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公开(公告)号:US5949928A
公开(公告)日:1999-09-07
申请号:US976177
申请日:1997-11-21
CPC分类号: G02B6/12007 , G02B6/29368
摘要: An optical filter is provided to be on a side of the output ports relative to a branch port of the first stage in an optical branch apparatus. The optical filter transmits a signal light and reflects a monitor light, so that signal lights are obtained at output ports, and the monitor light is returned to an optical transmitter to detect an abnormal state of an optical fiber transmission line.
摘要翻译: 在光分支装置中,相对于第一级的分支端口设置在输出端口的一侧。 滤光器发射信号光并反射监视光,从而在输出端口获得信号灯,并将监视光返回到光发射机,以检测光纤传输线的异常状态。
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2.发明申请公开(公告)号:US20120073330A1
公开(公告)日:2012-03-29
申请号:US13245386
申请日:2011-09-26
CPC分类号: G02B6/25 , G02B6/02366 , G02B6/02376
摘要: An optical fiber end processing method includes the steps of: an optical fiber fixing step of fixing two parts of the optical fiber; a first heating step of heating a tip end side part of the optical fiber between two fixed parts fixed in the optical fiber fixing step, and melting the optical fiber of the tip end side heating part; a second heating step of heating a part on a base end side of the optical fiber between the fixed parts away from the tip end side heating part in a state that two parts of the optical fiber are fixed, and making the holes of the optical fiber disappear; and a removing step of removing the tip end side heating part after the second heating step.
摘要翻译: 光纤端部处理方法包括以下步骤:固定光纤的两部分的光纤固定步骤; 第一加热步骤,在固定在光纤固定步骤中的两个固定部件之间加热光纤的前端侧部分,并熔化前端侧加热部件的光纤; 第二加热步骤,在光纤的两个部分被固定的状态下,将远离前端侧加热部的固定部分之间的光纤的基端侧的部分加热,并且使光纤的孔 消失; 以及在第二加热步骤之后去除前端侧加热部的去除步骤。
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3.发明授权Optical fiber end processing method and optical fiber end processing apparatus and optical fiber end 有权光纤末端加工方法和光纤末端加工装置及光纤端公开(公告)号:US08764317B2
公开(公告)日:2014-07-01
申请号:US13326225
申请日:2011-12-14
申请人: Masao Tachikura , Noribumi Shiina , Tatsuo Teraoka , Yoshiyuki Hiramoto , Mitsumasa Zobuchi , Fumi Miyata
发明人: Masao Tachikura , Noribumi Shiina , Tatsuo Teraoka , Yoshiyuki Hiramoto , Mitsumasa Zobuchi , Fumi Miyata
CPC分类号: G02B6/2551 , G02B6/02295
摘要: An optical fiber end processing method includes fixing two portions of an optical fiber, heating and fusing the optical fiber between the two fixed portions, to form a first heat fusion region, heating and fusing the optical fiber fixed between the two fixed portions unit while fixing the two fixed portions, moving a heat fusion unit from a side of the first heat fusion region toward a base end side of the optical fiber, and pushing a heat fusion portion of the optical fiber in a direction of shortening a length of the heat fusion portion, to form a second heat fusion region continuous to the first heat fusion region and in which the air holes of the optical fiber disappear; and removing the first heat fusion region by cutting the optical fiber within the second heat fusion region after the second heat fusion forming.
摘要翻译: 一种光纤端部处理方法,包括固定光纤的两部分,在两个固定部分之间加热和熔合光纤,形成第一热熔融区域,固定在固定在两个固定部分单元之间的光纤固定 两个固定部分,将热熔融单元从第一热熔融区域的侧面朝向光纤的基端侧移动,并且沿着缩短热熔合长度的方向推动光纤的热熔接部分 形成与第一热熔融区域连续的第二热熔融区域,并且其中光纤的气孔消失; 以及在所述第二热熔融成形之后通过切割所述第二热熔融区域内的光纤来去除所述第一热熔融区域。
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公开(公告)号:US5142763A
公开(公告)日:1992-09-01
申请号:US672966
申请日:1991-03-31
申请人: Shigeo Toya , Yoshiyuki Hiramoto , Koji Sasaki , Koichi Abe , Tatsuo Teraoka , Hirokazu Shiga , Yasunori Yoshie
发明人: Shigeo Toya , Yoshiyuki Hiramoto , Koji Sasaki , Koichi Abe , Tatsuo Teraoka , Hirokazu Shiga , Yasunori Yoshie
CPC分类号: G02B6/2558 , G02B6/443 , G02B6/4439 , Y10T29/49194 , Y10T29/49195 , Y10T29/49929
摘要: Metal pipes containing optical fibers are connected to each other directly or indirectly by use of a sleeve. In case of using the sleeve, the sleeve is connected at one end to one of the metal pipes, after the optical fibers are connected. Then, the sleeve is elongated by a predetermined length, so that the sleeve is connected at the other end to the other metal pipe. Consequently, no tensile stress resides in the connected optical fibers in the connected structure. When the metal pipes are connected directly to each other, one or both of the metal pipes are elongated, after the optical fibers are connected. Then, the metal pipes are connected by use of the elongated portions. Consequently, the same result is obtained as using the sleeve.
摘要翻译: 含有光纤的金属管道通过套筒直接或间接地相互连接。 在使用套筒的情况下,在光纤连接后,套筒的一端连接到金属管之一。 然后,套筒伸长预定长度,使得套筒在另一端与另一个金属管连接。 因此,在连接的结构中连接的光纤中没有拉伸应力。 当金属管彼此直接连接时,在光纤连接之后,一个或两个金属管是细长的。 然后,使用细长部分连接金属管。 因此,与使用套筒相同的结果。
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5.发明授权公开(公告)号:US08915100B2
公开(公告)日:2014-12-23
申请号:US13245386
申请日:2011-09-26
CPC分类号: G02B6/25 , G02B6/02366 , G02B6/02376
摘要: An optical fiber end processing method includes the steps of: an optical fiber fixing step of fixing two parts of the optical fiber; a first heating step of heating a tip end side part of the optical fiber between two fixed parts fixed in the optical fiber fixing step, and melting the optical fiber of the tip end side heating part; a second heating step of heating a part on a base end side of the optical fiber between the fixed parts away from the tip end side heating part in a state that two parts of the optical fiber are fixed, and making the holes of the optical fiber disappear; and a removing step of removing the tip end side heating part after the second heating step.
摘要翻译: 光纤端部处理方法包括以下步骤:固定光纤的两部分的光纤固定步骤; 第一加热步骤,在固定在光纤固定步骤中的两个固定部件之间加热光纤的前端侧部分,并熔化前端侧加热部件的光纤; 第二加热步骤,在光纤的两个部分被固定的状态下,将远离前端侧加热部的固定部分之间的光纤的基端侧的部分加热,并且使光纤的孔 消失; 以及在第二加热步骤之后去除前端侧加热部的去除步骤。
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6.发明申请OPTICAL FIBER END PROCESSING METHOD AND OPTICAL FIBER END PROCESSING APPARATUS AND OPTICAL FIBER END 有权光纤端部加工方法和光纤端部加工设备和光纤端公开(公告)号:US20120170901A1
公开(公告)日:2012-07-05
申请号:US13326225
申请日:2011-12-14
申请人: Masao Tachikura , Noribumi Shiina , Tatsuo Teraoka , Yoshiyuki Hiramoto , Mitsumasa Zobuchi , Fumi Miyata
发明人: Masao Tachikura , Noribumi Shiina , Tatsuo Teraoka , Yoshiyuki Hiramoto , Mitsumasa Zobuchi , Fumi Miyata
CPC分类号: G02B6/2551 , G02B6/02295
摘要: An optical fiber end processing method includes fixing two portions of an optical fiber, heating and fusing the optical fiber between the two fixed portions, to form a first heat fusion region, heating and fusing the optical fiber fixed between the two fixed portions unit while fixing the two fixed portions, moving a heat fusion unit from a side of the first heat fusion region toward a base end side of the optical fiber, and pushing a heat fusion portion of the optical fiber in a direction of shortening a length of the heat fusion portion, to form a second heat fusion region continuous to the first heat fusion region and in which the air holes of the optical fiber disappear; and removing the first heat fusion region by cutting the optical fiber within the second heat fusion region after the second heat fusion forming.
摘要翻译: 一种光纤端部处理方法,包括固定光纤的两部分,在两个固定部分之间加热和熔合光纤,形成第一热熔融区域,固定在固定在两个固定部分单元之间的光纤固定 两个固定部分,将热熔融单元从第一热熔融区域的侧面朝向光纤的基端侧移动,并且沿着缩短热熔合长度的方向推动光纤的热熔接部分 形成与第一热熔融区域连续的第二热熔融区域,并且其中光纤的气孔消失; 以及在所述第二热熔融成形之后通过切割所述第二热熔融区域内的光纤来去除所述第一热熔融区域。
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7.发明授权Multi-axis fiber-optic gyroscope assembly in which each gyroscope comprises 1/3 of a specific shape 失效多轴光纤陀螺仪组件,其中每个陀螺仪包括特定形状的1/3
公开(公告)号:US5357339A
公开(公告)日:1994-10-18
申请号:US903418
申请日:1992-06-24
IPC分类号: G01C19/72
CPC分类号: G01C19/728
摘要: Each fiber-optic gyroscope unit is shaped like a tetragonal cone. A square plate (51) is used as a base which holds a light source module (52), a light receiving unit (detector) (53) and an optical fiber coil (54). Directional couplers (56a), (56b) are also mounted on the base (51). A phase modulator (55) which includes a piezoelectric element is disposed inside the optical fiber coil (54). A signal processing circuit board (58) which has pedestals (59) stands on the base (51) such that it positions above the optical fiber coil (54). A polarizer (510) is wound around the optical fiber coil (54). A reinforcement member (511) is also provided. All these components are so arranged as not to extend out of the tetragonal cone (OABCO*) which defines its own unit region. Three identical fiber-optic gyroscope units are combined by connecting members (512, 513, 514) to form a single fiber-optic gyroscope to detect rotational angular velocities about three orthogonal axes. Since identical units ( 50) are used, the assembly is easy, and since the three units (50) are combined with respect to the axis of symmetry, the combined units (50) form a compact gyroscope.
摘要翻译: 每个光纤陀螺仪单元的形状都像四方锥形。 使用方板(51)作为保持光源模块(52),光接收单元(检测器)(53)和光纤线圈(54)的基座。 方向耦合器(56a),(56b)也安装在基座(51)上。 包括压电元件的相位调制器(55)设置在光纤线圈(54)的内部。 具有底座(59)的基座(59)的信号处理电路板(58)位于光纤线圈(54)的上方。 偏振器(510)缠绕在光纤线圈(54)周围。 还提供加强构件(511)。 所有这些部件被布置为不延伸出限定其自身单位区域的四方圆锥(OABCO *)。 三个相同的光纤陀螺仪单元通过连接构件(512,513,514)组合以形成单个光纤陀螺仪,以检测围绕三个正交轴的旋转角速度。 由于使用相同的单元(50),因此组装是容易的,并且由于三个单元(50)相对于对称轴组合,组合单元(50)形成小型陀螺仪。
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8.发明授权Method of forming cladded cable having fiber with excess length enclosed therein 失效形成包含多余纤维的包覆电缆的方法
公开(公告)号:US5318215A
公开(公告)日:1994-06-07
申请号:US21334
申请日:1993-02-23
CPC分类号: G02B6/4484 , G02B6/4488
摘要: A method of manufacturing a metal pipe clad cable having a fiber with an excess length housed therein, comprises the steps of preparing a metal pipe clad cable comprising a metal pipe and a fiber housed in the metal pipe, and passing said metal pipe clad cable through a plurality of sets of bending rolls. The metal pipe is repeatedly bent when passing through the plural sets of said bending rolls so as to generate a plastic deformation within the metal pipe and, thus, to impart an excess length to the fiber within the metal pipe.
摘要翻译: 制造容纳有多余纤维的金属管包覆电缆的方法包括以下步骤:制备包含金属管和容纳在金属管中的纤维的金属管包层电缆,并使所述金属管包层电缆穿过 多组弯曲辊。 金属管在通过多组所述弯曲辊时反复弯曲,从而在金属管内产生塑性变形,从而使金属管内的纤维具有过长的长度。
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9.发明授权Connection structure of optical fibers sealed in metal pipes and method for connecting optical fibers sealed in metal pipes 失效金属管中密封的光纤连接结构和密封在金属管中的光纤连接方法
公开(公告)号:US5076657A
公开(公告)日:1991-12-31
申请号:US587952
申请日:1990-09-25
申请人: Shigeo Toya , Yoshiyuki Hiramoto , Koji Sasaki , Koichi Abe , Tatsuo Teraoka , Hirokazu Shiga , Yasunori Yoshie
发明人: Shigeo Toya , Yoshiyuki Hiramoto , Koji Sasaki , Koichi Abe , Tatsuo Teraoka , Hirokazu Shiga , Yasunori Yoshie
CPC分类号: G02B6/2558 , G02B6/443 , G02B6/4439
摘要: Metal pipes containing optical fibers are connected to each other directly or indirectly by use of a sleeve. In case of using the sleeve, the sleeve is connected at one end to one of the metal pipes, after the optical fibers are connected. Then, the sleeve is elongated by a predetermined length, so that the sleeve is connected at the other end to the other metal pipe. Consequently, no tensile stress resides in the connected optical fibers in the connected structure. When the metal pipes are connected directly to each other, one or both of the metal pipes are elongated, after the optical fibers are connected. Then, the metal pipes are connected by used of the elongated portions. Consequently, the same result is obtained as using the sleeve.
摘要翻译: 含有光纤的金属管道通过套筒直接或间接地相互连接。 在使用套筒的情况下,在光纤连接后,套筒的一端连接到金属管之一。 然后,套筒伸长预定长度,使得套筒在另一端与另一个金属管连接。 因此,在连接的结构中连接的光纤中没有拉伸应力。 当金属管彼此直接连接时,在光纤连接之后,一个或两个金属管是细长的。 然后,通过使用细长部分连接金属管。 因此,与使用套筒相同的结果。
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