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    • 3. 发明授权
    • Facsimile communication method and facsimile machine
    • 传真通信方式和传真机
    • US5907599A
    • 1999-05-25
    • US604326
    • 1996-02-21
    • Takashi SakayamaYoshihiro MaeiMasahiro MochizukiYoshiaki TezukaHiroaki SakakiHirotaka Kawabata
    • Takashi SakayamaYoshihiro MaeiMasahiro MochizukiYoshiaki TezukaHiroaki SakakiHirotaka Kawabata
    • H04N1/32H04L29/08H04N1/333H04M11/00
    • H04N1/333H04N1/33323H04N2201/3335H04N2201/33371
    • In a facsimile communication method, when a home facsimile machine makes the transition to simplified protocol phase B because of sensing polarity inversion, CED reception from an associated machine, etc., it stores 9600 bps as the initial value of control signal communication speed and sends a communication speed notification signal of the frequency corresponding to the stored communication speed to the associated machine, then sends an NSS thereto at the stored communication speed. When receiving the communication speed notification signal, the associated machine previously senses execution of the simplified protocol and the communication speed of the subsequently received NSS from the notification signal and receives the NSS at the sensed communication speed, then sends a communication speed notification signal of the frequency corresponding to the sensed communication speed and subsequently sends an NSF at the communication speed. When receiving the communication speed notification signal, the home machine also previously senses the NSF communication speed from the notification signal and receives the NSF at the sensed communication speed, then makes the transition to phase C.
    • 在传真通信方法中,当家用传真机由于感测极性反转而转换到简化协议阶段B时,从相关机器等接收到CED,作为控制信号通信速度的初始值存储9600bps,并发送 将与所存储的通信速度相对应的频率的通信速度通知信号发送给相关联的机器,然后以存储的通信速度向其发送NSS。 当接收到通信速度通知信号时,相关联的机器先前从通知信号中感测到简化协议的执行和随后接收到的NSS的通信速度,并以感测到的通信速度接收NSS,然后发送通信速度通知信号 频率对应于感测到的通信速度,并随后以通信速度发送NSF。 当接收到通信速度通知信号时,家用机器还从通知信号中先前感测到NSF通信速度,并以感测的通信速度接收NSF,然后转换到阶段C.
    • 5. 发明申请
    • Method and device for processing semicounductor wafer
    • 半导体晶圆处理方法及装置
    • US20050015174A1
    • 2005-01-20
    • US10496980
    • 2002-11-29
    • Shinji AraiTakamasa ChikumaMasahiro Mochizuki
    • Shinji AraiTakamasa ChikumaMasahiro Mochizuki
    • H01L21/02G05B19/418H01L21/00G06F19/00
    • G05B19/41865G05B2219/32239G05B2219/32297G05B2219/45031H01L21/67276Y02P90/20
    • A method of processing a semiconductor wafer, characterized by comprising the steps of executing a permutation processing for processing (Pi) the semiconductor wafers by using a plurality of processing containers (A, B, C, D) for performing the processings different from each other while sequentially transferring (Ci) the wafers into the processing containers or performing a parallel processing for processing the wafers in the processing containers by using the plurality of processing containers for performing the processings identical to each other and a transfer mechanism used commonly for the processing containers while sequentially transferring the wafers into the processing containers by the transfer mechanism, wherein the processings of the wafers in the processing vessels are performed after the completion of the conditioning (Si) of the processing vessels and, in a first processing, a conditioning start time for a next processing container is adjusted so that the conditioning of the next processing container can be completed when the processing of the previous processing container is completed and, in a second processing, the conditioning start time for the latter processing container is adjusted so that the conditioning of the processing container allowing the wafers to be next transferred therein can be completed when the transfer of the wafers into the processing container is completed.
    • 一种处理半导体晶片的方法,其特征在于包括以下步骤:通过使用用于执行彼此不同的处理的多个处理容器(A,B,C,D)来执行处理(Pi)半导体晶片的置换处理 同时将晶片顺序地转移(Ci)到处理容器中,或者通过使用用于执行彼此相同的处理的多个处理容器以及通常用于处理容器的传送机构来执行处理容器中的晶片的并行处理 同时通过传送机构顺序地将晶片转移到处理容器中,其中处理容器中的晶片的处理在处理容器的调节(Si)完成之后进行,并且在第一处理中,调节开始时间 对于下一个处理容器进行调整,以使调理 当完成前一处理容器的处理时,可以完成下一处理容器,并且在第二处理中调整用于后一处理容器的调节开始时间,使得允许晶片下一个处理容器的调节 当晶片转移到处理容器中时,可以完成其中的转移。
    • 7. 发明授权
    • Variable valve timing system having rotational vibration damping
    • 具有旋转振动阻尼的可变阀门定时系统
    • US5067450A
    • 1991-11-26
    • US491208
    • 1990-03-09
    • Junichi KanoKongoh AokiMasahiro MochizukiHiroyuki Nakadozono
    • Junichi KanoKongoh AokiMasahiro MochizukiHiroyuki Nakadozono
    • F01L1/344F16D3/10
    • F01L1/34406F16D3/10F01L2810/04
    • A variable valve timing system in an engine having a rotating cam-shaft includes a timing pulley driven by the engine and a damper case rotatably fixed to the crank-shaft. A piston is movable in a space defined by the timing pulley and the damper case and has helical gears engaging helical gears of the timing pulley and damper case such that the angular position between the timing pulley and the damper case varies as the piston is moved. Movement of the piston is induced by hydraulic pressure in a pressure chamber selectively connected to hydraulic pressure by an electronically controlled solenoid valve. Engaging labyrinth grooves on the timing pulley and damper case damp rotational vibrations which would otherwise be induced by variations in the torque applied to the damper case, and so prevent undesirable movement of the piston.
    • 具有旋转凸轮轴的发动机中的可变气门正时系统包括由发动机驱动的正时皮带轮和可旋转地固定到曲轴的阻尼器壳体。 活塞可在由正时滑轮和减震器壳体限定的空间中移动,并且具有接合正时滑轮和减震器壳体的斜齿轮的斜齿轮,使得定时滑轮和减震器壳体之间的角位置随着活塞的移动而变化。 活塞的运动是由通过电子控制的电磁阀选择性地连接到液压的压力室中的液压引起的。 在正时滑轮和阻尼器壳体上啮合迷宫式凹槽会阻碍旋转振动,否则会由于施加到减震器壳体的扭矩的变化而引起,因此可以防止活塞不期望的移动。
    • 8. 发明授权
    • Supercharging pressure control device
    • 增压控制装置
    • US4883041A
    • 1989-11-28
    • US224327
    • 1988-07-26
    • Masahiro Mochizuki
    • Masahiro Mochizuki
    • F02B33/00F02B33/44
    • F02B33/446
    • A supercharging pressure control device for an internal combustion engine provided with a supercharger includes a first intake passage interposed between the engine and the supercharger, a second intake passage interposed between a throttle valve and the supercharger, a by-pass passage interposed between first and second passages for by-passing the supercharger, a supercharging pressure control valve interposed between first and second passage for controlling the opening and closing of the by-pass passage and a control valve interposed between the first intake passage and the supercharging pressure control valve for increasing the value of the positive pressure in accordance with the increase of the RPM of the engine and the opening degree of the throttle valve. A three-way electromagnetic valve is interposed between the second intake passage and the control valve for communicating the negative pressure generated in the second intake passage or the atmosphere with the control valve in accordance with the RPM of the opening degree of the throttle valve.
    • 一种具有增压器的内燃机的增压控制装置,具备:插入在发动机与增压器之间的第一进气通路,设置在节流阀和增压器之间的第二进气通路,设置在第一和第二 用于旁路增压器的通道,设置在第一和第二通道之间的增压压力控制阀,用于控制旁通通道的打开和关闭;以及置于第一进气通道和增压压力控制阀之间的控制阀,用于增加 根据发动机的RPM的增加和节流阀的开度,正压值。 三通电磁阀介于第二进气通道和控制阀之间,用于根据节流阀的开度的RPM传递第二进气通道或大气中产生的负压与控制阀。
    • 10. 发明授权
    • Image reading apparatus
    • 图像读取装置
    • US5394205A
    • 1995-02-28
    • US222724
    • 1994-03-30
    • Toru OchiaiMasahiro MochizukiSoichi IkedaKatsuhiro Sato
    • Toru OchiaiMasahiro MochizukiSoichi IkedaKatsuhiro Sato
    • G02B7/36G03B21/53H04N1/03G03B3/10
    • H04N1/02409G02B7/36G03B21/53H04N1/03
    • An apparatus comprises an image sensing optical system including an image pickup element for converting an image to an electrical signal and a projection lens for projecting an image onto a photo-sensing plane of the image pickup element. The image sensing optical system is driven along an optical axis thereof while maintaining a relative positional relationship between the projection lens and the image pickup element to adjust the focal position. An apparatus may also comprise an image sensing optical system including an image pickup element for scanning an image to convert it to an electrical signal and a projection lens for projecting an image onto a photo-sensing plane of the image pickup element, a focus adjusting device for adjusting a focal position of the image sensing optical system and a detector for detecting an in-focus position of the image sensing optical system to the object. The focus adjusting device is controlled in accordance with the output of the detector so that the object is always within a depth of focus of the image sensing optical system.
    • 一种装置包括图像感测光学系统,其包括用于将图像转换为电信号的图像拾取元件和用于将图像投影到图像拾取元件的感光平面上的投影透镜。 摄像光学系统沿其光轴被驱动,同时保持投影透镜和图像拾取元件之间的相对位置关系以调节焦点位置。 装置还可以包括图像感测光学系统,其包括用于扫描图像以将其转换为电信号的图像拾取元件和用于将图像投影到图像拾取元件的感光平面上的投影透镜;焦点调节装置 用于调整图像感测光学系统的焦点位置和用于检测图像感测光学系统对焦的对焦位置的检测器。 根据检测器的输出来控制焦点调节装置,使得对象总是在图像感测光学系统的焦深范围内。