| 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 | 墨带和墨带卷 | CN201310445652.1 | 2013-09-26 | CN103692788B | 2016-09-07 | 松元春树 |
| 墨带和墨带卷。本发明公开了一种具有沿着厚度方向的尺寸的墨带(IB),包括:色带基础层(164);第一层(163;163;163;162″′),所述第一层与所述色带基础层(164)的沿着所述厚度方向的一侧相邻地布置,包括大于或者等于7并且小于或者等于9的可溶解性参数值,并且被构造成从所述色带基础层(164)分离;和第二层(161;161;162″;161),所述第二层布置在所述第一层(163;163;163;162″′)的沿着所述厚度方向的一侧上,包括大于或者等于7并且小于或者等于9的可溶解性参数值,并且被构造成附着到转印目标。 | ||||||
| 2 | 热转印染料片及其制造方法、印刷机 | CN200780029929.5 | 2007-06-27 | CN101500816B | 2011-04-13 | J·霍威尔; S·奥利维尔 |
| 本发明提供了一种热转印染料片以及用于制造该染料片的方法和相关的印刷机,该热转印染料片包括:衬底,其带有可热转印的染料的区域,该区域包括在该区域内具有第一光密度的第一可印刷部分、在该区域内具有第二光密度的第二可印刷部分以及在该区域内具有与第一可印刷部分基本相同的光密度的第三可印刷部分,其中第一和第二光密度之间的光密度上的差别可以由染料片印刷机上的检测装置来检测。 | ||||||
| 3 | 包含剥离型层状无机纳米粒子或剥离型层状双氢氧化物纳米粒子的热转印色带及其制造方法 | CN201080001484.1 | 2010-04-23 | CN102131650A | 2011-07-20 | 崔珍镐; 朴大焕; 朴元遇; 柳在尚 |
| 本发明涉及一种包含剥离型层状无机纳米粒子或剥离型层状双氢氧化物的热转印色带及其制造方法,尤其涉及一种升华的热转印色带,其中第二粘合层、转印油墨层和转印保护层形成在基底膜的一个表面上,其另一表面上形成有润滑耐热层和第一粘合层,其中润滑耐热层、转印油墨层和转印保护层包含有剥离型层状无机纳米粒子或剥离型层状双氢氧化物纳米粒子以提高热转印色带的耐热性、图像均匀性和抗磨性。由于该润滑耐热层优良的耐热性而防止了热变形和撕裂并在图像打印期间不会引起对热转印头的损坏。此外,根据本发明热转印色带的转印保护层具有极高的耐用性以降低色带的磨损,色带的每个层是均匀的,提高了色带的打印灵敏度。因此,本发明的热转印色带在图像打印质量和费用方面提供许多优点。 | ||||||
| 4 | 热转印染料片和印刷机 | CN200780029929.5 | 2007-06-27 | CN101500816A | 2009-08-05 | J·霍威尔; S·奥利维尔 |
| 本发明提供了一种热转印染料片以及用于制造该染料片的方法和相关的印刷机,该热转印染料片包括:衬底,其带有可热转印的染料的区域,该区域包括在该区域内具有第一光密度的第一可印刷部分、在该区域内具有第二光密度的第二可印刷部分以及在该区域内具有与第一可印刷部分基本相同的光密度的第三可印刷部分,其中第一和第二光密度之间的光密度上的差别可以由染料片印刷机上的检测装置来检测。 | ||||||
| 5 | 一种水性环保型平压树脂基碳带及其制备方法 | CN201610651143.8 | 2016-08-10 | CN106274090A | 2017-01-04 | 乔鲜花; 杨盼盼; 邓丽霞; 张军涛; 杜小冬 |
| 本发明属于烫印材料技术领域,具体公开了一种水性环保型平压树脂基碳带,由基膜和分别涂于基膜两侧的背涂层和热转印层构成,其中,所述背涂层包括水性丙烯酸树脂;所述热转印层分为两部分,由基膜一侧表面自内向外依次为离型层和油墨层,油墨层中主要原料的重量百分比为:水性聚烯烃8~20%,羟乙基纤维素2~5%,水溶性炭黑10~18%,去离子水60~75%。本发明水性树脂基碳带在生产和使用过程中不会产生有毒、有害物质,属于环境友好,生产成本低,使用效果好,具有广泛的应用前景。 | ||||||
| 6 | 具有印刷的胶粘带和具有印刷的胶粘带卷 | CN201310445414.0 | 2013-09-26 | CN103694912B | 2015-08-12 | 松元春树 |
| 本发明涉及具有印刷的胶粘带和具有印刷的胶粘带卷。一种具有印刷的胶粘带(150″),包含带主体(152;153;154)以及通过从墨带(IB)转印形成在所述带主体(152;153;154)上的转印层(IK;IK′;IK″;IK″′),所述带主体(152;153;154)包含:带基材层(153);设置在所述带基材层(153)的所述厚度方向的一侧上的胶粘层(152);以及设置在所述带基材层(153)的所述厚度方向的另一侧上的剥离层(154),所述转印层(IK;IK′;IK″;IK″′)包含形成在所述转印层(IK;IK′;IK″;IK″′)的所述厚度方向的另一侧的正面上的第一层(163;163;163;162″′)以及形成于所述转印层(IK;IK′;IK″;IK″′)的所述厚度方向的一侧的正面上的第二层(161;161;162″;161)。 | ||||||
| 7 | 具有印刷的胶粘带和具有印刷的胶粘带卷 | CN201310445414.0 | 2013-09-26 | CN103694912A | 2014-04-02 | 松元春树 |
| 本发明涉及具有印刷的胶粘带和具有印刷的胶粘带卷。一种具有印刷的胶粘带(150″),包含带主体(152;153;154)以及通过从墨带(IB)转印形成在所述带主体(152;153;154)上的转印层(IK;IK′;IK″;IK″′),所述带主体(152;153;154)包含:带基材层(153);设置在所述带基材层(153)的所述厚度方向的一侧上的胶粘层(152);以及设置在所述带基材层(153)的所述厚度方向的另一侧上的剥离层(154),所述转印层(IK;IK′;IK″;IK″′)包含形成在所述转印层(IK;IK′;IK″;IK″′)的所述厚度方向的另一侧的正面上的第一层(163;163;163;162″′)以及形成于所述转印层(IK;IK′;IK″;IK″′)的所述厚度方向的一侧的正面上的第二层(161;161;162″;161)。 | ||||||
| 8 | 墨带和墨带卷 | CN201310445652.1 | 2013-09-26 | CN103692788A | 2014-04-02 | 松元春树 |
| 墨带和墨带卷。本发明公开了一种具有沿着厚度方向的尺寸的墨带(IB),包括:色带基础层(164);第一层(163;163;163;162″′),所述第一层与所述色带基础层(164)的沿着所述厚度方向的一侧相邻地布置,包括大于或者等于7并且小于或者等于9的可溶解性参数值,并且被构造成从所述色带基础层(164)分离;和第二层(161;161;162″;161),所述第二层布置在所述第一层(163;163;163;162″′)的沿着所述厚度方向的一侧上,包括大于或者等于7并且小于或者等于9的可溶解性参数值,并且被构造成附着到转印目标。 | ||||||
| 9 | 열 전사 염료시트 및 프린터 | KR1020097002067 | 2007-06-27 | KR101124062B1 | 2012-04-16 | 호웰,제프리; 올리비에,세르게 |
| A thermal transfer dyesheet comprising a substrate bearing a region of a thermally transferable dye, the region including a first printable portion within the panel having a higher optical density than a second printable portion within the region, such that the difference in optical density between the first and second portions is detectable by a detection means on a dyesheet printer is provided, together with a method for manufacture of the dyesheet and an associated printer. | ||||||
| 10 | 열 전사 염료시트 및 프린터 | KR1020097002067 | 2007-06-27 | KR1020090075790A | 2009-07-09 | 호웰,제프리; 올리비에,세르게 |
| A thermal transfer dyesheet comprising a substrate bearing a region of a thermally transferable dye, the region including a first printable portion within the region having a first optical density, a second printable portion within the region having a second optical density, the difference in optical density between the first and second optical densities being detectable by a detection means on a dyesheet printer, and a third printable portion within the region having an optical density substantially the same as that of the first printable portion is provided, together with a method for manufacture of the dyesheet and an associated printer. | ||||||
| 11 | Polyester film | US15316042 | 2015-06-09 | US09987865B2 | 2018-06-05 | Tomoko Hayano; Jun Takahashi |
| A polyester film has a wax on a surface of one side of the film and is a polyester film in which this wax is dispersed in the form of islands on the surface of the film, and a filling factor of the wax in the film surface is 20 to 45%, and, as for a number of islands of the wax dispersed in the form of islands and each of which has an area of 200 μm2 or larger, there is one or less/10000 μm2. | ||||||
| 12 | Thermal Transfer Ink Ribbon for Cartridge and Printing Apparatus | US15273776 | 2016-09-23 | US20170120648A1 | 2017-05-04 | Noriaki Satoh; Haruki Matsumoto |
| A thermal transfer ink ribbon includes a backcoat layer, a ribbon base layer formed on the backcoat layer, a release layer formed on the ribbon base layer and containing resin and wax, an ink layer formed on the release layer and containing a first resin and a second resin, an aluminum layer formed on the ink layer, and an adhesive layer formed on the aluminum layer and containing resin and wax. The first resin is transparent or translucent and contains at least one of polyester resin, styrene-acrylic resin, and polyethylene resin. The second resin is transparent or translucent and contains at least one of polyurethane resin, polypropylene resin, acrylic resin, and methacrylic resin. | ||||||
| 13 | SYSTEM FOR MEASURING RIBBON TENSION | US14836633 | 2015-08-26 | US20150360490A1 | 2015-12-17 | Martin MCNESTRY; Gary PFEFFER |
| A ribbon includes a substrate film, wherein the film comprises a tensionable material; and an ink disposed on the ribbon. A length of the ribbon includes portions that have been tensioned to provide a code readable from the ribbon by measuring the tension over the length of the ribbon. | ||||||
| 14 | Ink ribbon and ink ribbon roll | US14032348 | 2013-09-20 | US09126448B2 | 2015-09-08 | Haruki Matsumoto |
| The disclosure discloses an ink ribbon having a dimension in a thickness direction, comprising a ribbon base layer, a first layer, and a second layer. The first layer is disposed adjacent to one side of the ribbon base layer in the thickness direction, and includes a solubility parameter value greater than or equal to 7 and less than or equal to 9, and is configured to separate from the ribbon base layer. The second layer is disposed on the one side of the first layer in the thickness direction, and includes a solubility parameter value greater than or equal to 7 and less than or equal to 9, and is configured to stick to a transfer target. | ||||||
| 15 | Printing system ribbon including print transferable circuitry and elements | US13073196 | 2011-03-28 | US08992105B2 | 2015-03-31 | William Berson |
| Systems and methods are provided for generating customized labels having electronic circuitry such as RFID circuitry. A printing system generates the label by selectively transfer printing elements (e.g., electronic circuitry, physical components, etc.) and donor layers (e.g., conductive materials, non-conductive materials, etc.) from a ribbon to a receiver (e.g., an item that receives the indicia). In addition, the printing system can program and test the label or indicia thereof, thereby providing the ability to customize each label according to predetermined criteria and to ensure that each label functions properly. | ||||||
| 16 | Thermal transfer dyesheet and printer | US12306271 | 2007-06-27 | US08139092B2 | 2012-03-20 | Jeffrey Howell; Serge Olivier |
| A thermal transfer dyesheet comprising a substrate bearing a region of a thermally transferable dye, the region including a first printable portion within the region having a first optical density, a second printable portion within the region having a second optical density, the difference in optical density between the first and second optical densities being detectable by a detection means on a dyesheet printer, and a third printable portion within the region having an optical density substantially the same as that of the first printable portion is provided, together with a method for manufacture of the dyesheet and an associated printer. | ||||||
| 17 | Printing system ribbon including print transferable circuitry and elements | US11166783 | 2005-06-24 | US07931413B2 | 2011-04-26 | William Berson |
| Systems and methods are provided for generating customized labels having electronic circuitry such as RFID circuitry. A printing system generates the label by selectively transfer printing elements (e.g., electronic circuitry, physical components, etc.) and donor layers (e.g., conductive materials, non-conductive materials, etc.) from a ribbon to a receiver (e.g., an item that receives the indicia). In addition, the printing system can program and test the label or indicia thereof, thereby providing the ability to customize each label according to predetermined criteria and to ensure that each label functions properly. | ||||||
| 18 | Thermal transfer printer, dyesheet and method of operation | US10466677 | 2003-11-03 | US20040061766A1 | 2004-04-01 | Richard A. Hann |
| A thermal transfer printer includes three light emitting diodes (7, 8, 9) emitting red, green and blue light respectively, and respective detectors (10, 11, 12) mounted on the opposite side of a dyesheet (1) passing through the printer. The detectors (10, 11, 12) detect the light absorption ratios of three colour print panels (Y, M and C) of the dyesheet, and these detected ratios are compared C with acceptable ranges of light absorption ratios. If the detected light absorption ratio for any colour falls outside the corresponding range, use or further use of the dyesheet in the printer is prevented, for example by disabling an essential function of the printer or ejecting the dyesheet from the printer. | ||||||
| 19 | Multi-layer correction and/or marking material, process for its production and its use | US101961 | 1998-07-21 | US6162492A | 2000-12-19 | Krishnamoorthy Narayanan |
| The description relates to a process for producing a multi-layer correcting and/or marking material. In said process, a film is applied to a substrate which can be released therefrom and in particular contains a dye and/or pigment. A further layer containing an adhesive is then applied over the film thus obtained. The removable film is applied in the form of an aqueous suspension containing a brittle and a film-forming binder. The process makes it possible to dispense with organic solvents. A correcting or marking agent thus produced exhibits good tear-off properties. | ||||||
| 20 | Printing ribbon for printing red scannable bar codes | US653986 | 1996-05-28 | US5616402A | 1997-04-01 | Joseph D. Roth; Richard D. Puckett; Michael W. Olmstead |
| A printing ribbon for printing bar codes which appear visibly red and are scannable by conventional bar code scanning systems utilizing lasers emitting light having wavelengths in the visible red region and collectors which collect the light reflected from the bar codes. This is accomplished by the provision of a printing ribbon having a printing medium adhered to a backing element. The printing medium preferably includes an interspersed distribution of pigments which are retained in a binder. These pigments can include a combination of red coloring agents, such as visible red pigments which visibly appear red under broad spectrum light, fluorescent pigments which are inactive under light having wavelengths in the visible red region, but which fluoresce under broad spectrum light, and red absorbing agents, such as visible black or other dark colored pigments. The fluorescent pigments are activated under broad spectrum light and act to shield or mask the dark color of the visible black or other dark colored pigments, thus making the printed image appear red in broad spectrum light. This results in printed bar codes which appear visually red under broad spectrum light, yet are scannable by bar code scanning systems utilizing lasers emitting light having wavelengths in the visible red region and collectors which collect the light reflected from the bar codes. | ||||||
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