公开(公告)号：WO1995022071A2

公开(公告)日：1995-08-17

申请号：PCT/GB1995000244

申请日：1995-02-07

Applicant: MINIFLEX LIMITED ,  STOCKMAN, Anthony, John ,  JENKINS, Peter, David ,  BENTON, Simon, Charles, Tristan

Inventor： MINIFLEX LIMITED

IPC: G02B06/38

CPC classification number: G02B6/4471 ,  G02B6/4477

Abstract: A cable routing device has a body (10) and a plurality of cable passages (22) through the body. Each passage has an entry socket (24) adapted to receive a cable end (20), an exit (26) in line with the entry socket and a lateral opening (28). Each passage also has a cross-sectional reduction between the entry socket (24) and the exit (26) to limit longitudinal movement of a cable (20) along the passage.

Abstract translation: 电缆布线装置具有主体（10）和穿过主体的多个电缆通道（22）。 每个通道具有适于容纳电缆端部（20）的入口插座（24），与入口插座一致的出口（26）和侧向开口（28）。 每个通道还具有入口插座（24）和出口（26）之间的横截面减小，以限制电缆（20）沿着通道的纵向移动。

公开(公告)号：WO1994024593A1

公开(公告)日：1994-10-27

申请号：PCT/GB1994000832

申请日：1994-04-20

Applicant: LEMO UK LTD. ,  MCFARLANE, Glenton, Patrick

Inventor： LEMO UK LTD.

IPC: G02B06/38

CPC classification number: G02B6/3893

Abstract: An optical fibre cable connector (10) which cooperates with a co-axial coupling member (150), wherein said cable connector (10) has an outer cylindrical shell assembly (11, 60, 80) to which a sheath of said cable is firmly attached and which locks both axially (15, 151) and circumferentially (62, 153) to said coupling member, and an inner locating assembly (30, 50, 130) for the fibre (120) which is locked circumferentially (31, 61) but not axially to the outer shell assembly (11, 60, 80) and includes biassing means (70) to urge the assembly towards the coupling member (150), engagement and disengagement of the connector and the coupling member being by axial movement only of the connector without circumferential movement.

Abstract translation: 一种与同轴联接构件（150）配合的光纤电缆连接器（10），其中所述电缆连接器（10）具有外圆柱形外壳组件（11,60,80），所述电缆的护套牢固地连接到该外部组件 并且其沿轴向（15,151）和周向（62,153）锁定到所述联接构件，以及用于纤维（120）的周向（31,61）锁定的内部定位组件（30,50,130） 但不轴向地连接到外壳组件（11,60,80），并且包括偏压装置（70），以朝向联接构件（150）推动组件，连接器和联接构件的接合和分离仅通过轴向运动 连接器没有圆周运动。

公开(公告)号：WO1994023320A1

公开(公告)日：1994-10-13

申请号：PCT/DE1994000391

申请日：1994-04-06

Applicant: SIEMENS AKTIENGESELLSCHAFT ,  LANGENWALTER, Michael ,  BEIER, Axel

Inventor： SIEMENS AKTIENGESELLSCHAFT

IPC: G02B06/38

CPC classification number: G02B6/4472 ,  G02B6/3878

Abstract: A cable spreader for separating several optical fibres (9, 10) contained in a common cable sheath (3) has two coupable, preferably identical, half-shells (4, 5). The half-shells (4, 5) form an input channel (38) which receives the cable sheath (3) and opens into output channels (40, 41) for receiving the optical fibres (9, 10). Projections (44, 45, 46) located in the input channel (38) and output channels (40, 41) are sized so that they dig into the cable sheath (3) or into the cladding (11, 12) that surrounds the optical fibres (9, 10) when the half-shells (4, 5) are assembled.

公开(公告)号：WO1994018585A1

公开(公告)日：1994-08-18

申请号：PCT/DE1994000118

申请日：1994-02-01

Applicant: SIEMENS AKTIENGESELLSCHAFT ,  GÜNTHER, Uwe ,  WEIGEL, Hans-Dieter

Inventor： SIEMENS AKTIENGESELLSCHAFT

IPC: G02B06/38

CPC classification number: H01R13/567 ,  G02B6/3889 ,  G02B6/4428 ,  G02B6/4471 ,  H02G1/14

Abstract: The cable sheath (4) of the cable end piece (1) is partially removed, exposing at least one signal conductor (5, 6) and the ends (8) of an elongated strain-bearing element (10). The cable end piece (1) is inserted into a receptacle (3) through an inlet (2). A spreader body (20) is inserted into the end of the cable sheath (4), deflecting the ends (8) of the strain-bearing element (10), and expands the cable sheath (4) beyond the cross-section of the inlet (2).

公开(公告)号：WO1993013441A1

公开(公告)日：1993-07-08

申请号：PCT/US1992007273

申请日：1992-08-27

Applicant: ADC TELECOMMUNICATIONS, INC.

Inventor： ADC TELECOMMUNICATIONS, INC. ,  BEARD, Michael, S. ,  PUETZ, Curtis

IPC: G02B06/38

CPC classification number: G02B6/3887 ,  G02B6/3821 ,  G02B6/3831 ,  G02B6/3851 ,  G02B6/387

Abstract: A first cable retention mechanism for securing an optical fiber cable to an optical fiber connector (10) includes a sleeve assembly (26) having a longitudinal axis. The sleeve (26) assembly has an inner passageway which is disposed along the axis and sized to receive the connecting end of the connector. The retaining clip (26) includes first and second mating halves (28, 30). The halves (28, 30) are snap fit together by cooperating male and female snapping locks (76, 77) respectively. The mating half (28) is generally semi-cylindrical and includes an arcuate inner surface (108). The mating half (28) includes a first portion (110) and a second portion (112) divided by a channel (114). The channel (114) is so disposed such that the halves (28, 30) may be joined together with enlargement (74) received within channel (114). The inner surface (108) is sized such that when mating halves (28, 30) are joined together by snap fit of male and female fasteners (76, 77), shell (24) is received within first half (110). First half (110) includes inwardly projecting annular ribs in the form of arcuate rib segments (116). The arcuate rib sections (116) are sized to extend into the annular grooves (104) when retention mechanism (26) is snap fit onto shell (24). Second portion (112) also includes arcuate rib segments (118) as well as inwardly protruding gripping members (120). The ribs (118) and gripping members (120) are sized to protrude into the flexible jacket (100) of cable (34) when a cable (34) is received within mechanism (26) and disposed between portions (112) of halves (28, 30). The gripping members (120) also protrude into the sheath material of jacket (100) to securely capture and affix the sheath (100) to member (24). Also, the Kevlar fibers extend between member (24) and first portions (110). Accordingly, ribs (116) force the Kevlar fibers into grooves (104) to securely affix the Kevlar reinforcement fibers to member (24). As a result, both the jacket (100) and the Kevlar fibers (35) are separately and independently affixed to the retaining shell (24).

公开(公告)号：WO1993005423A1

公开(公告)日：1993-03-18

申请号：PCT/US1992006730

申请日：1992-07-28

Applicant: MINNESOTA MINING AND MANUFACTURING COMPANY

Inventor： MINNESOTA MINING AND MANUFACTURING COMPANY ,  CARPENTER, James, B. ,  LARSON, Donald, K. ,  MANSFIELD, Charles, M. ,  PATTERSON, Richard, A.

IPC: G02B06/38

CPC classification number: G02B6/3806 ,  G02B6/3636 ,  G02B6/3652 ,  G02B6/3696 ,  G02B6/3801 ,  G02B6/3839 ,  G02B6/3887

Abstract: A device for splicing multiple optical fibers includes a novel splice element (18) having two plates (74, 76) formed from a sheet of ductile material, there being a fold line in the sheet forming a hinge, the two plates being folded toward one another to define opposing surfaces. One of the opposing surfaces (76) has several fiber receiving grooves (82) therein, parallel with the fold line, and the other surface has ramps (88) at each end to support the fibers proximate the transition from their buffered portions to their stripped portions. The ramps are adjacent porches (84) which are integrally formed with one of the plates, the porches having additional grooves (86) for aligning the fibers with the fiber receiving grooves. Stop pads (90) are provided on both opposing surfaces, at the corners of the plates, to insure a clearance space at the ends of the plates which provides for more gradual clamping of the fibers, reducing insertion loss. Splice element (18) may be formed from a sheet of deformable material, preferably a ductile metal such as aluminum, although polymeric materials may also be used. Material selection is described further below. Certain features are embossed, coined, stamped, molded or milled into element (18).

Abstract translation: 一种用于拼接多根光纤的装置包括具有由一片韧性材料片形成的两个板（74,76）的新的拼接元件（18），所述片具有形成铰链的折叠线，两个板 朝向彼此折叠以形成相对的表面。 其中一个相对表面（76）具有多个容纳平行于折叠线的纤维（82）的凹槽，另一个表面在每个端部具有斜面（88），用于在这些部分之间的过渡区中支撑纤维。 护套和裸露的部分。 斜面靠近与其中一个板一体的轴承（84），轴承具有附加的凹槽（86），用于将光纤与接收光纤的凹槽对齐。 在板的拐角处的两个相对表面上设置止动垫（90），以在所述板的端部处提供间隙区域，允许更平缓地夹紧纤维，由此减少 插入。 尽管也可以使用聚合物材料，拼接构件（18）可以由可变形材料片形成，优选由可延展金属例如铝制成。 材料的选择如下所述。 其中一些具有在元件（18）中被冲压，击打，修整，模制或卷起的区别。

公开(公告)号：WO1992015909A2

公开(公告)日：1992-09-17

申请号：PCT/US1992001628

申请日：1992-02-28

Applicant: AMP INCORPORATED ,  BADERSCHNEIDER, Kurt, Peter ,  KOURIMSKY, Friedrich, Josef, Alois ,  HOTEA, Gheorghe

Inventor： AMP INCORPORATED

IPC: G02B06/38

CPC classification number: G02B6/4246 ,  G02B6/3821 ,  G02B6/3846 ,  G02B6/3858 ,  G02B6/3869 ,  G02B6/3878 ,  G02B6/3887 ,  G02B6/389 ,  G02B6/421

Abstract: A terminating device for an optical waveguide, comprising a sleeve-like terminating member (23, 25; 271) in which an optical waveguide section (47; 229) having a coupling face ground to be plane is glued on the one hand and in which an optical waveguide (19, 21, 213) abutting said optical waveguide section (47; 229) is inserted on the other hand. Such a terminating member can be used in an optical waveguide connector (15, 17; 211). In an optical waveguide connection assembly (11; 211) using such connectors (15, 17; 211), portions of the terminating members (23, 25; 271) projecting from a coupling face of the connector (15, 17; 211) are centered in a centering means (83; 299) with respect to their required radial position.

Abstract translation: 一种用于光波导的端接装置，包括套筒状端接件（23,25; 271），其中具有接地面的平面的光波导部分（47; 229）一方面胶合，其中 另一方面插入邻接所述光波导部分（47; 229）的光波导（19,21,213）。 这种端接构件可以用在光波导连接器（15,17; 211）中。 在使用这种连接器（15,17; 211）的光波导连接组件（11; 211）中，从连接器（15,17; 211）的耦合面突出的端接件（23,25,271）的部分是 以相对于其所需的径向位置的定心装置（83; 299）为中心。

公开(公告)号：WO1992014178A1

公开(公告)日：1992-08-20

申请号：PCT/SE1992000054

申请日：1992-01-29

Applicant: NODFELT, Ingvar ,  STANITZ, Bernd

IPC: G02B06/38

CPC classification number: G02B6/383 ,  G02B6/32 ,  G02B6/3821 ,  G02B6/3869 ,  G02B6/3878 ,  G02B6/389

Abstract: Multi channel connector for transmission means (15), preferably optical fiber ends, diodes or the like, equipped with lenses. The connector comprises two connector parts (11a, 11b) shaped for cooperation with at least one centering means for the centering of the transmission means. The centering means are respectively male and female shaped. The transmission means (15) are each located in a related holder (14) in both connector parts (11a, 11b). Each holder (14) has in limited extent radial mobility as well as axial mobility against the action of a spring (20) in one for each connector part arranged respective channel (13), so that each holder (14) is self-centering independant of the other holders.

Abstract translation: 用于传输装置（15）的多通道连接器，优选地配备有透镜的光纤端部，二极管等。 连接器包括两个连接器部分（11a，11b），其形状与用于与传动装置对中的至少一个定心装置配合。 定心装置分别是雄和雌的形状。 传动装置（15）分别位于两个连接器部分（11a，11b）中的相关保持器（14）中。 每个保持器（14）具有有限程度的径向移动性以及抵抗针对布置的相应通道（13）的每个连接器部分的弹簧（20）的作用的轴向移动，使得每个保持器（14）是自定心的独立的 的其他持有人。

公开(公告)号：WO1992006396A1

公开(公告)日：1992-04-16

申请号：PCT/GB1991001698

申请日：1991-10-02

Applicant: BRITISH TELECOMMUNICATIONS PUBLIC LIMITED COMPANY ,  WELBOURN, Anthony, David

Inventor： BRITISH TELECOMMUNICATIONS PUBLIC LIMITED COMPANY

IPC: G02B06/38

CPC classification number: G02B6/3839 ,  G02B6/3652 ,  G02B6/3676 ,  G02B6/3692 ,  G02B6/3861

Abstract: A fibre array connector comprises a pair of identical connector halves (A and B). Each connector half (A and B) has a fibre support member (1) and a spring member (2) formed from separate silicon substrates. Each fibre support member (1) defines a plurality of V-grooves (3), and each spring member (2) is constituted by a plurality of cantilever springs (5). Each spring (5) is fixed to the base of a respective V-groove (3), the arrangement being such that, with the two connector halves (A and B) placed together with the V-grooves in alignment, fibres (7) can be resiliently mounted in the diamond-shaped apertures defined by the aligned V-grooves.

Abstract translation: 光纤阵列连接器包括一对相同的连接器半部（A和B）。 每个连接器半部（A和B）具有纤维支撑部件（1）和由分离的硅基板形成的弹簧部件（2）。 每个纤维支撑构件（1）限定多个V形槽（3），并且每个弹簧构件（2）由多个悬臂弹簧（5）构成。 每个弹簧（5）固定在相应的V形槽（3）的基部上，其结构是使两个连接器半部（A和B）与V形槽对准放置在一起，纤维（7） 可以弹性地安装在由排列的V形槽限定的菱形孔中。

公开(公告)号：WO1992000538A1

公开(公告)日：1992-01-09

申请号：PCT/GB1991001073

申请日：1991-07-02

Applicant: BRITISH TELECOMMUNICATIONS PUBLIC LIMITED COMPANY ,  WELBOURN, Anthony, David ,  GILL, Michael, Dennis

Inventor： BRITISH TELECOMMUNICATIONS PUBLIC LIMITED COMPANY

IPC: G02B06/38

CPC classification number: G02B6/3839 ,  G02B6/3873 ,  G02B6/3897 ,  G02B6/4249 ,  G02B6/43

Abstract: An optical system comprises a hybrid optical motherboard (M1) having a plurality of optical interconnections formed therein, and a connector (P1). A connector region (S1) is formed in, but does not extend completely along, an edge portion of the hybrid optical motherboard (M1). The connector region (S1) contains a number of optical interconnections, and the connector (P1) contains an optical device (7). The connector (P1) is connectible to the connector region (S1) to align the optical device (7) of the connector with the optical interconnections contained in the connector region. The connector (P1) and the connector region (S1) each comprises first and second substrates (1, 2 and 11, 12) made of crystalline material and containing intersecting planes which can be delineated by etching. Each first substrate (1, 11) is formed with etched alignment groove means (3, 13), and each second substrate (2, 12) is formed with etched alignment groove means (4, 14) which are complementary to the alignment groove means of the associated first substrate. The alignment groove means (3, 13 and 4, 14) of the first and second substrates (1, 2 and 11, 12) of the connector (P1) and of the connector region (S1) are accurately aligned and contiguous when the two substrates are placed in face-to-face engagement, and the aligned contiguous alignment groove means of the connector can be accurately aligned, and be contiguous, with the aligned, contiguous alignment groove means of the connector region. The connector (P1) is provided with alignment means (5) for accurately positioning the associated optical device (7) between its two substrates (1, 12) with respect to the contiguous aligned groove means (3, 4) thereof.

Abstract translation: 光学系统包括其中形成有多个光学互连的混合光学母板（M1）和连接器（P1）。 连接器区域（S1）沿着混合光学母板（M1）的边缘部分形成，但不完全延伸。 连接器区域（S1）包含多个光学互连件，并且连接器（P1）包含光学装置（7）。 连接器（P1）可连接到连接器区域（S1），以将连接器的光学装置（7）与包含在连接器区域中的光学互连对准。 连接器（P1）和连接器区域（S1）各自包括由结晶材料制成的包含可通过蚀刻描绘的交叉平面的第一和第二基板（1,2和11,12）。 每个第一基板（1,11）形成有蚀刻的对准槽装置（3,13），并且每个第二基板（2,12）形成有蚀刻的对准槽装置（4,14），其与对准槽装置 的相关联的第一衬底。 当连接器（P1）和连接器区域（S1）的第一和第二基板（1,2和11,12）和连接器区域（S1）的对准槽装置（3,13和4,14）精确对齐并连续时 基板被放置成面对面接合，并且连接器的对准的连续对准槽装置可以与连接器区域的对齐的连续对准槽装置精确对准并且邻接。 连接器（P1）设置有对准装置（5），用于相对于其相邻对准的槽装置（3,4）将相关联的光学装置（7）精确地定位在其两个基板（1,12）之间。