| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Type-writer-ribbon mechanism. | US1911638608 | 1911-07-15 | US1039473A | 1912-09-24 | ALEXANDER JESSE |
| 42 | Type-writer-ribbon operating and feeding mechanism. | US1909478572 | 1909-02-18 | US974334A | 1910-11-01 | ALEXANDER JESSE |
| 43 | Geobge w | US304770D | US304770A | 1884-09-09 | ||
| 44 | LEADER FILM ON A RIBBON SUPPLY ROLL | US15411066 | 2017-01-20 | US20170203596A1 | 2017-07-20 | Patrick C. CRONIN; Arthur J. PAULSON; James A. KALTHOFF |
| A ribbon supply includes a supply spool and a ribbon material wound onto the supply spool. A tack down bond prevents unwinding of the ribbon material from the supply spool. A leader film extends from the tack down bond, with the leader film having a length that is sufficient to allow installation of the ribbon supply and connection of the leader film to a take-up spool without detaching the tack down bond. | ||||||
| 45 | Ribbon guide in a tape cassette | US13028366 | 2011-02-16 | US09174476B2 | 2015-11-03 | 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. | ||||||
| 46 | TAPE DRIVE AND PRINTING APPARATUS | US13668438 | 2012-11-05 | US20130106974A1 | 2013-05-02 | 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. | ||||||
| 47 | Tape drive and printing apparatus | US13314677 | 2011-12-08 | US08221010B2 | 2012-07-17 | 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. | ||||||
| 48 | Carbon ribbon retaining mechanism | US12453287 | 2009-05-06 | US08177446B2 | 2012-05-15 | Shang-Shih Kuo; Chin-Chuan Liu |
| A carbon ribbon retaining mechanism includes a barcode-printer base, an upper cover, a printing head device, and at least one pair of resilient fastener elements. The barcode-printer base has an upper portion forming a receiving space. The upper cover is coupled to the receiving space of the barcode-printer base for being downward closed to and covering the receiving space. At least one pawl is respectively formed on opposite edge portions of the upper cover. The printing head device is accommodated in the receiving space. A carbon ribbon retention shaft is arranged above the printing head device. The resilient fastener elements are mounted above the printing head device. By means of the engagement effected between the pawls of the upper cover and the resilient fastener elements, the upper cover is fixed to and above the printing head device to cover the receiving space. Further, by flapping the upper cover upward, the pawls of the upper cover are disengaged from the resilient fastener elements to allow opening of the upper cover and thus expose the carbon ribbon retention shaft for replacement and/or maintenance. | ||||||
| 49 | TAPE DRIVE AND PRINTING APPARATUS | US13314677 | 2011-12-08 | US20120086763A1 | 2012-04-12 | 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. | ||||||
| 50 | Tape drive and printing apparatus | US12401871 | 2009-03-11 | US08007190B2 | 2011-08-30 | 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. | ||||||
| 51 | Tape drive and printing apparatus | US12401821 | 2009-03-11 | US07753605B2 | 2010-07-13 | 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. | ||||||
| 52 | TAPE DRIVE AND PRINTING APPARATUS | US12691166 | 2010-01-21 | US20100135709A1 | 2010-06-03 | 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. | ||||||
| 53 | Carbon ribbon retaining mechanism | US12453287 | 2009-05-06 | US20090279932A1 | 2009-11-12 | Shang-Shih Kuo; Chin-Chuan Liu |
| A carbon ribbon retaining mechanism includes a barcode-printer base, an upper cover, a printing head device, and at least one pair of resilient fastener elements. The barcode-printer base has an upper portion forming a receiving space. The upper cover is coupled to the receiving space of the barcode-printer base for being downward closed to and covering the receiving space. At least one pawl is respectively formed on opposite edge portions of the upper cover. The printing head device is accommodated in the receiving space. A carbon ribbon retention shaft is arranged above the printing head device. The resilient fastener elements are mounted above the printing head device. By means of the engagement effected between the pawls of the upper cover and the resilient fastener elements, the upper cover is fixed to and above the printing head device to cover the receiving space. Further, by flapping the upper cover upward, the pawls of the upper cover are disengaged from the resilient fastener elements to allow opening of the upper cover and thus expose the carbon ribbon retention shaft for replacement and/or maintenance. | ||||||
| 54 | TAPE DRIVE AND PRINTING APPARATUS | US11687234 | 2007-03-16 | US20070286661A1 | 2007-12-13 | 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. | ||||||
| 55 | TAPE DRIVE AND PRINTING APPARATUS | US11533957 | 2006-09-21 | US20070014618A1 | 2007-01-18 | 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. | ||||||
| 56 | Ink sheet cartridge and exchangeable ink-sheet set mounted on the ink sheet cartridge | US10743190 | 2003-12-23 | US07079167B2 | 2006-07-18 | Shigeyuki Hayashi |
| An ink sheet cartridge and method of assembly for an ink sheet cartridge including a cartridge body rotatably supporting four spools. The spool includes a first rotation member having a transmission gear and a shaft member having a flange. The first rotation member is undetachably engaged with the shaft member within a support hole formed to the cartridge body while interposing a side plate between the transmission gear and the flange. An intermediate connector includes resilient pawls and projections for engaging respective mating groves and locking grooves formed to a takeup-side core tube, and is engaged with the flange of the shaft member 48. | ||||||
| 57 | Image forming device and ink sheet cartridge mounted on the image forming device | US10961208 | 2004-10-12 | US20050063755A1 | 2005-03-24 | Shigeyuki Hayashi |
| An ink sheet cartridge includes a cartridge body. The cartridge body has a pair of side plates, a partitioning plate, and a cover segment together defining a frame shape with an central open space. When the ink sheet cartridge is accommodated to a facsimile device, a thermal head and a platen are positioned at the central open space. Also, the partitioning plate serves as a lower transport chute defining a transport path with an upper chute members, so that a recording sheet is transported along the transport path. | ||||||
| 58 | Ink sheet cartridge and exchangeable ink-sheet set mounted on the ink sheet cartridge | US09957021 | 2001-09-21 | US20020008755A1 | 2002-01-24 | Shigeyuki Hayashi |
| An ink sheet cartridge includes a cartridge body 30 rotatably supporting four spools 36, 37, 38, 39. The spool 38 includes a first rotation member 56 having a transmission gear 47 and a shaft member 48 having a flange 48a. The first rotation member 46 is undetachably engaged with the shaft member 48 within a support hole 50 formed to the cartridge body 30 while interposing a side plate 51a between the transmission gear 47 and the flange 48a. An Gin intermediate connector 46 includes resilient pawls 59 and projections 61 for engaging respective mating grooves 60 and locking grooves 62 formed to a takeup-side core tube 41, and is engaged with the flange 48a of the shaft member 48. | ||||||
| 59 | Image forming device and ink sheet cartridge mounted on the image forming device | US09820700 | 2001-03-30 | US20010046399A1 | 2001-11-29 | Shigeyuki Hayashi |
| An ink sheet cartridge 20 includes a cartridge body 30. The cartridge body 30 has a pair of side plates 31a, 31b, a partitioning plate 24, and a cover segment 32 together defining a flame shape with an central open space. When the ink sheet cartridge 20 is accommodated to a facsimile device 1, a thermal head 22 and a platen 17 are positioned at the central open space. Also, the partitioning plate 21 serves as a lower transport chute defining a transport path with an upper chute members 27, so that a recording sheet 4 is transported along the transport path. | ||||||
| 60 | Image forming method and system | US08814825 | 1997-03-11 | US06183933B2 | 2001-02-06 | Shun-ichi Ishikawa; Seiiti Kubodera; Akira Fukano; Keishi Kato; Isao Taniguchi; Yoshiharu Okino; Nagao Ogiwara |
| A photosensitive material which when imagewise exposed to record a latent image thereon is formed with an image by heating with a prescribed processing material superimposed thereon is used as a photographic film or the like, the photosensitive material is exposed to record an image thereon, the exposed photosensitive material is developed by superimposing and heating the photosensitive material and the processing material to form the image on the photosensitive material and then peeling the photosensitive material formed with the image off the processing material, the developed image on the photosensitive material is read with a scanner to obtain image data representing the image, and the image data are subjected to prescribed image processing to generate reproducible digital image data. | ||||||
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