Method of putting a bend into a fiber to make a strain sensor
First Claim
1. A method of manufacturing an optical fiber having transmission characteristics responsive to different strain states of the optical fiber for a fiber optical strain sensor, the method comprising the sequential steps of:
- providing an optical fiber having a substantially straight shape;
retaining the optical fiber at two retained regions with a free region between the two retained regions and with the optical fiber extending rectilinearly throughout the retained regions and the free region;
heating the optical fiber locally over only a first portion of the free region to make the first portion soft, non-heated second portions of the free region extending from the retained regions and connected to or surrounding the first region and all non-heated regions of the optical fiber having a rigidity or elasticity;
while locally heating the optical fiber, displacing the retained regions laterally relative to one another to make the non-heated second portions of the free region connected to or surrounding the soft first portion also be displaced laterally in a parallel way by the rigidity or elasticity of the non-heated regions to produce a bend of the optical fiber in the first portion; and
allowing the optical fiber to cool.
1 Assignment
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Accused Products
Abstract
An optical fiber (7) exhibits varying transmission characteristics in different strain states and can have an S-shaped microbend. For producing such a fiber it is heated locally in a small region, as viewed in the longitudinal direction of the fiber, and then the portions of the fiber (1) located at the two sides of the heated region are displaced in relation to each other in a transverse direction in relation to the longitudinal direction of the fiber. It can be performed in a conventional fusion-splicing apparatus for optical fibers. Alternatively, a laser can be used as a heating source, what is particularly suitable for processing optical fibers having longitudinal cavities in order to infer to it similar transmission characteristics. The optical fibers produced by this method are suited for use as sensors, e.g. strain gauges.
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Citations
10 Claims
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1. A method of manufacturing an optical fiber having transmission characteristics responsive to different strain states of the optical fiber for a fiber optical strain sensor, the method comprising the sequential steps of:
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providing an optical fiber having a substantially straight shape; retaining the optical fiber at two retained regions with a free region between the two retained regions and with the optical fiber extending rectilinearly throughout the retained regions and the free region; heating the optical fiber locally over only a first portion of the free region to make the first portion soft, non-heated second portions of the free region extending from the retained regions and connected to or surrounding the first region and all non-heated regions of the optical fiber having a rigidity or elasticity; while locally heating the optical fiber, displacing the retained regions laterally relative to one another to make the non-heated second portions of the free region connected to or surrounding the soft first portion also be displaced laterally in a parallel way by the rigidity or elasticity of the non-heated regions to produce a bend of the optical fiber in the first portion; and allowing the optical fiber to cool. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification