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    • 2. 发明授权
    • Optical connector
    • 光连接器
    • US4759599A
    • 1988-07-26
    • US943769
    • 1986-12-19
    • Yasuhiro YamaguchiKenichi DonumaYasuhiro AndoShuichiro Inagaki
    • Yasuhiro YamaguchiKenichi DonumaYasuhiro AndoShuichiro Inagaki
    • G02B6/36G02B6/24G02B6/38G02B6/40
    • G02B6/3825G02B6/3878G02B6/389G02B6/3821G02B6/3835G02B6/3869
    • An optical connector includes a plug and an adaptor to which the plug is to be connected. The adaptor is formed with a plug body fitting portion and a holder fitting portion. The plug has a plug body to which a optical fiber cable is fixed. A floating holder is arranged in the plug body to be movable in any direction with respect to the plug body. An end of the optical fiber of the cable is attached to a ferrule which is supported by the holder. When the plug is connected to the adaptor, the plug body is fitted to the plug body fitting portion and the holder to the holder fitting portion. At this time, the plug body is locked to the plug body fitting portion by a lock mechanism, and the holder is locked to the holder fitting portion by engaging projections on the holder and engaging holes which are formed in the holder fitting portion and engaged with the projections.
    • 光学连接器包括插头和插头要连接的适配器。 适配器形成有插头本体配合部分和保持器配合部分。 插头具有固定有光缆的插头体。 浮动保持器布置在插头主体中以能够相对于插头主体的任何方向移动。 电缆的光纤的端部附接到由保持器支撑的套圈。 当插头连接到适配器时,插头主体被安装到插头本体安装部分和保持器到保持器配合部分。 此时,插头体通过锁定机构与插头本体嵌合部卡合,通过将保持器上的突起与卡合部嵌合而形成的卡合孔卡止在支架嵌合部上, 预测。
    • 3. 发明授权
    • Parallel redundancy encoding apparatus
    • 并行冗余编码装置
    • US06336192B1
    • 2002-01-01
    • US09249488
    • 1999-02-12
    • Takeshi SakamotoNobuyuki TanakaYasuhiro Ando
    • Takeshi SakamotoNobuyuki TanakaYasuhiro Ando
    • G06F1100
    • H04L25/14
    • A channel-to-channel skew compensation apparatus is provided with N number of frame synchronization circuits 11 for generating frame signals to indicate data position of parallel data on a common time axis for each data transmission channel; a reference timing determination circuit 16 for determining a reference timing based on N frame signals output from the frame synchronization circuit 11; a skewing amount detection section 15 for generating N skewing amount signals according to the reference timing determined by the reference timing determination circuit 16; and a timing compensation section 13 for adjusting output timing of parallel data for each transmission channel according to the skewing amount signal generated by the skewing amount detection section 15.
    • 通道间通道偏移补偿装置具有N个帧同步电路11,用于产生用于指示每个数据传输通道的公共时间轴上并行数据的数据位置的帧信号; 基准定时确定电路16,用于基于从帧同步电路11输出的N帧信号确定基准定时; 倾斜量检测部分15,用于根据由基准定时确定电路16确定的基准定时产生N个倾斜量信号; 以及定时补偿部13,用于根据由倾斜量检测部15生成的倾斜量信号来调整各传输路径的并行数据的输出定时。
    • 6. 发明授权
    • Antenna adjuster
    • 天线调节器
    • US6031508A
    • 2000-02-29
    • US76638
    • 1998-05-12
    • Hironobu IshizukaYasuhiro AndoMasatoshi ShimizuShouji Tsurumoto
    • Hironobu IshizukaYasuhiro AndoMasatoshi ShimizuShouji Tsurumoto
    • H01Q3/08H01Q1/12H01Q3/02
    • H01Q1/125
    • An antenna adjuster includes a clamp unit 10 including an upper and a lower clamp disposed one above another in the height direction of a pole 2, the upper and lower clamps including paired clamp members 11 and 14, and 12 and 13, respectively. The paired clamp members face each other via the pole and are secured to the pole so as to be capable of position adjustment in the height and peripheral directions of the pole 2. An antenna mounting member 20 is mounted on the upper clamp member 11 for rotation about an elevation angle rotation axis member 23 and secured to the antenna 1. An azimuth angle adjusting member 30 is capable of being displaced through an elongate hole 32 formed in the upper clamp member 11 and a threaded hole 33 formed in the lower clamp member 13. An elevation angle adjusting member 40 is capable of being screwed through an engagement hole 42 formed in the antenna mounting member 20 and a nut portion 43 of the upper clamp 11 to push and pull the antenna mounting member 20.
    • 天线调节器包括夹具单元10,夹具单元10包括在杆2的高度方向上一个在另一个上方设置的上部和下部夹具,上部和下部夹具分别包括成对的夹紧构件11和14以及12和13。 成对的夹紧构件经由极彼此面对并且固定到杆上,以便能够在杆2的高度和周向方向上进行位置调节。天线安装构件20安装在上部夹持构件11上用于旋转 围绕仰角旋转轴构件23并固定到天线1.方位角调节构件30能够通过形成在上夹紧构件11中的细长孔32和形成在下夹具构件13中的螺纹孔33移位 仰角调节构件40能够通过形成在天线安装构件20中的接合孔42和上夹具11的螺母部43旋拧,以推拉天线安装构件20。
    • 7. 发明授权
    • Optical connector for connecting a plurality of optical plugs to a
connector housing
    • 用于将多个光学插头连接到连接器壳体的光学连接器
    • US5528711A
    • 1996-06-18
    • US360355
    • 1994-12-21
    • Shin'ichi IwanoRyo NagaseKazunori KanayamaEtsuji SugitaYasuhiro Ando
    • Shin'ichi IwanoRyo NagaseKazunori KanayamaEtsuji SugitaYasuhiro Ando
    • G02B6/38H01R13/62G02B6/36
    • G02B6/3893G02B6/3817G02B6/3821G02B6/3825G02B6/3849G02B6/3869G02B6/3875G02B6/3879G02B6/3897H01R13/62G02B6/3822G02B6/3877
    • To realize an optical fiber connector coupled or decoupled by simple insertion and removal operation without applying ferrule connecting force to other elements (package board or back panel), the optical connector comprises a first housing (33); a second housing (34); a third housing (36) slidably housed within the second housing; a first engage mechanism (37, 38) provided between the second and third housings, for engaging these two housings when the first and third housings are not coupled; a second engage mechanism (39, 40) provided between the first and third housings, for engaging these two housings when the first housing is coupled to second and third housings; a first release member (41) provided for the first housings, for releasing the first engage mechanism when the third housing is engaged to the first housing; and a second release member (42) provided for the second housing, for releasing the second engage mechanism when the second housing is coupled to the third housing or the first housing is decoupled from the second and third housings. Further, to allow the optical connector to be preferably applicable to a plug-in connector with the smallest possible dimensions and with the highest possible package density, a novel connector floating structure, a novel slidable ferrule supporting structure, a strong optical plug connecting mechanism, a reliable optical plug or jack insertion structure, a cleanable and replaceable connector jack, etc. are also disclosed.
    • 为了实现通过简单的插入和移除操作而耦合或解耦的光纤连接器,而不将套圈连接力施加到其它元件(封装板或后面板)上,光学连接器包括第一壳体(33); 第二壳体(34); 可滑动地容纳在所述第二壳体内的第三壳体(36) 设置在所述第二和第三壳体之间的第一接合机构(37,38),用于当所述第一和第三壳体未联接时,用于接合所述两个壳体; 设置在第一和第三壳体之间的第二接合机构(39,40),用于当第一壳体联接到第二和第三壳体时接合这两个壳体; 为所述第一壳体设置的第一释放构件(41),用于当所述第三壳体接合到所述第一壳体时释放所述第一接合机构; 以及为第二壳体设置的第二释放构件(42),用于当第二壳体联接到第三壳体或者第一壳体与第二壳体和第三壳体分离时,用于释放第二接合机构。 此外,为了使光连接器优选适用于具有最小可能尺寸和最高可能封装密度的插入式连接器,新型连接器浮动结构,新型可滑动套圈支撑结构,强光插头连接机构, 还公开了可靠的光插头或插座插入结构,可清洁和可更换的连接器插座等。
    • 10. 发明授权
    • Wiring harness arranging construction
    • 线束安排施工
    • US06217375B1
    • 2001-04-17
    • US09294102
    • 1999-04-19
    • Satoshi NagaiTetuya FunakiMasahisa SuzukiYasuhiro AndoShinya Miyamoto
    • Satoshi NagaiTetuya FunakiMasahisa SuzukiYasuhiro AndoShinya Miyamoto
    • H01R1372
    • B60R16/0215
    • A wiring harness arranging construction is provided to arrange a wiring harness in a position more toward a passenger compartment than a hinge and a weatherstrip. The construction includes a container casing 10 with a space 10p for accommodating a looped harness, an insertion opening 10f and a withdrawal opening 10g for the harness which are opposed to each other, and a harness fixing portion 10h projecting from the outer surface of the insertion opening 10f. After being inserted through the insertion opening 10f and wound around a windup spring 30 inside the casing 10, the wiring harness is withdrawn through the withdrawal opening 10g. The container casing 10 is secured to either one of a door and a body, and the wiring harness withdrawn from the container casing 10 is extended to the other of the door and the body and secured thereto by a clamp. Accordingly, the wiring harness can extend and contract while varying the diameter of the loop of its part passed through the container casing as the door is opened and closed.
    • 提供了一种线束布置结构,用于将线束布置在比铰链和挡风雨条更靠近乘客舱的位置。 该结构包括具有用于容纳环形线束的空间10p的容器壳体10,彼此相对的用于线束的插入开口10f和用于线束的抽出开口10g,以及从插入件的外表面突出的线束固定部分10h 开10f。 在通过插入开口10f插入并围绕壳体10内的卷绕弹簧30缠绕时,线束通过抽出开口10g被抽出。 容器壳体10被固定到门和主体中的任一个,并且从容器壳体10撤回的线束延伸到门和主体中的另一个并且通过夹具固定到其上。 因此,当门打开和关闭时,线束可以延伸和收缩,同时改变其穿过容器壳体的部分的环的直径。