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    • 1. 发明授权
    • Printing apparatus
    • 印刷装置
    • US08456498B2
    • 2013-06-04
    • US13200249
    • 2011-09-21
    • Noriyoshi ShojiTomoki OguraKouhei MiyawakiNorimitsu Sanbongi
    • Noriyoshi ShojiTomoki OguraKouhei MiyawakiNorimitsu Sanbongi
    • B41J2/35B41J2/365B41J2/37
    • B41J2/355
    • A printing apparatus includes a printing unit for performing printing by pressing a thermal head onto heat sensitive paper to heat the heat sensitive paper. A battery supplies a voltage to the thermal head, and a battery voltage detecting unit detects the voltage. A printing control unit changes, according to the detected voltage, a power-off time in which power supply from the battery to the thermal head is stopped. The printing control unit calculates the power-off time based on the detected voltage and the resistance of the thermal head and shortens the power-off time as the detected voltage becomes lower thereby shortening the overall printing time without shortening the life of the heating resistance elements of the thermal head.
    • 一种打印装置,包括一个打印单元,用于通过将热敏打印头压在热敏纸上以加热热敏纸来进行打印。 电池向热敏头提供电压,电池电压检测单元检测电压。 打印控制单元根据检测到的电压改变从电池向热敏头的供电停止的断电时间。 打印控制单元基于检测到的电压和热敏头的电阻来计算断电时间,并且随着检测电压变低而缩短断电时间,从而缩短整个打印时间,而不缩短加热电阻元件的使用寿命 的热头。
    • 4. 发明授权
    • Manufacturing method for a thermal head
    • 热头制造方法
    • US08372296B2
    • 2013-02-12
    • US12804954
    • 2010-08-03
    • Noriyoshi ShojiNorimitsu SanbongiToshimitsu MorookaKeitaro Koroishi
    • Noriyoshi ShojiNorimitsu SanbongiToshimitsu MorookaKeitaro Koroishi
    • H01L21/302B41J2/345
    • B41J2/3359Y10T29/49083
    • Provided is a manufacturing method for a thermal head, including: bonding a flat upper substrate in a stacked state onto a flat supporting substrate including a heat-insulating concave portion open to one surface thereof so that the heat-insulating concave portion is closed (bonding step (SA2)); thinning the upper substrate bonded onto the supporting substrate by the bonding step (SA2) (plate thinning step (SA3)); measuring a thickness of the upper substrate thinned by the plate thinning step (SA3) (measurement step (SA4)); deciding a target resistance value of heating resistors based on the thickness of the upper substrate, which is measured by the measurement step (SA4) (decision step (SA5)); and forming, at positions of a surface of the upper substrate thinned by the plate thinning step (SA3), the heating resistors having the target resistance value determined by the decision step (SA5), the positions being opposed to the heat-insulating concave portion (resistor forming step (SA6)). Thus, a high-efficiency thermal head capable of accurately outputting a target heating amount obtained by estimating an amount of heat wasted without being used is easily manufactured without using a special apparatus.
    • 本发明提供一种热敏头的制造方法,其特征在于,包括:将层叠状态的平坦的上部基板接合在具有向其一个表面开口的绝热凹部的平坦的支撑基板上,使得所述绝热凹部闭合(接合 步骤(SA2)); 通过接合步骤(SA2)(板薄化步骤(SA3))使结合到支撑衬底上的上衬底变薄; 测量通过板薄化步骤(SA3)变薄的上基板的厚度(测量步骤(SA4)); 基于通过测量步骤(SA4)测量的上基板的厚度(判定步骤(SA5)),确定加热电阻器的目标电阻值; 在由所述薄板稀化工序(SA3)变薄的所述上基板的表面的位置处,形成由所述判定工序(SA5)决定的所述目标电阻值的所述加热电阻体,与所述绝热凹部 (电阻形成工序(SA6))。 因此,在不使用特殊装置的情况下,容易制造能够精确地输出通过估计不使用而浪费的热量而获得的目标加热量的高效热头。
    • 5. 发明授权
    • Thermal head and printer
    • 热敏头和打印机
    • US08289354B2
    • 2012-10-16
    • US12807854
    • 2010-09-15
    • Toshimitsu MorookaKeitaro KoroishiNoriyoshi ShojiNorimitsu Sanbongi
    • Toshimitsu MorookaKeitaro KoroishiNoriyoshi ShojiNorimitsu Sanbongi
    • B41J2/335
    • B41J2/3355B41J2/33585
    • Provided are a thermal head that has a cavity portion at a position corresponding to heating resistors and is capable of improving thermal efficiency while ensuring strength of the cavity portion, and a printer including the thermal head. The thermal head (1) includes: a supporting substrate (3) including a concave portion (2) in a surface thereof; an upper substrate (5) bonded in a stacked state to the surface of the supporting substrate (3); and a heating resistor (7) provided at a position, which corresponds to the concave portion (2), of a surface of the upper substrate (5), in which a centerline average roughness of at least a region of a back surface of the upper substrate (5) is set to be less than 5 nm, the region being opposed to the concave portion (2).
    • 提供一种热敏头,其在对应于加热电阻器的位置处具有空腔部分,并且能够在确保空腔部分的强度的同时提高热效率,以及包括热敏头的打印机。 热敏头(1)包括:在其表面包括凹部(2)的支撑基板(3) 将上层基板(5)以堆叠状态接合到所述支撑基板(3)的表面; 以及设置在上基板(5)的表面的与凹部(2)对应的位置处的加热电阻器(7),其中,所述上基板(5)的背面的至少一个区域的中心线平均粗糙度 上基板(5)被设定为小于5nm,该区域与凹部(2)相对。
    • 8. 发明申请
    • Method of manufacturing thermal head
    • 制造热头的方法
    • US20120073122A1
    • 2012-03-29
    • US13200250
    • 2011-09-21
    • Keitaro KoroishiNoriyoshi ShojiNorimitsu SanbongiToshimitsu Morooka
    • Keitaro KoroishiNoriyoshi ShojiNorimitsu SanbongiToshimitsu Morooka
    • H01C17/00
    • H01C17/065B41J2/335B41J2/33585B41J2/3359
    • A method of manufacturing a thermal head, comprising: forming a concave portion opened in one surface of at least one of a support substrate and an upper substrate to be disposed on the support substrate in a stacked state, the support substrate and the upper substrate each being of a plate shape; measuring a width dimension of the concave portion; bonding the support substrate and the upper substrate to each other in the stacked state so as to close an opening of the concave portion; forming a heating resistor on a surface of the upper substrate bonded onto the support substrate, in a region opposed to the concave portion; and forming a protective film for covering and protecting the heating resistor on the upper substrate, at a thickness which is set based on the width dimension of the concave portion and a thickness dimension of the upper substrate.
    • 一种热敏头的制造方法,其特征在于,包括:在层叠状态下形成在支撑基板上设置在支撑基板和上基板中的至少一个的一个面的开口部的凹部,所述支撑基板和所述上基板各自 是板状; 测量凹部的宽度尺寸; 将支撑基板和上基板以堆叠状态彼此接合,以封闭凹部的开口; 在与所述凹部对置的区域中,在所述上基板的与所述支撑基板接合的表面上形成发热电阻体; 并且形成用于覆盖和保护上基板上的加热电阻器的保护膜,其厚度基于凹部的宽度尺寸和上基板的厚度尺寸设定。