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    • 2. 发明授权
    • Cooling apparatus and image formation apparatus
    • 冷却装置和图像形成装置
    • US08320789B2
    • 2012-11-27
    • US12724163
    • 2010-03-15
    • Hiroaki TakatsuSatoru SasakiAkinori KimataNatsuyo HigashiHirotada Seki
    • Hiroaki TakatsuSatoru SasakiAkinori KimataNatsuyo HigashiHirotada Seki
    • G03G21/20H05K7/20
    • G03G15/6573G03G21/206G03G2221/1645
    • In an image formation state, to cool a recording sheet on a route from a fixer to a paper ejection roller, a blast fan assumes a first position restrained by a first fixture. Also, in another state, to cool a recording sheet on the catch tray, the blast fan assumes a second position restrained by a second fixture. To transition from the image formation state to another state, the blast fan sends a strong blast in a reverse direction from the normal blast direction. A bias is generated on the blast fan due to the resulting reactive force, the blast fan becomes free from the restraint of the first fixture, and shifts from the first position to the second position. Conversely, to transition from another state to the image formation state, a strong blast is sent in the same direction as the normal blast direction, and the blast fan shifts from the second position to the first position.
    • 在图像形成状态下,为了在从定影剂到排纸辊的路径上冷却记录纸,鼓风风扇采取由第一固定装置限制的第一位置。 此外,在另一状态下,为了将记录纸冷却在捕捉托盘上,鼓风扇采取由第二固定装置限制的第二位置。 为了从图像形成状态转换到另一状态,鼓风机从正常的鼓风方向向相反方向发送强烈的鼓风。 由于所产生的反作用力,鼓风扇产生偏压,鼓风风扇不受第一夹具的约束,并从第一位置移动到第二位置。 相反,为了从另一状态转变为图像形成状态,以与正常鼓风方向相同的方向发送强风,并且鼓风风扇从第二位置移动到第一位置。
    • 3. 发明申请
    • TONER CONCENTRATION SENSOR AND TONER CONCENTRATION CONTROL METHOD
    • 调色剂浓度传感器和调色剂浓度控制方法
    • US20100290795A1
    • 2010-11-18
    • US12770986
    • 2010-04-30
    • Hirotada SekiAkinori KimataSatoru SasakiNatsuyo HigashiHiroaki Takatsu
    • Hirotada SekiAkinori KimataSatoru SasakiNatsuyo HigashiHiroaki Takatsu
    • G03G15/08
    • G03G15/0853
    • In this toner concentration sensor, as the magnetic permeability of a two-component developer 3 containing toner and carrier in a two-component developing unit 1 has changed with changing TC ratio of the two-component developer, the oscillation frequency of a first oscillation circuit 20 having a detection coil 5 changes, on the other hand the oscillation frequency of a second oscillation circuit 30 having a reference coil 6 does not change. While, changes in temperature conditions cause the oscillation frequency of the second oscillation circuit to change in the same way as the oscillation frequency of the first oscillation circuit. Therefore, utilizing a difference between the oscillation frequencies of the first and second oscillation circuits makes it possible to cancel out changes in the temperature conditions so that a value corresponding to only the magnetic permeability of the two-component developer can be obtained. Thus, detection errors of toner concentration due to temperature changes can be reliably prevented.
    • 在该调色剂浓度传感器中,随着双组分显影单元1中含有调色剂和载体的双组分显影剂3的磁导率随着双组分显影剂的TC比的变化而改变,第一振荡电路的振荡频率 具有检测线圈5的20变化,另一方面,具有基准线圈6的第二振荡电路30的振荡频率不变化。 而温度条件的变化导致第二振荡电路的振荡频率以与第一振荡电路的振荡频率相同的方式变化。 因此,利用第一和第二振荡电路的振荡频率之间的差异,可以抵消温度条件的变化,从而可以获得仅对应于双组分显影剂的磁导率的值。 因此,可以可靠地防止由于温度变化引起的调色剂浓度的检测误差。
    • 4. 发明授权
    • Toner concentration sensor and toner concentration control method
    • 墨粉浓度传感器和墨粉浓度控制方法
    • US08380092B2
    • 2013-02-19
    • US12770986
    • 2010-04-30
    • Hirotada SekiAkinori KimataSatoru SasakiNatsuyo HigashiHiroaki Takatsu
    • Hirotada SekiAkinori KimataSatoru SasakiNatsuyo HigashiHiroaki Takatsu
    • G03G15/08
    • G03G15/0853
    • In this toner concentration sensor, as the magnetic permeability of a two-component developer 3 containing toner and carrier in a two-component developing unit 1 has changed with changing TC ratio of the two-component developer, the oscillation frequency of a first oscillation circuit 20 having a detection coil 5 changes, on the other hand the oscillation frequency of a second oscillation circuit 30 having a reference coil 6 does not change. While, changes in temperature conditions cause the oscillation frequency of the second oscillation circuit to change in the same way as the oscillation frequency of the first oscillation circuit. Therefore, utilizing a difference between the oscillation frequencies of the first and second oscillation circuits makes it possible to cancel out changes in the temperature conditions so that a value corresponding to only the magnetic permeability of the two-component developer can be obtained. Thus, detection errors of toner concentration due to temperature changes can be reliably prevented.
    • 在该调色剂浓度传感器中,随着双组分显影单元1中含有调色剂和载体的双组分显影剂3的磁导率随着双组分显影剂的TC比的变化而改变,第一振荡电路的振荡频率 具有检测线圈5的20变化,另一方面,具有基准线圈6的第二振荡电路30的振荡频率不变化。 而温度条件的变化导致第二振荡电路的振荡频率以与第一振荡电路的振荡频率相同的方式变化。 因此,利用第一和第二振荡电路的振荡频率之间的差异,可以抵消温度条件的变化,从而可以获得仅对应于双组分显影剂的磁导率的值。 因此,可以可靠地防止由于温度变化引起的调色剂浓度的检测误差。
    • 6. 发明授权
    • Image forming device with mounted replaceable unit, method of checking operation in that image forming device, and storage medium storing operation checking program directed to that image forming device
    • 具有可更换单元的图像形成装置,检查该图像形成装置的操作的方法以及存储介质存储操作检查程序,该程序指向该图像形成装置
    • US08606123B2
    • 2013-12-10
    • US13007346
    • 2011-01-14
    • Junichi AraiHiroaki Takatsu
    • Junichi AraiHiroaki Takatsu
    • G03G15/00
    • G03G15/5004
    • When a unit containing a fuse is mounted, in response to detection of a potential indicating that the fuse has not been blown by a detection circuit, a current for blowing the fuse is supplied from a blowing circuit to the mounted unit containing the fuse, and operation of the blowing circuit is checked based on potentials detected by the detection circuit before current supply and after current supply, respectively. When a unit containing a non-blown component instead of a fuse is mounted, a current is supplied from the blowing circuit to the mounted unit containing the non-blown component, and operation of the blowing circuit is checked based on potentials detected by the detection circuit before current supply and during current supply, respectively, or potentials detected by the detection circuit before current supply and after current supply, respectively.
    • 当安装包含保险丝的单元时,响应于检测到保险丝未被检测电路吹出的电位的检测,将熔断器的电流从吹风回路提供给包含保险丝的安装单元,以及 根据检测电路在供电前和供电之后检测到的电位来检查送风电路的工作。 当安装包含未熔断部件而不是保险丝的单元时,从吹送电路向包含非吹出部件的安装单元提供电流,并且基于检测到的电位来检查吹风电路的操作 分别在电流供应之前和电流供应期间的电路电流或电流供应之前由检测电路检测到的电位。