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    • 1. 发明公开
    • 접속되는 광 멀티코어 섬유의 간섭 정렬
    • 连接的光纤多芯光纤的干涉对准
    • KR1020170132708A
    • 2017-12-04
    • KR1020177011635
    • 2016-03-24
    • 인튜어티브 서지컬 오퍼레이션즈 인코포레이티드
    • 프로그갓마크산본에릭라크로익스제프리
    • G02B6/38G02B6/02
    • G02B6/3843G01B11/272G01M11/3172G02B6/02042G02B6/02076G02B6/3877G02B6/3881
    • 감지멀티코어광섬유내의하나이상의코어가조사멀티코어광섬유내의상응하는하나이상의코어와쌍을이루는상태에서제1 배향으로의접속을위해상기감지멀티코어광섬유의단부와상기조사멀티코어광섬유의단부를근접시킨다. 적어도하나의코어쌍을조사하기위해그리고상기제1 배향으로의상기코어쌍에대한정렬의정도를나타내는제1 반사값을결정하기위해광학간섭계가사용된다. 상기광섬유의단부사이의상대위치가제2 배향으로조정된다. 상기코어쌍을조사하기위해그리고상기제2 배향으로의상기코어쌍에대한정렬의정도를나타내는제2 반사값을결정하기위해간섭계가사용된다. 상기제1 반사값은상기제2 반사값과비교되고, 상기비교에기초하여상기감지광섬유및 조사광섬유를접속하기위한정렬배향이식별된다.
    • 在相应的至少一个芯和一对端部和用于连接到所述第一定向的状态下,照射多芯光纤的端部的检测多芯光纤的接近照射多芯的光纤芯检测多核的一个或多个形成在所述光纤 从而。 使用光学干涉仪来照射至少一对芯并且确定指示第一取向中的一对芯的对准程度的第一反射值。 光纤端部之间的相对位置被调整到第二方位。 使用干涉仪来照射芯对并确定指示芯对与第二取向的对准程度的第二反射值。 将第一反射值与第二反射值进行比较,并且基于比较来识别用于连接感测光纤和照射光纤的对准取向。
    • 4. 发明公开
    • 광섬유 단자 조립체
    • 光纤终端总成
    • KR1020070089239A
    • 2007-08-30
    • KR1020077016476
    • 2005-12-20
    • 몰렉스 엘엘씨
    • 다이데이비드이.
    • G02B6/38
    • G02B6/3851G02B6/3821G02B6/3831G02B6/3843G02B6/3871G02B6/3878
    • An optical fiber terminus includes an elongated body with a passage along a central axis for receiving a portion of an optical fiber cable therethrough and an indexing section. A ferrule is secured to the body and has an end portion of said optical fiber cable therein. A collar is positioned on the elongated body and has an engagement section for engaging the indexing section. The collar is movable along the axis between first and second operative positions. In the first operative position relative rotational movement between the collar and the body is prevented and in the second operative position the collar may rotate relative to the body. A biasing member is provided to bias the collar towards the first operative position.
    • 光纤终端包括具有沿着中心轴线的通道的细长主体,用于接收光纤电缆的一部分穿过其中以及索引部分。 套圈固定在主体上,并且其中的所述光纤电缆的端部。 套环定位在细长主体上,并具有用于接合分度部分的接合部分。 轴环可以沿第一和第二操作位置之间的轴线移动。 在第一操作位置,防止套环和主体之间的相对旋转运动,并且在第二操作位置,套环可相对于主体旋转。 偏置构件被设置成朝向第一操作位置偏置套环。
    • 6. 发明公开
    • 광케이블 여유장 설치 장치 및 그의 설치 구조
    • 用于安装额外光缆及其设备结构的设备
    • KR1020150045150A
    • 2015-04-28
    • KR1020130124454
    • 2013-10-18
    • 에스케이텔레콤 주식회사
    • 김형국
    • G02B6/48G02B6/46
    • G02B6/4446G02B6/3843G02B6/441G02B6/483
    • 본발명은광케이블여유장설치장치및 그의설치구조에관한것으로, 전주에광케이블을가설한후 발생되는광케이블여유장을전주또는조가선에안정적으로설치할수 있도록하기위한것이다. 본발명에따른광케이블여유장설치장치는베이스판, 복수의광케이블고정부, 복수의케이블지지암, 및결속부를포함한다. 복수의광케이블고정부는베이스판의일측에설치되어광케이블이인입및 인출되며, 광케이블을고정한다. 복수의케이블지지암은베이스판에설치되며, 복수의광케이블고정부를통하여인입및 인출된광케이블이소정의직경으로감기도록유도한다. 그리고결속부는베이스판을외부에하나에결속하여고정한다. 또한본 발명에따른광케이블여유장설치장치를조가선또는전주에설치한광케이블여유장설치장치의설치구조를제공한다.
    • 本发明涉及一种用于安装额外的光缆及其设备结构的装置,并且在安装在电线杆上之后,以稳定的方式将额外的光缆安装在电线杆或信使线上。 根据本发明的用于安装额外光缆的设备包括基板,多个用于光缆的安装部件,多个电缆用安装臂和联接部件。 光缆的安装部分安装在基板的一侧,光缆可以从安装部分放置在内部或外部。 光缆的安装部件固定光缆。 用于电缆的安装臂安装在基板上,以将放置在安装部分的内部或外部的光缆导引到一定直径的线圈。 联接部分将基板耦合到外部点。 本发明还提供了用于在信使线或电线杆上安装额外光缆的设备的设备结构。
    • 7. 发明授权
    • 광섬유 어레이의 정렬 방법
    • 光纤对准方法
    • KR101327200B1
    • 2013-11-11
    • KR1020120047526
    • 2012-05-04
    • 에스팩 주식회사
    • 김진홍
    • G02B6/36
    • G02B6/4225G02B6/3843G02B6/385G02B6/4226G02B6/4249
    • The present invention relates to an alignment method for an optical fiber array and, more specifically, to the alignment method of optical fiber array blocks (150), in which optical fibers (151) are arranged in order to correspond to respective optical signal output ends (100b) and an optical waveguide in which N optical out ends are arranged, comprising a first step locating the optical fiber array blocks (150) in order to match the x-shaft coordinate of the respective optical fibers (151) and the respective optical signal output ends (100b) when the arrangement direction of the optical signal output end (100b) is an x-shaft, and the vertical direction of the x-shaft is an y-shaft on the surface of the optical waveguide device (100); and a second step finding out a second coordinate (y) in which light reception rates of a second reference optical fiber (151-2) is maximum and a first coordinate (y1) in which the light reception rate of a first reference optical fiber (151-1) is maximum by scanning the optical fiber array block (150) along the y-shaft from the optical signal output end (100b). According to the present invention, the method has effects capable of improving productivity, capable of reducing process time, and capable of simplifying the process by finding out the first coordinate (y1) and the second coordinate (y2) at once by scanning the optical fiber array block (150) along the y-shaft after matching the optical signal output end (100b) with the x-shaft of the optical fiber (151).
    • 本发明涉及一种用于光纤阵列的对准方法,更具体地,涉及光纤阵列块(150)的对准方法,其中布置光纤(151)以便对应于相应的光信号输出端 (100b)和布置有N个光纤出端的光波导,包括:第一步骤,定位光纤阵列块(150),以便匹配各个光纤(151)的x轴坐标和相应的光纤 当光信号输出端(100b)的布置方向为x轴时,信号输出端(100b),x轴的垂直方向为光波导装置(100)的表面上的y轴, ; 以及第二步骤,找出第二参考光纤(151-2)的光接收率最大的第二坐标(y)和第一参考光纤(...的光接收率)的第一坐标(y1) 151-1)通过从光信号输出端(100b)沿着y轴扫描光纤阵列块(150)而最大。 根据本发明,该方法具有能够提高生产率,能够缩短处理时间的效果,并且能够通过扫描光纤一次找出第一坐标(y1)和第二坐标(y2)来简化处理 在将光信号输出端(100b)与光纤(x)的x轴匹配之后,沿着y轴的阵列块(150)。
    • 8. 发明授权
    • 광섬유 커넥터
    • 光纤连接器
    • KR101279934B1
    • 2013-07-05
    • KR1020120032652
    • 2012-03-29
    • (주)옵토네스트
    • 정창윤이수남강민재
    • G02B6/38
    • G02B6/3843G02B6/3813G02B6/3861G02B6/3894G02B6/3897
    • PURPOSE: An optical fiber connector is provided to suppress damage by leakage light due to an optical fiber alignment error. CONSTITUTION: An optical fiber connector (100) includes a main optical fiber support holder (110), a sub optical fiber holder (150), a main engagement nut (170), a locking member (180) and a main housing (190). The main optical fiber support holder has a first hollow, a first internal support step supporting a bare optical fiber, an air gap space in between the first internal support step and a first front-end, a first internal screw thread. The main optical fiber support holder has a first latch step and a first latch groove having a narrow outer diameter on the outer surface. The sub optical fiber support holder has a first external screw thread, a filling space in which a filler for fixing the bare optical fiber in a second front-end direction from a second rear-end is able to be filled and a latch unit in which a diameter from the end of the first external screw thread the second rear-end is greater than the second front-end. The main engagement nut has a second latch step advanced from the outside through the first rear-end to be latched by the first latch step and a second internal screw thread inside of an accommodation groove formed in the second latch step from a third front-end. The locking member suppresses retreat of the main engagement nut by being engaged with the first latch groove. The main housing has a main hollow to surround the main engagement nut and fixes the main engagement nut by a fixing member through a fixing penetration hole penetrating from the outer periphery to the inner periphery.
    • 目的:提供光纤连接器,以防止由于光纤对准误差引起的泄漏光的损坏。 构成:光纤连接器(100)包括主光纤支撑架(110),副光纤保持架(150),主接合螺母(170),锁定部件(180)和主壳体(190) 。 主光纤支撑保持器具有第一中空,支撑裸光纤的第一内部支撑台阶,第一内部支撑台阶与第一前端之间的气隙空间,第一内螺纹。 主光纤支撑保持器具有第一锁定步骤和在外表面上具有窄外径的第一闩锁槽。 副光纤支撑架具有第一外螺纹,填充空间,其中可以填充用于将裸光纤固定在第二前端的第二前端方向上的填充物,以及闩锁单元,其中 从第一外螺纹的端部的第二后端的直径大于第二前端。 主接合螺母具有从外部穿过第一后端推进的第二闩锁步骤,以通过第一闩锁步骤锁定,并且在第二闩锁步骤中形成的容纳槽内的第二内螺纹从第三前端 。 锁定构件通过与第一闩锁槽接合而抑制主接合螺母的后退。 主壳体具有主空心,以围绕主接合螺母,并且通过固定构件通过从外周向内周贯穿的固定贯穿孔固定主接合螺母。
    • 9. 发明公开
    • 인덱싱된 광섬유 커넥터
    • 指示光纤连接器
    • KR1020070089242A
    • 2007-08-30
    • KR1020077016529
    • 2005-12-20
    • 몰렉스 엘엘씨
    • 다이데이비드이.
    • G02B6/38G02B6/255
    • G02B6/3851G02B6/3831G02B6/3843G02B6/3887
    • A high-performance connector for optical fibers includes a cylindrical ceramic or metallic ferrule installed in a structure. This structure is positioned in a non-plastic (metallic system) base member to form a fiber holder. This overall generally cylindrical structure includes a small passageway along its central axis for holding an optical fiber. This entire structure is mounted within the non-plastic housing that includes an opening at one end thereof from which the ceramic ferrule protrudes. A cylindrical spring that is integral to the ferrule support structure and interacts with an interior surface of the surrounding structure via a secondary piece of the cylindrical structure urges the ceramic ferrule outward from the opening in the housing. The housing includes a metallic leaf-spring latch which is located on a single surface thereof, which is manually operable and used to lock the connector to an associated receptacle. Said connector; because it is manufactured of non-plastics in its structural elements (metallics and/or ceramics) has very stable optical performance criteria over a broad range of environments (both thermal and mechanical). The high performance optical connector also introduces the ability to remove the cylindrical fiber holder to directly inspect or clean the sensitive internal components (springs, internal metallic or ceramic components). In addition, the cylindrical structure provides a mean of "tuning" it to remove the effects of fiber eccentricity. When tuned, the fiber holder retains such tuning even outside the housing allowing re-assembly of the high-performance connector without loss of "tuning".
    • 用于光纤的高性能连接器包括安装在结构中的圆柱形陶瓷或金属套圈。 该结构位于非塑料(金属系统)基体中以形成纤维架。 该整体大致圆柱形结构包括沿其中心轴的小通道,用于保持光纤。 该整个结构安装在非塑料壳体中,该非塑料壳体在其一端包括开口,陶瓷套圈从该开口突出。 与套圈支撑结构成一体并与周围结构的内表面通过圆柱形结构的次级部件相互作用的圆柱形弹簧将陶瓷套圈从壳体中的开口向外推动。 壳体包括位于其单个表面上的金属片弹簧闩锁,其可手动操作并用于将连接器锁定到相关联的插座。 所述连接器; 因为它在其结构元件(金属和/或陶瓷)中由非塑料制造,在广泛的环境(热和机械)环境中具有非常稳定的光学性能标准。 高性能光学连接器还引入了去除圆柱形光纤夹持器以直接检测或清洁敏感内部部件(弹簧,内部金属或陶瓷部件)的能力。 此外,圆柱形结构提供了“调谐”以消除纤维偏心率的影响的平均值。 当调谐时,光纤保持器甚至在壳体外部保持这样的调谐,允许重新组装高性能连接器,而不会损失“调谐”。
    • 10. 发明授权
    • 광섬유 블럭의 광학적 정렬도 측정 장치 및 방법
    • 광섬유블럭의광학적정렬도측정장치및방법
    • KR100406864B1
    • 2003-11-21
    • KR1019990001462
    • 1999-01-19
    • 삼성전자주식회사
    • 이용우장우혁이형재이태형
    • G02B6/42
    • G02B6/4225G02B6/3636G02B6/3652G02B6/3692G02B6/3696G02B6/3843G02B6/4226
    • Disclosed are an apparatus for and a method of measuring optical alignment conditions of optical fibers mounted to a V-groove array in an optical fiber block connected to the input or output terminals of an optical waveguide device. The disclosed apparatus includes a light source, a measuring unit for measuring the characteristics of a light emitted from the light source and outputted from each of the optical fibers after passing through the optical fiber, and a control unit for determining respective central positions of the first and last ones of the optical fibers, based on the characteristics of the first and last optical fibers measured by the measuring unit, determining a direction connecting the determined central positions of the first and last optical fibers, and conducting a control for allowing the light emitted from the light source to be irradiated onto the remaining optical fibers in a sequential fashion along the determined direction, thereby allowing the measuring unit to measure the characteristics of the remaining optical fibers.
    • 公开了一种用于测量安装到连接到光波导装置的输入或输出端子的光纤模块中的V形槽阵列的光纤的光学对准条件的装置和方法。 所公开的装置包括光源,用于测量从光源发射并且在通过光纤之后从每个光纤输出的光的特性的测量单元以及用于确定第一 基于由测量单元测量的第一和最后一根光纤的特性,确定连接所确定的第一和最后一根光纤的中心位置的方向,并且进行控制以允许发射的光 从光源沿着确定的方向以顺序的方式照射到其余的光纤上,从而允许测量单元测量剩余光纤的特性。