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    • 2. 发明申请
    • LIQUID EJECTING APPARATUS AND CONTROL METHOD THEREFOR
    • 液体喷射装置及其控制方法
    • US20120086755A1
    • 2012-04-12
    • US13267770
    • 2011-10-06
    • Tomohiro Sayama
    • Tomohiro Sayama
    • B41J2/04
    • B41J2/04581B41J2/04588B41J2/0459
    • A first activation signal has ejection activation pulses that eject ink from nozzles; a second activation signal has a micro-oscillating activation pulse (non-ejection activation pulse) for inducing pressure fluctuation on ink within the pressure chamber of a level such that liquid is not ejected from the nozzle; a minimum electric potential of the micro-oscillating activation pulse is no greater than a maximum electric potential of the ejection activation pulse; and the ejection activation pulse is supplied to a piezoelectric element corresponding to an ejecting nozzle ejecting ink in a unit cycle, and the micro-oscillating activation pulse is at least supplied to a piezoelectric element corresponding to a non-ejecting nozzle located adjacent to the ejecting nozzle.
    • 第一激活信号具有从喷嘴喷射墨水的喷射激活脉冲; 第二激活信号具有微振荡激活脉冲(非喷射激活脉冲),用于引起压力室内的墨水的压力波动,使得液体不从喷嘴喷射; 微振荡激活脉冲的最小电位不大于喷射激活脉冲的最大电位; 并且喷射激活脉冲以单位周期提供给与喷射喷嘴喷射墨水相对应的压电元件,并且微振荡激活脉冲至少被提供给对应于与喷射喷嘴相邻的非喷射喷嘴的压电元件 喷嘴。
    • 3. 发明申请
    • LIQUID DISCHARGING APPARATUS AND METHOD OF CONTROLLING THE SAME
    • 液体排放装置及其控制方法
    • US20090066741A1
    • 2009-03-12
    • US12208062
    • 2008-09-10
    • Shinya KOMATSUTomohiro SAYAMA
    • Shinya KOMATSUTomohiro SAYAMA
    • B41J29/38
    • B41J2/125B41J2/2142B41J29/393
    • A liquid discharging apparatus includes a discharging device, a liquid receiving device, a voltage applying device, an electrical change detection device, a driving signal generating device, and a control device. The discharging device discharges liquid from a nozzle to a target on the basis of discharge data. At the time of discharging, the control device controls the discharging device so as to perform discharging on the basis of the discharge data using a generated discharge data driving signal. At the time of the nozzle testing, the control device controls the voltage applying device so as to apply a predetermined voltage between the discharging device and the liquid receiving device and controls the discharging device using a test driving signal to determine on the basis of an electrical change detected by the electrical change detection device whether the liquid is discharged to thereby perform the nozzle testing.
    • 液体排出装置包括排出装置,液体接收装置,电压施加装置,电气变化检测装置,驱动信号产生装置和控制装置。 排出装置基于排出数据将喷嘴喷射到目标液体。 在放电时,控制装置根据产生的放电数据驱动信号,根据放电数据控制放电装置的放电。 在喷嘴测试时,控制装置控制电压施加装置,以在排出装置和液体接收装置之间施加预定电压,并使用测试驱动信号控制放电装置,以基于电气 由电变化检测装置检测到的变化是否排出液体,从而进行喷嘴测试。
    • 6. 发明授权
    • Liquid ejecting apparatus and control method therefor
    • 液体喷射装置及其控制方法
    • US08590995B2
    • 2013-11-26
    • US13267770
    • 2011-10-06
    • Tomohiro Sayama
    • Tomohiro Sayama
    • B41J29/38B41J2/04
    • B41J2/04581B41J2/04588B41J2/0459
    • A first activation signal has ejection activation pulses that eject ink from nozzles; a second activation signal has a micro-oscillating activation pulse (non-ejection activation pulse) for inducing pressure fluctuation on ink within the pressure chamber of a level such that liquid is not ejected from the nozzle; a minimum electric potential of the micro-oscillating activation pulse is no greater than a maximum electric potential of the ejection activation pulse; and the ejection activation pulse is supplied to a piezoelectric element corresponding to an ejecting nozzle ejecting ink in a unit cycle, and the micro-oscillating activation pulse is at least supplied to a piezoelectric element corresponding to a non-ejecting nozzle located adjacent to the ejecting nozzle.
    • 第一激活信号具有从喷嘴喷射墨水的喷射激活脉冲; 第二激活信号具有微振荡激活脉冲(非喷射激活脉冲),用于引起压力室内的墨水的压力波动,使得液体不从喷嘴喷射; 微振荡激活脉冲的最小电位不大于喷射激活脉冲的最大电位; 并且喷射激活脉冲以单位周期提供给与喷射喷嘴喷射墨水相对应的压电元件,并且微振荡激活脉冲至少被提供给对应于与喷射喷嘴相邻的非喷射喷嘴的压电元件 喷嘴。
    • 9. 发明授权
    • Liquid discharging apparatus, method of controlling the same, and program that implements the method
    • 排液装置,控制方法以及实施该方法的程序
    • US08033634B2
    • 2011-10-11
    • US12234090
    • 2008-09-19
    • Shinya KomatsuTomohiro Sayama
    • Shinya KomatsuTomohiro Sayama
    • B41J29/393
    • B41J2/125B41J2/0451B41J2/04555B41J2/0458B41J2/04581B41J2/04588B41J2/04595B41J2/04596B41J2/2142
    • A liquid discharging apparatus includes a discharging device, a liquid receiving device, a voltage applying device, and a control device. The discharging discharges liquid from a nozzle to a target on the basis of discharge data, where it is received by a liquid receiving device. The voltage applying device applies a predetermined voltage between the discharging device and the liquid receiving device. When discharging on the basis of the discharge data, the control device controls the discharging device to discharge using a generated discharge data driving signal. When performing nozzle testing, the control device controls the voltage applying device to apply the predetermined voltage between the discharging device and the liquid receiving device and controls the discharging device using a generated test driving signal to discharge liquid from the nozzle to determine on the basis of a detected electrical change whether liquid is discharged from the nozzle.
    • 液体排出装置包括排出装置,液体接收装置,电压施加装置和控制装置。 基于排出数据,排出液体从喷嘴向目标喷射,由液体接收装置接收。 电压施加装置在放电装置和液体接收装置之间施加预定的电压。 当基于放电数据进行放电时,控制装置使用产生的放电数据驱动信号来控制放电装置的放电。 当进行喷嘴测试时,控制装置控制电压施加装置,以在排放装置和液体接收装置之间施加预定电压,并使用生成的测试驱动信号控制排出装置,以从喷嘴排出液体,以基于 液体是否从喷嘴排出的检测到的电变化。
    • 10. 发明授权
    • Liquid discharging apparatus and method for obtaining a large liquid droplet detection signal
    • 液体排出装置和获得大液滴检测信号的方法
    • US07950761B2
    • 2011-05-31
    • US12208062
    • 2008-09-10
    • Shinya KomatsuTomohiro Sayama
    • Shinya KomatsuTomohiro Sayama
    • B41J29/38B41J29/393
    • B41J2/125B41J2/2142B41J29/393
    • A liquid discharging apparatus includes a discharging device, a liquid receiving device, a voltage applying device, an electrical change detection device, a driving signal generating device, and a control device. The discharging device discharges liquid from a nozzle to a target on the basis of discharge data. At the time of discharging, the control device controls the discharging device so as to perform discharging on the basis of the discharge data using a generated discharge data driving signal. At the time of the nozzle testing, the control device controls the voltage applying device so as to apply a predetermined voltage between the discharging device and the liquid receiving device and controls the discharging device using a test driving signal to determine on the basis of an electrical change detected by the electrical change detection device whether the liquid is discharged to thereby perform the nozzle testing.
    • 液体排出装置包括排出装置,液体接收装置,电压施加装置,电气变化检测装置,驱动信号产生装置和控制装置。 排出装置基于排出数据将喷嘴喷射到目标液体。 在放电时,控制装置根据产生的放电数据驱动信号,根据放电数据控制放电装置的放电。 在喷嘴测试时,控制装置控制电压施加装置,以在排出装置和液体接收装置之间施加预定电压,并使用测试驱动信号控制放电装置,以基于电气 由电变化检测装置检测到的变化是否排出液体,从而进行喷嘴测试。