| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Printing band and method of making same | EP00100441.5 | 2000-01-10 | EP1024017B1 | 2003-05-21 | Fogle, Ronald Lee |
| 162 | Method of producing a planar stamp | EP97309801.5 | 1997-12-04 | EP0853004B1 | 2001-11-07 | Miyata, Hiroyasu |
| 163 | Stamp making device | EP98116105.2 | 1998-08-26 | EP0899117B1 | 2000-08-30 | Imamaki, Teruo; Asai, Naohito; Sugiyama, Koji |
| 164 | Stamp unit and method of manufacturing the stamp unit | EP99308619.8 | 1999-10-29 | EP0997311A1 | 2000-05-03 | Imamaki, Teruo, c/o Brother Industries Ltd |
A stamp unit comprising a holding unit (U), and a method of manufacturing a stamp unit, comprising, holding a stamp material (3) in the holder member (4) to create a holding unit; positioning the holding unit in a stamp manufacturing device (101) so that the holding unit (U) is disposed between a presser unit (141) and an irradiation unit (110) of the stamp manufacturing device; and pressing the holding unit by means of the presser unit so as to force a surface of the stamp material against the irradiation unit to form a desired image on a surface of the stamp material when irradiated by the irradiation unit to thereby create a stamp surface. The height of the holder member (4) is selected in proportion to a size of the stamp material to provide a uniform pressure on the holding unit irrespective of the size of the stamp material. When the holding unit (U) is pressed in the presser unit (141), a reaction force works on portions of the presser unit and the irradiation unit (110) in proportion to the stamp material size. The reaction force causes portions of the presser unit and irradiation unit to bend. Thus, the height of the holding unit is selected in proportion to the stamp material size so as to absorb the bending or to increase the amount of pressure. Thus, the stamp material can be pressed uniformly in the stamp manufacturing device regardless of the stamp material size ensuring a good quality manufactured stamp surface. |
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| 165 | Device for making stamps | EP95113172.1 | 1995-08-22 | EP0698498B1 | 2000-04-19 | 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. |
| 166 | Stamp unit | EP99306543.2 | 1999-08-19 | EP0990534A1 | 2000-04-05 | Okumura, Takashi; Takami, Hiroshi; Imamaki, Teruo; Yamamoto, Minoru; Suda, Mitsunobu; Seo, Keiji; Taira, Hiroshi |
A stamp unit 1 in which the circumference of the stamp material 3 is made slant surface 83 by heat-pressing both the lower end 4a of the holder 4 and the circumference of the stamp material 3, and the lower end 4a of the holder 4 is formed in the wedge 82 so as to hook the circumference of the stamp material 3, thereby the stamp material 3 can be surely retained to the holder 4 and the stamp material 3 and the holder 4 can be firmly sealed, as a result, stamping durability is remarkably improved when many stamping operations are repeated. |
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| 167 | SEAL MANUFACTURING APPARATUS | EP94909316.5 | 1994-03-15 | EP0644059B1 | 1999-12-15 | 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. | ||||||
| 168 | Method of producing a planar stamp | EP97309801.5 | 1997-12-04 | EP0853004A1 | 1998-07-15 | Miyata, Hiroyasu |
A method of producing a planar stamp including a stamp member (11), an ink reservoir (13), and a stamp frame (12). In the method, after fitting the ink reservoir into the stamp frame, the stamp member, without a print surface and made of a polyethylene foam sheet, is adhered to the stamp frame in order to enclose it in the stamp frame, whereby a planar stamp portion is assembled. Then, a thermal head (18) of a print surface forming apparatus (17) is moved along an entire surface of the stamp member, while the thermal head is in contact with the stamp member, in order to form a print surface. Lastly, ink is injected into the ink reservoir in order to impregnate the stamp member with the ink. |
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| 169 | Seal making device | EP97119551.6 | 1994-03-15 | EP0832755A1 | 1998-04-01 | 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. |
An apparatus for making a seal comprises a seal face member composed of a photosensitive resin layer, imprint figure information generating means, and imprint figure writing means. The imprint figure information generating means comprises image data generating means; instruction means for instructing a contour of the seal to be made; first storage means for storing the contour; second storage means for storing the image data; imprint figure indicating means for reading the data from the first and second storage means; third storage means for storing position of image data surrounded by the read surrounding frame based on indication from the instructing means for instructing a prohibition against automatically adding the surrounding frame; fourth storage means for setting a flag when an instruction of prohibition against automatically adding the surrounding frame is inputted; judgement means judging the surrounding frame taking-off flag being set; and image synthesizing means reading data from the first and third storage when the surrounding frame taking-off flag is not set. |
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| 170 | Stamp material, stamp material-setting jig and stamp assembly | EP97113990.2 | 1997-08-13 | EP0826507A1 | 1998-03-04 | Hayama, Hotishi |
There is provided a stamp material comprising a stamp portion and a stock for holding the stamp portion. The stamp portion includes a stamp surface-forming portion for forming a stamp surface therefrom. The stamp portion is removably mounted in the stock. According to another aspect, there is provided a stamp material-setting jig (D) for setting the stamp material (Aa) in a stamp-making apparatus. The stamp material-setting jig has a mounting recess (81) formed in one surface for mounting the stock therein, and a positioning portion (68,69) formed in an opposite surface to the one surface for effecting positioning of the stamp material in the stamp-making apparatus. |
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| 171 | A stamp producing device | EP97302073.8 | 1997-03-26 | EP0798114A3 | 1997-10-08 | Fuwa, Tetsuji, c/o Brother Kogyo K.K. |
A stamp producing device including: a plate-shaped and porous stamp member (20) with at least one surface (22A) having open cells; a heating unit (120) using a laser light beam to melt the surface of the stamp member; a drive unit (60) for generating relative movement between the heating unit and the surface of the stamp member; a controller (118) for driving the drive unit to generate relative movement between the heating unit and the surface of the stamp member and for selectively driving the heating unit according to a print pattern (24) to melt the surface of the stamp member in order to form a thin-film layer (25) for blocking transmission of ink according to the print pattern. |
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| 172 | A stamp producing device | EP97302073.8 | 1997-03-26 | EP0798114A2 | 1997-10-01 | Fuwa, Tetsuji, c/o Brother Kogyo K.K. |
A stamp producing device including: a plate-shaped and porous stamp member (20) with at least one surface (22A) having open cells; a heating unit (120) using a laser light beam to melt the surface of the stamp member; a drive unit (60) for generating relative movement between the heating unit and the surface of the stamp member; a controller (118) for driving the drive unit to generate relative movement between the heating unit and the surface of the stamp member and for selectively driving the heating unit according to a print pattern (24) to melt the surface of the stamp member in order to form a thin-film layer (25) for blocking transmission of ink according to the print pattern. |
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| 173 | 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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| 174 | COMPRESSIBLE PRINTING BLANKET AND METHOD OF MAKING SAME | EP92924433.0 | 1992-11-13 | EP0612281A1 | 1994-08-31 | BYERS, Joseph, L.; FLINT, W., Toriran; KERR, Richard, C. |
| L'invention se rapporte à un blanchet d'impression compressible stratifié à plusieurs épaisseurs (10), conçu pour être utilisé dans l'impression offset et comprenant dans l'ordre une première épaisseur de tissu compressible (12), une couche élastomère compressible (24), au moins deux épaisseurs de tissu additionnelles (32, 34) placées sur la couche élastomère compressible, une surface élastomère (44) et une face d'impression élastomère (46) déposée par un processus sans solvant et présentant un profil de surface destiné à réduire l'élargissement des points tout en améliorant la libérabilité de la matière imprimée. Au moins dans l'épaisseur de tissu inférieure (12) est incorporé un revêtement protecteur destiné à empêcher l'effet de mèche des encres, de l'eau et/ou des solvants à travers le blanchet, qui pourrait autrement conduire au gonflement et au décollement interlaminaire des diverses épaisseurs. En outre, à la fois les épaisseurs de tissu et la couche compressible sont au moins partiellement recouvertes d'un matériau matriciel (20) dans lequel sont dispersées plusieurs cellules fermées (26) obtenues par exemple grâce à l'utilisation d'agents gonflants ou par addition de plusieurs microsphères expansées ou expansibles. Les articles pouvant également être formés à partir de cette structure composite sont notamment des joints d'étanchéité, des matériaux d'emballage, des membranes flexibles ou des blanchets d'impression. | ||||||
| 175 | Druckplatte für den Rotationsdruck | EP88114808.4 | 1988-09-09 | EP0306986B1 | 1993-07-28 | Temporin, Daniele |
| 176 | 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 |
| 177 | Verfahren und Installation zur Herstellung einer Mehrfachform für die Reproduktion von Stichtiefdruckplatten | EP89810144.9 | 1989-02-23 | EP0335830A2 | 1989-10-04 | Coluzzi, Antonio |
Zur Herstellung einer Mehrfachform für die Reproduktion von Stichtiefdruckplatten wird eine in der Wärme verformbare Kunststoffplatte (4), die im wesentlichen die Abmessungen der gewünschten Stichtiefdruckplatte hat, zwischen einer gravierten Originalplatte und einer Elektrode (7) mittels eines verschiebbaren Rahmens (3) in eine dem ersten herzustellenden Abdruck entsprechende Stellung gebracht und in einer Unterdruckkammer unter Hochfrequenzerwärmung durch Warmpressen mit dem ersten Abdruck (23) versehen; nach Abkühlung und Abheben der Originalplatte wird die Kunststoffplatte (4) in die dem zweiten Abdruck (23) entsprechende Stellung verschoben und dort mit dem gleichen Abdruck versehen; diese Operationen werden wiederholt, bis die gewünschte Anzahl und Anordnung der Abdrücke erzeugt sind. |
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| 178 | 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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| 179 | Druckplatte für den Rotationsdruck | EP88114808.4 | 1988-09-09 | EP0306986A2 | 1989-03-15 | Temporin, Daniele |
Die gegenueberliegenden Enden (2, 3) einer Druckplatte (1) fuer den Rotationsdruck werden gegenseitig zusammengefuegt, um eine zylinderfoermige Druckplatte (1) herzustellen, die auf einem Druckzylinder aufziehbar ist, z.B. auf einem im Durchmesser dehnbaren Druckzylinder. Die Verbindung wird dadurch hergestellt, dass die fotoempfindliche Beschichtung (5) der Druckplatte (1) an zwei endseitigen Raendern abgetragen wird, dass an einem Plattenende (2) eine abgebogene Kroepfung (12) gebildet wird und, dass das andere ca. um 90° gebogene Ende (11) in die Kroepfung eingesetzt wird. Die Verbindung kann laengs einer Mantellinie des Zylinders oder laengs einer gegenueber den Mantellinien des Zylinders geneigten Linie erfolgen. Die Platte (1) kann mit den abgebogenen und radial nach innen abstehenden Raendern (2, 3) montiert werden, oder aber, diese Raender (2, 3) koennen gegenueber dem Zylinderradius geneigt angeordnet sein. Der Zwischenraum, der sich zwischen den zwei nebeneinanderliegenden Abkroepfungen (11, 12) der Endraender (2, 3) der Druckplatte (1) bildet, wird mit aushaertendem Material (9) gefuellt. Somit wird eine Verbindung geschaffen, die in Umfangsrichtung eine kontinuiertliche, glatte Flaeche fuer die Druckplatte (1) bildet. Das Fuellmaterial (9) kann nach erfolgtem Einsatz der Druckplatte entfernt werden, und damit ein Lagern der Druckplatte (1) als flache Platte ermoeglichen. Alternativ kann die Verbindung der Plattenenden (2, 3) auch dauerhaft erfolgen, indem ein Klebstoff (8) zwischen die abgekroepften Teile, eingebracht wird, um somit eine dauerhafte Verbindung auch in Axialrichtung zu schaffen. |
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| 180 | Apparatus for cutting printing plates | EP82300732.3 | 1982-02-15 | EP0058547B1 | 1984-12-19 | Marsh, Charles Richard |
