DE4230168C1 - Fixing element for optical-fibre using hardened adhesive - roughens insides surface of insertion opening for gripping fixing adhesive - Google Patents

Abstract

The fixing element (1) is at least partially of transparent material, with the inner bore surface for the optical fibre (9) being roughened, so that it is non-transparent. Pref., the fixing element (1) uses a glass capillary with a roughened inside surface (4). A conical opening at one end of the fixing element is provided to receive an adhesive (5), allowing the inserted optical fibre (9) to be held in place after UV hardening. USE/ADVANTAGE - Eg for passing fibre through wall eg of switch housing. Increases adhesion between fixing adhesive and inside wall of capillary and enables simple monitoring of sealing.

Description

The invention relates to a fixing part for fastening or implementation of an optical fiber or of several optical fibers is provided.

Fixing parts used to attach or carry light serve as waveguides, are glued to the environment rivers sealed. Due to the capillary action, the adhesive fills fabricate the cavities. For sealing are preferred glue used under UV light. An unequal moderate gluing can also be done without external force break the optical fiber. To the ver It is therefore at least possible to check the seal partially transparent fixing parts used, for example wise glass capillaries. Due to the high transparency and the approximately the same refractive index from Kleber and Glaska The flow of glue can be observed only with difficulty will. So the curing process is often started, before the glue fills all cavities. Air pockets Se and vacuoles are difficult to see even under the microscope bar. To carry out a balancing quality assurance ren, is therefore an increase in the usual seals effort required.

The object of the invention is a fixing part for Lichtwel lenleiter specify, a simpler review of ver sealing enables. A suitable procedure is also available for sealing lead-through openings.  

A suitable fixing part is specified in claim 1.

An advantageous method is presented in an independent Described claim.

Advantageous developments of the invention are in the Subclaims specified.

It is particularly advantageous that the roughened Simply observe the opening of the flow of the adhesive can be respected. This can be done by etching or grinding Surface of the fixing part are roughened.

The roughened surface also increases the strength the bond and thus the fiber pull-out force increases.

Due to the good visibility of the adhesive flow, the Be be determined exactly at the beginning of the curing process, so that no additional waiting time is required. The fixation parts can both be used to carry fiber optics tern in the narrower sense, as well as for the future summarize several optical fibers to serve as plugs.

The invention is explained in more detail with reference to figures.

It shows

Fig. 1 is a used as a lead-in element fixing portion,

Fig. 2 shows a variant of the fixing part,

Figure 3 opening. A fixing part with a sealed feedthrough,

Fig. 4 is a fixing for a plurality of optical waveguides,

Fig. 5 cover part made of transparent material.

The fixing part 1 shown in FIG. 1 is formed as Glaskapi llare and inserted in a partition wall 13, to which it is attached by adhesive points 7. The partition wall 13 separates the interior 15 (for example an optical switch) from the outside 14 . The implementation opening 2 is slightly larger than a glass fiber 8 coated with its coating 9 . The inner surface 4 of the passage opening is roughened by etching or grinding. The glass capillary has a filling funnel 3 in order to be able to insert the optical waveguide more easily and also to be able to apply the adhesive better. Between the coating 9 of the optical waveguide and the inner surface of the through opening, an adhesive gap 16 remains free, the width of which is approximately between 5 and 200 μm and depends on the adhesive used. The pushed out of the capillary end 17 optical waveguide is spliced, for example, to a transmitting or receiving element and then glued along the entire length of the fixing part.

In Fig. 2 shows a variant of the fixing part is shown, having a Kapillarabstufung 10th Through the reduced feed-through opening, only the glass fiber 10 that is free of the coating is pushed through and positioned exactly. The stepped through openings result in a stop for the optical waveguide coated with the cauting.

This version is especially for coupling over suitable for optical systems.

In Fig. 3 the glass capillary is provided during the gluing. The inner surface 4 has become milky opaque due to the etching or grinding. The adhesive 5 has already flowed up to the boundary 6 by capillary action. Up to the boundary there is now a transparent region 11 filled with adhesive and between the boundary and capillary end 17 an opaque region 12 . As soon as the flow limit has reached the end of the capillary, the curing process can be started - for example by UV radiation.

In Fig. 4, a fixing part is shown, which has a guide part 18 made of silicon, in the V-grooves 20 are etched, which merge into extended V-grooves 21 . Optical waveguides 9 are inserted into the V-grooves, the fiber ends 8 of which are free of the coating. A transparent cover part 19 (glass), the lower cover surface 22 of which is roughened, is placed on the guide part and pressed on after insertion of all (not shown) optical waveguides. In order to avoid displacements relative to one another, guide devices can be provided on the guide part and / or cover part. After assembly, the V-groove adhesive serving as a lead-through opening is filled in from the rear. In order to facilitate this, the guide part and / or the cover part is provided with an insertion lowering 23 . From the cover part, which is shown separately in FIG. 5, has a continuous recess 25 for receiving the coating. After curing, the end face 24 of the fixing part with the glass fibers 8 is ground flat and can now be used as a connecting element.

Claims (8)

1. fixing part ( 1 ; 18 , 19 ) for optical waveguide ( 9 ), characterized in that it consists at least partially of transparent material and
that the inner surface ( 4 , 22 ) of the through opening ( 2 ; 20 , 21 ) is roughened. 2. Fixing part according to claim 1, characterized in that a glass capillary ( 1 ) with a roughened inner surface ( 4 ) and an insertion funnel ( 3 ) is provided. 3. Fixing part according to claim 2, characterized in that a through opening ( 2 ) with a Kapillarab gradation ( 10 ) is provided so that only one of the coating ( 9 ) freed glass fiber ( 8 ) can be passed through the graduated capillary. 4. Fixing part according to claim 1, characterized in that a lower guide part ( 18 ) made of silicon is provided, in the V-grooves ( 20 , 21 ) are etched and
that a transparent cover part ( 19 ) with a roughened cover surface ( 22 ) is provided. 5. Fixing part according to claim 4, characterized in that in the guide part ( 18 ) an insertion lowering ( 23 ) on one side of the V-grooves ( 21 ) and in the cover part a recess ( 25 ) is provided for the coating. 6. Fixing unit according to one of the preceding claims, characterized in that it has grinding grooves in the longitudinal direction in the region of the passage opening ( 2 ; 20 , 21 ). 7. A method for sealing through openings ( 2 , 20 , 21 ) of optical fibers in a fixing part, characterized in that
that an at least partially transparent fixing part ( 1 ) with a roughened inner surface ( 4 , 24 ) is used,
that are with their coating optical waveguide provided (9) and, if appropriate, introduced by the coating freed glass fiber ends (8) having optical waveguides (9) in the feedthrough opening,
that the gluing takes place from the side of the through openings having an insertion funnel ( 3 ),
that is observed when the bond limit ( 6 ) has reached the end of the through opening ( 2 , 20 ) and
that with through openings ( 2 , 20 , 21 ) provided with adhesive ( 5 ), the adhesive ( 5 ) is cured. 8. The method according to claim 7, characterized in that a curing by UV light radiation adhesive ( 5 ) is used.