子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 记录装置 | CN201510266080.X | 2015-05-22 | CN105172391A | 2015-12-23 | 首藤亮一; 津山和彦; 坂元直树; 田岛裕之 |
| 本发明提供一种记录装置,其构成为具备滑架驱动用马达、输送用马达、以及将输送用马达的动力传递至输送辊的驱动机构,可实现更进一步的小型化。打印机(1)具备:具备喷墨记录头(21)并能够沿第1方向和作为其相反方向的第2方向移动的滑架(17);对纸张输送构件传递马达的动力的齿轮组(33);向齿轮组(33)传递动力的输送构件驱动马达(32);以及驱动滑架(17)的滑架驱动马达(47)。滑架驱动马达(47)的至少一部分和齿轮组(33)的至少一部分在滑架(17)的移动方向(x方向)上位于相同的位置。 | ||||||
| 2 | 记录装置 | CN201510266080.X | 2015-05-22 | CN105172391B | 2017-08-25 | 首藤亮一; 津山和彦; 坂元直树; 田岛裕之 |
| 本发明提供一种记录装置,其构成为具备滑架驱动用马达、输送用马达、以及将输送用马达的动力传递至输送辊的驱动机构,可实现更进一步的小型化。打印机(1)具备:具备喷墨记录头(21)并能够沿第1方向和作为其相反方向的第2方向移动的滑架(17);对纸张输送构件传递马达的动力的齿轮组(33);向齿轮组(33)传递动力的输送构件驱动马达(32);以及驱动滑架(17)的滑架驱动马达(47)。滑架驱动马达(47)的至少一部分和齿轮组(33)的至少一部分在滑架(17)的移动方向(x方向)上位于相同的位置。 | ||||||
| 3 | RECORDING APPARATUS | EP15171841.8 | 2015-06-12 | EP2955025A1 | 2015-12-16 | SHUTO, Ryoichi; TSUYAMA, Kazuhiko; SAKAMOTO, Naoki; TAJIMA, Hiroyuki |
A printer includes a carriage which includes an ink jet recording head and is movable in a first direction and a second direction that is an opposite direction to the first direction, a gear group which transmits power of a motor to a sheet transporter, a transporter drive motor which transmits power to the gear group, and a carriage drive motor which drives the carriage. At least a portion of the carriage drive motor and at least a portion of the gear group are at the same position as each other in a movement direction (x direction) of the carriage.
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| 4 | METHOD OF FORMING UNIFORM LINES ON A SUBSTRATE | EP05759857.5 | 2005-07-08 | EP1789205A1 | 2007-05-30 | CLARKE, Andrew |
| A method of providing liquid generated lines by droplet methods by controlling the material parameters and the printing parameters that lead to the contact angle of the rivulet formed by the droplets being below the advancing contact angle at all times. | ||||||
| 5 | FLAT BED DAISY WHEEL HOT DEBOSSING STAMPER | EP94920176.8 | 1994-06-16 | EP0702628B1 | 2002-08-28 | GROSWITH, Charles, T., III; BANKS, William, A.; DUVAL, Eugene, F.; GRAY, Roger, M.; HEISTAND, Raymond, D., II; KOCKLER, Barry, C.; SHANNON, Warren, K.; SMITH, Robert, E.; USITALO, William, J. |
| A dual station hot debossing stamper (10) for a report or book cover includes a print engine (20) having a character finger daisy wheel forcer and a logo die forcer which are actuatable independently by a common servo motor (90) through respective gear trains. The print engine moves line-by-line and a platen moves character-by-character. A print wheel (30) is inserted and locked into the engine in a character debossment operation with a motor (39) driving the print wheel (30). When using a logo die (52), the print wheel (30) and casing is removed and using a loader-unloader tool (50) the die is articulated under the logo die forcer. Insertion of a logo transfer tape cartridge (60) shifts the gears in the print engine (20). A second character tape cartridge (40) is used with the print wheel (30). A dedicated personal computer (5) and associated software and firmware programs control the stamping apparatus. | ||||||
| 6 | FLAT BED DAISY WHEEL HOT DEBOSSING STAMPER | EP94920176.0 | 1994-06-16 | EP0702628A1 | 1996-03-27 | GROSWITH, Charles, T., III; BANKS, William, A.; DUVAL, Eugene, F.; GRAY, Roger, M.; HEISTAND, Raymond, D., II; KOCKLER, Barry, C.; SHANNON, Warren, K.; SMITH, Robert, E.; USITALO, William, J. |
| A dual station hot debossing stamper (10) for a report or book cover includes a print engine (20) having a character finger daisy wheel forcer and a logo die forcer which are actuatable independently by a common servo motor (90) through respective gear trains. The print engine moves line-by-line and a platen moves character-by-character. A print wheel (30) is inserted and locked into the engine in a character debossment operation with a motor (39) driving the print wheel (30). When using a logo die (52), the print wheel (30) and casing is removed and using a loader-unloader tool (50) the die is articulated under the logo die forcer. Insertion of a logo transfer tape cartridge (60) shifts the gears in the print engine (20). A second character tape cartridge (40) is used with the print wheel (30). A dedicated personal computer (5) and associated software and firmware programs control the stamping apparatus. | ||||||
| 7 | A method of forming a uniform line on a substrate | JP2007522007 | 2005-07-08 | JP2008510597A | 2008-04-10 | クラーク,アンドリュー |
| 液滴によって形成される微細流の接触角を常に前進接触角よりも小さくする材料パラメータ及びプリントパラメータを制御することによって、液滴法による液体で生成された線を供する方法。
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| 8 | Ink-jet recording apparatus | JP16640392 | 1992-06-24 | JP3110872B2 | 2000-11-20 | 稔明 広沢; 能史 服部; 実 野沢; 賢治 青野 |
| 9 | Flatbed daisy-wheel hot debossed stamper | JP50290194 | 1994-06-16 | JPH09501363A | 1997-02-10 | ウシタロ、ウィリアム・ジェイ; グレイ、ロジャー・エム; グロスウィズ、チャールズ・ティー・ザサード; コックラー、バリー・シー; シャノン、ウォレン・ケイ; スミス、ロバート・イー; デュバル、ユージーン・エフ; ハイスタンド、レイモンド・ディー・ザセカンド; バンクス、ウィリアム・エイ |
| (57)【要約】 レポートや本のための2重ステーション式ホットデボス加工用スタンパ(10)であって、対応するギア列を介して共通のサーボモータ(90)によって個別に動作可能な文字フィンガーデイジーホイールフォーサ及びロゴダイフォーサを備えたプリントエンジン(20)を有する。 プリントエンジンはラインごとに移動し、プラテンは文字ごとに移動する。 プリントホイール(30)が、エンジン内に挿入されかつロックされ、モータ(39)がプリントホイール(30)を駆動し、文字デボス加工動作を行う。 ロゴダイ(52)を用いる場合、プリントホイール(30)及びケーシングが取り外され、ローダ−アンローダ工具(50)を用いてダイがロゴダイフォーサによって関節状に運動する。 ロゴ転写テープカートリッジ(60)を挿入することにより、プリントエンジンのギアがシフトされる。 プリントホイール(30)とともに第2の文字テープカートリッジ(40)が用いられる。 専用のパソコン(5)及び対応するソフトウェア及びファームウェアがスタンプ装置を制御する。 | ||||||
| 10 | Type for typewriter | JP17213983 | 1983-09-20 | JPS6064852A | 1985-04-13 | HORIE MASAYOSHI; KISHIKAWA ZENZOU; OOISHI KAGEYASU |
| PURPOSE:To improve the printing lifetime by injection molding thermoplastic resin which contains inorganic filler of particular or fibrous state, thereby reducing the weight of a type for a typewriter. CONSTITUTION:Filler is fibrous material such as spherical to particular glass fiber or carbon fiber of silica, silicon carbide or glass. Particle diameter of the spherical or particular shape is preferably 3-20mum, and the shape of the fibrous material has preferably 3-20mum of diameter, 30-50mum or length. Thermoplastic resin employs polycarbonate and polyether sulphone, and the content of the filler in the resin composition is preferably 4-40%(wt.). | ||||||
| 11 | Cutting method of cavity for molding printing type | JP6344882 | 1982-04-15 | JPS58181511A | 1983-10-24 | HASHIMOTO MASAHITO |
| PURPOSE:To improve quality of a printing type with simple control program, by forming a circular arc shaped locus in such a manner that the central part passes through the central part of a salient curved surface and both end parts pass through points deflectively positioned to the outside from both end parts of the salient curved surface while the center of the locus is located below the center of the salient curved surface. CONSTITUTION:A locus of the reference point P of an end mill 1 is programmed so as to draw a circular arc of radius R1, and this locus of circular arc shape is constituted such that a central part of the locus passes through the central part B of a salient curved surface 3 while both end parts pass through points A, C deflectively positioned by (r) to the outside from both end parts of the surface 3 and the radius R1 of the arc is formed larger than a radius R of the surface 3 then the center O3 of the arc is located below the center 0 of the surface 3. Then a linear part 8 is generated in the central part of the surface 3 cut for a minimum setting unit delta of a milling cutter controller, here a width 2alpha of the part 8 is smaller about 2r as compared with a conventional width, and a circular arc of one kind throughout a total range is only required as a control program of the end mill 1. | ||||||
| 12 | DEBRIS SWEEP AND DRY ASSIST DEVICE FOR STRAP PRINTING | EP12701044.5 | 2012-01-11 | EP2663453A1 | 2013-11-20 | BRUZZESI, Kevin A.; THAS, Wayne J. |
| A debris sweep and dry assist device is for use with a strapping machine. The debris sweep and dry assist device is positioned between the strapping machine and an associated strap supply. The device includes a body having a strap inlet and a strap outlet and defining a strap path therethrough. The body has a first wall at about the strap inlet and a second wall at about the strap outlet. The body has a first manifold and a plurality of first branches extending between the first manifold and the first wall to provide a plurality of flow paths from the first manifold to the environs through the first branches. A compressed is gas directed into the first manifold and flows out of the first branches, and is directed onto strap material at a location at about the strap inlet. | ||||||
| 13 | METHOD OF FORMING UNIFORM LINES ON A SUBSTRATE | EP05759857.5 | 2005-07-08 | EP1789205B1 | 2010-04-07 | CLARKE, Andrew |
| 14 | STEMPELVORRICHTUNG MIT EINEM TINTENDRUCKKOPF | EP00945574.2 | 2000-05-27 | EP1200267B1 | 2003-04-02 | BAITZ, Guenter; BURCHART, Joachim |
| A stamping device (10") which is used to print predefinable information on an object (G). The inventive stamping device is placed on top of the object (G) which is to be printed upon and comprises an ink print head (106) and a cover (142) for the nozzle plate of the print head (106), whereby said cover is arranged in the housing (90) of the stamping device (10") and the nozzle plate of the print head (106) is placed or can be placed thereon when the printing device (104) is in a rest position. | ||||||
| 15 | STEMPELVORRICHTUNG MIT EINEM TINTENDRUCKKOPF | EP00945574.2 | 2000-05-27 | EP1200267A1 | 2002-05-02 | BAITZ, Guenter; BURCHART, Joachim |
| A stamping device (10') which is used to print predefinable information on an object (G). The inventive stamping device is placed on top of the object (G) which is to be printed upon and comprises an ink print head (106) and a cover (142) for the nozzle plate of the print head (106), whereby said cover is arranged in the housing (90) of the stamping device (10') and the nozzle plate of the print head (106) is placed or can be placed thereon when the printing device (104) is in a rest position. | ||||||
| 16 | FLAT BED DAISY WHEEL HOT DEBOSSING STAMPER | EP94920176 | 1994-06-16 | EP0702628A4 | 1996-12-27 | GROSWITH CHARLES T III; BANKS WILLIAM A; DUVAL EUGENE F; GRAY ROGER M; HEISTAND RAYMOND D II; KOCKLER BARRY C; SHANNON WARREN K; SMITH ROBERT E; USITALO WILLIAM J |
| A dual station hot debossing stamper (10) for a report or book cover includes a print engine (20) having a character finger daisy wheel forcer and a logo die forcer which are actuatable independently by a common servo motor (90) through respective gear trains. The print engine moves line-by-line and a platen moves character-by-character. A print wheel (30) is inserted and locked into the engine in a character debossment operation with a motor (39) driving the print wheel (30). When using a logo die (52), the print wheel (30) and casing is removed and using a loader-unloader tool (50) the die is articulated under the logo die forcer. Insertion of a logo transfer tape cartridge (60) shifts the gears in the print engine (20). A second character tape cartridge (40) is used with the print wheel (30). A dedicated personal computer (5) and associated software and firmware programs control the stamping apparatus. | ||||||
| 17 | RECORDING APPARATUS | US15189742 | 2016-06-22 | US20160297201A1 | 2016-10-13 | Ryoichi SHUTO; Kazuhiko Tsuyama; Naoki Sakamoto; Hiroyuki Tajima |
| A printer includes a carriage which includes an ink jet recording head and is movable in a first direction and a second direction that is an opposite direction to the first direction, a gear group which transmits power of a motor to a sheet transporter, a transporter drive motor which transmits power to the gear group, and a carriage drive motor which drives the carriage. At least a portion of the carriage drive motor and at least a portion of the gear group are at the same position as each other in a movement direction (x direction) of the carriage. | ||||||
| 18 | Liquid ejecting head and liquid ejecting apparatus | US13433824 | 2012-03-29 | US09272294B2 | 2016-03-01 | Nozomi Ogawa; Hajime Nakao; Isamu Togashi |
| The portions at the circumferential edges of a flow channel formation plate in which the corner portions of a dummy flow channel portion are formed are weaker than other portions, and thus when thermal stress has occurred due to temperature changes when the constituent elements of a flow channel unit are affixed to each other, cracks can be induced preferentially in the weak portion, rather than the other portions, starting from the ends of the corner portions. In particular, although similar corner portions are formed in a common liquid chamber, the intersection angle of the corner portions in the dummy flow channel portion is smaller than the intersection angle of the corner portions in the common liquid chamber, and thus it is easier for stress to concentrate in the corner portions of the dummy flow channel portion. | ||||||
| 19 | Transfer image forming method, transfer image forming apparatus, and intermediate transfer member to be used therein | US14161013 | 2014-01-22 | US09102137B2 | 2015-08-11 | Noribumi Koitabashi; Haruhiko Terai; Toru Ohnishi |
| A transfer image forming apparatus includes ink applying unit for applying ink to an intermediate transfer member to form an intermediate image; a heating unit for irradiating the intermediate transfer member with at least infrared light to heat the intermediate image; and a transferring unit for pressing a recording medium against the intermediate transfer member having formed thereon the intermediate image to transfer the intermediate image onto the recording medium. The intermediate transfer member includes a substrate, and at least a second layer, a metal layer, and a first layer as a surface layer provided in the listed order on the substrate. The heat conductivity of the second layer is smaller than that of the first layer. | ||||||
| 20 | Method and a device for determining multi-ink color separations | US10143492 | 2002-05-09 | US07123380B2 | 2006-10-17 | Jean-Pierre Van de Capelle |
| A method to convert a color provided in a first color space into a color in a second color space defined by more than four colorants and a reproduction process. The method includes converting the color into a third color space, determining which of a set of gamut volumes defined in the third color space is appropriate for the color, with each point in the gamut volume achievable by an area coverage greater than zero and less than 100% of two of the colorants and an area coverage greater than zero and less than 100% of one or more darkening colorants with the remaining colorants either absent or at 100%. The method further includes carrying out any gamut mapping on the converted color so that the converted color is in the appropriate gamut volume and converting the gamut mapped color from the third color space into a set of the colorants of the second color space, such that the surface of any gamut volume with no darkening colorant is part of an umbrella surface for the N inks. | ||||||
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