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    • 1. 发明授权
    • Liquid ejection head, method of manufacturing liquid ejection head, and image forming apparatus
    • 液体喷射头,液体喷射头的制造方法和图像形成装置
    • US07681996B2
    • 2010-03-23
    • US11645711
    • 2006-12-27
    • Toshiya KojimaKatsumi Enomoto
    • Toshiya KojimaKatsumi Enomoto
    • B41J2/045
    • B41J2/1603B41J2/1637
    • The liquid ejection head includes: a piezoelectric body which generates pressure for ejecting liquid; a pressure chamber which is connected to a nozzle; a common liquid chamber which is arranged across the piezoelectric body from the pressure chamber and has at least five molded walls that are integrally molded from a resin material; groove-shaped wires which include a first wire and a second wire and are formed on at least two of the molded walls of the common liquid chamber; a liquid supply flow channel which is provided in one of the molded walls that is adjacent to the pressure chamber in such a manner that the liquid supply flow channel is connected with the pressure chamber; and an electronic circuit which is arranged on one of the molded walls of the common liquid chamber, wherein the first wire is connected to the piezoelectric body and the second wire is connected to the electronic circuit.
    • 液体喷射头包括:产生用于喷射液体的压力的压电体; 连接到喷嘴的压力室; 一个公共的液体室,其从压力室排列成横跨压电体,并具有由树脂材料整体模制的至少五个模制壁; 包括第一线和第二线并且形成在公共液体室的至少两个模制壁上的槽形线; 液体供给流路,其设​​置在与压力室相邻的模制壁之一中,使得液体供给流路与压力室连接; 以及布置在所述公共液体室的所述模制壁中的一个上的电子电路,其中所述第一线连接到所述压电体,并且所述第二线连接到所述电子电路。
    • 3. 发明授权
    • Droplet ejecting apparatus
    • 液滴喷射装置
    • US07314270B2
    • 2008-01-01
    • US10950494
    • 2004-09-28
    • Katsumi EnomotoToshiya KojimaKazuo Sanada
    • Katsumi EnomotoToshiya KojimaKazuo Sanada
    • B41J2/045B41J2/155
    • B41J2/1637B41J2/14233B41J2/161B41J2/1625B41J2/1626B41J2/1632B41J2/1634B41J2202/03
    • A droplet ejecting apparatus for discharging liquid from nozzles of pressure chambers by supplying liquid from a liquid tank to said pressure chambers and then contracting said pressure chambers by means of piezoelectric elements, comprising: pressure chamber plates forming said pressure chambers, and to which vibration plates forming walls of said pressure chambers are formed integrally; and a common liquid chamber formed in the liquid tank and connected to respective liquid supply ports of the respective pressure chambers through respective flow passages connected to said respective liquid supply ports; wherein the liquid tank and the pressure chamber plates are mutually superimposed in a layered structure, in positions where the flow passages coincide with the liquid supply ports of the pressure chambers.
    • 一种液滴喷射装置,用于通过将液体从液体罐供给到所述压力室,然后通过压电元件收缩所述压力室,从压力室的喷嘴排出液体,包括:形成所述压力室的压力室板,并且振动板 所述压力室的形成壁一体形成; 以及公共液体室,形成在所述液体罐中,并且通过连接到所述各个液体供给口的各个流路连接到各个压力室的各个液体供给口; 其特征在于,在所述流路与所述压力室的液体供给口一致的位置,所述液体罐和所述压力室板以层叠结构相互重叠。
    • 4. 发明申请
    • Droplet ejecting apparatus
    • 液滴喷射装置
    • US20070263040A1
    • 2007-11-15
    • US11826939
    • 2007-07-19
    • Katsumi EnomotoToshiya KojimaKazuo Sanada
    • Katsumi EnomotoToshiya KojimaKazuo Sanada
    • B41J2/045
    • B41J2/1637B41J2/14233B41J2/161B41J2/1625B41J2/1626B41J2/1632B41J2/1634B41J2202/03
    • A droplet ejecting apparatus for discharging liquid from nozzles of pressure chambers by supplying liquid from a liquid tank to said pressure chambers and then contracting said pressure chambers by means of piezoelectric elements, comprising: pressure chamber plates forming said pressure chambers, and to which vibration plates forming walls of said pressure chambers are formed integrally; and a common liquid chamber formed in the liquid tank and connected to respective liquid supply ports of the respective pressure chambers through respective flow passages connected to said respective liquid supply ports; wherein the liquid tank and the pressure chamber plates are mutually superimposed in a layered structure, in positions where the flow passages coincide with the liquid supply ports of the pressure chambers.
    • 一种液滴喷射装置,用于通过将液体从液体罐供给到所述压力室,然后通过压电元件收缩所述压力室,从压力室的喷嘴排出液体,包括:形成所述压力室的压力室板,并且振动板 所述压力室的形成壁一体形成; 以及公共液体室,形成在所述液体罐中,并且通过连接到所述各个液体供给口的各个流路连接到各个压力室的各个液体供给口; 其特征在于,在所述流路与所述压力室的液体供给口一致的位置,所述液体罐和所述压力室板以层叠结构相互重叠。
    • 7. 发明授权
    • Droplet ejecting apparatus
    • 液滴喷射装置
    • US07992970B2
    • 2011-08-09
    • US11826939
    • 2007-07-19
    • Katsumi EnomotoToshiya KojimaKazuo Sanada
    • Katsumi EnomotoToshiya KojimaKazuo Sanada
    • B41J2/045B41J2/155
    • B41J2/1637B41J2/14233B41J2/161B41J2/1625B41J2/1626B41J2/1632B41J2/1634B41J2202/03
    • A droplet ejecting apparatus for discharging liquid from nozzles of pressure chambers by supplying liquid from a liquid tank to said pressure chambers and then contracting said pressure chambers by means of piezoelectric elements, comprising: pressure chamber plates forming said pressure chambers, and to which vibration plates forming walls of said pressure chambers are formed integrally; and a common liquid chamber formed in the liquid tank and connected to respective liquid supply ports of the respective pressure chambers through respective flow passages connected to said respective liquid supply ports; wherein the liquid tank and the pressure chamber plates are mutually superimposed in a layered structure, in positions where the flow passages coincide with the liquid supply ports of the pressure chambers.
    • 一种液滴喷射装置,用于通过将液体从液体罐供给到所述压力室,然后通过压电元件收缩所述压力室,从压力室的喷嘴排出液体,包括:形成所述压力室的压力室板,并且振动板 所述压力室的形成壁一体形成; 以及公共液体室,形成在所述液体罐中,并且通过连接到所述各个液体供给口的各个流路连接到各个压力室的各个液体供给口; 其特征在于,在所述流路与所述压力室的液体供给口一致的位置,所述液体罐和所述压力室板以层叠结构相互重叠。
    • 8. 发明申请
    • Liquid ejection head, method of manufacturing liquid ejection head, and image forming apparatus
    • 液体喷射头,液体喷射头的制造方法和图像形成装置
    • US20070146440A1
    • 2007-06-28
    • US11645711
    • 2006-12-27
    • Toshiya KojimaKatsumi Enomoto
    • Toshiya KojimaKatsumi Enomoto
    • B41J2/045
    • B41J2/1603B41J2/1637
    • The liquid ejection head includes: a piezoelectric body which generates pressure for ejecting liquid; a pressure chamber which is connected to a nozzle; a common liquid chamber which is arranged across the piezoelectric body from the pressure chamber and has at least five molded walls that are integrally molded from a resin material; groove-shaped wires which include a first wire and a second wire and are formed on at least two of the molded walls of the common liquid chamber; a liquid supply flow channel which is provided in one of the molded walls that is adjacent to the pressure chamber in such a manner that the liquid supply flow channel is connected with the pressure chamber; and an electronic circuit which is arranged on one of the molded walls of the common liquid chamber, wherein the first wire is connected to the piezoelectric body and the second wire is connected to the electronic circuit.
    • 液体喷射头包括:产生用于喷射液体的压力的压电体; 连接到喷嘴的压力室; 一个公共的液体室,其从压力室排列成横跨压电体,并具有由树脂材料整体模制的至少五个模制壁; 包括第一线和第二线并且形成在公共液体室的至少两个模制壁上的槽形线; 液体供给流路,其设​​置在与压力室相邻的模制壁之一中,使得液体供给流路与压力室连接; 以及布置在所述公共液体室的所述模制壁中的一个上的电子电路,其中所述第一线连接到所述压电体,并且所述第二线连接到所述电子电路。
    • 10. 发明授权
    • Printer and feeding control method
    • 打印机和进料控制方法
    • US06960037B2
    • 2005-11-01
    • US10665478
    • 2003-09-22
    • Toshiya KojimaKatsumi Enomoto
    • Toshiya KojimaKatsumi Enomoto
    • B41J11/00B41J11/42
    • B41J11/0095B41J11/425
    • An ink jet head is fed in a main-scan direction to record one line on a recording paper. Thereafter, the recording paper is fed in a sub-scan direction for one line. A corrected feeding amount A is calculated by adding a correction value C1 to a basic feeding amount B. The correction value C1 is determined by a formula, C1=2·D·(R−½), wherein p represents an interval between dots recorded on recording paper in the sub-scan direction, and k represents a range of unevenness in the feeding amount caused by structural factors of sub-scan feeding means. For example, D=(p−k)/2. R is a random number in a range between 0 and 1. Gradation unevenness and/or black and white streaks caused by periodical feeding unevenness become inconspicuous since the correction value C1 is changed on a random basis.
    • 喷墨头沿主扫描方向进给,在记录纸上记录一条线。 此后,记录纸沿副扫描方向进给一行。 通过将校正值C 1添加到基本供给量B来计算校正进给量A.校正值C 1由公式C 1 = 2·D(R-½)确定,其中p表示间隔 在副扫描方向上记录在记录纸上的点之间,k表示由副扫描进给装置的结构因素引起的进给量的不均匀范围。 例如,D =(p-k)/ 2。 R是在0和1之间的范围内的随机数。由于校正值C 1随机地改变,所以由周期性进给不均匀引起的渐变不均匀性和/或黑白条纹变得不明显。