NZ203158A

NZ203158A - Joining optical fibre ends:clamping in axial alignment and fusing

Info

Publication number: NZ203158A
Application number: NZ203158A
Authority: NZ
Inventors: R Biedka
Original assignee: Int Standard Electric Corp
Priority date: 1982-02-17
Filing date: 1983-02-02
Publication date: 1985-12-13
Also published as: DE3303202A1; GB2117916A; US4548630A; FR2521734B1; AU1132783A; GB2117916B; AU554822B2; FR2521734A1

Description

2031 ORIGINAL Priority Date(s): Complete Specification Filed: Class: Q >?l^/3l6/rtl^i<1, im'D&5?985'" Publication Date: ..... . n...........

P.O. Journal, No: NEW ZEALAND THE PATENTS ACT , 1953 COMPLETE SPECIFICATION "FIBRE FUSION SPLICING" WE, INTERNATIONAL STANDARD ELECTRIC CORPORATION, a Corporation of the State of Delaware, United States of America, of 320 Park Avenue, New York 22, New York, United St&tes of America, hereby declare the invention, for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement: 20315$ The present invention relates to a fibre fusion splicing apparatus for splicing the free ends of two resilient fibres, and to the method involved.

Optical dielectric fibres are becoming widely used for transmitting signals. The fibres, which are normally of a glass material, are very fine and it is conventional to join the two fibres end to end by fusion techniques. This requires very accurate alignment of the free ends of the two fibres to be joined and this has created some problems.

According to the present invention there is provided a method of joining the ends of two optical fibres, comprising clamping the fibres in a first clamping arrangement so that the ends to be joined are facing each other, and then clamping the fibres in a second clamping arrangement which precisely locates the ends on a common axis, and joining the ends together by fusing the ends, wherein the first clamping arrangement is constrained to move the fibre ends through a predetermined path from a first position of the fibre ends to a second position which is remote from the first position and at which the fibre ends are fused.

The second clamping arrangement is adjacent the free ends of the fibres such that the bared ends remain in accurate ..z.PATewoFrair - iTVT*H35Ea3 -9 SEP 1985 -HEtEltfED coaxial alignment with one another. Preferably there is a fine pitch adjusting screw to axially adjust at least one of the fibres so that they touch each other in the splicing process and are correctly positioned relative to fusion electrodes.

In preferred arrangement, the notch is provided by two members providing respective flat surfaces at an angle of 90° which provides a sharp longitudinal notch. The two members may comprise two common blocks mounted to one another, the blocks having machined faces. By utilizing two blocks to produce each member each of the faces may be machined right up to what, in the assembly member, provides the longitudinal' hotch so that a very accurate notch can be provided.

So that the two members can be exactly identical, they are preferably manufactured in one piece and then cut.

Preferably rubberised magnetic pads are used in the second clamping arrangement so no undue pressure is applied by the clamping members to the fibres.

A preferred embodiment of the invention will now be described by way of example only and with reference to the accompanying drawings in which Fig. 1 is a cross section through fibre splicing apparatus according to an embodyment of the invention7 Fig. la shows a perspective view of part of Fig. 1, and Fig. 2 is a plan view of the embodiment of Fig. 1. 20315 8 Referring to the Figures a pair of optical fibres 1 and 2 are arranged to have their ends almost touching, facing each other, in carrying arms 3 and 4 which are mounted for rotation about a common axis 5. They are linked by a rigid bar 6 which maintains the arms aligned with one another but allows small axial movement of the arms towards and away from each other.

Each arm carries a clamp 3a and 4a which clamps the fibres 1 and 2 by their respective secondary coatings or jackets la and 2a.

The arms are then swung up and over with the fibres until the bar 6 rests on the bar rest 7 (broken line) so that the fibre ends lie in a two-part V-groove 8 in the two-part fibre V-location block 9. This is shown on a larger scale in Fig. la and comprises first and second blocks 9a and 9b secured together and defining the V-grooves 8a and 8b. The blocks have a channel 10 accommodating first and second electrodes 11 and 12 for fusing the fibre ends together.

The blocks provide two portions 13a and 13b on either side of the channel 10, which provide the grooves 8a and 8b and also provide support for a pair of pivotally-mounted magnetic fibre clamping arms 14a and 14b. These arms pivot about axis 15.

The arms carry pads 16a and 16b of a rubberised magnetic material which are attracted to the metal surfaces of portions 13a and 13b around the V-grooves 8a and 8b and hold the fibres into the two-part V-groove.

When the fibres have been located in the two-part V-groove arms 14a and 14b are lowered so that the magnetic elastic pads gently hold the fibres in the grooves so that they are in precise axial alignment.

The apparatus further comprises fine pitch adjusting screws 17 and 18 which move the carrying arms 3 and 4 independently towards or away from the central plane A-A of the apparatus moving towards or away from each other and with respect to the fusing electrode tips. In this way the fibre ends can be arranged to just touch each other precisely at the tips of the electrodes.

A current is then passed through the electrode to heat the glass and fuse the ends together.

When the fused ends have cooled sufficiently the magnetic clamps are lifted away from the fibres and the carrying arms 3 and 4 are moving back to the open position shown in Fig. 2 which presents the spliced fibres ready for the application of a protective layer over the bared ends 1 and 2, such as two-part epoxy.

The electrodes 11 and 12 are supported in respective supports 11a and 12a fixed to a base plate 20 which is mounted in turn on any convenient base along with the electrical power supply (not shown). 2 0315 8 The V-grooves are designed in this embodiment for a 0.125 O/D - 0.50 core fibre, although it is possible to accommodate laser fibres. Preferably the V-grooves have a depth of just 0.50 so that the top surface of the fibre is in line with the plane of the inclined surface 8c (Fig. 1). The rubberised magnetic pads feel like a conventional pencil rubber, to give some of their compliance.

The blocks 9a, 9b are made of hardened steel.

Claims

203158 What we claim is:

1. A method of joining the ends of two optical fibres, comprising clamping the fibres in a first clamping arrangement so that the ends to be joined are facing each other, and then clamping the fibres in a second clamping arrangement which precisely locates the ends on a common axis, and joining the ends together by fusing the ends, wherein the first clamping arrangement is constrained to move the fibre ends through a predetermined path from a first position of the fibre ends to a second position which is remote from the first position and at which the fibre ends are fused.

2. An apparatus for joining the ends of two optical fibres comprising a first clamping arrangement for clamping the two re. fibres so that the ends to be joined ..aftd: facing each other, and a second clamping arrangement for clamping the ends of the fibres to precisely locate the ends on a common axis, fusion means for fusing the ends together, and means wherein said first clamping arrangement is constrained to move the fibre ends through a predetermined path from a first position of the fibre ends to a second position which is remote from the first position and at which the fibre ends are fused.

3. A method or apparatus as claimed in any one of the preceding claims, wherein the first clamping arrangement can move the fibres axially relative to each other.

4. A method or apparatus as claimed in any one of the pre- 203158 ceding claims, wherein the second clamping arrangement comprises a magnetic device to clamp the fibre ends.

5. A method or apparatus as claimed in any one of the preceding claims, wherein the second clamping arrangement comprises coaxial V-grooves in which the fibres are located.

6. A method or apparatus as claimed in claim 4, wherein the magnetic device comprises a pad of rubberised magnetic material which bears on a fibre end.

7. A method or apparatus for splicing optical fibres substantially as hereinbefore described with reference to the accompanying drawings. INTERNATIONAL STANDARD ELECTRIC CORPORATION P.M. Conrick Authorized Agent Pl/5/1466