| 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 | 热转印 | CN200880021339.2 | 2008-06-17 | CN101715395B | 2012-06-27 | J·M·豪厄尔; P·C·W·布彻 |
| 本发明涉及一种用于从热再转印片材向物品热转印图像的设备,包括加热装置和摆动叶片装置,所述加热装置适于提供加热气体流以产生染料转印,所述摆动叶片装置用于沿横向于流动方向的方向引导加热气体,以在染料转印期间在物品上散布加热气体。本发明还公开了一种印制图像的方法以及所形成的印制物品。 | ||||||
| 2 | 记录装置 | CN200780000954.0 | 2007-02-02 | CN101346239A | 2009-01-14 | 伊藤超 |
| 在覆盖打印头的散热片的散热片的保护罩(10)上安装带导向件(11)。在该保护罩(10)一侧具备承受凹部(22)和斜面导向件(24)等用于与带导向件(11)配合的构造。另一方面,在带导向件(11)一侧还形成承受该构造的与保护罩(10)的承受凹部(22)和斜面导向件(24)等构造的形状相对应的形状的部件。这样,通过将该带导向件(11)从散热片的保护罩(10)的前方侧向后方压入的一个操作,便可将将该带导向件(11)安装在散热片的保护罩(10)上。 | ||||||
| 3 | 墨带盒以及打印装置 | CN201410279582.1 | 2014-06-20 | CN104275951B | 2017-04-12 | 桥本昌也 |
| 本发明公开一种墨带盒以及打印装置。能够稳定地输送墨带的所述墨带盒和所述打印装置包括:供给轴,围绕所述供给轴卷绕有墨带;重绕轴,围绕所述重绕轴重绕来自所述供给轴的所述墨带;引导轴,其被配置为在从所述供给轴到所述重绕轴的所述墨带的输送路径上抵靠所述墨带;以及调整部,其能够抵靠所述引导轴,并被配置为根据所述墨带施加给所述引导轴的力而抵靠所述引导轴,使得所述引导轴变形以向所述墨带突出。 | ||||||
| 4 | 墨带盒以及打印装置 | CN201410279582.1 | 2014-06-20 | CN104275951A | 2015-01-14 | 桥本昌也 |
| 本发明公开一种墨带盒以及打印装置。能够稳定地输送墨带的所述墨带盒和所述打印装置包括:供给轴,围绕所述供给轴卷绕有墨带;重绕轴,围绕所述重绕轴重绕来自所述供给轴的所述墨带;引导轴,其被配置为在从所述供给轴到所述重绕轴的所述墨带的输送路径上抵靠所述墨带;以及调整部,其能够抵靠所述引导轴,并被配置为根据所述墨带施加给所述引导轴的力而抵靠所述引导轴,使得所述引导轴变形以向所述墨带突出。 | ||||||
| 5 | 热转印 | CN200880021339.2 | 2008-06-17 | CN101715395A | 2010-05-26 | J·M·豪厄尔; P·C·W·布彻 |
| 本发明涉及一种用于从热再转印片材向物品热转印图像的设备,包括加热装置和摆动叶片装置,所述加热装置适于提供加热气体流以产生染料转印,所述摆动叶片装置用于沿横向于流动方向的方向引导加热气体,以在染料转印期间在物品上散布加热气体。本发明还公开了一种印制图像的方法以及所形成的印制物品。 | ||||||
| 6 | 记录装置 | CN200780000954.0 | 2007-02-02 | CN100595074C | 2010-03-24 | 伊藤超 |
| 在覆盖打印头的散热片的散热片的保护罩(10)上安装带导向件(11)。在该保护罩(10)一侧具备承受凹部(22)和斜面导向件(24)等用于与带导向件(11)配合的构造。另一方面,在带导向件(11)一侧还形成承受该构造的与保护罩(10)的承受凹部(22)和斜面导向件(24)等构造的形状相对应的形状的部件。这样,通过将该带导向件(11)从散热片的保护罩(10)的前方侧向后方压入的一个操作,便可将将该带导向件(11)安装在散热片的保护罩(10)上。 | ||||||
| 7 | 墨带盒 | CN200610105664.X | 2006-07-17 | CN1899839A | 2007-01-24 | 丸山贵史; 阿部荣文; 本木善幸 |
| 本发明提供一种墨带盒,其形成可引导从形成于壁部端部的带滑动接触部露出的墨带的带导向部,即使位于带滑动接触部的墨带存在松弛,也可正常地安装于打印机主体部。墨带盒(1)的第一、第二带收纳部(4)、(7)具有壁部(4a)、(7a),该壁部具有规定的间隙并相互相对,墨带(2)能够从供给卷轴(3),与形成于第一带收纳部的第一壁部的第一带滑动接触部(4c)滑动接触,并且与形成于第二带收纳部的第一壁部的第二带滑动接触部(7c)滑动接触,被卷取于卷取卷轴(6),在第二带滑动接触部的外侧形成带导向部(10),其可防止在将墨带盒向打印机主体部(未图示)安装时、从第二带滑动接触部露出的墨带与打印机主体部接触。 | ||||||
| 8 | Thermal transfer printing | US12665785 | 2008-06-17 | US08189023B2 | 2012-05-29 | Jeffrey Michael Howell; Peter Charles William Butcher |
| Apparatus for thermal transfer printing of an image from a thermal retransfer sheet onto an article, includes heating means adapted to supply a flow of heated gas for causing dye transfer, and oscillating vane means for directing the heated gas in a direction transverse to the direction of flow, for distributing the heated gas over article(s) during dye transfer. Also disclosed is a method of printing an image, and the resulting printed article. | ||||||
| 9 | Preventing crease formation in donor web in dye transfer printer that can cause line artifact on print | US10394888 | 2003-03-21 | US06812945B2 | 2004-11-02 | Zhanjun J. Gao; Po-Jen Shih; Robert F. Mindler |
| A thermal printer is adapted to prevent crease formation in a dye transfer area of a dye donor web that can cause line artifacts to be printed on a dye receiver during a dye transfer from the dye transfer area to the dye receiver in a dye transfer printer. | ||||||
| 10 | Preventing crease formation in donor web in dye transfer printer that can cause line artifact on print | US10242262 | 2002-09-12 | US06744456B2 | 2004-06-01 | Terrence L. Fisher; Richard Salter |
| In a dye transfer printer, a donor web having successive dye transfer areas and opposite longitudinal edge areas alongside each one of the dye transfer areas is subjected to a longitudinal tension when the donor web is advanced in the printer. The longitudinal tension can stretch the dye transfer areas more than the edge areas because the dye transfer areas, but not the edge areas, are heated at a print head. According to the invention, the resistance of the edge areas relative to the dye transfer areas, to being stretched, is weakened so that the edge areas can be stretched substantially the same as the dye transfer areas. If the edge areas alongside a dye transfer area being used are stretched substantially the same as the dye transfer area, the likelihood of any creases being created in the next unused transfer area is substantially reduced. Thus, no line artifacts will be printed on a dye receiver during dye transfer in the printer. | ||||||
| 11 | Preventing crease formation in donor web in dye transfer printer that can cause line artifact on print | US10242262 | 2002-09-12 | US20040051775A1 | 2004-03-18 | Terrence L. Fisher; Richard Salter |
| In a dye transfer printer, a donor web having successive dye transfer areas and opposite longitudinal edge areas alongside each one of the dye transfer areas is subjected to a longitudinal tension when the donor web is advanced in the printer. The longitudinal tension can stretch the dye transfer areas more than the edge areas because the dye transfer areas, but not the edge areas, are heated at a print head. According to the invention, the resistance of the edge areas relative to the dye transfer areas, to being stretched, is weakened so that the edge areas can be stretched substantially the same as the dye transfer areas. If the edge areas alongside a dye transfer area being used are stretched substantially the same as the dye transfer area, the likelihood of any creases being created in the next unused transfer area is substantially reduced. Thus, no line artifacts will be printed on a dye receiver during dye transfer in the printer. | ||||||
| 12 | Preventing crease formation in donor web in dye transfer printer that can cause line artifact on print | US10242241 | 2002-09-12 | US20040051774A1 | 2004-03-18 | Terrence L. Fisher |
| A method of equalizing web-stretching caused by web tensioning in a dye transfer printer that is for use with a donor web having a dye transfer area and opposite edge areas alongside the dye transfer area, includes the steps of heating a dye transfer area to effect a dye transfer from the dye transfer area to a dye receiver, and heating the edge areas alongside the dye transfer area less than the dye transfer area is heated to effect the dye transfer, but sufficiently so that the edge areas may be stretched by tension substantially the same as the dye transfer area may be stretched. If the edge areas alongside a dye transfer area being used in the printer are stretched substantially the same as the dye transfer area, the likelihood of any creases being created in the next unused transfer area is substantially reduced. Thus, no line artifacts will be printed on a dye receiver in the printer. | ||||||
| 13 | Printer | US09604617 | 2000-06-27 | US06558055B1 | 2003-05-06 | Mitsuharu Shishido; Yuji Nakagaki |
| The present invention is directed toward a printer having a ribbon guide capable of reflecting light emitted from a paper detection sensor away from the paper detection sensor in the absence of a printing paper. As a result, the possibility of erroneous recognition of paper detection is eliminated. There are provided a print head 1, a ribbon guide 3 attached to the print head, and a reflection-type paper detection sensor 4 arranged on a side of the platen in a manner opposed to a printing paper P passing between the platen and the ribbon guide 3 to emit light for detecting the printing paper. The ribbon guide 3 is formed with sloped surfaces 3b and 3d that are inclined relative to a surface of a printing paper P to reflect the light emitted from the paper detection sensor 4 toward a position away from the paper detection sensor. | ||||||
| 14 | Ribbon tracking system | US09921098 | 2001-07-31 | US06491455B1 | 2002-12-10 | Caleb Bryant |
| A ribbon tracking system for use in a printer, scanner or the like includes a carbon fiber-based plastic printer wire shroud having a first portion coupled to the printer ribbon frame downstream from the printhead, a second portion spaced apart from and generally parallel to the first portion and adapted to contact a moving ribbon at a curved front edge during printer operation, and a substantially small integral neck portion coupled centrally between the first and second portions. The neck portion functions as a living hinge permitting the second portion to deflect toward and/or away from the first portion, or in any combination of directions thereof, to automatically equalize stress differentials between various portions of the moving ribbon so as to prevent wrinkling and/or buckling, of the ribbon. | ||||||
| 15 | Thermal transfer recording apparatus | US239760 | 1988-09-02 | US4893134A | 1990-01-09 | Junichi Yamamoto; Akihiko Onuma; Kouji Shibuya; Yasukuni Omata |
| A thermal transfer recording apparatus for carrying out recording by driving a thermal head to transfer ink of an ink film in transportation. This apparatus includes a separating device disposed downstream of the thermal head with respect to a direction of ink film movement and spaced from a platen roller. The separating device has an uneven surface. | ||||||
| 16 | Ribbon Cassette Including Ink Ribbon, First Spool, and Second Spool | US15718232 | 2017-09-28 | US20180015759A1 | 2018-01-18 | Hisako Tonishi; Tsutomu Kato; Susumu Murata; Akiko Kodama |
| A ribbon cassette includes a case, an ink ribbon, a first spool, a second spool, a rotating member, a clutch spring, and an engaging part. The ink ribbon has one end portion wound over the first spool and another end portion connected to the second spool. The rotating member is engaged with a first inner surface of the first spool. The clutch spring includes a coil like annular part attached to the rotating member, and an extension part extending from the annular part. The engaging part is positioned on a locus of rotation of the extension part. The first spool has a protrusion provided at a second inner surface of the first spool. The case-hole is in communication with an interior of the first spool, and has a portion overlapped with an entire circular region surrounded by a path of rotation of the tip end of the protrusion. | ||||||
| 17 | INK RIBBON CASSETTE AND PRINTING APPARATUS | US14320363 | 2014-06-30 | US20150002602A1 | 2015-01-01 | Masaya Hashimoto |
| An ink ribbon cassette and printing apparatus capable of stably conveying an ink ribbon includes a supply shaft around which an ink ribbon is wound, a rewinding shaft around which the ink ribbon from the supply shaft is to be rewound, a guide shaft configured to abut the ink ribbon on a conveying path of the ink ribbon from the supply shaft to the rewinding shaft, and a regulation portion configured to abut the guide shaft according to a force applied to the guide shaft by the ink ribbon, thereby deforming the guide shaft to protrude toward the ink ribbon. | ||||||
| 18 | Ribbon feeder and printer | US11579861 | 2005-06-06 | US07798733B2 | 2010-09-21 | Masahiko Ueda; Seiji Morita; Hiroshi Sakurai |
| Ribbon tension detecting means (20, 21), which are formed of a plate-like lever body (35) each, are located individually on the upstream side and the downstream side of a platen (7) with respect to its travel. The plate-like lever body (35) has first and second rollers (47, 48) on the upstream and downstream sides with respect to travel of a ribbon, and swings around an axis of rotation of the second roller (48), depending on a tension of the ribbon traveling guided by the rollers (47, 48). If the amount of its swing is not less than or not more than a fixed value, a ribbon feed motor (18) or a ribbon take-up motor (19) is driven. Further, the ribbon tension detecting means (20, 21) are provided with a smoothing member which touches the ink ribbon (13) to remove wrinkles from the ink ribbon (13). | ||||||
| 19 | Ink ribbon cassette | US11487616 | 2006-07-17 | US07594770B2 | 2009-09-29 | Takahito Maruyama; Yoshibumi Abe; Zenko Motoki |
| An ink ribbon cassette is provided. A first and second ribbon-receiving parts of an ink ribbon cassette according to the invention includes wallsthat face each other with a predetermined distance therebetween. An ink ribbon slides on a first ribbon-sliding portion formed at a first wall of the first ribbon-receiving part and a second ribbon-sliding portion formed at a first wall of the second ribbon-receiving part, and is wound on a take-up reel from the feeding reel. A ribbon guide, which prevents the ink ribbon exposed at the second ribbon-sliding portion from coming in contact with a printer body (not shown) when the ink ribbon cassette is mounted in the printer body, is provided outside the second ribbon-sliding portion. | ||||||
| 20 | Ribbon Feeder and Printer | US11579861 | 2005-06-06 | US20070231041A1 | 2007-10-04 | Masahiko Ueda; Seiji Morita; Hiroshi Sakurai |
| Ribbon tension detecting means (20, 21), which are formed of a plate-like lever body (35) each, are located individually on the upstream side and the downstream side of a platen (7) with respect to its travel. The plate-like lever body (35) has first and second rollers (47, 48) on the upstream and downstream sides with respect to travel of a ribbon, and swings around an axis of rotation of the second roller (48), depending on a tension of the ribbon traveling guided by the rollers (47, 48). If the amount of its swing is not less than or not more than a fixed value, a ribbon feed motor (18) or a ribbon take-up motor (19) is driven. Further, the ribbon tension detecting means (20, 21) are provided with a smoothing member which touches the ink ribbon (13) to remove wrinkles from the ink ribbon (13). | ||||||
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