GB2068141A - Jointing optical fibres - Google Patents

Abstract

A method of effecting a joint between two optical fibres comprises positioning two cylindrical rods with their longitudinal axes substantially parallel on a support device of such a form that the cylindrical rods are constrained to lie in tangential contact with one another to define between them an interstitial space, the two rods and the support device forming a sub-assembly; aligning two optical fibres in the interstitial space defined by the two rods so that the end faces of the optical fibers substantially abut; positioning an elongate holding member over the ends of the optical fibres aligned in the interstitial space to cover the interstitial space over at least a part of its length; and applying over the elongate holding member at least one resilient spring clip which so engages the sub-assembly that the elongate holding member is urged towards the two rods to secure the optical fibres with their end faces substantially abutting in the interstitial space between the two rods. <IMAGE>

Description

SPECIFICATION An improved method of jointing optical fibres This invention relates to a method of effecting a joint between two optical fibres, one or each of which may be an element of an optical cable, and to an optical fibre joint.

By the expression "optical fibre" is meant a fibre of glass or other transparent material that is suitable for the transmission of the ultra-voilet, visible and infra-red regions of the electromagnetic spectrum, which regions, for convenience, will hereinafter be included in the generic term "light".

According to the invention the method comprises positioning two cylindrical rods with their longitudinal axes substantially parallel on a support device of such a form that the cylindrical rods are constrained to lie in tangential contact with one another to define between them an interstitial space, the two rods and the support device forming a subassembly; aligning two optical fibres in the interstitial space defined by the two rods so that the end faces of the optical fibres substantially abut; positioning an elongate holding member over the ends of the optical fibres aligned in the interstitial space to cover the interstitial space over at least a part of its length; and applying over the elongate holding member at least one resilient spring clip which so engages the subassembly that the elongate holding member is urged towards the two rods to secure the optical fibres with their end faces substantially abutting in the interstitial space between the two rods.

Preferably, before the optical fibres are introduced into the interstitial space, an index matching liquid or resin is applied to an end part of one or each optical fibre and/or is introduced into the interstitial space in the region where the end faces of the optical fibres are substantially to abut, thereby to improve the light coupling efficiency between the two optical fibres.

The or each resilient spring clip preferably engages the support device of sub-assembly.

Alternatively the or each resilient spring clip engages the two rods of the sub-assembly or the two rods and the support device.

Preferably, an elongate outer cover is applied over the joint and may be clipped or fastened to the assembled joint and/or to an underiying support for the support device.

The invention also includes an optical fibre joint comprising a sub-assembly comprising a support device and two cylindrical rods carried by the support device and constrained to lie in tangential contact with one another with their longitudinal axes substantially parallel, the two cylindrical rods defining between them an interstitial space; two optical fibres aligned in the interstitial space with their end faces substantially abutting; an elongate holding member positioned over the ends of the optical fibres and covering the interstitial space over at least a part of its length; and at least one resilient spring clip applied over the elongate holding member and engaging the sub-assembly to urge the elcngate holding member towards the two rods so that the optical fibres are secured with their end faces substantially abutting in the interstitial space between the two rods.

Preferably, the two cylindrical rods are of substantially the same cross-sectional shape and size. The elongate holding member is preferably also a cylindrical rod which may or may not be of the same cross-sectional shape and size as one or both of the two cylindrical rods. The two cylindrical rods of the subassembly and the elongate holding member are preferably of a material or materials having a low co-efficient of thermal expansion, for example, stainless steel or a ferrous-nickel alloy such as that sold under the trade name "Invar" Registered Trade Mark.

In some circumstance the holding member may be made of a clear acrylic resin or other suitable transparent material so that visual inspection of the joint can be made after the joint is assembled.

Each optical fibre is preferably surrounded by a sheath, with the ends of the optical fibres bared to facilitate jointing. Preferably, each optical fibre is a loose fit in its sheath. Where the support device of the sub-assembly is of elongate form, it preferably has integral with and spaced from each of its ends, a ferrule or other means by which the sheath of each optical fibre can be secured. The longitudinal axes of the ferrules and the longitudinal axis of the interstitial.space defined by the two cylindrical rods of the sub-assembly preferably lie in the same plane. All the longitudinal axes may lie in a straight line, but preferably the longitudinal axes of the ferrules lie at an acute angle to the longitudinal axis of the interstitial space.

The other means by which the sheath of an optical fibre can be secured may be at least one resilient spring clip which is applied over the sheath and engages an integral part of the support device.

Preferably, the support device of the subassembly is an elongate member of channelshaped cross-section made from a metal or metal alloy preform, for example, phosphor bronze.

The or each resilient spring clip is preferably made from beryllium copper or from brass.

The invention further includes a kit of parts for assembling an optical fibre joint as hereinbefore described.

The invention is further illustrated by a description, by way of example, with reference to the accompanying drawings in which Figures 1 to 5 illustrate one method in accordance with the invention of effecting a joint between two optical fibres.

Referring to the drawings, initially a subassembly of two cylindrical rods 1 (Figure 1) of similar cross-section and a support device in the form of an elongate member of channel shaped cross-section 2 which is made from phosphor bronze material is formed by positioning the rods in the central section of the channel shaped member such that the rods are constrained to lie in tangential contact with one another to form between them an interstitial space 9. Sheaths 3, 4 (Figure 2) which loosely surround two optical fibres 5, 6 are crimped in two ferrules 7, 8 constituting integral parts of the channel-shaped member 2. The longitudinal axes of the ferrules 7, 8 lie in the same plane as, and in a straight line with, the longitudinal axis of the interstitial space 9.

The optical fibres 5, 6 which are of similar cross-section are then placed in the interstitial space 9 so that the ends of the optical fibres abut. An elongate holding member in the form of a third cylindrical rod 10 (Figure 3) is then positioned over the optical fibres 5, 6.

The cylindrical rod 10 has a larger crosssection than the two cylindrical rods 1 and is made from clear acrylic resin The cylindrical rod 10 is urged towards the two rods by a resilient spring clip 11 (Figure 4), made from beryllium copper, which is applied over the rod 10 and engages the channel-shaped member 2 to secure the optical fibres 3, 4 with their end faces abutting in the interstitial space 9.

The spring clip has a window 1 2 allowing for visual inspection of the joint.

An outer cover 1 3 (Figure 5) is then clipped around the joint and fastened by tabs 14 to a support member 14.

The invention is not restricted to the joint as 'hereinbefore described with reference to the drawings. For example, the support device could be part of a base plate of a larger connecting block, the resilient spring clip clamping the holding member in position and engaging the sides of the connecting block.

As a further alternative the support device could be so shaped that the or each resilient spring clip engages the two cylindrical rods, or both the rods and the support device.

Claims (14)

1. A method of effecting a joint between two optical fibres comprising positioning two cylindrical rods with their longitudinal axes substantially parallel on a support device of such a form that the cylindrical rods are constrained to lie in tangential contact with one another to define between them an inter stitial space, the two rods and the support device forming a sub-assembly; aligning two optical fibres in the interstitial space defined by the two rods so that the end faces of the optical fibres substantially abut; positioning an elongate holding member over the ends of the optical fibres aligned in the interstitial space to cover the interstitial space over at least a part of its length; and applying over the elongate holding member at least one resilient spring clip which so engages the sub-assembly that the elongate holding member is urged towards the two rods to secure the optical fibres with their end faces substantially abutting in the interstitial space between the two rods.

2. A method as claimed Claim 1, wherein before the optical fibres are introduced into the interstitial space, an index matching liquid or resin is applied to an end part of one or each optical fibre and/or is introduced into the interstitial space in the region where the end faces of the optical fibres are substantially to abut, thereby to improve the light coupling efficiency between the two optical fibres.

3. A method as claimed in Claim 1 or 2, wherein the or each resilient spring clip engages the support device of the sub-assembly.

4. A method as claimed in Claim 1 or 2, wherein the or each resilient spring clip engages the two rods of the sub-assembly.

5. A method as claimed in any one of the preceding Claims, wherein an elongate outer cover is applied over the joint.

6. An optical fibre joint comprising a subassembly comprising a support device and two cylindrical rods carried by the support device and constrained to lie in tangential contact with one another with their longitudinal axes substantially parallel, the two cylindrical rods defining between them an interstitial space; two optical fibres aligned in the interstitial space with their end faces substantially abutting; an elongate holding member positioned over the ends of the optical fibres and covering the interstitial space over at least a part of its length; and at least one resilient spring clip applied over the elongate holding member and engaging the sub-assembly to urge the elongate holding member towards the two rods so that the optical fibres are secured with their end faces substantially abutting in the interstitial space between the two rods.

7. A joint as claimed in Claim 6, wherein the two cylindrical rods of the sub-assembly are of substantially the same cross-sectional shape and size.

8. A joint as claimed in Claim 6 or 7, wherein the elongate holding member is also a cylindrical rod.

9. A joint as claimed in any one of Claims 6 to 8, wherein each of the two cylindrical rods of the sub-assembly and the elongate holding member are of a material having a low co-efficient of thermal expansion.

10. A joint as claimed in any one of Claims 6 to 9, wherein each optical fibre is surrounded by a sheath with the ends of the optical fibres bared to facilitate jointing.

11. A joint as claimed in Claim 10, wherein each optical fibre is a loose fit in its sheath.

12. A joint as claimed in Claim 10 or 11, wherein the support device of the sub-assembly is of elongate form and has integral with and spaced from each of its ends, a ferrule or other means by which the sheath of each optical fibre can be secured.

1 3. A joint as claimed in Claim 12, wherein the longitudinal axes of the ferrules and the longitudinal axis of the interstitial space defined by the two cylindrical rods of the sub-assembly lie in the same plane.

14. A joint as claimed in Claim 13, wherein the longitudinal axes of the ferrules lie at an acute angle to the longitudinal axis of the interstitial space.

1 5. A joint as claimed in any one of Claims 6 to 14, wherein the support device of the sub-assembly is an elongate member of channel-shaped cross-section made from a metal or metal alloy preform.

1 6. A joint as claimed in any one of Claims 6 to 15, wherein an index matching liquid or resin is positioned between the substantially abutting end faces of the optical fibres to improve the light coupling efficiency between the two optical fibres.

1 7. A kit of parts for assembling an optical fibre joint as claimed in any one of Claims 6 to 16.