| 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 | 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。 | ||||||
| 2 | 热转印打印机 | CN200510077847.0 | 2005-06-03 | CN1704248A | 2005-12-07 | 丸山贵史 |
| 本发明提供一种热转印打印机,其通过在主体壳侧形成可引导墨带走行的带引导部,而从带盒中去除带引导部,可以实现低成本并削减资源的浪费使用。在本发明的热转印打印机(1)中使用的带盒(14)中,在第1带收容部(14a)与第2带收容部(14b)之间形成、热敏头(4)插通的并可使抬头/低头的头插通部(15),并且在头插通部(15)与第2带收容部(14b)之间形成送纸机构8可位于的预定深度的退让槽(16),卷取在卷绕轴(13)上的墨带(11)在该退让槽中露出,在盒安装部(18)中形成了带引导部(19),使从安装的带盒的退让槽中露出的墨带以在退让槽的底部侧弯曲的状态而可卷取在卷绕轴上。 | ||||||
| 3 | 热转印打印机 | CN200510077847.0 | 2005-06-03 | CN100408341C | 2008-08-06 | 丸山贵史 |
| 本发明提供一种热转印打印机,其通过在主体壳侧形成可引导墨带走行的带引导部,而从带盒中去除带引导部,可以实现低成本并削减资源的浪费使用。在本发明的热转印打印机(1)中使用的带盒(14)中,在第1带收容部(14a)与第2带收容部(14b)之间形成、热敏头(4)插通的并可使抬头/低头的头插通部(15),并且在头插通部(15)与第2带收容部(14b)之间形成送纸机构8可位于的预定深度的退让槽(16),卷取在卷绕轴(13)上的墨带(11)在该退让槽中露出,在盒安装部(18)中形成了带引导部(19),使从安装的带盒的退让槽中露出的墨带以在退让槽的底部侧弯曲的状态而可卷取在卷绕轴上。 | ||||||
| 4 | 热转印打印机 | CN200510004794.X | 2005-01-26 | CN100393525C | 2008-06-11 | 阿部荣文; 大石雄辉; 丸山贵史 |
| 本发明提供热转印打印机,能防止在墨膜上产生皱折,得到高品质的记录结果。其具备行热敏头和膜皱折去除部件;行热敏头具有在基板的上表面的一端部侧直线状地被形成的多个发热元件,而且基板的表面的比发热元件靠近另一端部侧的至少一部分由密封部件覆盖保护;膜皱折去除部件配置在行热敏头的发热元件的墨膜的传送方向上游侧附近,由具有弹性的片材形成;在使行热敏头与压纸滚筒抵接的状态下,对发热元件选择性地施加电压进行预期的记录,其中,在行热敏头的发热元件的墨膜的传送方向上游侧的附近形成膜皱折去除部件,膜皱折去除部件在头朝下时能相对于移动的墨膜滑动接触,由与发热元件的排列方向平行地被形成为线状的突起状部件形成。 | ||||||
| 5 | 具有改进的色带传送系统的热转印印刷机 | CN00101648.2 | 2000-01-21 | CN1154573C | 2004-06-23 | 戈登; B·巴鲁斯; 丹尼斯; R·怀特 |
| 一种热转印印刷机,具有一印刷媒质源、一印刷色带源、一可转动的滚筒以及一与可让色带和媒质通过以进行印刷的滚筒相关设置的转印头。在色带通过转印头之前和/或之后,设置一个可枢转连接的色带支承件,它可以沿色带的宽度方向作枢转运动。该支承件可以是辊子,支承件可以是组合的,以便与色带的两个相对面接触。色带的驱动装置可以借助一连接于源芯轴和收集芯轴的电动机并根据至少一个电动机的反电势并来使色带移动。 | ||||||
| 6 | 具有改进的色带传送系统的热转印印刷机 | CN00101648.2 | 2000-01-21 | CN1275486A | 2000-12-06 | 戈登; B·巴鲁斯; 丹尼斯; R·怀特 |
| 一种热转印印刷机,具有一印刷媒质源、一印刷色带源、一可转动的滚筒以及一与可让色带和媒质通过以进行印刷的滚筒相关设置的转印头。在色带通过转印头之前和/或之后,设置一个可枢转连接的色带支承件,它可以沿色带的宽度方向作枢转运动。该支承件可以是辊子,支承件可以是组合的,以便与色带的两个相对面接触。色带的驱动装置可以借助一连接于源芯轴和收集芯轴的电动机并根据至少一个电动机的反电势并来使色带移动。 | ||||||
| 7 | 印刷装置及印刷方法 | CN201410240724.3 | 2014-06-03 | CN104210240B | 2017-06-20 | 相原裕一; 望月裕史; 藤本敏郎; 日原康太 |
| 提供一种在使用双面专用色带时没有带面板的浪费的印刷装置及印刷方法。能够在印刷介质的双面上进行印刷的印刷装置(1)使用彩色带面板(41a)和单色带面板(41b)按顺序构成的色带(41)进行双面印刷。这时,检测各带面板的位置,判定接着能够使用的最近的色带(41)的带面板的种类(彩色或单色),判定从上位装置(201)送来的印刷数据使用哪种带面板(彩色或单色),比较接着能够使用的最近的带面板的种类与根据印刷数据判定的带面板的种类,决定对印刷介质的印刷顺序。 | ||||||
| 8 | 印刷装置及印刷方法 | CN201410240724.3 | 2014-06-03 | CN104210240A | 2014-12-17 | 相原裕一; 望月裕史; 藤本敏郎; 日原康太 |
| 本发明提供一种在使用双面专用色带时没有带面板的浪费的印刷装置及印刷方法。能够在印刷介质的双面上进行印刷的印刷装置(1)使用彩色带面板(41a)和单色带面板(41b)按顺序构成的色带(41)进行双面印刷。这时,检测各带面板的位置,判定接着能够使用的最近的色带(41)的带面板的种类(彩色或单色),判定从上位装置(201)送来的印刷数据使用哪种带面板(彩色或单色),比较接着能够使用的最近的带面板的种类与根据印刷数据判定的带面板的种类,决定对印刷介质的印刷顺序。 | ||||||
| 9 | 身份证件加工设备及使用方法 | CN200680041202.4 | 2006-11-06 | CN101300138B | 2012-03-07 | M·B·斯奎尔斯; D·J·沃里克; R·C·纳布森 |
| 身份证件加工设备,具有机构,被设计用于维持加工设备的加工作业中色带的张力。所述张力维持机构与色带的供给辊和卷取辊分开,消除了需要离合器或制动器连接至供给或卷取辊,以便获得张力。由于张力维持机构与供给辊和卷取辊分开,在加工设备的使用期间,供给辊或卷取辊的惯性不会影响色带的张力。 | ||||||
| 10 | 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。 | ||||||
| 11 | 色带张紧机构 | CN200680041202.4 | 2006-11-06 | CN101300138A | 2008-11-05 | M·B·斯奎尔斯; D·J·沃里克; R·C·纳布森 |
| 身份证件加工设备,具有机构,被设计用于维持加工设备的加工作业中色带的张力。所述张力维持机构与色带的供给辊和卷取辊分开,消除了需要离合器或制动器连接至供给或卷取辊,以便获得张力。由于张力维持机构与供给辊和卷取辊分开,在加工设备的使用期间,供给辊或卷取辊的惯性不会影响色带的张力。 | ||||||
| 12 | 热转印打印机 | CN200510004794.X | 2005-01-26 | CN1647934A | 2005-08-03 | 阿部荣文; 大石雄辉; 丸山贵史 |
| 本发明提供热转印打印机,能防止在墨膜上产生皱折,得到高品质的记录结果。其具备行热敏头和膜皱折去除部件;行热敏头具有在基板的上表面的一端部侧直线状地被形成的多个发热元件,而且基板的表面的比发热元件靠近另一端部侧的至少一部分由密封部件覆盖保护;膜皱折去除部件配置在行热敏头的发热元件的墨膜的传送方向上游侧附近,由具有弹性的片材形成;在使行热敏头与压纸滚筒抵接的状态下,对发热元件选择性地施加电压进行预期的记录,其中,在行热敏头的发热元件的墨膜的传送方向上游侧的附近形成膜皱折去除部件,膜皱折去除部件在头朝下时能相对于移动的墨膜滑动接触,由与发热元件的排列方向平行地被形成为线状的突起状部件形成。 | ||||||
| 13 | CREDENTIAL PRODUCTION DEVICE HAVING A MOVABLE PROCESSING ASSEMBLY | US15563995 | 2015-05-12 | US20180134053A1 | 2018-05-17 | Jeffrey Stangler; James Rieck; Ted M. Hoffman |
| A credential production device includes a processing path, a transport mechanism, a processing assembly and at least one assembly guide. The transport mechanism is configured to feed individual substrates along the processing path. The processing assembly includes a supply spool support, a take-up spool support, a plurality of ribbon supports, and a print head or a transfer roller. Each assembly guide is configured to guide movement of the processing assembly substantially perpendicularly to the processing path between an operating position and a loading position relative to the processing path. | ||||||
| 14 | Printing apparatus and printing method | US14293437 | 2014-06-02 | US09139018B2 | 2015-09-22 | Yuichi Aihara; Hiroshi Mochizuki; Toshiro Fujimoto; Kota Hihara |
| To provide a printing apparatus without waste of a ribbon panel in using a two-side dedicated ribbon, a printing apparatus 1 capable of printing on both surfaces of a printing medium performs two-side printing using an ink ribbon 41 with a color ribbon panel 41a and monochrome ribbon panel 41b configured in a face sequential manner. At this point, the apparatus detects a position of each ribbon panel, judges a type (color or monochrome) of a next usable nearest ribbon panel of the ink ribbon 41, judges which type of the ribbon panel (color or monochrome) is used for printing data sent from a higher apparatus 201, and compares the type of the next usable nearest ribbon panel with the ribbon panel judged with the printing data to determine the printing order on the printing medium. | ||||||
| 15 | Thermal printer and ink ribbon cassette | US13168005 | 2011-06-24 | US08432420B2 | 2013-04-30 | Yuko Kakuta; Atsushi Takagi |
| A thermal printer is proposed that includes an ink ribbon on which a color ink portion and a non-color ink portion are alternately formed in a conveyance direction, a supply bobbin on which the ink ribbon is wound, a take-up bobbin on which the ink ribbon is to be wound, and a housing that contains the supply bobbin and the take-up bobbin. When an error occurs during transferring of an ink on the color ink surface, the ink ribbon is conveyed so that a portion of the ink ribbon exposed from the ink cassette between the supply bobbin and the take-up bobbin is the non-color ink portion. | ||||||
| 16 | Ribbon tensioning mechanisms | US11271599 | 2005-11-10 | US07441970B2 | 2008-10-28 | Milo B Squires; Dennis J. Warwick; Richard C. Nubson |
| Identity document processing equipment with a mechanism designed to maintain tension in a ribbon used in a processing operation in the processing equipment. The tension maintaining mechanism is separate from the supply roll and the take-up roll for the ribbon, eliminating the need for clutches or brakes attached to the supply or take-up rolls to achieve tensioning. Since the tension maintaining mechanism is separate from the supply roll and the take-up roll, the inertia of the supply roll or the take-up roll does not affect the tension on the ribbon during use of the processing equipment. | ||||||
| 17 | Heat transfer printer | US11042792 | 2005-01-25 | US07414642B2 | 2008-08-19 | Yoshibumi Abe; Yuki Oishi; Takahito Maruyama |
| A heat transfer printer includes a line thermal head having heat generating elements formed in a straight line at one end of a top surface of a substrate and a sealing member for covering and protecting at least a portion of the top surface of the substrate at the other end thereof opposite to the heat generating elements. A film wrinkle removing member is disposed in the vicinity of the heat generating elements of the line thermal head upstream in a direction that an ink film is carried. A voltage is selectively applied to the heat generating elements when the line thermal head abuts a platen with the ink film and a printing sheet sequentially overlapped from the line thermal head disposed therebetween. | ||||||
| 18 | Ribbon tensioning mechanisms | US11271599 | 2005-11-10 | US20070104526A1 | 2007-05-10 | Milo Squires; Dennis Warwick |
| Identity document processing equipment with a mechanism designed to maintain tension in a ribbon used in a processing operation in the processing equipment. The tension maintaining mechanism is separate from the supply roll and the take-up roll for the ribbon, eliminating the need for clutches or brakes attached to the supply or take-up rolls to achieve tensioning. Since the tension maintaining mechanism is separate from the supply roll and the take-up roll, the inertia of the supply roll or the take-up roll does not affect the tension on the ribbon during use of the processing equipment. | ||||||
| 19 | Preventing crease formation in donor web in dye transfer printer that can cause line artifact on print | US10426591 | 2003-04-30 | US06768503B1 | 2004-07-27 | Po-Jen Shih; Zhanjun J. Gao; 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. | ||||||
| 20 | PREVENTING CREASE FORMATION IN DONOR WEB IN DYE TRANSFER PRINTER THAT CAN CAUSE LINE ARTIFACT ON PRINT | US10242263 | 2002-09-12 | US20040051776A1 | 2004-03-18 | Terrence L. Fisher |
| A dye transfer printer uses a dye donor web that is capable of developing a crease-causing wave-like or ripple distortion across the donor web when the donor web is subjected to a longitudinal tension as it is advanced from a print head, over a web guide, and onto a web take-up spool in the printer. The web guide is positioned to extend across the donor web and is adapted to be bowed to effect a curvature across the donor web in proportion to the longitudinal web tension in order to urge the donor web to spread substantially widthwise to reduce the likelihood of the wave-like or ripple distortion developing across the donor web. If the wave-like or ripple distortion is prevented from developing in a dye transfer area being used, it is unlikely that any creases will be created in the next unused transfer area. Thus, no line artifacts will be printed on a dye receiver during dye transfer in the printer. | ||||||
QQ群二维码
意见反馈
意见反馈