会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Active contactless information storage device, method, and information access system
    • 主动非接触式信息存储设备,方法和信息访问系统
    • US08933793B2
    • 2015-01-13
    • US13303630
    • 2011-11-23
    • Daisuke YamashitaShinichi ShiotsuHiroyasu SuganoHideki Tanaka
    • Daisuke YamashitaShinichi ShiotsuHiroyasu SuganoHideki Tanaka
    • H04Q5/22G06K19/07
    • G06K19/0702G06K19/0723
    • An active contactless information storage device includes: an operation controller that determines whether mode information of the active contactless information storage device indicates a mode in which the device communicates with a reader/writer device; a carrier-sense controller that determines whether a first frequency in a first period and determines whether a second frequency in a second period, when the mode information of the active contactless information storage device indicates the mode in which the device communicates with the reader/writer device; and a command processor that performs communication with the reader/writer device when the carrier sense controller determines that the first frequency is sensed; wherein, when the mode information of the active contactless information storage device does not indicate the mode in which the active contactless information storage device communicates with the reader/writer device, the carrier-sense controller waits for a predetermined amount of time.
    • 一种主动非接触式信息存储装置包括:操作控制器,确定所述主动非接触式信息存储装置的模式信息是否指示所述装置与读取器/写入器装置进行通信的模式; 载波侦听控制器,当活动非接触式信息存储装置的模式信息指示设备与读取器/写入器通信的模式时,确定第一时段中的第一频率,并确定第二时段中的第二频率 设备; 以及指令处理器,当所述载波检测控制器确定感测到所述第一频率时,执行与所述读/写器设备的通信; 其中,当所述主动非接触式信息存储装置的模式信息未指示所述主动非接触式信息存储装置与所述读/写装置通信的模式时,所述载波侦听控制器等待预定的时间量。
    • 7. 发明申请
    • IMAGE FORMING APPARATUS TO CHARGE PHOTORECEPTOR IN NON-CONTACT MANNER AND CHARGING MEMBER
    • 图像形成装置对非接触式电容器和充电器中的光电子进行充电
    • US20120008982A1
    • 2012-01-12
    • US13177672
    • 2011-07-07
    • Daisuke YamashitaTakeshi WatanabeShoko Shimmura
    • Daisuke YamashitaTakeshi WatanabeShoko Shimmura
    • G03G15/00G03G15/02
    • G03G15/025
    • An image forming apparatus includes a photoreceptor and a charging member. The photoreceptor includes a long-shaped raw pipe and a photoconductive layer that covers a center portion of the raw pipe in a longitudinal direction and forms exposed parts at ends of the raw pipe in the longitudinal direction. The charging member is arranged in parallel to the photoreceptor through a gap. The charging member includes a long-shaped conductive support body and a resistance adjustment layer that covers a center portion of the conductive support body in the longitudinal direction, and charges the photoconductive layer. Besides, the charging member includes a gap keeping member and a discharge preventing part. The gap keeping member is provided at a position outwardly spaced from a photoconductive layer opposite area by a specified distance in the longitudinal direction of the conductive support body, contacts the exposed part, and keeps a gap between the resistance adjustment layer and the photoconductive layer. The discharge preventing part covers a separation area between the resistance adjustment layer and the gap keeping member in the longitudinal direction of the conductive support body, and prevents discharge from the exposed part to the separation area.
    • 图像形成装置包括感光体和充电部件。 感光体包括长条状的原料管和在长度方向上覆盖原料管的中央部的光电导层,在原料管的长度方向的端部形成露出部。 充电构件通过间隙平行于感光体布置。 充电构件包括长形导电支撑体和电阻调节层,其在纵向方向上覆盖导电支撑体的中心部分,并对光电导层充电。 此外,充电构件包括间隙保持构件和防止放电部分。 间隙保持构件设置在与导电层相对的区域向外间隔开导电支撑体的纵向方向上指定距离的位置处,与暴露部分接触,并且在电阻调节层和光电导层之间保持间隙。 防止放电部分覆盖导电支撑体的长度方向上的电阻调节层和间隙保持部件之间的分离区域,并且防止从暴露部分向分离区域的放电。
    • 8. 发明申请
    • IMAGE PROCESSING APPARATUS, CHARGING DEVICE, AND CHARGING ROLLER CONTROL METHOD
    • 图像处理装置,充电装置和充电辊控制方法
    • US20110274448A1
    • 2011-11-10
    • US13096154
    • 2011-04-28
    • Daisuke YamashitaTakeshi Watanabe
    • Daisuke YamashitaTakeshi Watanabe
    • G03G15/02
    • G03G15/0216G03G15/025G03G15/0266
    • According to one embodiment, an image processing apparatus includes an image bearing member, a charging roller, a gap keeping member, a determining unit, and a driving unit. The gap keeping member comes into contact with an outer circumferential surface of the image bearing member and keeps a distance between the outer circumferential surface of the image bearing member and an electric resistance adjusting layer of the charging roller. The determining unit determines whether a contact section between the outer circumferential surface of the image bearing member and the gap keeping member is worn. The driving unit shifts, if the determining unit determines that the contact section is worn, a contact position between the outer circumferential surface of the image bearing member and the gap keeping member.
    • 根据一个实施例,图像处理设备包括图像承载部件,充电辊,间隙保持部件,确定单元和驱动单元。 间隙保持构件与图像承载构件的外周面接触并保持图像承载构件的外周面与充电辊的电阻调节层之间的距离。 确定单元确定图像承载构件的外周表面和间隙保持构件之间的接触部分是否磨损。 如果确定单元确定接触部分被磨损,则驱动单元移动图像承载部件的外周表面与间隙保持部件之间的接触位置。
    • 9. 发明申请
    • METHOD FOR MEASURING SCATTERING ABSORBER AND DEVICE FOR MEASURING SCATTERING ABSORBER
    • 用于测量散射吸收器的方法和用于测量散射吸收器的装置
    • US20110224931A1
    • 2011-09-15
    • US13130117
    • 2009-09-01
    • Kenji YoshimotoKazuyoshi OhtaDaisuke YamashitaHiroaki Suzuki
    • Kenji YoshimotoKazuyoshi OhtaDaisuke YamashitaHiroaki Suzuki
    • G06F19/00
    • A61B5/0091A61B5/0059A61B5/4312G01N21/4795
    • Acquired is the internal information of a scattering medium more accurately and easily, with the influence of an instrumental function taken into account, even where noise is contained in a measurement waveform.In a method for measuring a scattering medium, pulse light with a predetermined wavelength is made incident on a scattering medium which is a measurement object and a scattering medium for reference (S01b, S02b), the pulse light transmitted inside each of the scattering media is detected to acquire a light detection signal (S01c, S02c), the measurement waveform is acquired on the basis of the detected light detection signal (S01d, S02d), a parameter of a function showing the theoretical waveform of the measurement object is specified in such a manner that the result of convolution operation on the theoretical waveform of the measurement object and the measurement waveform of the reference is made equal to the result of convolution operation on the theoretical waveform of the reference and the measurement waveform of the measurement object (S03), and calculation is made for the internal information of the scattering medium on the basis of the theoretical waveform shown by the function (S04).
    • 即使在测量波形中包含噪声的情况下,也可以考虑到仪器功能的影响,更准确,更容易地获取散射介质的内部信息。 在用于测量散射介质的方法中,将具有预定波长的脉冲光入射到作为测量对象的散射介质和用于参考的散射介质(S01b,S02b),在每个散射介质内传输的脉冲光为 检测以获取光检测信号(S01c,S02c)时,基于检测到的光检测信号(S01d,S02d)获取测量波形,表示测量对象的理论波形的函数的参数被指定 使对测量对象的理论波形的卷积运算结果和基准的测量波形的结果等于对基准的理论波形和测量对象的测量波形的卷积运算的结果(S03) ,并根据功能所示的理论波形对散射介质的内部信息进行计算( S04)。