Optical fiber splice protection apparatus for use in optical fiber hydrophone array
First Claim
1. An optical fiber splice protection apparatus for use in an optical fiber hydrophone assembly, the hydrophone assembly having a longitudinal axis and comprising a plurality of mandrels having cylindrical walls that are helically wrapped with optical fiber and connected in linear relation, the hydrophone assembly being in a module filled with module fill fluid, the fiber splice comprising two loose fiber ends spliced and disposed within a fusion splice sleeve, the fiber splice protection apparatus comprising:
- a splice protector affixed to a mandrel, the splice protector having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a cavity adapted to receive the fusion splice sleeve; and
a rotation sleeve for winding excess fiber onto the mandrel, the rotation sleeve mounted on the mandrel between the splice protector and an adjacent mandrel, the rotation sleeve having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a groove to receive the fiber and maintain the fiber'"'"'s minimum bend radius, wherein the cavity and the groove each comprise a recessed area defined by two opposing shoulders.
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Accused Products
Abstract
An optical fiber splice protection apparatus that allows optical fiber to be spliced and placed in position on a mandrel in cases of assembling a module or repairing optical fiber that has been broken. The present invention comprises a splice protector affixed to a mandrel and a rotation sleeve for winding excess fiber onto the mandrel. The rotation sleeve is located between the splice protector and an adjacent mandrel. The rotation sleeve facilitates winding excess fiber onto the mandrel, and has a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly with a groove to receive the fiber and maintain the fiber'"'"'s minimum bend radius. The splice protector and the rotation sleeve are substantially semi-circular in cross-section. A method is also provided for protecting spliced optical fibers using a splice protector and rotation sleeve.
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Citations
18 Claims
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1. An optical fiber splice protection apparatus for use in an optical fiber hydrophone assembly, the hydrophone assembly having a longitudinal axis and comprising a plurality of mandrels having cylindrical walls that are helically wrapped with optical fiber and connected in linear relation, the hydrophone assembly being in a module filled with module fill fluid, the fiber splice comprising two loose fiber ends spliced and disposed within a fusion splice sleeve, the fiber splice protection apparatus comprising:
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a splice protector affixed to a mandrel, the splice protector having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a cavity adapted to receive the fusion splice sleeve; and
a rotation sleeve for winding excess fiber onto the mandrel, the rotation sleeve mounted on the mandrel between the splice protector and an adjacent mandrel, the rotation sleeve having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a groove to receive the fiber and maintain the fiber'"'"'s minimum bend radius, wherein the cavity and the groove each comprise a recessed area defined by two opposing shoulders. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An optical fiber splice protection assembly for use in an optical fiber hydrophone assembly, the hydrophone assembly having a longitudinal axis and comprising a plurality of mandrels helically wrapped with optical fiber and connected in linear relation, the hydrophone assembly being in a module filled with module fill fluid, the fiber splice protection assembly comprising:
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a mandrel having cylindrical walls;
two optical fiber ends spliced together and a length of loose excess optical fiber between the splice and in situ optical fiber at each end of adjacent mandrels;
a fusion splice sleeve installed around the spliced portion of the optical fiber ends;
a splice protector affixed to the mandrel, the splice protector having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a cavity adapted to receive the fusion splice sleeve; and
a rotation sleeve for winding excess fiber onto the mandrel, the rotation sleeve mounted on the mandrel between the splice protector and an adjacent mandrel, the rotation sleeve having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a groove to receive the fiber and maintain the fiber'"'"'s minimum bend radius, wherein the cavity and the groove each comprise a recessed area defined by two opposing shoulders. - View Dependent Claims (11, 12, 13, 14, 15)
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16. An optical fiber hydrophone assembly having a longitudinal axis and comprising:
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a plurality of mandrels having cylindrical walls and helically wrapped with optical fiber and connected in linear relation, the hydrophone assembly being in a module filled with module fill fluid;
two optical fiber ends spliced together and a length of loose excess optical fiber between the splice and in situ optical fiber at each end of adjacent mandrels;
a fusion splice sleeve installed around the spliced portion of the optical fiber ends;
a splice protector affixed to a mandrel proximate to the fusion splice sleeve, the splice protector having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a cavity adapted to receive the fusion splice sleeve; and
a rotation sleeve for winding excess fiber onto the mandrel, the rotation sleeve mounted on the mandrel between the splice protector and an adjacent mandrel, the rotation sleeve having a longitudinal axis aligned with the longitudinal axis of the hydrophone assembly and a groove to receive the fiber and maintain the fiber'"'"'s minimum bend radius, wherein the cavity and the groove each comprise a recessed area defined by two opposing shoulders.
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17. A method for protecting spliced optical fibers for use in an optical fiber hydrophone assembly, the hydrophone assembly having a longitudinal axis and comprising a plurality of mandrels helically wrapped with optical fiber and connected in linear relation, the hydrophone assembly being in a module filled with module fill fluid, the optical fibers comprising two free ends and a length of loose excess optical fiber between the free ends and in situ optical fiber at each end of adjacent mandrels, the method comprising:
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installing a fusion splice sleeve over one of the free optical fiber ends;
fusion splicing the fibers;
placing and securing the fusion splice sleeve over the splice;
bonding a splice protector to the mandrel, the splice protector having a longitudinal axis aligned with the longitudinal axis of the hydrophone mandrel and a cavity adapted to receive the fusion splice sleeve;
placing the spliced fiber in at least one rotation sleeve to one side of the splice protector;
rotating the rotation sleeve to wind excess fiber around the mandrel, the rotation sleeve having a groove to receive the fiber and maintain the fiber'"'"'s minimum bend radius, the groove aligned with the longitudinal axis of the hydrophone mandrel and adapted to receive the fiber that passes therethrough; and
bonding the rotation sleeve to the mandrel;
wherein the cavity and the groove each comprise a recessed area defined by two opposing shoulders. - View Dependent Claims (18)
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Specification