公开(公告)号：US07398599B2

公开(公告)日：2008-07-15

申请号：US10783022

申请日：2004-02-23

Applicant: Keiko Shiraishi ,  Mituo Itoh ,  Tomotaka Murase ,  Kenichi Muta ,  Masaru Kobayashi ,  Takashi Yoshida ,  Koichi Arishima ,  Shin Sumida

Inventor： Keiko Shiraishi ,  Mituo Itoh ,  Tomotaka Murase ,  Kenichi Muta ,  Masaru Kobayashi ,  Takashi Yoshida ,  Koichi Arishima ,  Shin Sumida

IPC: H02G1/12

CPC classification number: G02B6/245 ,  Y10T83/04

Abstract: Provided is a device for removing coating on an optical fiber. The device has a cutting depth limiting surface disposed on a receiver body and a cutting blade attached between a pusher body and a fixing block. The cutting blade is made from plastics and has a specified bending elasticity. An optical fiber is inserted between the cutting blade and the limiting surface. During operation, the cutting blade cuts into a covering on the optical fiber. A high precision in arranging the cutting blade is not required.

Abstract translation: 提供了用于去除光纤上的涂层的装置。 设备具有设置在接收器主体上的切割深度限制表面和附接在推动器本体和固定块之间的切割刀片。 切割刀片由塑料制成，具有特定的弯曲弹性。 光纤插入在切割刀片和限制表面之间。 在操作期间，切割刀片切割成光纤上的覆盖物。 不需要高精度地设置切割刀片。

公开(公告)号：US06655433B1

公开(公告)日：2003-12-02

申请号：US09722662

申请日：2000-11-28

Applicant: Mamoru Hirayama ,  Koichi Arishima ,  Shin Sumida

Inventor： Mamoru Hirayama ,  Koichi Arishima ,  Shin Sumida

IPC: B65H100

CPC classification number: G02B6/448 ,  G02B6/4486

Abstract: An optical fiber ribbonizing apparatus is disclosed which arranges a plurality of optical fibers in parallel, applies a resin to peripheries of the plurality of optical fibers, and hardens the resin to form the optical fibers into a ribbon. The apparatus comprises a ribbonizing jig integrally including an optical fiber aligning mechanism for aligning the plurality of optical fibers in parallel, a resin applying mechanism for applying the resin to the optical fibers aligned by the fiber aligning mechanism and a resin hardening device for hardening the resin applied to the optical fibers by the resin applying mechanism, the optical fiber aligning mechanism, the resin applying mechanism and the resin hardening device being arranged in a line in an optical fiber inserting direction, and movement mechanism for moving at least one of the ribbonizing jig and the optical fibers in a predetermined direction relative to the other.

Abstract translation: 公开了一种并行布置多根光纤的光纤带状装置，将树脂施加到多根光纤的周边，并使树脂硬化以将光纤形成带状。 该装置包括：整体地包括用于平行对准多根光纤的光纤对准机构的一个带状夹具，用于将树脂施加到由纤维取向机构排列的光纤的树脂施加机构和用于使树脂硬化的树脂硬化装置 通过树脂施加机构施加到光纤上，光纤对准机构，树脂施加机构和树脂硬化装置沿光纤插入方向排成一列，以及移动机构，用于移动至少一个带状夹具 并且光纤相对于另一个沿预定方向。

公开(公告)号：US06304687B1

公开(公告)日：2001-10-16

申请号：US09171020

申请日：1998-10-14

Applicant: Yasuyuki Inoue ,  Akimasa Kaneko ,  Hiroshi Takahashi ,  Fumiaki Hanawa ,  Kuninori Hattori ,  Kenji Yokoyama ,  Senichi Suzuki ,  Shin Sumida ,  Katsunari Okamoto ,  Motohaya Ishii ,  Hiroaki Yamada ,  Takashi Yoshida ,  Koichi Arishima ,  Fumihiro Ebisawa ,  Motohiro Nakahara

Inventor： Yasuyuki Inoue ,  Akimasa Kaneko ,  Hiroshi Takahashi ,  Fumiaki Hanawa ,  Kuninori Hattori ,  Kenji Yokoyama ,  Senichi Suzuki ,  Shin Sumida ,  Katsunari Okamoto ,  Motohaya Ishii ,  Hiroaki Yamada ,  Takashi Yoshida ,  Koichi Arishima ,  Fumihiro Ebisawa ,  Motohiro Nakahara

IPC: G02B612

CPC classification number: G02B6/12011 ,  G02B6/12014 ,  G02B6/12023 ,  G02B6/12028

Abstract: In a light waveguide circuit including a plurality of waveguides having different length, a material (10) having a temperature coefficient of a refractive index including a symbol different from that of a temperature coefficient of an effective refractive index of the waveguide (4) is charged into a groove (12) formed by removing the upper clad and the core from the waveguide (4), or a groove (12) formed by removing the upper clad, the core and the lower clad from the waveguide (4). A difference in length of the removed portions between adjacent waveguides is proportional to a difference in length of the waveguides which were not removed and remained.

Abstract translation: 在包括具有不同长度的多个波导的光波导电路中，具有包括不同于波导（4）的有效折射率的温度系数的符号的折射率的温度系数的材料（10）被充电 通过从波导（4）去除上包层和芯而形成的凹槽（12），或通过从波导（4）去除上包层，芯和下包层而形成的凹槽（12）。 相邻波导之间的去除部分的长度差异与未被去除和保留的波导的长度差成比例。

公开(公告)号：US06269210B1

公开(公告)日：2001-07-31

申请号：US09301597

申请日：1999-04-29

Applicant: Kenji Yagi ,  Tomotaka Murase ,  Keiko Shiraishi ,  Ken-ichi Muta ,  Yuichi Morishita ,  Takashi Yoshida ,  Masaru Kobayashi ,  Koichi Arishima ,  Shin Sumida

Inventor： Kenji Yagi ,  Tomotaka Murase ,  Keiko Shiraishi ,  Ken-ichi Muta ,  Yuichi Morishita ,  Takashi Yoshida ,  Masaru Kobayashi ,  Koichi Arishima ,  Shin Sumida

IPC: G02B644

CPC classification number: G02B6/4403 ,  G02B6/4404 ,  G02B6/443

Abstract: An optical fiber ribbon includes a plurality of optical fibers arranged in a row and an outer coating formed around the optical fibers. Each of the optical fibers has a core, a cladding, and a non-strippable thin coating made of synthetic resin with a Young's modulus of 50 kg/mm2 to 250 kg/mm2 at room temperature and coated around the cladding. The concentricity of the core to the diameter of the non-strippable thin coating is 1 &mgr;m or less.

Abstract translation: 光纤带包括排列成一列的多根光纤和形成在光纤周围的外涂层。 每个光纤具有芯，包层和在室温下具有50kg / mm 2至250kg / mm 2的杨氏模量的合成树脂制成的不可剥离的薄涂层，并涂覆在包层周围。 芯部与不可剥离的薄涂层的直径的同心度为1um或更小。

公开(公告)号：US4659215A

公开(公告)日：1987-04-21

申请号：US672886

申请日：1984-11-19

Applicant: Shin Sumida ,  Hisashi Murata ,  Yutaka Katsuyama

Inventor： Shin Sumida ,  Hisashi Murata ,  Yutaka Katsuyama

IPC: G01M11/08 ,  H04B10/08 ,  G01N21/84 ,  G01N21/59

CPC classification number: G01M11/088

Abstract: A test optical fiber is slightly bent to a restorable extent, and light is side-illuminated on the bent portion to couple an optical signal to the test fiber. The optical signal coupled to the fiber by this method, propagates through the optical fiber in both directions. If the bending point, which is the point of coupling, is provided near one end of the optical fiber, because the power of the optical signal output from the end is substantially one half of the power of an optical signal coupled at the bending point, the transmission loss of the optical fiber can be measured by comparing the optical power with the optical power of the signal reaching the other end of the fiber.

Abstract translation: 测试光纤稍微弯曲到可恢复的程度，并且在弯曲部分上侧面照明光，以将光信号耦合到测试光纤。 通过该方法耦合到光纤的光信号在两个方向上传播通过光纤。 如果作为耦合点的弯曲点设置在光纤的一端附近，由于从端部输出的光信号的功率大致是在弯曲点处耦合的光信号的功率的一半， 可以通过将光功率与到达光纤的另一端的信号的光功率进行比较来测量光纤的传输损耗。

公开(公告)号：US07090409B2

公开(公告)日：2006-08-15

申请号：US10413353

申请日：2003-04-14

Applicant: Masahiro Nakajima ,  Kouji Minami ,  Junji Taira ,  Shin Sumida ,  Ryo Nagase ,  Syuichi Yanagi

Inventor： Masahiro Nakajima ,  Kouji Minami ,  Junji Taira ,  Shin Sumida ,  Ryo Nagase ,  Syuichi Yanagi

IPC: G02B6/36

CPC classification number: G02B6/381 ,  G02B6/266 ,  G02B6/34

Abstract: An optical functioning component has a tubular housing with a front end side having substantially the same shape as that of a front end of a removable plug housing of an optical connector plug. A rear end side of the tubular housing has a shape configured for connection to the optical connector plug when the plug housing is removed from the optical connector plug. A ferrule is provided on the front end side of the tubular housing and has a mechanism capable of attenuating, cutting-off, reflecting or absorbing a specific wavelength of light. An optical connection sleeve is connected to an end of the ferrule. A frame supports the ferrule and the optical connection sleeve and is mounted in the tubular housing for undergoing axial movement therein by a preselected amount.

Abstract translation: 光学功能部件具有管状壳体，其前端侧具有与光学连接器插头的可移除插头壳体的前端基本相同的形状。 管状壳体的后端侧具有被配置为当从光学连接器插头移除插头壳体时连接到光学连接器插头的形状。 套管设置在管状壳体的前端侧，并且具有能够衰减，切断，反射或吸收特定波长的光的机构。 光连接套筒连接到套圈的一端。 框架支撑套圈和光学连接套筒，并且安装在管状壳体中，以预先选定的量在其中轴向移动。

公开(公告)号：US06985667B2

公开(公告)日：2006-01-10

申请号：US10100168

申请日：2002-03-19

Applicant: Koichi Arishima ,  Takashi Yoshida ,  Mamoru Hirayama ,  Shin Sumida

Inventor： Koichi Arishima ,  Takashi Yoshida ,  Mamoru Hirayama ,  Shin Sumida

IPC: G02B6/00 ,  G02B6/08 ,  G02B6/44

CPC classification number: G02B6/3608 ,  G02B6/4472

Abstract: This invention provides an optical fiber wiring board having excellent optical property, high reliability and high mounting property. This invention relates to an optical fiber component for connection having a substrate on which a plurality of optical fibers being wired, wherein a foam polymer layer is provided on a surface of the substrate wiring the optical fibers, or both on a surface of the substrate wiring the optical fibers and on a surface opposite to the surface of the substrate wiring the optical fibers, or so that whole of substrate is covered. The optical fiber component of the present invention may be further provided with a protective layer and may be filled with a filler. This invention provides also a manufacturing method of the optical fiber component for connection.

公开(公告)号：US06599027B2

公开(公告)日：2003-07-29

申请号：US10086593

申请日：2002-03-01

Applicant: Yukinori Miyake ,  Takumi Yoshida ,  Shin Sumida ,  Shuichi Yanagi

Inventor： Yukinori Miyake ,  Takumi Yoshida ,  Shin Sumida ,  Shuichi Yanagi

IPC: G02B636

CPC classification number: G02B6/3877 ,  G02B6/266 ,  G02B6/3869

Abstract: Disclosed is an optical connector component 31 comprising a ferrule 2 for receiving an end portion of a core optical fiber of a fiber optic cable, a flange 32 mounted on the peripheral of the ferrule 2, and a one-piece plug frame 33 for floatingly supporting the ferrule 2 having the flange 32 mounted thereon. The flange 32 and the plug frame 33 are provided with respective engagement portions 37, 50 that are mutually engaged. The flange 32 has such resiliency that it is reduced in diameter by a radial and inward force exerted through the engagement portions 37, 50 when the ferrule 2 is inserted into the plug frame 33 from one end thereof and the flange 32 is restored to the original condition present before the insertion when the engagement portions 37, 50 are mutually engaged.

公开(公告)号：US06565261B1

公开(公告)日：2003-05-20

申请号：US09510037

申请日：2000-02-22

Applicant: Takeshi Uchiyama ,  Tomohiro Shimada ,  Masahiro Nakajima ,  Shinichi Iwano ,  Shin Sumida

Inventor： Takeshi Uchiyama ,  Tomohiro Shimada ,  Masahiro Nakajima ,  Shinichi Iwano ,  Shin Sumida

IPC: G02B638

CPC classification number: G02B6/3889

Abstract: An optical fiber connector has a stop ring having an end portion having an outer periphery and an optical fiber cable having a strength member extending from an end thereof. An adhesive material is disposed over the end portions of the stop ring and the optical fiber cable so that at least a portion of the strength member of the optical fiber cable is embedded in the adhesive material. A heat-shrinkable tube has an inner surface and is disposed on the adhesive material so that the portion of the strength member is disposed between the inner surface of the heat-shrinkable tube and the outer periphery of the stop ring.

Abstract translation: 光纤连接器具有端部具有外周的止动环和具有从其端部延伸的强度构件的光纤电缆。 粘合材料设置在止动环和光纤电缆的端部之上，使得光纤电缆的强度构件的至少一部分嵌入粘合剂材料中。 热收缩管具有内表面并且设置在粘合剂材料上，使得强度部件的部分设置在热收缩管的内表面和止动环的外周之间。

公开(公告)号：US5473721A

公开(公告)日：1995-12-05

申请号：US227135

申请日：1994-04-13

Applicant: W. Michael Myers ,  Donnette E. Haney ,  Shin Sumida ,  Tadashi Miyashita

Inventor： W. Michael Myers ,  Donnette E. Haney ,  Shin Sumida ,  Tadashi Miyashita

IPC: G02B6/032 ,  G02B6/12 ,  G02B6/122 ,  G02B6/28 ,  G02B6/36 ,  G02B6/43 ,  G02B6/10

CPC classification number: G02B6/43 ,  G02B27/147 ,  G02B6/1221 ,  G02B6/2817 ,  G02B2006/0325 ,  G02B2006/12119 ,  G02B2006/1215 ,  G02B6/30 ,  G02B6/3652 ,  G02B6/3684

Abstract: This invention comprises an optical circuit for the coupling of multi-mode optical fibers to, from and between other fibers, sources, detectors, and other optical elements, and method of fabricating same. The optical circuits of this invention can have round waveguides to provide a better match with round fibers, resulting in higher efficiency, lower loss, and other improvements. A substrate having a relatively low index of refraction is either machined or molded such that semi-circular grooves are formed in substrate surfaces. When two such substrates are aligned and adhered together, tubular channels in a substrate result. The design and placement of these tubular channels can be such that any number of optical functions can be performed, including splitting, tapping, mixing, and coupling. The optical circuits of this invention are relatively easy to manufacture and inexpensive, and exhibit low propagation and coupling loss.

Abstract translation: 本发明包括用于将多模光纤耦合到其它光纤，光源，检测器和其它光学元件之间的光学电路及其制造方法。 本发明的光学电路可以具有圆形波导，以提供与圆形光纤更好的匹配，从而导致更高的效率，更低的损耗和其他改进。 具有相对低的折射率的基板被加工或模制，使得在基板表面中形成半圆形凹槽。 当两个这样的基板对准并粘合在一起时，导致基板中的管状通道。 这些管状通道的设计和放置可以使得可以执行任何数量的光学功能，包括分离，分接，混合和耦合。 本发明的光电路相对容易制造和便宜，并且表现出低的传播和耦合损耗。