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    • 2. 发明申请
    • POWER TOOL
    • 电动工具
    • US20100236800A1
    • 2010-09-23
    • US12724957
    • 2010-03-16
    • Masahiro WATANABEMasanori FURUSAWAYoshihiro KASUYA
    • Masahiro WATANABEMasanori FURUSAWAYoshihiro KASUYA
    • B25D17/00B25D16/00B25D17/24
    • B25F5/00B25D11/10B25D17/043B25D17/06B25D2211/003B25D2250/221B25D2250/261
    • It is an object of the invention to easily determine a currently-selected operation mode in a power tool which offers several operation modes. A representative electric hammer drill 101 embodying a power tool according to the invention has a controller 171 for at least controlling a driving motor 111. The controller 171 includes a switch detecting circuit 173 that detects the on or off state of each of first and second switches 141, 146 when power is on, a computing/driving section 174 that determines a current operation mode based on results of detection of the switch detecting circuit 173, and a motor control section 176 and a drive circuit 177 that output a drive control signal to the driving motor 111 when the switch in the off state is turned on after the computing/driving section 174 determines the operation mode.
    • 本发明的目的是容易地确定提供多种操作模式的电动工具中的当前选择的操作模式。 体现根据本发明的电动工具的代表性的电锤钻101具有用于至少控制驱动电动机111的控制器171.控制器171包括开关检测电路173,其检测第一和第二开关中的每一个的接通或断开状态 根据开关检测电路173的检测结果决定当前动作模式的计算/驱动部174以及将驱动控制信号输出到 在计算/驱动部分174确定操作模式之后开关处于断开状态时的驱动电动机111接通。
    • 6. 发明申请
    • SCANNING PROBE MICROSCOPE
    • 扫描探针显微镜
    • US20130205454A1
    • 2013-08-08
    • US13726764
    • 2012-12-26
    • Shuichi BABAMasahiro WATANABEToshihiko NAKATAYukio KEMBOToru KURENUMATakafumi MORIMOTOManabu EDAMURASatoshi SEKINO
    • Shuichi BABAMasahiro WATANABEToshihiko NAKATAYukio KEMBOToru KURENUMATakafumi MORIMOTOManabu EDAMURASatoshi SEKINO
    • G01Q10/00
    • G01Q10/00B82Y35/00G01Q60/28G01Q60/34
    • In the case of measuring a pattern having a steep side wall, a probe adheres to the side wall by the van der Waals forces acting between the probe and the side wall when approaching the pattern side wall, and an error occurs in a measured profile of the side wall portion. When a pattern having a groove width almost equal to a probe diameter is measured, the probe adheres to both side walls, the probe cannot reach the groove bottom, and the groove depth cannot be measured. When the probe adheres to a pattern side wall in measurements of a microscopic high-aspect ratio pattern using an elongated probe, the probe is caused to reach the side wall bottom by detecting the adhesion of the probe to the pattern side wall, and temporarily increasing a contact force between the probe and the sample. Also, by obtaining the data of the amount of torsion of a cantilever with the shape data of the pattern, a profile error of the side wall portion by the adhesion is corrected by the obtained data of the amount of torsion.
    • 在测量具有陡峭侧壁的图案的情况下,当接近图案侧壁时,探针通过作用在探针和侧壁之间的范德华力附着在侧壁上,并且在测量的轮廓中发生错误 侧壁部分。 当测量具有几乎等于探针直径的槽宽度的图案时,探针粘附到两个侧壁,探针不能到达凹槽底部,并且不能测量凹槽深度。 当使用细长的探针测量微观高纵横比图案时探头粘附到图案侧壁上时,通过检测探针与图案侧壁的粘附力使探针到达侧壁底部,并暂时增加 探针和样品之间的接触力。 此外,通过利用图案的形状数据获得悬臂的扭转量的数据,通过获得的扭转量的数据来校正侧壁部分的粘附的轮廓误差。
    • 8. 发明申请
    • COMMUNICATION CONTROL APPRATUS AND METHOD
    • 通信控制设备和方法
    • US20090104911A1
    • 2009-04-23
    • US12253279
    • 2008-10-17
    • Masahiro WATANABEMakoto Yoshida
    • Masahiro WATANABEMakoto Yoshida
    • H04W36/00
    • H04W36/30H04B7/15507H04W84/005H04W88/08
    • A communication control apparatus that is applied to a wireless communication system in which a mobile terminal can be connected to a fixed base station through a wireless connection to a relay station that is mounted on a moving body, wherein the communication control apparatus includes a detecting unit that detects a change, associated with movement of the moving body on which the relay station is mounted, of a communication environment between the mobile terminal and the relay station, a control unit that controls a handover of the mobile terminal according to the change, detected by the detecting unit, of communication environment between the mobile terminal and the relay station.
    • 一种应用于无线通信系统的通信控制装置,其中移动终端可以通过无线连接与固定基站连接到安装在移动体上的中继站,其中通信控制装置包括检测单元 检测与所述移动终端与所述中继站之间的通信环境相关联的与所述中继站所在的移动体的移动相关联的变化,控制单元,其根据所述变化来控制所述移动终端的切换; 由检测单元检测移动终端与中继站之间的通信环境。
    • 10. 发明申请
    • POWDER CONTAINER AND IMAGE FORMING APPARATUS INCORPORATING SAME
    • 粉末容器和成像装置的图像形成装置
    • US20160378021A1
    • 2016-12-29
    • US15182088
    • 2016-06-14
    • Masayuki YAMANETakeroh KURENUMAMasahiro WATANABE
    • Masayuki YAMANETakeroh KURENUMAMasahiro WATANABE
    • G03G15/08
    • G03G15/0865G03G15/0872
    • A powder container includes a rotatable powder storage to store powder for image formation, a conveyor to transport the powder inside the powder storage, and a scooping portion to scoop the powder inside the powder storage. The conveyor transports the powder in a powder conveyance direction parallel to a rotation axis of the powder storage toward an opening at one end of the powder storage. The scooping portion causes the powder to flow to the opening. The scooping portion includes a scooping face extending from an inner face of the powder storage toward the rotation axis of the powder storage, and a rim disposed along an inner end of the scooping face in a diameter direction of the powder storage, and at least a portion of the rim protruding downstream beyond the scooping face in a rotation direction of the powder storage.
    • 粉末容器包括可转动的粉末储存器以存储用于图像形成的粉末,用于将粉末输送到粉末储存器内部的输送器,以及用于将粉末舀取在粉末储存器内的舀取部分。 输送机将粉末沿粉末输送方向平行于粉末储存器的旋转轴线朝向粉末储存器一端的开口输送。 舀取部分使粉末流入开口。 舀取部包括从粉末存储体的内表面朝向粉末存储体的旋转轴线延伸的舀取面,沿着粉末存储器的直径方向沿着舀取面的内端设置的边缘,并且至少一个 边缘的一部分在粉末储存器的旋转方向上向下突出到舀面的下方。