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    • 1. 发明授权
    • Media processing device and method of controlling a media processing device
    • 媒体处理装置和媒体处理装置的控制方法
    • US08848259B2
    • 2014-09-30
    • US13611413
    • 2012-09-12
    • Hiroyuki Motoyama
    • Hiroyuki Motoyama
    • H04N1/04
    • H04N1/04G06K9/186
    • A media processing device improves the recognition rate of magnetic ink character data from magnetic ink characters printed on a medium. The media processing device 1 has a magnetic reading unit 41 that acquires the magnetic data of magnetic ink characters S2 from a check S1; and a front image scanner unit 25 that exposes the check S1 to a front image scanning light and acquires front image data. When at least a magnetic data read command to read magnetic ink characters S2 is received from a computer 80, the front image scanner unit 25 is set to a front image scanning mode 11 that acquires front image data using infrared light as the front image data. The check processing device 1 acquires the magnetic data and front image data, and sends the acquired data to the computer 80. The computer 80 recognizes the magnetic ink characters S2.
    • 介质处理装置可以提高打印在介质上的墨水字符的磁性墨水字符数据的识别率。 介质处理装置1具有磁读取单元41,其从检查S1获取磁性墨字符S2的磁数据; 以及将检查S1曝光到前方图像扫描光并获取前方图像数据的前方图像扫描部25。 当从计算机80接收到至少读取磁性墨水字符S2的磁数据读取命令时,前置图像扫描器单元25被设置为使用红外光获取正面图像数据作为前面图像数据的前部图像扫描模式11。 检查处理装置1获取磁数据和前图像数据,并将获取的数据发送到计算机80.计算机80识别磁墨字符S2。
    • 3. 发明授权
    • Fluid droplet discharge device and a head cleaning control method for a fluid droplet discharge device
    • 流体液滴排放装置和用于流体液滴排出装置的头部清洁控制方法
    • US08403456B2
    • 2013-03-26
    • US12509142
    • 2009-07-24
    • Kiyomi KurodaHiroyuki Motoyama
    • Kiyomi KurodaHiroyuki Motoyama
    • B41J2/165
    • B41J2/16532B41J2/16547
    • A fluid droplet discharge device executes a head cleaning process to quickly remove bubbles that have entered the fluid supply path when it is likely that bubbles have entered in a flushing process. If the ink cartridge cover 2b is opened during flushing and it is possible that bubbles have entered the ink supply path, ΔN1 is added to the count Na of the cleaning intensity setting counter N. If the count Na exceeds a threshold value Nmax in a head cleaning operation performed when a defective nozzle is detected, cleaning (CL4) with the highest cleaning intensity level is applied. Because ΔN1 is added to the count Na if the ink cartridge cover 2b is opened when flushing, the timing when this cleaning operation (CL4) is applied is accelerated. Bubbles that have entered the fluid supply path can therefore be removed sooner.
    • 流体液滴排出装置执行头部清洁处理,以在气泡进入冲洗处理时可以快速去除进入流体供给路径的气泡。 如果墨水盒盖2b在冲洗期间打开,并且可能气泡进入墨水供应路径,则将&Dgr; N1添加到清洁强度设定计数器N的计数Na中。如果计数Na超过阈值Nmax 当检测到有缺陷的喷嘴时执行头部清洁操作,施加具有最高清洁强度水平的清洁(CL4)。 因为如果墨水盒盖2b在冲洗时打开,因此将&Dgr; N1添加到计数器Na中,则施加该清洁操作(CL4)的时间被加速。 因此,可以更快地去除已经进入流体供应路径的气泡。
    • 5. 发明授权
    • Head cleaning method for an inkjet printer and an inkjet printer
    • 喷墨打印机和喷墨打印机的头部清洁方法
    • US08070253B2
    • 2011-12-06
    • US12397673
    • 2009-03-04
    • Kiyomi KurodaHiroyuki Motoyama
    • Kiyomi KurodaHiroyuki Motoyama
    • B41J2/165
    • B41J2/16579
    • An inkjet printer and a head cleaning method for an inkjet printer reduce the time required for head cleaning while also reducing needless ink consumption. The control unit 30 of the printer 1 confirms if a timer AID flag, impact detection flag, startup process flag, AID hold flag, or cover closed flag is set before executing the cleaning process a first time. If any one of the flags is set, the possibility that there are numerous defective nozzles in the printer 1 is high, and a stronger or more intense cleaning process (CL1 or CL2) is executed. Whether cleaning process CL1 or CL2 executes is determined according to the number of defective nozzles detected in the first nozzle check. If no flag is set, the weakest cleaning process (CL0) is executed.
    • 用于喷墨打印机的喷墨打印机和头部清洁方法减少了头部清洁所需的时间,同时还减少了不必要的墨水消耗。 打印机1的控制单元30在执行清洁处理之前首先确定是否设置了计时器AID标志,冲击检测标志,启动处理标志,AID保持标志或盖关闭标志。 如果设置了任何一个标志,则打印机1中存在许多有缺陷的喷嘴的可能性高,并且执行更强或更强烈的清洁处理(CL1或CL2)。 是否根据在第一喷嘴检查中检测到的缺陷喷嘴的数量来确定清洁过程CL1或CL2是否执行。 如果没有设置标志,则执行最弱的清洁处理(CL0)。
    • 8. 发明申请
    • Printing control method for a serial inkjet printer, and a serial inkjet printer
    • 串行喷墨打印机和串行喷墨打印机的打印控制方法
    • US20090278873A1
    • 2009-11-12
    • US12387881
    • 2009-05-08
    • Hiroyuki MotoyamaMinoru Nagaoka
    • Hiroyuki MotoyamaMinoru Nagaoka
    • B41J29/38
    • B41J29/02B41J11/003B41J11/0085B41J11/06B41J15/042B41J29/13B41J29/38
    • A printing control method for a serial inkjet printer prevents paper dust that is dispersed by the air current produced by a vacuum platen from adhering to the ink nozzle area. An inkjet head that prints while moving along the width of the vacuum platen is moved to a position where the ink nozzle area is outside of a first or second retraction position separated a first distance from the first and second paper edge positions of the recording paper, and the recording paper is then advanced. Paper dust and other dust particulate does not adhere to the ink nozzle area when the paper is advanced because the ink nozzle area does not stop in the first and second paper edge positions of the recording paper where paper dust and other dust particulate can be made airborne by the air current produced by the vacuum platen.
    • 串行喷墨打印机的打印控制方法防止由真空压板产生的气流分散的纸屑粘附到墨喷嘴区域。 在沿着真空压板的宽度移动的同时打印的喷墨头移动到墨水喷嘴区域在与记录纸的第一和第二纸张边缘位置分开第一距离的第一或第二退回位置的外部的位置, 然后记录纸被提前。 当纸张前进时,纸屑和其他灰尘颗粒不会粘附到墨水喷嘴区域,因为墨水喷嘴区域不会停留在记录纸的第一和第二纸张边缘位置,纸屑和其他灰尘颗粒可以制成空气 由真空压板产生的气流。
    • 9. 发明申请
    • Head Cleaning Method for an Inkjet Printer and an Inkjet Printer
    • 喷墨打印机和喷墨打印机的打印头清洁方法
    • US20090225128A1
    • 2009-09-10
    • US12397673
    • 2009-03-04
    • Kiyomi KurodaHiroyuki Motoyama
    • Kiyomi KurodaHiroyuki Motoyama
    • B41J2/165
    • B41J2/16579
    • An inkjet printer and a head cleaning method for an inkjet printer reduce the time required for head cleaning while also reducing needless ink consumption. The control unit 30 of the printer 1 confirms if a timer AID flag, impact detection flag, startup process flag, AID hold flag, or cover closed flag is set before executing the cleaning process a first time. If any one of the flags is set, the possibility that there are numerous defective nozzles in the printer 1 is high, and a stronger or more intense cleaning process (CL1 or CL2) is executed. Whether cleaning process CL1 or CL2 executes is determined according to the number of defective nozzles detected in the first nozzle check. If no flag is set, the weakest cleaning process (CL0) is executed.
    • 用于喷墨打印机的喷墨打印机和头部清洁方法减少了头部清洁所需的时间,同时还减少了不必要的墨水消耗。 打印机1的控制单元30在执行清洁处理之前首先确定是否设置了计时器AID标志,冲击检测标志,启动处理标志,AID保持标志或盖关闭标志。 如果设置了任何一个标志,则打印机1中存在许多有缺陷的喷嘴的可能性高,并且执行更强或更强烈的清洁处理(CL1或CL2)。 是否根据在第一喷嘴检查中检测到的缺陷喷嘴的数量来确定清洁过程CL1或CL2是否执行。 如果没有设置标志,则执行最弱的清洁处理(CL0)。