子分类:
- B41J2025/008: .包括围绕滚筒周围设置的多个打印头
- B41J25/001: .{打印头或托架自身平行于纸面移动的机械(字符或行距机构入B41J19/00)}
- B41J25/02: .用于特殊用途的键操作
- B41J25/20: .辅助打印结构,用于印制识别标记,如采用空键或半空键装置使其特别显著,用于在电报印字机上印标记,以表明此机正在收报
- B41J25/22: .用于把字排齐,以便压印(使用索引排字的机器入B41J5/02)
- B41J25/24: .字盒位移机构(B41J11/14优先;键操作入B41J25/08);一套铅字变换装置
- B41J25/304: .可将打印头或字盘向着纸面的方向或向与此相反的方向整体移动的机构(字盘滑动以进行打印入B41J 1/36;字盘摆动以进行打印入B41J 1/40;行打印头向清洁单元移动B41J2/16588)
- B41J25/32: .辊子与固定的铅字面协同动作的压印机构
- B41J25/34: .可整体更换的打印头或字盘(B41J1/20,B41J1/22,B41J1/60优先)
| 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 | 一种3D激光打标头 | CN201310749792.8 | 2013-12-31 | CN103737173A | 2014-04-23 | 徐立群 |
| 本发明提出了一种3D激光打标头,用于解决现有的激光打标头,由于结构上的缺陷,使得不能实现3D立体打标的问题,包括:用于调节纵向方向上打标深度的第三轴打标调整装置;聚焦镜;用于将聚焦镜射出的激光进行调整后确定在平面上横向方向上的打标位置的第一轴打标调整装置;用于将第一轴打标调整装置调整后发射来的激光进行调整确定在平面上纵向方向上的打标位置的第二轴打标调整装置;用于控制第一轴打标调整装置、第二轴打标调整装置和第三轴打标调整装置工作的控制机构。上述3D激光打标头,可以实现快速地弧面、平面阶梯等3D立体打标,打标精度高。 | ||||||
| 2 | 用于数字打印机中的打印头托架的免受力支撑框架 | CN200680015885.6 | 2006-05-08 | CN101171139B | 2010-05-19 | A·-J·贝尔特曼; A·布拉尔斯; W·范德温克尔; B·弗霍斯特; B·弗林登 |
| 在数字打印机中,位于托架组件上的直接相关于打印处理的元件被安装在通过振动阻尼器从基础框架隔离开的计量框架上。因为托架驱动系统的诸如具有电机及滑轮的带驱动系统的元件被安装在基础框架上,来自电机驱动系统的驱动及反作用力被引导至基础框架,同时托架组件被免受力无振动计量框架导引。当计量框架起无振动基准元件作用时,这允许在打印期间更高的精度。 | ||||||
| 3 | 一种双平板双织物同时印花数字喷墨印花机与印花方法 | CN201710694221.7 | 2017-08-15 | CN107310270A | 2017-11-03 | 张娣 |
| 本发明给出一种正反印花平板式数字喷墨印花机与印花方法,印花机包括打印平板和机头组件,打印平板包括平板支撑系统,在支撑系统内分别通过可升降的支撑杆支撑有上下两个打印平板,且打印平板采用由电机的转动辊与位于支撑架内的可升降的支撑杆相连,通过转动辊转动带动打印平板转动,继而实现通过缝合套在平板上侧和下侧的双织物的印花,同时通过支撑杆的升降实现两个平板上的双织物的交替印花以及处于不工作状态的打印平板上的织物的更换,从而节约织物放置到平板上的时间,从而大幅提高印花效率,同时通过两个平板的上下放置减小印花机的占地面积。 | ||||||
| 4 | 定位托架组件的系统 | CN200680015840.9 | 2006-05-04 | CN101171133B | 2012-01-18 | M·范卡尔姆索特; A·-J·贝尔特曼; A·布拉尔斯; W·范德温克尔; B·弗霍斯特; B·弗林登 |
| 提供了一种打印头定位系统,其中所述托架组件被分为具有高精度定位性能的打印托架以及仅需要低精度定位系统的应用托架。因为这种划分,需要被精确定位的部件的质量被大大减小,由此更容易对轻负载精确定位,并允许在维持高打印精度的同时使用更廉价的驱动系统。 | ||||||
| 5 | 对打印头定位系统的控制 | CN200680015902.6 | 2006-05-04 | CN101171141A | 2008-04-30 | A·-J·贝尔特曼; M·范卡尔姆索特; A·布拉尔斯; W·范德温克尔; B·弗霍斯特; B·弗林登 |
| 提供了一种用于对打印头组件进行定位的系统,其中改进伺服控制系统利用自适应数字滤波器来对抗驱动系统的变化。伺服控制使用补偿智能,以适于改变定位系统的例如受打印头组件位置影响的共振特性。伺服控制优选地包括增益调整、自适应数字技术、前馈特征。在混合驱动系统中使用组合主从伺服系统。 | ||||||
| 6 | 打印头定位系统及控制 | CN200680015901.1 | 2006-05-08 | CN101171140A | 2008-04-30 | A·-J·贝尔特曼; M·范卡尔姆索特; A·布拉尔斯; W·范德温克尔; B·弗霍斯特; B·弗林登 |
| 提供了一种打印头定位系统,其中使用安装在低分辨率长行程电机系统上的具有高分辨率短行程电机系统的混合动力电机驱动器来实现对托架的定位。通过使用具有高分辨率线性电机的组合的实施例,定子安装在低分辨率长行程带驱动器上。可以实现长距离上的高精度。由此允许实现廉价、大型、高精度定位系统。 | ||||||
| 7 | 用于数字打印机中的打印头托架的免受力支撑框架 | CN200680015885.6 | 2006-05-08 | CN101171139A | 2008-04-30 | A·-J·贝尔特曼; A·布拉尔斯; W·范德温克尔; B·弗霍斯特; B·弗林登 |
| 在数字打印机中,位于托架组件上的直接相关于打印处理的元件被安装在通过振动阻尼器从基础框架隔离开的计量框架上。因为托架驱动系统的诸如具有电机及滑轮的带驱动系统的元件被安装在基础框架上,来自电机驱动系统的驱动及反作用力被引导至基础框架,同时托架组件被免受力无振动计量框架导引。当计量框架起无振动基准元件作用时,这允许在打印期间更高的精度。 | ||||||
| 8 | 一种双平板上下转动轮换印花数字喷墨印花机与印花方法 | CN201710737065.8 | 2017-08-24 | CN107351536A | 2017-11-17 | 张娣 |
| 本发明给出一种双平板上下转动轮换印花数字喷墨印花机与印花方法,印花机包括机头支撑系统,在机头支撑系统上支撑有机头组件,且在机头支撑系统上通过连接杆与平板支撑系统相连,连接杆与机头支撑系统之间设置有旋转装置,旋转装置通过电机带动同步旋转,在平板支撑系统的底端和顶端分别支撑有第一平板和第二平板,通过旋转组件实现第一平板和第二平板的旋转,继而实现放置在第一平板和第二平板上的织物的转动轮换印花,从而省却织物更换的时间,提高印花效率。 | ||||||
| 9 | 用于数字打印机的双托架结构 | CN200680015840.9 | 2006-05-04 | CN101171133A | 2008-04-30 | M·范卡尔姆索特; A·-J·贝尔特曼; A·布拉尔斯; W·范德温克尔; B·弗霍斯特; B·弗林登 |
| 提供了一种打印头定位系统,其中所述托架组件被分为具有高精度定位性能的打印托架以及仅需要低精度定位系统的应用托架。因为这种划分,需要被精确定位的部件的质量被大大减小,由此更容易对轻负载精确定位,并允许在维持高打印精度的同时使用更廉价的驱动系统。 | ||||||
| 10 | 液体吐出装置、パターン群記録方法、傾斜角度検出方法、及びプログラム | JP2013204285 | 2013-09-30 | JP2015066860A | 2015-04-13 | 寺田 宏平 |
| 【課題】液体吐出ヘッドの傾斜角度を検出することができる液体吐出装置を提供する。。 【解決手段】液体吐出装置は、第1方向に記録媒体を搬送するための搬送手段と、複数の吐出口が第1方向と交差する第2方向D2に配列されてなる複数の吐出口列が、第2方向D2と直交する第3方向D3に並列された液体吐出ヘッドとを備え、複数の単位パターン20を記録媒体に記録する。単位パターン20それぞれは、複数の吐出口列のうちの第1吐出口列、及び、第2吐出口列の両方の吐出口それぞれから吐出される液体により記録される第1領域と、第1吐出口列及び第2吐出口列のうち何れか一方の吐出口から吐出される液体により記録される第2領域とを有し、第1領域はドットの第1方向と直交する第4方向のドット間隔に応じて光学的特性が異なるドット配置で記録され、第2領域22はドットの第1方向のドット間隔に応じて光学的特性が異なるドット配置で記録される。 【選択図】図6 |
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| 11 | Printer | JP4903277 | 1977-04-26 | JPS52144925A | 1977-12-02 | FURANKU DEI RUUBURU; RUISU EICHI SHIYANGU; JIYON SHII FURABUERU; HARUNORI YOSHIKAWA |
| 12 | CARTRIDGE AND RECORDING APPARATUS | EP12195809.4 | 2012-12-06 | EP2602117A2 | 2013-06-12 | Tomoguchi, Suguru; Ito, Noritsugu; Igarashi, Akinori; Chikamoto, Tadanobu; Shioya, Hideki |
A cartridge detachably attachable to a receiving portion of a recording apparatus, the receiving portion including an electrical interface and a movable member configured to move to allow the cartridge to move, includes a plurality of electrical terminals arranged along a direction intersecting an inserting direction along which the cartridge is inserted to the receiving portion and a first portion configured to contact the movable member and allow the cartridge to move along the inserting direction such that the plurality of electrical terminals contact the electrical interface by contacting the movable member.
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| 13 | Printhead positioning system and control | EP05104609.2 | 2005-06-06 | EP1721756A1 | 2006-11-15 | Verlinden, Bart AGFA-GEVAERT; Verhoest, Bart AGFA-GEVAERT; Van de Wynckel, Bart AGFA-GEVAERT; Beltman, Arend-Jan; Brals, Albert; Van Kalmthout, Marcus |
A printhead positioning system is provided wherein the positioning of the shuttles is done using hybrid motor drive with a high-resolution short stroke motor system mounted on a low-resolution long stroke motor system. By using an embodiment with the combination of a high resolution linear motor of which the stator is mounted on a low resolution long stroke belt drive. High accuracy over a large distance can be attained. This allows for cheaper big size high accuracy positioning systems.
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| 14 | Continuous motion printing on cylindrical objects | US14608176 | 2015-01-28 | US09517623B2 | 2016-12-13 | John Randel LaCaze |
| A method for printing a digitally-stored image on the surface of a cylindrical object comprises the steps of axially moving the object along a line of travel that is aligned with the object's long axis until it is underneath one or more printheads, each of which have a plurality of ink nozzles that may be arranged in one or more columns while simultaneously rotating the object with respect to the printheads and simultaneously causing a pre-determined number of nozzles to eject ink onto the surface of the object. | ||||||
| 15 | Image forming apparatus and method for discharging a medium | US13965586 | 2013-08-13 | US09067443B2 | 2015-06-30 | Taisei Kobayashi |
| An image forming apparatus is capable of placing a line feed operation on hold. A memory holds an amount of line feed and discharge direction information. A controller parses the printer control data, and detects the position of the print medium based on the detection signal. An image forming section prints on the print medium while transporting the print medium. When the discharge direction information indicates a direction opposite to a direction in which the print medium is line fed. When the position of a final printed area on a page of print medium is within the page of the print medium, if a line feed is performed, the controller adds a new amount of line feed to the amount of line feed in the memory, and then places the resultant amount of line feed on hold. | ||||||
| 16 | Cartridges and recording apparatuses | US14481451 | 2014-09-09 | US09058014B2 | 2015-06-16 | Suguru Tomoguchi; Noritsugu Ito; Akinori Igarashi; Tadanobu Chikamoto; Hideki Shioya |
| A cartridge includes a substrate and an engagement portion. The first surface faces a first direction and has a first surface on which an electrical terminal is disposed. The engagement portion includes a second surface disposed upstream from the substrate in the first direction and a third surface. The second surface faces a second direction, which forms an obtuse angle with the first direction. The third surface faces a third direction, which forms an acute angle with the first direction. The third surface does not overlap with the substrate in the first direction and the third surface is disposed downstream from the second surface in the first direction. | ||||||
| 17 | IMAGE FORMING APPARATUS AND METHOD FOR DISCHARGING A MEDIUM | US13965586 | 2013-08-13 | US20140050512A1 | 2014-02-20 | Taisei KOBAYASHI |
| An image forming apparatus is capable of placing a line feed operation on hold. A memory holds an amount of line feed and discharge direction information. A controller parses the printer control data, and detects the position of the print medium based on the detection signal. An image forming section prints on the print medium while transporting the print medium. When the discharge direction information indicates a direction opposite to a direction in which the print medium is line fed. When the position of a final printed area on a page of print medium is within the page of the print medium, if a line feed is performed, the controller adds a new amount of line feed to the amount of line feed in the memory, and then places the resultant amount of line feed on hold. | ||||||
| 18 | Paper skew detection system | US12533017 | 2009-07-31 | US08075086B2 | 2011-12-13 | Howard A Mizes |
| A system and method that enables web paper skew detection by monitoring print head motor position. An inline full width array sensor actively tracks the alignment of the print heads across the print zone and actively moves the heads to maintain alignment. If the paper starts to skew across the print zone, a color misregistration error will be detected and the print units will be moves with respect to each other to maintain alignment. The absolute position of the print heads can be monitored by tracking the steps sent to each motor to maintain alignment. | ||||||
| 19 | PAPER SKEW DETECTION SYSTEM | US12533017 | 2009-07-31 | US20110025743A1 | 2011-02-03 | Howard A. Mizes |
| A system and method that enables web paper skew detection by monitoring print head motor position. An inline full width array sensor actively tracks the alignment of the print heads across the print zone and actively moves the heads to maintain alignment. If the paper starts to skew across the print zone, a color misregistration error will be detected and the print units will be moves with respect to each other to maintain alignment. The absolute position of the print heads can be monitored by tracking the steps sent to each motor to maintain alignment. | ||||||
| 20 | Recording apparatus and non-transitory computer-readable recording medium storing a recording program | US12805076 | 2010-07-12 | US20110007112A1 | 2011-01-13 | Kazushi Takei; Hiroshi Takahashi; Masato Kobayashi; Tomonori Kimura; Yuichi Sakurada; Arata Suzuki; Nobuyuki Satoh; Yasuo Sakurai |
| A recording apparatus includes a carriage; a first head group including a recording head and disposed on the carriage; and a second head group including a recording head and disposed on the carriage adjacent the first head group in a staggered manner with respect to a sub-scan direction. The carriage is configured to move in a main scan direction in order to record an image on a recording medium. The recording apparatus further includes a forming unit configured to form plural test patterns including a first pattern formed by the recording head of the first head group and a second pattern formed by the recording head of the second head group. The test patterns are spaced apart from one another in the sub-scan direction. The position of the second pattern relative to the first pattern in the sub-scan direction is varied successively from one test pattern to another. | ||||||
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