Method of splicing optical fibers with arc imagining and recentering
First Claim
1. A method of splicing two optical fibers, a left fiber and a right fiber, to each other, the method comprising:
- placing the two optical fibers having their end regions aligned with each other and their end surfaces at or in close contact with each other,initiating supply of electric voltage to electrodes to produce an electric arc between points of the electrodes, the electric arc heating regions of the two optical fibers at the end surfaces thereof,capturing at least one image of the heated regions of the two optical fibers and of a region surrounding the heated regions,evaluating said at least one captured image to determine a position of highest light intensity in said at least one captured image and taking the determined position to represent the position of the center of the electric arc,moving the two optical fibers in relation to the electrodes in accordance with the determined position so that, if said at least one captured image would have been captured after moving the two optical fibers, the determined position would be centered in areas depicting the end surfaces in said at least one captured image, hence the center of the electric arc being placed substantially centered in the end surfaces after moving the two optical fibers,continuing to supply electric voltage to the electrodes to fusion material of the two optical fibers at the end surfaces together to give a splice, andstopping supplying electric voltage to the electrodes and allowing the heated regions to cool.
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Accused Products
Abstract
In splicing two optical fibers to each other using an electric arc formed between electrodes images of the regions being heated and thereby fusioned to each other are taken. The images cover a rectangular field (43) having the fibers located centrally, along a center line of the field and parallel to the long sides of the field. The images are evaluated to determine a value of the position of the center of the electric arc in relation to the position of the end surfaces of the fibers. This value can then be used for placing the end surfaces just at the arc center. In the image the image of the optical fibers can be excluded so that only light intensity from the air discharge of the electric arc is recorded in the captured images. The field (41) excluded can be a narrow strip of uniform width located symmetrically around the image of the fibers. Using such a repositioning of the end surfaces of the fibers results in splices which are substantially equal to each other and thus a well repeatable splicing process is obtained.
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Citations
23 Claims
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1. A method of splicing two optical fibers, a left fiber and a right fiber, to each other, the method comprising:
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placing the two optical fibers having their end regions aligned with each other and their end surfaces at or in close contact with each other, initiating supply of electric voltage to electrodes to produce an electric arc between points of the electrodes, the electric arc heating regions of the two optical fibers at the end surfaces thereof, capturing at least one image of the heated regions of the two optical fibers and of a region surrounding the heated regions, evaluating said at least one captured image to determine a position of highest light intensity in said at least one captured image and taking the determined position to represent the position of the center of the electric arc, moving the two optical fibers in relation to the electrodes in accordance with the determined position so that, if said at least one captured image would have been captured after moving the two optical fibers, the determined position would be centered in areas depicting the end surfaces in said at least one captured image, hence the center of the electric arc being placed substantially centered in the end surfaces after moving the two optical fibers, continuing to supply electric voltage to the electrodes to fusion material of the two optical fibers at the end surfaces together to give a splice, and stopping supplying electric voltage to the electrodes and allowing the heated regions to cool. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method of splicing optical fibers to each other, the method comprising the steps of:
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placing two optical fibers having their end regions aligned with each other and their end surfaces at or in close contact with each other at a first position along a z-axis extending in parallel with the axis of the end regions, thereafter supplying electric voltage to electrodes to produce an electric arc between points of the electrodes, the electric arc heating regions of the two optical fibers at the end surfaces thereof to fusion material of the two optical fibers at the end surfaces together to give a splice, and then stopping the supplying of electric voltage to the electrodes and allowing the heated regions to cool, during the supplying of electric voltage to the electrodes, capturing at least one image of the heated regions of the two optical fibers and of a region surrounding the heated regions, thereafter evaluating said at least one captured image to determine a position of highest light intensity along the z-axis in said at least one captured image, taking the determined position to represent the position of the center of the electric arc, modifying said first position in accordance with the determined position, and thereafter repeating the above steps for two other optical fibers, placing their end surfaces at the modified first position along the z-axis. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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Specification