Method and apparatus for removing a protective coating from an optical fiber and inhibiting damage to same
First Claim
1. A method for removing a protective coating from a glass optical fiber at ambient temperature and without exposure to a chemical softening agent, the glass optical fiber and the protective coating each having a hardness which are different from one another, the method comprising the steps of:
- providing a tool having a blade, at least a portion of the blade having a hardness sufficiently lower than that of the glass optical fiber to prevent damage to the glass optical fiber in the event of contact with the portion of the blade, and sufficiently higher than that of the protective coating such that the blade portion can penetrate the protective coating upon contact without undue deformation of the portion of the blade;
engaging a portion of the protective coating surrounding the glass optical fiber with the portion of the blade; and
applying sufficient pressure on the blade to force the blade into the protective coating, and in turn force the protective coating off a portion of the glass optical fiber;
wherein the portion of the blade is fabricated from a material that is either not susceptible to oxidation or is treated to resist oxidation, and is selected from a group consisting of commercially pure aluminum, a low-melting-point solder, or a commercially pure lead.
1 Assignment
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Accused Products
Abstract
A method for mechanically stripping the protective coating from a silica or glass optical fiber using a polymeric or soft metal blade having a hardness less than that of the glass optical fiber but greater than the protective coating. The blade is preferably selected from a group of polymeric materials, or alternately a soft metal, which is selected or treated so as to not detrimentally oxidize in conventional operating environments. For a silica-containing optical fiber, the blade has a hardness of less than approximately 125 on the Knoop hardness scale, and preferably less than approximately 60 on the Knoop hardness scale. A method of inhibiting damage to the exposed region of the silica-containing optical fiber comprises applying a substance that forms a protective layer to provide a barrier to particulates and moisture, and which does not inhibit subsequent processing of the optical fiber, selected from a group of silane-containing compounds.
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Citations
18 Claims
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1. A method for removing a protective coating from a glass optical fiber at ambient temperature and without exposure to a chemical softening agent, the glass optical fiber and the protective coating each having a hardness which are different from one another, the method comprising the steps of:
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providing a tool having a blade, at least a portion of the blade having a hardness sufficiently lower than that of the glass optical fiber to prevent damage to the glass optical fiber in the event of contact with the portion of the blade, and sufficiently higher than that of the protective coating such that the blade portion can penetrate the protective coating upon contact without undue deformation of the portion of the blade;
engaging a portion of the protective coating surrounding the glass optical fiber with the portion of the blade; and
applying sufficient pressure on the blade to force the blade into the protective coating, and in turn force the protective coating off a portion of the glass optical fiber;
wherein the portion of the blade is fabricated from a material that is either not susceptible to oxidation or is treated to resist oxidation, and is selected from a group consisting of commercially pure aluminum, a low-melting-point solder, or a commercially pure lead. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
Applying a substance to the portion of the glass optical fiber, which is exposed to form a protective layer thereon.
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9. The method of claim 8 wherein the substance forms a self-assembled monolayer on the glass optical fiber.
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10. The method of claim 9 wherein the glass optical fiber is silica and the substance is selected from a group consisting of:
- a hydrocarbon silane, a fluorocarbon silane, an epoxy functional silane, an acrylete functional silane, an amnine functional silane, a thiol functional silane, or a phenyl functional silane.
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11. A method for removing a protective coating from a glass optical fiber at ambient temperature and without exposure to a chemical softening agent, the glass optical fiber and the protective coating each having a hardness which are different from one another, the method comprising the steps of:
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providing a tool having a blade, at least a portion of the blade having a hardness sufficiently lower than that of the glass optical fiber to prevent damage to the glass optical fiber in the event of contact with the portion of the blade, and sufficiently higher than that of the protective coating such that the blade portion can penetrate the protective coating upon contact without undue deformation of the portion of the blade, the portion of the blade being fabricated from a polymeric material or a soft metal;
engaging a portion of the protective coating surrounding the glass optical fiber with the portion of the blade; and
applying sufficient pressure on the blade to force the blade into the protective coating, and in turn force the protective coating off a portion of the glass optical fiber;
wherein a portion of the glass optical fiber is exposed when the protective coating is removed, and further comprising the step of;
providing on the tool a substance that is applied to the portion of the glass optical fiber, which is exposed to form a protective layer thereon. - View Dependent Claims (12, 13)
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14. A method of inhibiting damage to an exposed region of a glass optical fiber from which a protective coating has been stripped, the method comprising the step of:
applying a substance to at least the exposed region of the glass optical fiber to form a protective layer that provides a barrier to at least one of particulates and moisture, and which does not inhibit subsequent processing of the glass optical fiber. - View Dependent Claims (15, 16)
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17. An apparatus for removing a protective coating from a silica-containing optical fiber, the protective coating having a hardness, the apparatus comprising:
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a tool having a blade and a gripping portion, the tool being configured such that the blade engages the protective coating of the silica-containing optical fiber in a region from which the protective coating is to be removed, at least a portion of the blade having a hardness greater than that of the protective coating but less than approximately 125 on the Knoop hardness scale;
wherein the portion of the blade is fabricated from a material that is either not susceptible to oxidation or is treated to resist oxidation, and is selected from a group consisting of commercially pure aluminum, a low-melting-point solder, or a commercially pure lead.
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18. An apparatus for removing a protective coating from a silica-containing optical fiber, the protective coating having a hardness, the apparatus comprising:
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a tool having a blade and a gripping portion, the tool being configured such that the blade engages the protective coating of the silica-containing optical fiber in a region from which the protective coating is to be removed, at least a portion of the blade having a hardness greater than that of the protective coating but less than approximately 125 on the Knoop hardness scale;
wherein the protective coating is removed from the optical fiber to produce an exposed region, and a substance is applied to the exposed region, the apparatus further comprising;
a reservoir connected to the tool for receiving the substance, wherein the reservoir is configured to apply the substance to the exposed region of the silica-containing optical fiber as the protective coating is removed to form a protective layer on the exposed region of the silica-containing optical fiber.
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Specification