure and the intermediate image receiving member to thereby enable the formation of a pigment image at a predetermined position on the intermediate image receiving member in view of the image which is to be recorded. The pigment image is subsequently transferred to an information carrier. | ||||||
| 215 | Seal carving apparatus and seal carving method | US14885178 | 2015-10-16 | US09878491B2 | 2018-01-30 | Eiji Abe; Masayoshi Uchida |
| A seal carving apparatus includes a thermal head having a plurality of heat generating elements disposed in lines, and thermal drive control means that performs a control process of selectively and thermally driving the individual heat generating elements while moving the thermal head and a porous material in relative to each other with the thermal head being in abutment with the porous material, thereby forming a seal face on the porous material. The thermal drive control means controls a pulse time width for thermally driving the individual heat generating elements of the thermal head under pulse width modulation control based on gradation image data having a gradation value, thereby forming a seal with a gradation on the porous material. | ||||||
| 216 | Microcontact printing stamps with functional features | US15033672 | 2014-10-30 | US09873276B2 | 2018-01-23 | Catherine P. Tarnowski; David A. Johnson; Roger W. Barton; Larry L. Johnson; Jonathan J. O'Hare; Tyler J. Rattray; Daniel M. Lentz; Jeffrey H. Tokie; Matthew H. Frey; Mikhail L. Pekurovsky |
| A method includes providing an elastomeric stamp including a stamping surface with a first pattern element having a fill factor of 20 to 99 percent and including a continuous region and at least one discontinuous region, the discontinuous region including at least one of: (1) one or more elongated concavities, and (2) one or more interior voids. A second pattern element of the stamping surface has a fill factor of 0.25 to 10 percent, and includes traces with a width from 0.1 micrometers to 50 micrometers. The stamping surface is inked with an ink composition including a functionalizing molecule with a functional group selected to bind to a surface of the ink-receptive material. The inked stamping surface is contacted with an ink-receptive material selected from a sheet or a web for a contact time sufficient to bind the functional group with the surface of the ink-receptive material to form a self-assembled monolayer (SAM) of the functionalizing material. | ||||||
| 217 | SEAL CARVING APPARATUS AND SEAL CARVING METHOD | US15702907 | 2017-09-13 | US20180001575A1 | 2018-01-04 | Eiji ABE; Masayoshi UCHIDA |
| A seal carving apparatus includes a thermal head having a plurality of heat generating elements disposed in lines, and thermal drive control means that performs a control process of selectively and thermally driving the individual heat generating elements while moving the thermal head and a porous material in relative to each other with the thermal head being in abutment with the porous material, thereby forming a seal face on the porous material. The thermal drive control means controls a pulse time width for thermally driving the individual heat generating elements of the thermal head under pulse width modulation control based on gradation image data having a gradation value, thereby forming a seal with a gradation on the porous material. | ||||||
| 218 | FLEXO PRINTING PLATE | US15655224 | 2017-07-20 | US20170313117A1 | 2017-11-02 | Hiroshi TASHIRO |
| Provided is a flexo printing plate which makes it possible to perform printing in which the discontinuity of density is not visually recognized by inhibiting the enlargement of halftone dots in the boundary between an image portion having a low halftone dot area ratio and a non-image portion. The flexo printing plate adopts a constitution in which, within the highlight halftone dot portion having a halftone dot area ratio of higher than 0% and equal to or lower than 10%, among the small dots constituting the highlight halftone dot portion, at least one small dot adjacent to the non-image portion that continues 10 mm or further in a direction separating from the edge of the highlight halftone dot portion has a height smaller than the average height of the small dots of the highlight halftone dot portion. | ||||||
| 219 | Porous stamp assembly, and manufacturing method and apparatus of the same | US13779399 | 2013-02-27 | US09517648B2 | 2016-12-13 | Eiji Abe; Masayoshi Uchida |
| The present invention relates to a porous stamp assembly. The manufacturing method of the assembly comprises a first step of hermetically adhering a porous impression die member of thermoplastic resin to a front end face of a frame; a second step of fixing the die member embedded frame onto a mount that is to be in face-to-face relation with a thermal head attached to a seal carving device; a third step of putting the thermal head in contact with an impression surface of the porous impression die member, with a resin film interposed therebetween, and moving the thermal head and the porous impression die member relative to each other; and a fourth step of removing the die member embedded frame from the mount. | ||||||
| 220 | Direct imprinting of porous substrates | US12790908 | 2010-05-31 | US09352543B2 | 2016-05-31 | Sharon M. Weiss; Judson D. Ryckman; Marco Liscidini; John E. Sipe |
| Provided are methods of patterning porous materials on the micro- and nanometer scale using a direct imprinting technique. The present methods of direct imprinting of porous substrates (“DIPS”), can utilize reusable stamps that may be directly applied to an underlying porous material to selectively, mechanically deform and/or crush particular regions of the porous material, creating a desired structure. The process can be performed in a matter of seconds, at room temperature or higher temperatures, and eliminates the requirement for intermediate masking materials and etching chemistries. | ||||||
