| 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 | 带盒 | CN201110049743.4 | 2011-02-28 | CN102189853B | 2015-06-17 | 杉野智彦; 柴田康弘; 堀内誉史; 加藤努 |
| 本发明提供一种带盒。当打印时,带盒(1)中的墨带(6)在与馈送部侧引导肋(63)接触的同时沿方向(D)行进且被弯曲和引导。如果在引导肋(63)的中央设置凸起部,则即使产生行进不对准,墨带(6)的行进也被朝向引导肋(63)的中央部引导且校正不对准。然后,墨盒(6)在与中间引导肋(62)和排出狭缝侧引导肋(61)接触的同时沿方向(D)行进且被弯曲和引导。如果引导肋(62)和引导肋(61)是没有任何凸起部的平坦形状,则即使在墨带(6)中产生折痕,引导肋(62)和引导肋(61)也能够弄平和校正折痕。 | ||||||
| 2 | 带盒 | CN201110049743.4 | 2011-02-28 | CN102189853A | 2011-09-21 | 杉野智彦; 柴田康弘; 堀内誉史; 加藤努 |
| 本发明提供一种带盒。当打印时,带盒(1)中的墨带(6)在与馈送部侧引导肋(63)接触的同时沿方向(D)行进且被弯曲和引导。如果在引导肋(63)的中央设置凸起部,则即使产生行进不对准,墨带(6)的行进也被朝向引导肋(63)的中央部引导且校正不对准。然后,墨盒(6)在与中间引导肋(62)和排出狭缝侧引导肋(61)接触的同时沿方向(D)行进且被弯曲和引导。如果引导肋(62)和引导肋(61)是没有任何凸起部的平坦形状,则即使在墨带(6)中产生折痕,引导肋(62)和引导肋(61)也能够弄平和校正折痕。 | ||||||
| 3 | 带驱动器和打印设备 | CN200510059012.2 | 2001-09-05 | CN1657306A | 2005-08-24 | 马丁·麦克内斯特瑞; 基思·巴克斯顿; 菲利普·哈特 |
| 一种带驱动器,其用于例如转印打印设备中以驱动打印机色带。打印机色带安装在两个卷轴上,每个卷轴由各自的步进电机驱动。控制器控制电动机的加电,这样色带沿至少一个方向在安装在卷轴支架的卷轴之间传送。控制器为两个电动机加电从而沿色带传送的方向驱动色带的卷轴以获得推挽式操作。监测色带张紧力以实现对供色带和卷色带的精确控制,通过监测两个步进电机的电源监测色带张紧力。 | ||||||
| 4 | 成像方法和系统 | CN97111665.2 | 1997-03-11 | CN1170887A | 1998-01-21 | 石川俊一; 久保寺征一; 深野彰; 加藤惠士; 谷口勇夫; 冲野美晴; 荻原永夫 |
| 一种其上在成像曝光形成潜像并通过和叠在其上的预定处理材料一起加热而在其上形成图像的而用作摄影底片等的感光材料,该感光材料曝光以在其上记录图像,叠起并加感光材料和处理材料以在感光材料上形成图像,然后将带该图像的感光材料从处理材料剥离,将曝光了的感光材料显影,形成在感光材料上的显影了的图像用一扫描器阅读以得到代表该图像的图像数据,对该图像数据进行规定图像处理以生成能复制的数字图像数据。 | ||||||
| 5 | Tape cassette | JP2010041323 | 2010-02-26 | JP2011177895A | 2011-09-15 | SUGINO TOMOHIKO; SHIBATA YASUHIRO; HORIUCHI TAKASHI; KATO TSUTOMU |
| <P>PROBLEM TO BE SOLVED: To provide a tape cassette capable of remedying shift in travel or a crease of an ink ribbon while the ink ribbon is traveling. <P>SOLUTION: When printing, the ink ribbon 6 in the tape cassette travels in a predetermined direction D while coming into contact with a feed-portion-side guide rib 63 and being bent and guided, first. If a protrusion exists on the center of the feed-portion-side guide rib 63, the travel of the ink ribbon 6 is guided toward the center portion side of the feed-portion-side guide rib 63, and, even if the shift in travel of the ink ribbon 6 occurs, it is corrected. Thereafter, the ink ribbon 6 travels in the predetermined direction D while coming into contact with an intermediate guide rib 62 and a discharge-port-side guide rib 61 and being bent and guided. If the intermediate guide rib 62 and the discharge-port-side guide rib 61 are formed to be straight without having any protrusion, the crease is smoothed out to be remedied by the intermediate guide rib 62 and the discharge-port-side guide rib 61 even if the ink ribbon 6 is creased. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 6 | Tape driving mechanism and printing device | JP2005040774 | 2005-02-17 | JP2005178395A | 2005-07-07 | MCNESTRY MARTIN; BUXTON KEITH; HART PHILIP |
| <P>PROBLEM TO BE SOLVED: To provide a tape driving mechanism with very high acceleration and deceleration. <P>SOLUTION: The tape driving mechanism is like a tape drive for use in a transfer printing device that drives a printer ribbon. The printer ribbon is loaded on two spools. Each spool is driven with each stepper motor. A controller controls the energization of the motor, sending the ribbon to at least one direction between the spools supported by a spool supporting portion. The controller energizes both motors, working to realize push-pull action by driving the ribbon spool to the direction of sending the ribbon. With monitoring the tension of the ribbon, the supply and wind of the ribbon can be controlled accurately. Monitoring the tension of the ribbon is realized by monitoring the electric current supplied to two step motors. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 7 | Heat-sensitive transfer printing device | JP12227681 | 1981-08-04 | JPS5824480A | 1983-02-14 | TAMURA MASAMI |
| PURPOSE:To provide the titled device capable of stopping a paper ticket at a predetermined position and printing thereon speedily, by a method wherein when a paper ticket is conveyed to a predetermined position on a conveying passage for the ticket, the ticket is positioned, a thermal stamp head and a printing table are pressed against each other and are separated from each other. CONSTITUTION:The paper tickets K conveyed in a direction Y orthogonal to the longitudinal direction of the device is stopped at the predetermined position by the action of a conveying mechanism. At this stage, a heat-sensitive transfer paper P is pushed downwards by the thermal stamp head 21, and the printing table 22 is pushed upwards to print on the ticket K. After the printing is completed, upper and lower blocks 23c, 23c' of a stamp heat contacting and separating mechanism are separated and spaced from each other by the force of a separating spring. The transfer paper P is also separated, and is fed out by a predetermined amount. | ||||||
| 8 | テープ駆動機構および印刷装置 | JP2011176940 | 2011-08-12 | JP5619693B2 | 2014-11-05 | マーティン・マクネストリー; キース・バクストン; フィリップ・ハート |
| 9 | Tape cassette | JP2010041323 | 2010-02-26 | JP5093265B2 | 2012-12-12 | 智彦 杉野; 康弘 柴田; 誉史 堀内; 努 加藤 |
| 10 | Tape drive mechanism and printing apparatus | JP2011176940 | 2011-08-12 | JP2011255678A | 2011-12-22 | MCNESTRY MARTIN; BUXTON KEITH; HART PHILIP |
| PROBLEM TO BE SOLVED: To provide a tape drive mechanism which can maintain tension of a tape during spool to a tolerance level.SOLUTION: A printer ribbon is mounted on two spools, each of which is driven by a respective stepper motor. A controller controls the energization of the motor such that the ribbon is transported in at least one direction between spools mounted on the spool support. The controller is operative to energize both motors to drive the spools of ribbon in the direction of ribbon transport to achieve push-pull operations. Ribbon tension is monitored to enable accurate control of ribbon supply and ribbon take-up. The monitoring of ribbon tension is achieved by monitoring power supply to the two stepper motors. | ||||||
| 11 | Tape drive mechanism and a printing device | JP2002526598 | 2001-09-05 | JP2004508974A | 2004-03-25 | キース・バクストン; フィリップ・ハート; マーティン・マクネストリー |
| 例えば、プリンタリボンを駆動する転写印刷装置に使用するテープドライブである。 プリンタリボンは、2つのスプール上に搭載される。 各スプールは、それぞれステッパモータで駆動される。 コントローラがモータの起動を制御して、スプール支持部に支持されたスプール間において、リボンを少なくとも一方向に搬送する。 コントローラは、両方のモータを起動し、リボンの搬送方向にリボンスプールを駆動して、プッシュプル動作を実現するように作動する。 リボンのテンションをモニタリングすることで、リボンの供給および巻上げを正確に制御できる。 リボンのテンションのモニタリングは、2つのステッパモータに供給される電流をモニタリングすることで実現される。 | ||||||
| 12 | Ink jet system recorder | JP7209788 | 1988-03-28 | JPH01244865A | 1989-09-29 | HATTORI SHUNSUKE |
| PURPOSE:To prevent contamination by ink of a thermal head and sticking of a scale and besides, to enable good recording with no irregularity of density to be performed, by a method wherein a sheet state member of good thermal conductivity is arranged between a film and the thermal head, an interval between the film and the sheet state member is divided into a plurality of sections, and ink of different color is supplied between the sections. CONSTITUTION:By arranging a sheet state member 12 of good thermal conductivity between a film 13 and a thermal head 15, the thermal head 15 comes never in direct contact with ink 22, and heat from a heating element of said thermal head can be well conducted to the ink in a small hole 14 of the film through the sheet state member 12. Therefore, contamination by the ink and sticking of a scale can be prevented. Further, a material amount of ink can be reserved near a contact part of the sheet member and the film by a capillary phenomenon. Furthermore, by dividing an interval between the film and the sheet state member into a plurality of sections along a longitudinal direction of the film and by arranging an ink supply mechanism 36 which supplies ink of a different color between the sections, good color recording can be performed without generating a color mixture by ink of a different color. | ||||||
| 13 | JPS6358099B2 - | JP3355681 | 1981-03-09 | JPS6358099B2 | 1988-11-15 | KOBATA YOSHIHIRO; MOTOYOSHI JUNICHI |
| 14 | Ink ribbon delivery mechanism | JP3355681 | 1981-03-09 | JPS57148682A | 1982-09-14 | KOBATA YOSHIHIRO; MOTOYOSHI JIYUNICHI |
| PURPOSE:To prevent attachment of dust to a ribbon, confusion of a ribbon during the winding thereof and others and improve the quality of printing by removing static electricity caused by friction between the ink ribbon and a ribbon guide or the like with a conductive material, ground or the like. CONSTITUTION:For example, guide rollers 2 and 6 are made of a conductive rubber or the like while support shafts 8 and 9 supporting the rollers 2 and 6 in such a manner as to be free to rotate is constructed of a metal material. In addition, a guide shaft 11 retaining a metal carriage 10 in such a manner as to be free to rotate is also made of a conductive metal and then, both ends thereof are retained on a metal chasis. Any static electricity existing in an ink ribbon 4 is grounded via the guide rollers 2 and 6, the support shafts 8 and 9, the carriage 10 and the guide shaft 11 thereby removing the static electricity from the ribbon 4 completely. | ||||||
| 15 | Control device for driving of ink ribbon | JP3334881 | 1981-03-09 | JPS57146682A | 1982-09-10 | TAKAGI KAZUYA |
| PURPOSE:To improve the quality of printing by providing a pulse generating circuit delivering a signal of a prescribed cycle, a timing circuit delivering a signal only once until initial ink ribbon feeding is started after a charge of power and an initial feeding direction deciding control circuit. CONSTITUTION:The device is provided with driving motors 104 and 105 making an ink ribbon 101 run in a reciprocating manner, an inversion FF circuit 202 giving the driving motors 104 and 105 a signal instructing the direction of feeding the ink ribbon 101, the pulse generating circuit 301 delivering a pulse signal, and the timing generating circuit 302 generating a signal only once until initial ink ribbon feeding is started after a charge of power. The initial feeding direction deciding control circuit 305 inputting output signals of the pulse generating circuit 301 and the timing generating circuit 302 and making the inversion FF circuit 202 decide the initial direction of feeding of the ink ribbon 101 is also provided. | ||||||
| 16 | MEDIA PROCESSING DEVICE WITH ENHANCED MEDIA AND RIBBON LOADING AND UNLOADING FEATURES | US14571955 | 2014-12-16 | US20150165797A1 | 2015-06-18 | Arvind Chari; Dorin Balcan; Bill Schatz; Don Thielen; Randal Wong; Kuan-Ying Lu; Larry Smolenski; David Garbe; Chris Colagiovanni; James Tsai; Shushuo Wu; Lance Hussey; Harnish Jani; Greg Vanderpol |
| A device for processing media may include a system and method for loading and unloading consumable supplies of a media processing device, and more particularly, a system and method for providing a compact form factor media processing device which provides convenient access to the replaceable components of the media processing device. A media processing device may include a base and a lid hingedly attached to the base, moveable between a closed position in which the lid is secured to the base, and an open position. A cavity may be defined between the lid and the base, where the cavity is inaccessible when the lid is in the closed position and the cavity is accessible when the lid is in the open position. The media processing device may include a ribbon positioning assembly disposed within the cavity. | ||||||
| 17 | Tape drive and printing apparatus | US13668438 | 2012-11-05 | US08591127B2 | 2013-11-26 | Martin McNestry; Keith Buxton; Philip Hart |
| A tape drive for use in for example a transfer printing apparatus to drive a printer ribbon. The printer ribbon is mounted on two spools each of which is driven by a respective stepper motor. A controller controls the energization of the motor such that the ribbon is transported in at least one direction between spools mounted on the spool support. The controller is operative to energize both motors to drive the spools of ribbon in the direction of ribbon transport to achieve push-pull operations. Ribbon tension is monitored to enable accurate control of ribbon supply and ribbon take-up, the ribbon tension being monitored, for example, by monitoring power supply to the two stepper motors. | ||||||
| 18 | Tape drive and printing apparatus | US12880266 | 2010-09-13 | US08221009B2 | 2012-07-17 | Martin McNestry; Keith Buxton; Philip Hart |
| A tape drive for use in for example a transfer printing apparatus to drive a printer ribbon. The printer ribbon is mounted on two spools each of which is driven by a respective stepper motor. A controller controls the energization of the motor such that the ribbon is transported in at least one direction between spools mounted on the spool support. The controller is operative to energize both motors to drive the spools of ribbon in the direction of ribbon transport to achieve push-pull operations. Ribbon tension is monitored to enable accurate control of ribbon supply and ribbon take-up, the ribbon tension being monitored, for example, by monitoring power supply to the two stepper motors. | ||||||
| 19 | Tape drive and printing apparatus | US12691166 | 2010-01-21 | US08096715B2 | 2012-01-17 | Martin McNestry; Keith Buxton; Phillip Hart |
| A tape drive for use in for example a transfer printing apparatus to drive a printer ribbon. The printer ribbon is mounted on two spools each of which is driven by a respective stepper motor. A controller controls the energization of the motor such that the ribbon is transported in at least one direction between spools mounted on the spool support. The controller is operative to energize both motors to drive the spools of ribbon in the direction of ribbon transport to achieve push-pull operations. Ribbon tension is monitored to enable accurate control of ribbon supply and ribbon take-up, the ribbon tension being monitored, for example, by monitoring power supply to the two stepper motors. | ||||||
| 20 | TAPE CASSETTE | US13028366 | 2011-02-16 | US20110211894A1 | 2011-09-01 | Tomohiko Sugino; Yasuhiro Shibata; Takashi Horiuchi; Tsutomu Kato |
| A tape cassette includes a first guide member provided between a feed portion and a discharge slot, and positioned on or immediately before the discharge slot, on an upstream side in a travel direction of a ink ribbon, wherein the first guide member bends and guides travel of the ink ribbon in the predetermined direction while making contact with a reverse side of a inked surface of the ink ribbon and a second guide member provided between the feed portion and the discharge slot, and positioned on an upstream side in the travel direction of the ink ribbon with respect to the first guide member, wherein the second guide member bends and guides the travel of the ink ribbon in the predetermined direction while making contact with the reverse side of the inked surface of the ink ribbon. | ||||||
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