| 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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| 121 | MICROCONTACT PRINTING STAMPS WITH FUNCTIONAL FEATURES | EP14859968 | 2014-10-30 | EP3065951A4 | 2017-10-18 | TARNOWSKI CATHERINE P; JOHNSON DAVID A; BARTON ROGER W; JOHNSON LARRY L; O'HARE JONATHAN J; RATTRAY TYLER J; LENTZ DANIEL M; TOKIE JEFFREY H; FREY MATTHEW H; PEKUROVSKY MIKHAIL L |
| 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. | ||||||
| 122 | SEAL SURFACE CARVING APPARATUS | EP17153124.7 | 2017-01-25 | EP3199364A1 | 2017-08-02 | ABE, Eiji; MITSUYA, Takayuki |
Provided is a seal surface carving apparatus capable of carving a seal surface using only a single attachment irrespective of a size of a stamp. A porous impression die (101) having a seal surface to be carved is set on a dedicated attachment (50), and is loaded in a seal surface carving apparatus (10). A fitting projection (53) fit to a bottom portion of the impression die (101) is formed on the attachment (50), and impression dice having various sizes may be set. In addition, a slit hole (52) extending in a conveyance direction is formed in an impression die setting portion (51) of the attachment (50). Impression die size determination means of the seal surface carving apparatus (10) determines a size of the impression die by detecting a position at which the impression die (101) blocks the slit hole (52).
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| 123 | STEMPELBAND UND VERFAHREN ZUR HERSTELLUNG | EP15705480.0 | 2015-01-05 | EP3092128A1 | 2016-11-16 | DEUTSCH, Dieter; NGUYEN, Le Huong; LINDNER, Helmut |
| The invention relates to a stamp band (1) for settable stamps, in particular for date stamps, and to a method for the production thereof, comprising at least one woven fabric (4) made of a weft thread (2) and a number of warp threads (3), in particular made of a cut woven fabric tube (23). The woven fabric (4) is embedded in a rubber impression material (5) using a vulcanisation process, wherein a number of printable characters (6) for a stamp impression and/or optionally readable characters (7) for a reading region (9) are formed in the rubber impression material (5). The weft thread (2) is made of polyamide or polyester and the warp threads (3) are made of cotton, and the weft thread (2) has a diameter of between 0.03 mm and 0.2 mm, or a textile measurement unit of between 80 and 200 Dtex, wherein the weft thread (2) or the entire woven fabric (4) is wetted with an adhesion agent (17). | ||||||
| 124 | STAMP ORDERING SYSTEM | EP16151070.6 | 2016-01-13 | EP3048570A1 | 2016-07-27 | ABE, Eiji; UCHIDA, Masayoshi |
A host computer, a plurality of thermal carving machines, and a user terminal are connected to a network. The host computer includes seal image creation means that permits edition of a seal image using the user terminal, site selection means that allows a user to specify one site from a site candidates list, ID issuing means that issues an order ID for identifying the contents of an order, and order information registration means that registers the issued order ID and order information in a database. A control device of the thermal carving machine includes order acceptance means that accepts an order ID input when information on the input order ID is registered in the database, and carving control means that performs seal carving of a stamp based on seal image data associated with the order ID.
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| 125 | SEAL CARVING APPARATUS | EP15192064.2 | 2015-10-29 | EP3015274A2 | 2016-05-04 | ABE, Eiji; UCHIDA, Masayoshi |
Dot pattern perforations (43) predetermined according to a type (kind and carving size) of a workpiece are formed in a part of a body of an attachment (40, 50, 60, 70, 80) where the workpiece is to be set. A seal carving apparatus (100) detects the dot pattern of the mounted attachment by means of photosensors (18S, 18D) to identify the type of the workpiece. This makes it possible to check consistency between type information on the workpiece input by a customer and type information identified from the dot pattern to prevent mismounting of the attachment or an erroneous carving operation.
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| 126 | Porous stamp assembly, and manufacturing method and apparatus of the same | EP13156926.1 | 2013-02-27 | EP2687379A1 | 2014-01-22 | Abe, Eiji; Uchida, Masayoshi |
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 upper major 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.
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| 127 | NANOSCALE ELECTRIC LITHOGRAPHY | EP05705521 | 2005-01-12 | EP1730591A4 | 2009-06-03 | CHEN YONG |
| A nanoscale lithographic method in which a reusable conductive mask, having a pattern of conductive surfaces and insulating surfaces, is positioned upon a substrate whose surface contains an electrically responsive resist layer over a buried conductive layer. When an electric field is applied between the conductive mask and buried conductive layer, the resist layer is altered in portions adjacent the conductive areas of the mask. Selective processing is performed on the surface of the substrate, alter mask removal, to remove portions of the resist layer according to the pattern transferred from the mask. The substrate may be a target substrate, or the substrate may be utilized for a lithographic masking step of another substrate. In one aspect of the invention the electrodes to which the charge is applied are divided, such as into a plurality of rows and columns wherein any desired pattern may be created without the need to fabricate specific masks. | ||||||
| 128 | STEMPEL MIT EINER NANOSTEMPELSTRUKTUR SOWIE VORRICHTUNG UND VERFAHREN ZU DESSEN HERSTELLUNG | EP06777153.5 | 2006-09-02 | EP1927028A2 | 2008-06-04 | Thallner, Erich, Dipl.-Ing. |
| 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. | ||||||
| 129 | Stempel mit einer Nanostempelstruktur sowie Vorrichtung und Verfahren zu dessen Herstellung | EP05019943.9 | 2005-09-14 | EP1764648A1 | 2007-03-21 | Thallner, Erich, Dipl.-Ing. |
Die Erfindung betrifft einen Stempel mit einer Nanostruktur zur Einbringung von Nanostrukturen in Bauteile sowie eine Vorrichtung und ein Verfahren zur Herstellung des Stempels. Erfindungsgemäß ist vorgesehen, dass der Stempel einen strarren Träger für die Nanostempelstruktur aufweist und dass die Nanostempelstruktur mit dem Träger verbunden ist.
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| 130 | THERMAL TRANSFER ASSEMBLY FOR CERAMIC IMAGING | EP03808032.1 | 2003-07-17 | EP1554118A1 | 2005-07-20 | IBARRA, Jim; WALLACE, Rick; WALSH-CLEMENS, Karen, A.; MARGINEAN, Barry, L.; TAO, Mike; GEDDES, Pamela, A.; NERI, Joel, D.; WILBERT, Robert, P.; BRIGGS, Barry |
| A thermal transfer assembly that comprises a thermal transfer ribbon and a covercoated transfer sheet (210). The thermal transfer ribbon (210) includes a support (32) and a ceramic ink layer (202). The ceramic ink layer is present at a coating weight of from about 2 to about 15 grams per square meter, and it includes from about 15 to about 94.5 percent of a solid carbonaceous binder, and at least one of a film-forming glass frit, an opacifying agent and a colorant (at a combined level for the film forming glass frit, the opacifying agent and the colorant of at least 0.5 weight percent). | ||||||
| 131 | Stamp member and stamp unit using the stamp member | EP00305687.6 | 2000-07-06 | EP1066976B1 | 2003-09-17 | Imamaki, Teruo, Brother Kogyo K.K.; Miki, Takahashi, Brother Kogyo K.K.; Katsuno, Teruyo, Brother Kogyo K.K.; Sugiyama, Koji, Brother Kogyo K.K. |
| 132 | EDITORIAL OR STATIONERY ARTICLE, SUCH AS DIARY, EXERCISE-BOOK, BOOK, MAGAZINE, NEWSPAPER, FILE-HOLDER, ETC., HAVING SPECIAL ERGONOMIC FEATURES | EP00989002.1 | 2000-12-28 | EP1246725A1 | 2002-10-09 | MAZZA, Marco |
| An editorial and stationery article, such as a diary, exercise-book, book, magazine, newspaper, file-holder, etc., having particular ergonomic features, characterized in that it has a structure that can be opened as a book, with sheets or pages (16) of quadrilteral shape, with the back or spine side (109) oblique to the upper and lower sides (12, 11), so that in the open position at least the lower sides (119) converge towards the opening central axis (13), with convergence according to the obliquity angle (A) of the spine side (10) with respect to said upper and lower sides (12, 11), so as to have a substantially user-enveloping configuration. | ||||||
| 133 | Stamp unit | EP99301751.6 | 1999-03-09 | EP0941842B1 | 2002-05-29 | Okumura, Takashi; Suda, Mitsunobu; Sedo, Keiji; Takami, Hiroshi; Yamamoto, Minoru; Sugiyama, Koji |
| 134 | Stamp material, stamp material-setting jig and stamp assembly | EP97113990.2 | 1997-08-13 | EP0826507B1 | 2002-03-13 | Hayama, Hotishi |
| 135 | Stamp member and stamp unit using the stamp member | EP00305687.6 | 2000-07-06 | EP1066976A1 | 2001-01-10 | Imamaki, Teruo, Brother Kogyo K.K.; Miki, Takahashi, Brother Kogyo K.K.; Katsuno, Teruyo, Brother Kogyo K.K.; Sugiyama, Koji, Brother Kogyo K.K. |
A stamp member 11 includes a porous resin 101 and a film 103 adhered together by an acrylic adhesive 102. The film 103 is peeled from the porous resin 101 after stamp making operations have been completed for forming a stamp face on a stamp surface 71 of the porous resin 101. Therefore, the stamp surface 71 of the porous resin 101 is protected from fine dirt and dust. Also, because there is no need to proved a film between a stamp making device and the stamp member 11 at stamp making operations, stamp making operations are simplified. |
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| 136 | Seal making device | EP97119551.6 | 1994-03-15 | EP0832755B1 | 2000-05-31 | Kameda, Takanobu, c/o King Jim Co., Ltd.; Kano, Machiko, c/o King Jim Co., Ltd.; Kondoh, Rui, c/o King Jim Co., Ltd.; Watanabe, Kenji, c/o King Jim Co., Ltd.; Ichikawa, Tomoyuki, c/o King Jim Co., Ltd.; Taniguchi, Yuichiro, c/o King Jim Co., Ltd.; Aida, Chieko, c/o King Jim Co., Ltd. |
| 137 | Stamp unit | EP99301751.6 | 1999-03-09 | EP0941842A1 | 1999-09-15 | Okumura, Takashi; Suda, Mitsunobu; Sedo, Keiji; Takami, Hiroshi; Yamamoto, Minoru; Sugiyama, Koji |
A stamp unit has a transparent film (91) which protects a stamp surface of the stamp material at the time of transportation of the stamp unit, during storage until a user starts to produce a stamp after purchasing the stamp unit, and during production of the stamp plate. The transparent film is thermally adhered on the lower edge of the holder member (4) and is capable of protecting the surface of the stamp material (73) until the start of the stamp printing. The transparent film is capable of easily and economically adhering to the stamp material without adhering to a thermal adhesion jig. |
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| 138 | COMPRESSIBLE PRINTING BLANKET AND METHOD OF MAKING SAME. | EP92924433 | 1992-11-13 | EP0612281A4 | 1995-12-06 | BYERS JOSEPH L; FLINT W TORIRAN; KERR RICHARD C |
| A multi-ply laminated compressible printing blanket (10) for use in offset printing comprising in order, a first compressible fabric ply (12), a compressible elastomeric layer (24), at least two additional fabric plys (32, 34) situated above the compressible elastomeric layer, an elastomeric surface (44) and an elastomeric printing face (46) deposited by a solventless process and having a surface profile adapted for reducing dot gain while enhancing the releasability of the printed matter. At least the lowermost fabric ply (12) incorporates a protective coating to prevent wicking of inks, water and/or solvents through the blanket which might otherwise lead to swelling and delamination of the various plys. In addition, both the fabric plys and the compressible layer are at least partially coated with a matrix material (20) having dispersed therein a plurality of closed cells (26) formed, e.g., with the use of blowing agents or by adding thereto a plurality of expanded or expandable microspheres. Articles which may also be formed from the composite structure include gaskets, packing materials, flexible diaphragms or printing blankets. | ||||||
| 139 | Verfahren und Installation zur Herstellung einer Mehrfachform für die Reproduktion von Stichtiefdruckplatten | EP89810144.9 | 1989-02-23 | EP0335830B1 | 1993-07-28 | Coluzzi, Antonio |
| 140 | Installation et procédé pour la fabrication d'un moule plastique à multiples empreintes, pour la reproduction de plaques d'impression taille-douce | EP90810117.3 | 1990-02-19 | EP0443292A1 | 1991-08-28 | Coluzzi, Antonio |
L'installation comprend un dispositif porte-étectrode portant une électrode à plaque (7), un dispositif porte-plaque portant une plaque originale (19) comportant un dessin gravé, et des coulisseaux-cadres portant une plaque plastique thermoformable (4), disposés entre et déplaçable relativement à la plaque originale (19) et ladite électrode (7). La plaque originale (19) forme une deuxième électrode, les deux électrodes étant connectées à un appareil à haute fréquence. La première électrode à plaque (7) a un contour (7a) qui correspond à une enveloppe du dessin de la plaque originale (19) et donc de l'empreinte à produire. Le bord de la première électrode est entouré par une bordure isolante d'épaisseur égale à celle de ladite première électrode. Par ces mesures, lors du moulage par compression avec chauffage par haute fréquence, ce n'est pratiquement que la zone d'empreinte qui est chauffée. |
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