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    • 1. 发明授权
    • Double-retaining connector
    • 双保持连接器
    • US5662501A
    • 1997-09-02
    • US632138
    • 1996-04-15
    • Sakai YagiMasanori TsujiKeishi Jinno
    • Sakai YagiMasanori TsujiKeishi Jinno
    • H01R13/42H01R13/436
    • H01R13/4362
    • To provide a double-retaining connector in which terminals can be inserted smoothly, thereby enhancing an operation efficiency and eliminating an obstacle to the achievement of an automation production. In the double-retaining connector, a cavity is formed in a connector housing, and a spacer is provided so as to be inserted into the cavity in a two-stage manner, that is, in a provisionally-retained condition and a completely-retained condition, and the spacer has openings which are aligned respectively with terminal receiving chambers in the provisionally-retained condition of the spacer so as to allow terminals to pass through the openings, respectively. Each of the terminal receiving chambers is divided by the cavity into a front receiving chamber and a rear receiving chamber in such a manner that the cavity is interposed between the front and rear receiving chambers. At a boundary between the opening and the rear receiving chamber, an open end of the opening is larger than an open end of the rear receiving chamber. At a boundary between the front receiving chamber and the opening, an open end of the front receiving chamber is larger than an open end of the opening.
    • 为了提供能够平滑地插入端子的双保持连接器,从而提高操作效率并消除实现自动化生产的障碍。 在双重保持连接器中,在连接器壳体中形成空腔,并且隔离件设置成以两级方式插入到空腔中,即处于临时保持状态和完全保持的状态 并且间隔件具有开口,分别在间隔物的暂时保持状态下分别对准端子接收室,以允许端子分别穿过开口。 每个端子接收室由空腔分成前接收室和后接收室,使得空腔插入在前和后接收室之间。 在开口和后接收室之间的边界处,开口的开口端大于后接收室的开口端。 在前接收室和开口之间的边界处,前接收室的开口端大于开口的开口端。
    • 2. 发明授权
    • Double-retaining connector
    • US5630736A
    • 1997-05-20
    • US385304
    • 1995-02-07
    • Sakai YagiMasanori TsujiKeishi Jinno
    • Sakai YagiMasanori TsujiKeishi Jinno
    • H01R13/42H01R13/436
    • H01R13/4362
    • To provide a double-retaining connector in which terminals can be inserted smoothly, thereby enhancing an operation efficiency and eliminating an obstacle to the achievement of an automation production. In the double-retaining connector, a cavity is formed in a connector housing, and a spacer is provided so as to be inserted into the cavity in a two-stage manner, that is, in a provisionally-retained condition and a completely-retained condition, and the spacer has openings which are aligned respectively with terminal receiving chambers in the provisionally-retained condition of the spacer so as to allow terminals to pass through the openings, respectively. Each of the terminal receiving chambers is divided by the cavity into a front receiving chamber and a rear receiving chamber in such a manner that the cavity is interposed between the front and rear receiving chambers. At a boundary between the opening and the rear receiving chamber, an open end of the opening is larger than an open end of the rear receiving chamber. At a boundary between the front receiving chamber and the opening, an open end of the front receiving chamber is larger than an open end of the opening.
    • 3. 发明授权
    • Lock detecting structure of connector
    • 连接器锁定检测结构
    • US5628649A
    • 1997-05-13
    • US443752
    • 1995-05-18
    • Sakai YagiMasanori TsujiKeishi Jinno
    • Sakai YagiMasanori TsujiKeishi Jinno
    • H01R13/639H01R13/627H01R13/64H01R13/641H01R3/00
    • H01R13/641H01R13/6272
    • A lock detecting structure of connector comprises: a male connector housing (100) formed with a deformable lock arm (105) having a lock projection (112), and with two slider stoppers (150); a female connector housing (200) mated with the male connector housing (100) and formed with a lock claw (210) engaged with the lock projection of the male connector housing, and a slider release projection (206); and a slider (300) slidable inserted into the male connector housing (100) and stopped at a temporary engage position due to engagement of the slider with the lock projection (112) and the two slider stoppers (150) of the male connector housing. When the male connector housing (200) is perfectly mated with the female connector housing (100) and thereby the slider is deformed inward away from the lock projection (112) and the slider stoppers (150) of the male connector housing by the lock claw (210) and the slider release projection (206) of the female connector housing (200), the slider can be further inserted deep into the female connector housing (200) to a lock confirmation position. In particular, since the two slider stoppers (150) are formed inside the male connector housing and therefore the slider can be stopped within the male connector housing, it is possible to reliably detect the connector housing lock conditions, without being subjected to the influence of an external force applied to the slider.
    • 连接器的锁定检测结构包括:阳连接器壳体(100),其形成有具有锁定突起(112)的可变形锁定臂(105),并具有两个滑块挡块(150); 与阳连接器壳体(100)配合并形成有与公连接器壳体的锁定突起接合的锁定爪(210)的阴连接器壳体(200)和滑块释放突起(206); 以及滑动件(300),其可滑动地插入到阳连接器壳体(100)中并且由于滑块与凸形连接器壳体的锁定突起(112)和两个滑块挡块(150)的接合而在临时接合位置处停止。 当阳连接器壳体(200)与母连接器壳体(100)完全配合时,滑块通过锁定爪从锁定突起(112)和凸型连接器壳体的滑块止动件(150)向内变形 (210)和阴连接器壳体(200)的滑块释放突起(206)之间,滑动件可以进一步深入插入阴连接器壳体(200)到锁定确认位置。 特别地,由于两个滑块挡块(150)形成在公连接器壳体的内部,因此滑块可以停在阳连接器壳体内,因此可以可靠地检测连接器壳体锁定状态,而不会受到 施加到滑块的外力。
    • 4. 发明授权
    • Connector having engagement detecting device
    • 具有接合检测装置的连接器
    • US5672073A
    • 1997-09-30
    • US663534
    • 1996-06-13
    • Norio MatsumuraSakai YagiMasanori TsujiKeishi JinnoTakahiro Yoneda
    • Norio MatsumuraSakai YagiMasanori TsujiKeishi JinnoTakahiro Yoneda
    • H01R13/627H01R13/641H01R13/703H01R13/717H01R29/00
    • H01R13/7032H01R13/641H01R13/6275H01R13/717H01R13/7177
    • A connector having an engagement detecting device, comprises: a first connector housing (100) for housing a plurality of first connector terminals (23); a second connector housing (200) for housing a plurality of second connector terminals (21) mated with the first connector terminals, and engaged with the first connector housing; a slider (300, 300A) inserted into the first connector housing in two stages of a half engagement position and a full engagement position; and a short-circuit spring (400) disposed within the first connector housing, for shorting electrically two adjacent mated connector terminals (23, 21) when the slider is inserted into the first connector housing to the half engagement position, but disconnecting electrically the same two adjacent mated connector terminals when the second connector housing (200) is engaged with the first connector housing (100) and thereafter the slider is further inserted into the first connector housing to the full engagement position. The short-circuit spring (400) can apply a reaction force to the slider when the slider is further inserted to the full engagement position, thus providing a stable connector engagement detecting device while decreasing the number of parts.
    • 一种具有接合检测装置的连接器,包括:用于容纳多个第一连接器端子(23)的第一连接器壳体(100); 第二连接器壳体(200),用于容纳与第一连接器端子配合的多个第二连接器端子(21),并与第一连接器壳体接合; 在半接合位置和完全接合位置的两级中插入到第一连接器壳体中的滑块(300,300A); 以及设置在所述第一连接器壳体内的短路弹簧(400),用于当所述滑块在所述第一连接器壳体中插入所述半接合位置时将两个相邻的配合连接器端子(23,21)短路,但是将其电连接 当第二连接器壳体(200)与第一连接器壳体(100)接合时,两个相邻的配合连接器端子,然后滑块进一步插入第一连接器壳体到完全接合位置。 当滑块进一步插入到完全接合位置时,短路弹簧(400)可以向滑块施加反作用力,从而在减少部件数量的同时提供稳定的连接器接合检测装置。
    • 6. 发明授权
    • Connector having engagement detecting device
    • 具有接合检测装置的连接器
    • US5618201A
    • 1997-04-08
    • US429881
    • 1995-04-27
    • Sakai YagiMasanori TsujiKeishi JinnoTakahiro Yoneda
    • Sakai YagiMasanori TsujiKeishi JinnoTakahiro Yoneda
    • H01R13/627H01R13/641H01R13/703H01R13/717H01R3/00
    • H01R13/7032H01R13/6275H01R13/641H01R13/717H01R13/7177
    • A connector having an engagement detecting device, comprises: a first connector housing for housing a plurality of first connector terminals; a second connector housing for housing a plurality of second connector terminals mated with the first connector terminals, and engaged with the first connector housing; a slider inserted into the first connector housing in two stages of a half engagement position and a full engagement position; and a short-circuit spring disposed within the first connector housing, for shorting electrically two adjacent mated connector terminals when the slider is inserted into the first connector housing to the half engagement position, but disconnecting electrically the same two adjacent mated connector terminals when the second connector housing is engaged with the first connector housing and thereafter the slider is further inserted into the first connector housing to the full engagement position. The short-circuit spring can apply a reaction force to the slider when the slider is further inserted to the full engagement position, thus providing a stable connector engagement detecting device while decreasing the number of parts.
    • 一种具有接合检测装置的连接器,包括:用于容纳多个第一连接器端子的第一连接器壳体; 第二连接器壳体,用于容纳与所述第一连接器端子配合的多个第二连接器端子,并与所述第一连接器壳体接合; 滑块,其在半接合位置和完全接合位置的两个阶段中插入到第一连接器壳体中; 以及设置在所述第一连接器壳体内的短路弹簧,用于当所述滑块在所述第一连接器壳体中插入所述半接合位置时将两个相邻的配合连接器端子短路,但是当所述第二连接器端子 连接器壳体与第一连接器壳体接合,此后滑块进一步插入第一连接器壳体到完全接合位置。 当滑块进一步插入到完全接合位置时,短路弹簧可以向滑块施加反作用力,从而在减少部件数量的同时提供稳定的连接器接合检测装置。
    • 7. 发明授权
    • Connector
    • 连接器
    • US5178552A
    • 1993-01-12
    • US744740
    • 1991-08-14
    • Keishi JinnoMasanori TsujiTamio Watanabe
    • Keishi JinnoMasanori TsujiTamio Watanabe
    • H01R13/639H01R13/633H01R13/635
    • H01R13/635
    • A connector comprises, a first connector housing having first metal terminals, a second connector housing having second metal terminals engaged with the first metal terminals provided with the first connector housing, and a locking device for engaging the first connector housing with the second connector housing. The lock device includes a spring receiving device, slidably disposed in the first connector housing, for receiving a repulsive force acting between the first and second connector housings through the spring receiving device, and a spring device, for applying the repulsive force to the first and second connector housings through the spring receiving member, disposed between the first connector housing and the spring receiving device.
    • 连接器包括:具有第一金属端子的第一连接器壳体,具有与设置有第一连接器壳体的第一金属端子接合的第二金属端子的第二连接器壳体,以及用于将第一连接器壳体与第二连接器壳体接合的锁定装置。 锁定装置包括可滑动地设置在第一连接器壳体中的弹簧接收装置,用于通过弹簧接收装置接收作用在第一和第二连接器壳体之间的排斥力,以及弹簧装置,用于将推斥力施加到第一和 第二连接器壳体通过弹簧接收构件设置在第一连接器壳体和弹簧接收装置之间。
    • 8. 发明授权
    • Double locking connector
    • 双锁定连接器
    • US5607327A
    • 1997-03-04
    • US353976
    • 1994-12-06
    • Masanori TsujiKeishi Jinno
    • Masanori TsujiKeishi Jinno
    • H01R13/42H01R13/436H01R13/514
    • H01R13/4365
    • A double-locking connector including a front holder for double locking terminals within a connector housing where the terminals can be removed from the housing without disengaging the front holder from the housing. The double-locking connector includes a connector housing including terminal accommodating chambers which have stoppers against which metal terminals abut when they are inserted into the terminal accommodating chambers from the rear, and flexible locking pieces adapted to lock the metal terminals in the terminal accommodating chambers, respectively. The connector also includes a front holder which is engageable with the connector housing from the front. The front holder has flexible locking pieces which are respectively engageable with the metal terminals. Each of the flexible locking pieces has temporary locking protrusions and final locking protrusions which are engaged with locking portions forming the front end of the respective terminal accommodating chamber. When the front holder is in a temporarily locked position, the flexible locking pieces are not engaged with the metal terminals; when the front holder is in a completely locked position the flexible locking pieces are engaged with the metal terminals; and when the front holder is thereafter moved in a perpendicular direction the final locking protrusions become disengaged with the metal terminals.
    • 双锁定连接器,其包括用于连接器壳体内的双重锁定端子的前保持器,其中端子可以从壳体移除而不将前保持器与壳体分离。 双锁定连接器包括:连接器壳体,其包括端子容纳室,当从后部将金属端子插入端子容纳室时,端子容纳室具有阻挡件,金属端子抵靠在其上;以及柔性锁定件,其适于将金属端子锁定在端子容纳室中, 分别。 该连接器还包括可从前部与连接器壳体接合的前保持器。 前支架具有可分别与金属端子接合的柔性锁定件。 每个柔性锁定件具有临时锁定突起和最终锁定突起,其与形成相应端子容纳室的前端的锁定部分接合。 当前保持器处于临时锁定位置时,柔性锁定件不与金属端子接合; 当前保持器处于完全锁定位置时,柔性锁定件与金属端子接合; 并且当前保持器随后在垂直方向上移动时,最终的锁定突起与金属端子脱离接合。
    • 9. 发明授权
    • Double-lock type connector
    • 双锁式连接器
    • US5609503A
    • 1997-03-11
    • US435787
    • 1995-05-05
    • Masanori TsujiKeishi Jinno
    • Masanori TsujiKeishi Jinno
    • H01R13/42H01R13/436H01R13/514
    • H01R13/4362
    • In a double-lock type connector, terminals are primarily locked when inserted into terminal accommodating chambers in a connector housing, and the top wall of a spacer is depressed so that the latter is locked to the connector housing, thereby to secondarily lock the terminals. In the double-lock type connector, the spacer has a pair of elastically deformable flexible wall which are confronted with each other with a predetermined space between them and have first engaging parts on their inner surfaces which are confronted with each others, and the connector housing has a protruded portion which is slidably engaged with the flexible walls and has second engaging parts which are engageable with the first engaging part.
    • 在双锁式连接器中,当插入连接器壳体中的端子容纳室中时,端子主要被锁定,并且间隔件的顶壁被压下,使得锁定件连接到壳体,从而二次锁定端子。 在双锁定型连接器中,间隔件具有一对可弹性变形的柔性壁,它们彼此面对并具有彼此之间的预定空间,并且在它们的彼此相对的内表面上具有第一接合部分,并且连接器壳体 具有与柔性壁可滑动地接合的突出部分,并且具有可与第一接合部接合的第二接合部。
    • 10. 发明授权
    • Fitting detection connector
    • 配件检测连接器
    • US5417586A
    • 1995-05-23
    • US229333
    • 1994-04-12
    • Takayoshi EndoSakai YagiMasanori TsujiMotohisa Kashiyama
    • Takayoshi EndoSakai YagiMasanori TsujiMotohisa Kashiyama
    • H01R13/641H01R3/00
    • H01R13/641
    • One connector housing includes a resilient locking arm having a through-hole provided at its tip, a pair of detection terminals attached to said resilient locking arm and opposed to the through-hole, a first spring portion provided on the side of a warping space of the resilient locking arm and inserted between the resilient locking arm and the pair of detection terminals, the first spring portion having a protrusion to be engaged in said through-hole so as to force the locking arm in an anti-warping direction, and a second spring portion always forcing said resilient locking arm in the anti-warping direction. Another connector housing includes an engagement protrusion which is to be engaged in the through-hole to push the protrusion, thereby warping the first spring portion in an anti-forcing direction to be brought into contact with the pair of detection terminals. Thus, connector fitting of one and another connector housings can be surely detected electrically. The fitting detection connector can have a buffer spring member which is arranged between the contact portion and intrusion protrusion of the first spring portion.
    • 一个连接器壳体包括弹性锁定臂,其具有设置在其顶端的通孔,一对检测端子,其连接到所述弹性锁定臂并与通孔相对;第一弹簧部分,设置在弯曲空间 所述弹性锁定臂插入在所述弹性锁定臂和所述一对检测端子之间,所述第一弹簧部分具有与所述通孔接合的突起,以便将所述锁定臂拉到防翘曲方向, 弹簧部分总是迫使所述弹性锁定臂处于抗翘曲方向。 另一个连接器壳体包括接合突起,该接合突起要与通孔接合以推动突起,从而使第一弹簧部分在抗迫动方向上翘曲以与一对检测端接触。 因此,可以可靠地检测一个和另一个连接器壳体的连接器配件。 装配检测连接器可以具有设置在第一弹簧部分的接触部分和侵入突起之间的缓冲弹簧部件。