| 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 | 油墨图像物生成方法 | CN201580064444.4 | 2015-10-26 | CN107000457A | 2017-08-01 | 渡边广树; 水野知章; 磴秀康 |
| 本发明提供一种油墨图像物生成方法,该方法通过进行如下工序,选择荧光油墨,将已选择的荧光油墨与彩色油墨一起打滴,或者在打滴彩色油墨之后进行打滴,从而使荧光油墨存在于油墨图像物的表面,由此,在印刷基材即介质上进行喷墨打印时,关于仅使用彩色油墨无法确保色彩再现性的特定的颜色,选择使用适当的荧光油墨,能够对特定的颜色确保高色彩再现性,其中,所述工序包括:(a)对在介质中作为色彩再现的目标的目标颜色和打印有用于目标颜色的色彩再现的喷墨用彩色油墨的介质进行测色的工序;(b)计算目标颜色的测色值与打印有彩色油墨的介质的测色值之差的工序;以及(c)从预先设定的荧光油墨中选择减小目标颜色的测色值与打印有彩色油墨的介质的测色值之差的荧光油墨的工序。 | ||||||
| 2 | 光头、曝光装置以及图像形成装置 | CN200710167970.0 | 2007-10-31 | CN101172427B | 2011-02-09 | 藤川绅介 |
| 本发明公开一种光头(10A),其包括K个处理单元(U1~Uk),处理单元(U1)具有块单元(U1a)和(U1b),前者具有驱动电路(20A),后者具有驱动电路(20B)。在驱动电路(20A)中用反相器(23)和(24)之间的布线(Ly)与电源线(Lx)交叉,在驱动电路(20B)中用反相器(24)和驱动晶体管(31)之间的布线(Ly)与电源线(Lx)交叉。由此,布线Ly的逻辑电平以块单位反转。由此降低噪声。 | ||||||
| 3 | 颜色处理装置、图像形成装置以及颜色处理方法 | CN201480021308.2 | 2014-04-15 | CN105121169A | 2015-12-02 | 高木洁; 平本健一郎 |
| 颜色处理部具备:参照数据存储部,存储针对从三个以上的规定数的喷嘴(N)选择并且小于规定数的数量的多个代表喷嘴的各个,个别地设定有与在规定的颜色的最小的颜色值至最大的颜色值的规定灰度数范围内选择并且小于规定灰度数的数量的多个代表颜色值对应的多个参照值的参照数据(D);计数器以及喷嘴确定部,确定与输入值对应的喷嘴(N);代表喷嘴确定部,确定与确定了的喷嘴(N)对应的代表喷嘴;代表颜色值确定部,确定与输入值表示的颜色值对应的代表颜色值;以及计算部,从参照数据存储部个别地取得与确定了的代表喷嘴和代表颜色值的组合对应的参照值,通过使用了取得了的参照值的插值处理,计算与输入值对应的输出值。 | ||||||
| 4 | 液体排出设备以及控制液体排出设备的方法 | CN201010111882.0 | 2010-02-05 | CN101804731A | 2010-08-18 | 山口俊二; 鸭田仁; 平岛滋义 |
| 一种液体排出设备包括:多个喷嘴,其排出液体;液体排出头,其包括喷嘴阵列,在喷嘴阵列中各个喷嘴沿一个方向排列;液体吸附体,其吸附液体,所述液体附着于液体排出头的形成有喷嘴阵列的部分上;移动装置,用于沿喷嘴排列方向相对移动液体吸附体;以及液体吸取装置,用于吸取吸附在液体吸附体中的液体。 | ||||||
| 5 | 曝光装置,曝光方法以及印刷装置 | CN97190872.9 | 1997-07-07 | CN1197427A | 1998-10-28 | 村山文孝; 伊东郁义; 滝泽悟 |
| 在使用发光元件例如LED的用于曝光感光介质例如微胶囊彩色介质的曝光装置中,通过动态地改变加于LED上的电流或电压值进行根据温度等而变化的环境条件的校正。借以可以单独进行用于多浓淡度级表示的曝光时间的控制,使得曝光时间的控制不需要非常高的分辨率。因此,可以实现成本低的能够印刷多浓淡度图像的曝光装置。为了使用多个LED对一种颜色曝光,要由各个LED表示的浓淡度级被循环地改变,使得对于每个LED的浓淡度级控制的结构可以简化。此外,因此LED可以以基本相等的占空比下使用,LED的个别的偏差便成为不明显的。还可以防止特定的LED变劣的不方便的情况。 | ||||||
| 6 | 图像处理装置、图像处理方法以及喷墨记录装置 | CN201580045199.2 | 2015-08-11 | CN106660372A | 2017-05-10 | 胜山公人 |
| 本发明提供一种不会导致画质下降并且能够不依赖于Duty而抑制发生条带现象等浓度不均的图像处理装置、图像处理方法以及喷墨记录装置。确定喷出率,所述喷出率是具有喷出油墨的多个喷嘴的记录头的每个喷嘴喷出油墨的比例。确定喷嘴图案,所述喷嘴图案表示将通过记录头记录于记录介质的图像的各像素用多个喷嘴中的哪一个进行记录。根据喷出率的确定结果和喷嘴图案的确定结果按照图像的各像素的灰度值反映分别记录各像素的喷嘴的喷出率,进行各像素的灰度值的转换。 | ||||||
| 7 | 颜色处理装置、图像形成装置以及颜色处理方法 | CN201480021308.2 | 2014-04-15 | CN105121169B | 2016-12-14 | 高木洁; 平本健一郎 |
| 颜色处理部具备:参照数据存储部,存储针对从三个以上的规定数的喷嘴(N)选择并且小于规定数的数量的多个代表喷嘴的各个,个别地设定有与在规定的颜色的最小的颜色值至最大的颜色值的规定灰度数范围内选择并且小于规定灰度数的数量的多个代表颜色值对应的多个参照值的参照数据(D);计数器以及喷嘴确定部,确定与输入值对应的喷嘴(N);代表喷嘴确定部,确定与确定了的喷嘴(N)对应的代表喷嘴;代表颜色值确定部,确定与输入值表示的颜色值对应的代表颜色值;以及计算部,从参照数据存储部个别地取得与确定了的代表喷嘴和代表颜色值的组合对应的参照值,通过使用了取得了的参照值的插值处理,计算与输入值对应的输出值。 | ||||||
| 8 | 液体排出设备以及控制液体排出设备的方法 | CN201010111882.0 | 2010-02-05 | CN101804731B | 2012-07-04 | 山口俊二; 鸭田仁; 平岛滋义 |
| 一种液体排出设备包括:多个喷嘴,其排出液体;液体排出头,其包括喷嘴阵列,在喷嘴阵列中各个喷嘴沿一个方向排列;液体吸附体,其吸附液体,所述液体附着于液体排出头的形成有喷嘴阵列的部分上;移动装置,用于沿喷嘴排列方向相对移动液体吸附体;以及液体吸取装置,用于吸取吸附在液体吸附体中的液体。 | ||||||
| 9 | 设备信息显示体、显示板以及电子设备、图像形成装置 | CN200810135403.1 | 2008-08-01 | CN101364357A | 2009-02-11 | 河本益雄; 秋山卓也; 浅川善行; 武田英树; 杉本育生; 中村弥寿朗; 井藤浩志 |
| 本发明提供设备信息显示体、显示板以及电子设备、图像形成装置。所述设备信息显示体包括:显示面;基底部,以第一网点图案形成在所述显示面上;以及符号部,以与所述第一网点图案不同的第二网点图案形成在所述基底部上,表示规定的设备信息;其中,所述基底部的颜色和所述符号部的颜色,色调基本相同,亮度基本不同。由此,当在设备上显示设备种类名称、规格、废弃方法等信息时,可以抑制成本的提高和生产工序的增加,并且可以容易地识别设备信息。 | ||||||
| 10 | 光头、曝光装置以及图像形成装置 | CN200710167970.0 | 2007-10-31 | CN101172427A | 2008-05-07 | 藤川绅介 |
| 本发明公开一种光头(10A),其包括K个处理单元(U1~Uk),处理单元(U1)具有块单元(U1a)和(U1b),前者具有驱动电路(20A),后者具有驱动电路(20B)。在驱动电路(20A)中用反相器(23)和(24)之间的布线(Ly)与电源线(Lx)交叉,在驱动电路(20B)中用反相器(24)和驱动晶体管(31)之间的布线(Ly)与电源线(Lx)交叉。由此,布线Ly的逻辑电平以块单位反转。由此降低噪声。 | ||||||
| 11 | 用于增强印刷的系统和方法 | CN94116175.7 | 1994-07-26 | CN1050922C | 2000-03-29 | 威廉·E·纳尔逊 |
| 在空间光调制器印刷机中实现高质量印刷是困难的。两个主要的问题在该行时间约束范围之内达到灰度和在该印刷的图象范围之内(81)消除出现楷梯的现象。它可以通过与数据被填进该单元时在该空间光调制器上交替复位的方式、定时延迟(86)、水平偏移(84)和不同尺寸象素(80、82)来改进。 | ||||||
| 12 | 用于增强印刷的系统和方法 | CN94116175.7 | 1994-07-26 | CN1120206A | 1996-04-10 | 威廉·E·纳尔逊 |
| 在空间光调制器印刷机中实现高质量印刷是困难的。两个主要的问题在该行时间约束范围之内达到灰度和在该印刷的图像范围之内(81)消除出现楷梯的现象。它可以通过与数据被填进该单元时在该空间光调制器上交替复位的方式、定时延迟(86)、水平偏移(84)和不同尺寸像素(80、82)来改进。 | ||||||
| 13 | 화상 처리 장치, 화상 형성 장치, 및 프로그램을 기록한 기록매체 | KR1020067013156 | 2005-10-27 | KR1020070017306A | 2007-02-09 | 이케타카히로; 히라노마사노리 |
| 멀티 레벨(M 레벨) 화상 데이터를, 멀티 레벨 에러 확산 처리(multi-level error-diffusion process) 또는 멀티 레벨 평균 에러 최소법(minimum-average multi-level error method)을 사용하여, N 값으로(여기서 M > N > 1) 양자화하는 화상 처리 장치가 제공된다. 상기 화상 처리 장치는, 보정 데이터를 출력하는 수단; 양자화 역치를 설정하는 수단; 상기 보정 데이터와 상기 양자화 역치를 비교하여 N 레벨 화상 데이터를 출력하는 수단; 및 상기 N 레벨 화상 데이터를 생성할 때 발생하는 에러를 산출하는 수단;을 포함한다. 화상 처리 장치, 화상 형성 장치, 멀티 레벨 화상 데이터, 에러 확산 처리, 평균 에러 최소법 | ||||||
| 14 | 광헤드, 노광 장치, 및 화상 형성 장치 | KR1020070106603 | 2007-10-23 | KR1020080040571A | 2008-05-08 | 후지카와신스케 |
| An optical head, an exposing device, and an image forming device are provided to restrain noise particularly during solid coating printing in which pixel circuits simultaneously perform the same logic shift. A plurality of light emitting elements(32) is disposed in the first direction and emits light with luminance according to a driving current. A plurality of driving transistors(31) is installed to correspond to the plurality of light emitting elements and supplies the driving current. Potential lines supply a source potential or a gate potential of the plurality of driving transistors. A plurality of driving circuits(20A,20B) is installed to correspond to the plurality of driving transistors and supplies driving control signals for designating an ON state or an OFF state of gates of the driving transistors. The driving circuits include wirings(Ly) having crossings, which cross potential lines, and logical circuits for generating the driving control signals based on image data instructing on or off of the light emitting elements. | ||||||
| 15 | 감열 기록 장치, 화상 형성 방법 및 인화물 | KR1020087008674 | 2006-10-30 | KR1020080074098A | 2008-08-12 | 타키타히로아키; 타무라요시히코; 오쿠보타카유키 |
| A control section (9) of a thermal printer (1) performs resolution conversion, grayscale conversion, and CMYK image separation of inputted image data (3), and then performs a shift processing of the image data on each color for double-tone printing, thus acquiring two types of image data. The control section (9) converts the acquired image data into dot data, performs a reverse shift processing, and prints the two types of image data with them superimposed. In the shift processing, the image data is shifted by the pixels the number of which corresponds to the resolution and the number of lines of the thermal printer (1). The image data can be shifted by the pixels the number of which is different with the colors. The number of superimposition printings can be reduced by performing a single-tone printing instead of a double-tone printing if it is appropriate for a color. A dot-on-dot processing which is a special shift processing of the color of the second or later printing is performed, and the image data subjected to the dot-on-dot processing for the highlighted area and the image data subjected to an ordinary shift processing for the other area can be combined. | ||||||
| 16 | 출력방법 | KR1019910013655 | 1991-08-07 | KR1019940002363B1 | 1994-03-23 | 이토오노부야수 |
| 내용 없음. | ||||||
| 17 | Thermal transfer printer and printing method using same | US15515233 | 2015-09-17 | US09981481B2 | 2018-05-29 | Yutaka Inokuchi; Takeshi Yamazaki |
| Irregularities in the density that can occur in printed images of a thermal transfer printer due to mechanical variations or variations in thermal characteristics in the thermal head are more easily and accurately corrected as compared to cases not having the features of the disclosed invention. The thermal transfer printer includes a thermal head including heating elements and causing the heating elements to generate heat and transfer ink onto a sheet to print an image on the sheet, a storage unit for storing a first correspondence between a heating element in the thermal head and a correction amount of energy applied to the heating element and a second correspondence between a density of an image to be printed and an adjustment coefficient of the correction amount, and a control unit for correcting energy applied to each heating element by an amount obtained by multiplying the correction amount for the heating element obtained from the first correspondence by the adjustment coefficient obtained from the second correspondence according to a density of an image to be newly printed. The first correspondence is generated from a density distribution of a test image printed based on image data of a single tone. | ||||||
| 18 | Image processing device, image processing method, and ink jet recording apparatus | US15433359 | 2017-02-15 | US09849668B2 | 2017-12-26 | Kimito Katsuyama |
| Provided are an image processing device, an image processing method, and an ink jet recording apparatus that can prevent the occurrence of density unevenness, such as banding, regardless of a duty, without causing deterioration of image quality. A jetting rate indicating an ink jetting rate of each of a plurality of nozzles which jet ink in a recording head including the nozzles is determined. A nozzle pattern indicating which of the plurality of nozzles of the recording head is used to record each pixel of an image on a recording medium is determined. The jetting rate of the nozzle which records each pixel is reflected in a gradation value of each pixel of the image on the basis of the determination result of the jetting rate and the determination result of the nozzle pattern to convert the gradation value of each pixel. | ||||||
| 19 | Image processing device | US15515764 | 2014-10-21 | US09848101B2 | 2017-12-19 | Sadatsugu Nakayama |
| Provided are: a main memory 14 that stores image data, a peripheral region 44 being set to a certain value; and a CPU 12 that performs tonal steps conversion processing on the image data. The CPU 12 includes: a plurality of cores 16 that have a parallel processing function due to a plurality of threads 18 and that execute the tonal steps conversion processing in parallel; and a data cache memory 22 and program cache memory 20 that are provided corresponding to each of the plurality of threads 18. The core 16 specifies a region smaller than a size of the data cache memory 22, of the image data as an operand region 48, and causes the image data corresponding to said operand region 48 to be acquired from the main memory 14 into the data cache memory 22 and executes the tonal steps conversion processing on said operand region 48 without distinction of a central region 42 and the peripheral region 44. | ||||||
| 20 | Image Processing Device | US15515764 | 2014-10-21 | US20170302815A1 | 2017-10-19 | Sadatsugu NAKAYAMA |
| Provided are: a main memory 14 that stores image data, a peripheral region 44 being set to a certain value; and a CPU 12 that performs tonal steps conversion processing on the image data. The CPU 12 includes: a plurality of cores 16 that have a parallel processing function due to a plurality of threads 18 and that execute the tonal steps conversion processing in parallel; and a data cache memory 22 and program cache memory 20 that are provided corresponding to each of the plurality of threads 18. The core 16 specifies a region smaller than a size of the data cache memory 22, of the image data as an operand region 48, and causes the image data corresponding to said operand region 48 to be acquired from the main memory 14 into the data cache memory 22 and executes the tonal steps conversion processing on said operand region 48 without distinction of a central region 42 and the peripheral region 44. | ||||||
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