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    • 4. 发明授权
    • Method and apparatus for inserting terminal-carrying wire ends into a
connector housing
    • 将端子承载线末端插入连接器壳体中的方法和装置
    • US5127159A
    • 1992-07-07
    • US684457
    • 1991-04-12
    • Shigeji KudoSanae SuzukiHideaki MoritaHiroo Suzuki
    • Shigeji KudoSanae SuzukiHideaki MoritaHiroo Suzuki
    • H01R43/20H01R43/28
    • H01R43/28H01R43/20Y10T29/49181Y10T29/49185Y10T29/514Y10T29/53235Y10T29/53239
    • Described herein is a method and an apparatus which permit terminal-carrying ends of wire units to be automatically inserted into a connector housing in a reliable manner almost irrespective of the type and size of the terminal elements to be inserted. This is attained by providing a transfer plate which is movable to a position confronting a selected one of a plurality of connector housings set on an assembling table. An assembling head is mounted on the transfer plate movably in vertical directions and also in directions toward and away from the transfer plate. A wire-embracing terminal portion and a wire portion of the wire unit are gripped by means of openable and closable paired terminal gripping pawls and wire gripping pawls which are vertically movably supported on the assembling head. The posture of the terminal element is adjusted by lowering a terminal presser plate which is vertically movably provided between the paired terminal gripping pawls. The assembling head is moved toward the connector housing to insert the terminal element into the connector housing. The terminal gripping pawls are opened and lifted up as soon as an electric contact portion of the terminal element is inserted into a terminal compartment of the connector housing.
    • 这里描述了允许线单元的端子承载端以可靠的方式自动插入连接器壳体中的方法和装置,几乎不考虑要插入的端子元件的类型和尺寸。 这通过提供可移动到面对设置在组装台上的多个连接器壳体中的选定的一个的位置的转移板来实现。 组装头在垂直方向以及朝向和远离转印板的方向上可移动地安装在转印板上。 通过可开启和关闭的成对的端子夹持爪和线夹紧爪来夹持线组件的线束端子部分和线部分,其可垂直运动地支撑在组装头上。 终端元件的姿势通过下降可沿垂直方向设置在成对的端子夹持爪之间的端子压板来调节。 组装头朝向连接器壳体移动,以将端子元件插入连接器壳体中。 一旦端子元件的电接触部分插入连接器壳体的端子室中,端子夹爪被打开并提起。
    • 5. 发明申请
    • OPTICAL WAVELENGTH MULTIPLEXING ACCESS SYSTEM
    • 光波长多路复用接入系统
    • US20090016726A1
    • 2009-01-15
    • US11815031
    • 2007-01-26
    • Hiroo SuzukiTakashi YamadaKatsumi Iwatsuki
    • Hiroo SuzukiTakashi YamadaKatsumi Iwatsuki
    • H04J14/02
    • H04J14/0227H04B10/0793H04B10/07957H04J14/0226H04J14/0246H04J14/025H04J14/0282
    • According to the present invention, a star-type wavelength multiplexed communication network using optical TX/RX devices capable of assigning the wavelengths can be provided without using the monitoring light. In an embodiment of the present invention, an optical TX/RX device for transmitting and receiving a wavelength-multiplexed signal light comprises an optical receiver capable of varying the RX wavelength and an optical transmitter capable of varying the TX wavelength. The optical TX/RX device detects RX wavelengths not in use via the optical receiver, and assigns the RX wavelength of the optical receiver to one of the RX wavelengths not-in-use, and assigns the TX wavelength of the optical transmitter to a TX wavelength corresponding to the RX wavelength according to a correspondence table of TX and RX wavelengths in the memory. Then, the optical TX/RX device transmits a signal light on this TX wavelength, and detects the response on the RX wavelength. If the response is detected, communication is initiated using the assigned TX wavelength and the RX wavelength. If the response is not detected, the operation is repeated from the detection of RX wavelengths not in use to the transmission of the signal light on TX wavelength again.
    • 根据本发明,可以在不使用监视光的情况下提供使用能够分配波长的光TX / RX装置的星型波长复用通信网。 在本发明的实施例中,用于发送和接收波分复用信号光的光TX / RX装置包括能够改变RX波长的光接收机和能够改变TX波长的光发射机。 光学TX / RX设备通过光接收器检测未使用的RX波长,并将光接收机的RX波长分配给不使用的RX波长之一,并将光发射机的TX波长分配给TX 根据存储器中的TX和RX波长的对应表,对应于RX波长的波长。 然后,光TX / RX设备在该TX波长上发送信号光,并检测RX波长的响应。 如果检测到响应,则使用分配的TX波长和RX波长启动通信。 如果没有检测到响应,则从检测不使用的RX波长再次发送TX波长的信号光,重复该操作。
    • 6. 发明授权
    • Polishing apparatus
    • US06607426B2
    • 2003-08-19
    • US09986664
    • 2001-11-09
    • Hiroo Suzuki
    • Hiroo Suzuki
    • B24B700
    • B24B53/017
    • A dresser unit including a dresser 20 and a driving shaft 21 for rotationally driving the dresser 20 is operatively mounted to a dresser supporting mechanism so that the dresser unit can be moved up and down freely with respect to the dresser supporting mechanism, wherein a piston-cylinder mechanism 40 is installed between the dresser unit and the dresser supporting mechanism for pushing up the dresser unit by an upward force of fluid pressure, and a fluid at a predetermined pressure level is supplied to the piston-cylinder mechanism 40 from a compressed air source 67 via a pressure control unit 65, the compression force applied to a turntable 10 by the dresser is precisely controlled and adjusted based on a balance between the own weight of the dresser unit and the upward force exerted by the piston-cylinder mechanism 40.
    • 7. 发明授权
    • Wire measuring and cutting apparatus and method of measuring length of wire
    • 线测量和切割设备及测量线长度的方法
    • US06345561B1
    • 2002-02-12
    • US09324806
    • 1999-06-03
    • Hiroo SuzukiNobuaki YamakawaAkihiro Mizuno
    • Hiroo SuzukiNobuaki YamakawaAkihiro Mizuno
    • B26D714
    • B23D33/02B21F11/00Y10S83/907Y10S83/95Y10T83/343Y10T83/728
    • A wire measuring and cutting apparatus 1 is provided with an U-turn guide section 6 which serves to guide a wire W being fed into a guide passage 5b for bending the wire W in a substantially U-shaped manner. In the section 6, a movable guide part 5 is constituted by a pair of guide pieces 5a, 5a which are pivoted so as to open and close together. The U-turn guide section 6 is provided with a displacement mechanism 8. The mechanism 8 can maintain the pair of guide pieces 5a, 5a in the closed position. While, the mechanism 8 can displace the guide pieces 5a, 5a for the opened position together with feeding inertia of the wire W in process of measuring the length of the wire W. With this structure, the guide pieces 5a, 5a can be opened at high speed due to the feeding inertia in addition to the driving force of the mechanism 8 to open the pieces 5a, 5a and there is no need to stop feeding the wire W during the measurement of the wire W.
    • 电线测量切割装置1设置有U形导向部分6,其用于引导馈送到引导通道5b中的线W,以用于将线W弯曲成大致U形的方式。 在部分6中,可动引导部分5由一对枢转以一起打开和关闭的引导件5a,5a构成。 U形导向部6设有移动机构8.机构8可以将一对导向件5a,5a保持在关闭位置。 而在测量线材W的长度的过程中,机构8可以将导线片5a,5a与导线W的馈送惯性一起移位,以便打开位置。通过这种结构,导片5a,5a可以在 除了机构8的驱动力之外,由于进给惯量高的速度打开片5a,5a,并且在测量线W期间不需要停止馈送线W.
    • 8. 发明授权
    • Method and apparatus for inserting terminal
    • 插入终端的方法和装置
    • US5355583A
    • 1994-10-18
    • US96968
    • 1993-07-27
    • Yoshihisa OsumiHiroo SuzukiTakao Nakagame
    • Yoshihisa OsumiHiroo SuzukiTakao Nakagame
    • H01R43/20H01R43/22B23P19/00
    • H01R43/22Y10T29/4919Y10T29/49208Y10T29/5193Y10T29/53217Y10T29/53261
    • A method and an apparatus for smoothly and securely inserting a terminal connected to an electric wire into a terminal accommodating chamber within a connector housing from an opening in a notched rear end portion of the housing. The housing has an interior divided by partition walls into a plurality of terminal accommodating chambers each having a rear end defining an opening through which the terminal can be inserted, a notched shoulder portion formed in each partition wall at at least one of joints between the partition wall and top and bottom walls of the housing, and a terminal retaining cover capable of opening away from and closing onto the notched shoulder portions. A guide wall capable of engaging with the notched shoulder portions when the terminal retaining cover is open, thereby defining a flame-shaped terminal insertion opening, allows the terminal to be inserted through the terminal insertion opening. Thus, the terminal being inserted is prevented from being caught on the top or bottom wall of the housing.
    • 一种用于将连接到电线的端子从壳体的缺口后端部分中的开口平滑且牢固地插入到连接器壳体内的端子容纳室中的方法和装置。 壳体具有由分隔壁分隔成多个端子容纳室的内部,每个端子容纳室具有限定开口的后端,端子可以插入该开口中;在隔板的至少一个接头处形成在每个分隔壁中的切口肩部, 壳体的壁和顶壁和底壁,以及能够打开并闭合在缺口肩部上的端子保持盖。 当端子保持盖打开时能够与凹口的肩部接合,从而形成火焰形的端子插入口的引导壁允许端子通过端子插入口插入。 因此,防止插入的端子被卡在壳体的顶壁或底壁上。
    • 9. 发明授权
    • Battery pack
    • 电池组
    • US08486550B2
    • 2013-07-16
    • US12051482
    • 2008-03-19
    • Hiroo Suzuki
    • Hiroo Suzuki
    • H01M2/10H01M2/02
    • H01M2/1055
    • In the present invention, there is provided a battery support mechanism including: a terminal board provided with connection terminals to be connected to terminal portions provided on the battery side; a battery containing portion to which the terminal board is fitted while keeping open at least two mutually opposite side surfaces and one surface adjacent to the two side surfaces, of the terminal board, so as thereby to cause the connection terminals to front on the inside of the battery containing portion; and a support plate fixed to the battery containing portion so as thereby to support the one surface of the terminal board which is fitted in the battery containing portion, wherein the terminal board is swingable in the opening directions of the battery containing portion.
    • 在本发明中,提供了一种电池支撑机构,包括:端子板,设置有连接到设置在电池侧的端子部分的连接端子; 电池容纳部分,其端子板被安装在该端子板的同时保持打开与端子板的两个侧表面相邻的至少两个彼此相对的侧表面和一个表面,从而使连接端子在 电池容纳部; 以及支撑板,其固定到电池容纳部分,从而支撑装配在电池容纳部分中的端子板的一个表面,其中端子板可沿电池容纳部分的打开方向摆动。
    • 10. 发明授权
    • Optical wavelength multiplexing access system
    • 光波长复用接入系统
    • US08014672B2
    • 2011-09-06
    • US11815031
    • 2007-01-26
    • Hiroo SuzukiTakashi YamadaKatsumi Iwatsuki
    • Hiroo SuzukiTakashi YamadaKatsumi Iwatsuki
    • H04J14/00
    • H04J14/0227H04B10/0793H04B10/07957H04J14/0226H04J14/0246H04J14/025H04J14/0282
    • According to the present invention, a star-type wavelength multiplexed communication network using optical TX/RX devices capable of assigning the wavelengths can be provided without using the monitoring light. In an embodiment of the present invention, an optical TX/RX device for transmitting and receiving a wavelength-multiplexed signal light comprises an optical receiver capable of varying the RX wavelength and an optical transmitter capable of varying the TX wavelength. The optical TX/RX device detects RX wavelengths not in use via the optical receiver, and assigns the RX wavelength of the optical receiver to one of the RX wavelengths not-in-use, and assigns the TX wavelength of the optical transmitter to a TX wavelength corresponding to the RX wavelength according to a correspondence table of TX and RX wavelengths in the memory. Then, the optical TX/RX device transmits a signal light on this TX wavelength, and detects the response on the RX wavelength. If the response is detected, communication is initiated using the assigned TX wavelength and the RX wavelength. If the response is not detected, the operation is repeated from the detection of RX wavelengths not in use to the transmission of the signal light on TX wavelength again.
    • 根据本发明,可以在不使用监视光的情况下提供使用能够分配波长的光TX / RX装置的星型波长复用通信网。 在本发明的实施例中,用于发送和接收波分复用信号光的光TX / RX装置包括能够改变RX波长的光接收机和能够改变TX波长的光发射机。 光学TX / RX设备通过光接收器检测未使用的RX波长,并将光接收机的RX波长分配给不使用的RX波长之一,并将光发射机的TX波长分配给TX 根据存储器中的TX和RX波长的对应表,对应于RX波长的波长。 然后,光TX / RX设备在该TX波长上发送信号光,并检测RX波长的响应。 如果检测到响应,则使用分配的TX波长和RX波长启动通信。 如果没有检测到响应,则从检测不使用的RX波长再次发送TX波长的信号光,重复该操作。