Apparatus for injecting light through a buffer-coated optical fibre into the core thereof and its use in optical fibre splicing
First Claim
1. Apparatus for injecting light through a buffer coated optical fibre into the core thereof, which apparatus comprises a body which is made of a substantially rigid transparent material and which has at least three faces inclined relative to one another, said faces including a contact face which is of substantially arcuate shape and which is adapted to bear against a smoothly curved length of buffer coated optical fibre, an entry face through which light emitted by a light source can be injected into the body in a direction towards said contact face and a reflecting face which is of substantially planar form and which will reflect injected light in a direction towards said contact face, the inclinations of said faces relative to one another being such that at least a major proportion of light injected through the entry face into the body will be directed or reflected towards a part of the length of said smoothly curved contact face from where it will pass through the buffer coating and cladding of an optical fibre against which said body bears into the core of the optical fibre.
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Abstract
Apparatus for injecting light into the core of a buffer coated optical fibre, especially a buffer coated single mode optical fibre, suitable for use when monitoring fusion splicing of optical fibres comprises a body of perspex having at least three faces, an arcuate contact face adapted to bear against a smoothly curved length of buffer coated optical fibre, an entry face through which light emitted by a light source is injected into the body in a direction towards the contact face, and a reflecting face which reflects injected light in a direction towards the contact face. Light injected through the entry face is directed and reflected towards the smoothly curved contact face from where it will pass through the buffer coating and cladding of an optical fibre against which the body bears into the core of the optical fibre. The body is inexpensive and operates efficiently with an inexpensive light emitting source.
21 Citations
12 Claims
- 1. Apparatus for injecting light through a buffer coated optical fibre into the core thereof, which apparatus comprises a body which is made of a substantially rigid transparent material and which has at least three faces inclined relative to one another, said faces including a contact face which is of substantially arcuate shape and which is adapted to bear against a smoothly curved length of buffer coated optical fibre, an entry face through which light emitted by a light source can be injected into the body in a direction towards said contact face and a reflecting face which is of substantially planar form and which will reflect injected light in a direction towards said contact face, the inclinations of said faces relative to one another being such that at least a major proportion of light injected through the entry face into the body will be directed or reflected towards a part of the length of said smoothly curved contact face from where it will pass through the buffer coating and cladding of an optical fibre against which said body bears into the core of the optical fibre.
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10. A method of effecting local injection of light into a buffer coated optical fibre, which method comprises effecting a smooth curve in a part of the length of an optical fibre;
- placing into facial contact with the smoothly curved length of optical fibre a smoothly curved contact face of a body made of a substantially rigid transparent material so that the optical fibre and the smoothly curved contact face are in interfacial contact throughout the length of the smoothly curved contact face, which contact face is one of at least three faces of said body inclined relative to one another and including said contact face, an entry face through which light emitted by a light source can be injected into the body in a direction towards said contact face and a reflecting face which is of substantially planar form and which will reflect injected light in a direction towards said contact face; and
injecting light from a light source through the entry face of the substantially rigid body into the body where part of the light is reflected by said reflecting face towards said smoothly curved contact face from where at least a major portion of the light entering the substantially rigid body passes through the buffer coating and cladding of the optical fibre into the optical fibre core.
- placing into facial contact with the smoothly curved length of optical fibre a smoothly curved contact face of a body made of a substantially rigid transparent material so that the optical fibre and the smoothly curved contact face are in interfacial contact throughout the length of the smoothly curved contact face, which contact face is one of at least three faces of said body inclined relative to one another and including said contact face, an entry face through which light emitted by a light source can be injected into the body in a direction towards said contact face and a reflecting face which is of substantially planar form and which will reflect injected light in a direction towards said contact face; and
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11. A method of effecting a permanent end-to-end splice between two buffer coated optical fibres which comprises arranging the two optical fibres in approximately axial alignment with their neighbouring end faces substantially abutting;
- effecting a smooth curve in a part of the length of one of the buffer coated optical fibres adjacent to the proposed splice;
placing into facial contact with the smoothly curved length of optical fibre a smoothly curved contact face of a body made of a substantially rigid transparent material so that the optical fibre and the smoothly curved contact face are in interfacial contact throughout the length of the smoothly curved contact face, which contact face is one of at least three faces of said body inclined relative to one another and including said contact face, an entry face through which light emitted by a light source can be injected into the body in a direction towards said contact face and a reflecting face which is of substantially planar form and which will reflect injected light in a direction towards said contact face;
injecting light from a light source through the entry face of the substantially rigid body ingto the body where part of the light is reflected by said reflecting face towards said smoothly curved contact face from where at least a major proportion of the light entering the substantially rigid body passes through the buffer coating and cladding of the optical fibre into the optical fibre core;
continuously monitoring light emerging from a smoothly curved length of the other buffer coated optical fibre at a position adjacent the proposed splice;
moving at least one of the optical fibres transversely with respect to the other until the light emerging from said other optical fibre is a maximum; and
permanently securing the abutting ends of the optical fibres together.
- effecting a smooth curve in a part of the length of one of the buffer coated optical fibres adjacent to the proposed splice;
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12. A method of effecting a permanent end-to-end splice between two buffer coated optical fibres which comprises arranging the two optical fibres in approximately axial alignment and with their neighbouring end faces substantially abutting;
- effecting a smooth curve in a part of the length of one of the buffer coated optical fibres adjacent to the proposed splice;
placing into facial contact with the smoothly curved length of optical fibre a smoothly curved contact face of a body made of a substantially rigid transparent material so that the optical fibre and the smoothly curved contact face are in interfacial contact throughout the length of the smoothly curved contact face, which contact face is one of at least three faces of said body inclined relative to one another and including said contact face, an entry face through which light emitted by a light source can be injected into the body in a direction towards said contact face and a reflecting face which is of substantially planar form and which will reflect injected light in a direction towards said contact face;
injecting light from a light source through the entry face of the substantially rigid body into the body where part of the light is reflected by said reflecting face towards said smoothly curved contact face from where at least a major proportion of the light entering the substantially rigid body passes through the buffer coating and cladding of the optical fibre into the optical fibre core;
continuously monitoring light passing into the cladding of the other optical fibre at the substantially abutting ends of the optical fibres;
moving at least one of the optical fibres transversely with respect to the other until said monitored light is a minimum; and
permanently securing the abutting ends of the optical fibres together.
- effecting a smooth curve in a part of the length of one of the buffer coated optical fibres adjacent to the proposed splice;
Specification
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- Resources
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Current AssigneeBICC Public Limited Company
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Original AssigneeBICC Public Limited Company
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InventorsSaha, Sanjiv
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Primary Examiner(s)LaRoche, Eugene R.
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Assistant Examiner(s)Lee, James C.
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Application NumberUS06/760,681Time in Patent Office791 DaysField of Search350/96.15, 350/96.21, 250/227, 356/73.1US Class Current385/32CPC Class CodesG01M 11/35 in which light is transvers...G02B 6/3803 Adjustment or alignment dev...G02B 6/4259 of the transparent typeG02B 6/4286 Optical modules with optica...G02B 6/4289 by inducing bending, microb...Y10S 359/90 Methods
