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    • 1. 发明授权
    • Function display method and multi-functional apparatus having display embodying such method
    • 功能显示方法和具有这种方法的显示器的多功能装置
    • US06606465B2
    • 2003-08-12
    • US09731472
    • 2000-12-07
    • Takeshi MutohMasao MurakamiKenji Itoh
    • Takeshi MutohMasao MurakamiKenji Itoh
    • G03G1500
    • G06K15/00G03G15/502H04N1/0035H04N1/00384H04N1/00437H04N1/00477H04N1/00915H04N1/32496
    • When any of the functions: copier function, printer function and facsimile function, are not being performed, the function information display portion provides display messages ‘Copier available’, ‘Printer available’ and Fax available’, using the display areas equal in size, arranged in the vertical direction. When a print request is given from an external apparatus, the function information display portion provides a display message ‘Printer function engaged’ along with the image processing operating conditions and provides display messages ‘Copier function partly available’ and ‘Facsimile function partly available’ in the left and right halves of the display section. While the printer function is in progress, the information relating to the printer function is displayed in the display area four times as large as that for the copier function and that for the facsimile function.
    • 当没有执行复印机功能,打印机功能和传真功能的任何功能时,功能信息显示部分使用尺寸相等的显示区域提供显示消息“可用复印机”,“可用打印机可用”和可用传真“ 沿垂直方向排列。 当从外部设备给出打印请求时,功能信息显示部分与图像处理操作条件一起提供显示消息“打印机功能接合”,并且提供“复印机功能部分可用”和“部分可用传真功能”的显示消息 显示部分的左半部和右半部分,打印机功能正在进行时,与打印机功能相关的信息显示在复印机功能和传真功能的显示区域的四倍。
    • 4. 发明授权
    • Lubricating oil cooling device for traveling speed reduction gear
    • 用于行走减速装置的润滑油冷却装置
    • US08145384B2
    • 2012-03-27
    • US12615545
    • 2009-11-10
    • Takayoshi MurahashiOsamu MurakamiKenji Itoh
    • Takayoshi MurahashiOsamu MurakamiKenji Itoh
    • B60K17/14B60K11/02
    • F16H57/0434B60K17/046
    • The present invention provides a traveling speed reduction gear lubricating oil cooling device that enables optimal temperature control for lubricating oil delivered via a lubricating oil pump that can be started up with a relatively small motor without running the risk of damage to an oil cooler in a cold work environment even when a temperature sensor that detects the temperature of the lubricating oil is installed outside a wheel mounting sleeve. During a startup operation, provided that the detected temperature at a traveling motor is higher than the reference temperature, the lubricating oil pump is driven at a speed in a lower speed range relative to the normal operation speed range. In addition, during the startup operation, the rotation speed of the drive motor for the lubricating oil pump is increased in correspondence to a rise in the temperature detected by a lubricating oil temperature detection sensor.
    • 本发明提供了一种行驶减速齿轮润滑油冷却装置,其能够对通过润滑油泵输送的润滑油进行最佳温度控制,所述润滑油可以用相对较小的电动机起动,而不会在冷气中产生损坏的油冷却器的风险 即使将检测到润滑油的温度的温度传感器安装在车轮安装套筒外部的工作环境中。 在启动操作期间,只要行驶马达的检测温度高于参考温度,则润滑油泵以相对于正常运行速度范围的较低速度范围内的速度被驱动。 此外,在启动运转中,与润滑油温度检测传感器检测出的温度升高对应地,润滑油泵的驱动电动机的转速增加。
    • 6. 发明申请
    • Undulation Inspection Device, Undulation Inspecting Method, Control Program for Undulation Inspection Device, and Recording Medium
    • 调音检查装置,调查检查方法,无效检查装置的控制程序和记录介质
    • US20090303468A1
    • 2009-12-10
    • US12308241
    • 2007-06-12
    • Kenji ItohTamon IdenTakeshi Murakami
    • Kenji ItohTamon IdenTakeshi Murakami
    • G01N21/88G06F19/00
    • G01N21/8901G01B11/306G01N2021/556G01N2021/9513
    • An undulation inspection device of the present invention includes: illumination means (line light source 2) that subjects, to illumination, an object to be inspected; light intensity acquisition means (area sensor 3) that acquires light intensity distribution of light that comes, in response to the illumination, from a surface of the object to be inspected; image capturing means (line sensor 4) that obtains only predetermined light out of light that comes from the surface of the object to be inspected; adjustment means (image processing section 20 and light source drive controlling section 21) that adjusts the illumination means (line light source 2), based on the light intensity distribution that is obtained from the light intensity acquisition means; and determination means (defect determination processing means 23) that determines a state of undulation that is formed on the surface of the object to be inspected, based on a result of capturing an image by the image capturing means after adjustment of the illumination means. This makes it possible to provide an undulation inspection device capable of inspecting simply and at a high precision a state of undulation (a difference in film thickness) on a surface of a large substrate (e.g., color filter substrate).
    • 本发明的起伏检查装置包括:照明装置(线光源2),照明要被检查的物体; 光强度获取装置(区域传感器3),其从待检查对象的表面获取响应于照明的光的光强度分布; 仅从待检查物体的表面获得来自光的预定光的图像捕获装置(线传感器4) 基于从光强度获取装置获得的光强度分布来调节照明装置(线光源2)的调整装置(图像处理部分20和光源驱动控制部分21) 以及基于在调整照明装置之后由图像捕获装置捕获图像的结果来确定形成在待检查对象的表面上的起伏状态的确定装置(缺陷确定处理装置23)。 这使得可以提供能够简单且高精度地检查大基板(例如滤色器基板)的表面上的波动状态(膜厚度差)的波峰检查装置。
    • 8. 发明申请
    • Magnetic head tester and method of manufacturing magnetic disk drive
    • 磁头测试仪和制造磁盘驱动器的方法
    • US20070046286A1
    • 2007-03-01
    • US11515268
    • 2006-09-01
    • Hiroshi UmezakiNorifumi MiyamotoKazuhiko WashizuTakehiko HamaguchiKenji Itoh
    • Hiroshi UmezakiNorifumi MiyamotoKazuhiko WashizuTakehiko HamaguchiKenji Itoh
    • G01R33/12
    • G11B5/012G11B5/455G11B5/4555G11B2005/001
    • Embodiments of the invention provide an inexpensive magnetic head tester employing component parts of a production HDD and capable of exercising functions very close to those of a production HDD. In one embodiment, a magnetic head tester employs the VCM actuator and the control circuit of a production HDD and has a lightweight, simple HGA fixing mechanism mounted on an actuator arm. The HGA fixing mechanism fixes an HGA to the actuator arm by a method using a very light holding spring mounted on the arm, a method of mechanically clamping an HGA by using air pressure, or a method of fixing an HGA to the arm by elastically deforming a rubber clamping member by air pressure. Servo control is achieved by the actuator of a production VCM. An end part of the VCM actuator is stopped by a stopping mechanism and is held by a holding spring to prevent the runaway of the VCM actuator. Servo control is performed by balancing the driving force of the VCM and the resilience of the spring.
    • 本发明的实施例提供了一种廉价的磁头测试仪,其使用生产HDD的组件并且能够执行与生产HDD的功能非常接近的功能。 在一个实施例中,磁头测试仪使用VCM致动器和制造HDD的控制电路,并且具有安装在致动器臂上的重量轻,简单的HGA固定机构。 HGA固定机构通过使用安装在臂上的非常轻的保持弹簧的方法将HGA固定到致动器臂,使用空气压力机械地夹持HGA的方法,或通过弹性变形将HGA固定到臂的方法 通过空气压力的橡胶夹紧构件。 通过生产VCM的执行器实现伺服控制。 VCM致动器的端部由止动机构阻止,并由保持弹簧保持,以防止VCM致动器的失控。 通过平衡VCM的驱动力和弹簧的弹性来进行伺服控制。
    • 10. 发明授权
    • Transmitting and receiving apparatus
    • 发射和接收设备
    • US06721551B2
    • 2004-04-13
    • US09968773
    • 2001-10-03
    • Hiroaki NaganoKazuhiro MoriKenji Itoh
    • Hiroaki NaganoKazuhiro MoriKenji Itoh
    • H04B126
    • H03D7/163H03L7/23H04B1/00H04B1/403H04B1/406
    • A reception carrier wave, a first transmission carrier wave, and a second transmission carrier wave are generated. The reception carrier wave is mixed with the reception wave to produce a reception signal. The frequency of the first transmission carrier wave is halved, and the first transmission carrier wave is mixed with a transmission signal to produce a modulated wave. The second transmission carrier wave is mixed with the modulated wave to produce a transmission wave. Since neither the frequency of the first transmission carrier wave nor the frequency of the second transmission carrier wave agrees with each of the frequency of the modulated wave and the frequency fTX, the degradation of the modulation precision on a transmission side can be prevented. Also, because the frequency of the first transmission carrier wave is halved, the interference of the first transmission carrier wave with the transmission signal band can be reduced.
    • 产生接收载波,第一传输载波和第二传输载波。 接收载波与接收波混合以产生接收信号。 第一传输载波的频率减半,并且第一传输载波与传输信号混合以产生调制波。 第二传输载波与调制波混合以产生传输波。 由于第一发送载波的频率和第二发送载波的频率都不与调制波的频率和频率fTX一致,所以可以防止发送侧的调制精度的劣化。 此外,由于第一传输载波的频率减半,所以可以减少第一传输载波与传输信号频带的干扰。