DE3824819C1 - Method for sealing optical waveguides and final sealing - Google Patents

Abstract

Optical waveguides (L1, L2), fitted in a protective sleeve (SU) and stored in a filler compound (F) have to be sealed at the outlet point, so that the filling compound, e.g. gel, cannot run out. For a sealing of this kind wedges (K), consisting of a melt adhesive, are pushed between the optical waveguides (L1, L2) leaving the protective sleeve (SU). The outlet point is subsequently covered by a heatshrink sleeve (SR) (Fig. 4). <IMAGE>

Description

The invention is based on a method according to the Preamble of claim 1. Such a method is known from DE 36 09 369 A1.

In the end seal according to DE 36 09 369 A1 is the Optical fiber in a gel-filled protective tube housed. The end seal consists of a soft elastic frusto-conical stopper, which in the open protective hose end is inserted. A central one Through opening is for the optical fiber intended. Such an end seal must be closely tolerated be so that a high quality tightness is guaranteed.

DE 33 12 649 C2 describes a method for fixing an optical waveguide in a loose surrounding envelope known. In the space between the optical fiber and the shell becomes a waxy material in hot, pourable Condition filled in. This seals in the solidified state Potting material from the open case end against moisture.

The object of the invention is to provide a simple method of mentioned in the preamble of claim 1 for sealing of an optical fiber protective tube or an end seal for an optical fiber  Protective hose, with which leakage occurs with simple means of filling material is avoided, as well as one with a such end seal provided optical cable create. This task is Procedure by the in the characterizing part of the claim 1 listed features and regarding the end seal or the optical cable by the in the hallmark of Claim 4 or claim 5 features listed solved. Claims 2 and 3 relate to advantageous Embodiments of the end seal according to claim 1.

The invention has the following advantages:
Leakage of the filling compound, e.g. B. Gel, is effectively prevented in contrast to sealing by means of a stopper, which can be loosened by different coefficients of thermal expansion or by mechanical stress. The wedge, which consists of a hot melt adhesive, melts when the shrink tube is shrunk over and fills all cavities, which arise in particular when optical fibers are emitted several times. The end seal is tensile and flexible. The transmission quality in the sealing area does not deteriorate. Bulk cores of a fiber optic cable can be sealed quickly, easily and safely directly at the installation site.

Using the drawings, an embodiment of the Invention now explained in more detail. It shows

Fig. 1 optical waveguide with stepped protection hose end,

Fig. 2 is a protective hose end with deferred shrink tube,

Fig. 3 shows the position of the heat-shrinkable tube before shrinking process,

Fig. 4 shows a protective hose end with shrink-fit shrink hose.

In Fig. 1, optical fibers L 1 and L 2 are shown, which in a with a filling compound F , z. B. a gel, filled protective tube SU are housed. Such an arrangement is referred to as a loose tube in an optical fiber cable. The protective tube SU is offset so that the optical fibers L 1 and L 2 protrude and can be spliced, for example, with other optical fibers. After the protective hose SU has been removed , the individual outstanding optical fibers L 1 , L 2 are cleaned.

As shown in FIG. 2, a shrink tube SR, for example 2.5 cm in length, is pushed completely onto the end of the protective tube in the unshrunk state. A conical or frustoconical wedge K made of a hot-melt adhesive is now pushed between the two optical fibers L 1 and L 2 to such an extent that the tapered end of the wedge K projects into the gel-filled protective tube SU . The shrink tubing SR is now also pulled onto the at least part of the wedge K in the direction of the protruding optical waveguides L 1 and L 2 ( FIG. 3). In this position, the shrink tube SR envelops the largest part of the wedge K , the exit point of the optical fibers L 1 and L 2 from the protective tube SU and the protective tube end. When the heat is applied, the hot-melt adhesive melts and fills all remaining cavities between the individual optical fibers as well as between optical fibers and protective tube SU at the optical fiber exit point. In addition, the shrink tube SR shrinks onto the protective tube end and the optical fiber exit point ( FIG. 4). The wedge end, which was not covered by the shrink tube SR , merges into a spherical shape and surrounds the optical waveguides L 1 , L 2 that are led out over their entire circumference. Due to the double sealing function - hot melt adhesive and shrink tubing - the filling compound, gel, cannot escape. The ingress of moisture is also effectively prevented.

The invention is also only for sealing Fiber optic also a gel-filled protective tube suitable. The hot melt wedge is then on Fiber optics passed and partially in the Protective hose end inserted. When sealing more as two emerging optical fibers, it is advisable one each between two adjacent optical fibers Insert the hot melt adhesive wedge.  

The hot melt adhesive wedges can easily be installed on site getting produced. Preferably from one cylindrical rod made of hot melt adhesive discs separated, from which wedges are then cut out sector-shaped will.

For sealing the fiber optic one made of loose tubes existing fiber optic cable is used for each loose tube a seal made as described above.

Claims (5)

1. A method for sealing an optical waveguide protective tube in which one or more optical waveguides are accommodated in a filling compound, in which the protective tube is initially removed, characterized by the following process steps:

• a) inserting at least one wedge ( K ) consisting of a hot melt adhesive into the protective tube ( SU ) in such a way that the optical waveguide (s) ( L 1 , L 2 ) are guided past this wedge ( K ),
• b) pushing a shrink tube ( SR ) over the protective tube end and at least part of the wedge ( K ),
• c) Shrinking the shrink tube ( SR ).

2. The method according to claim 1, characterized in that the shrink tube is completely pushed onto the protective tube ( SU ) before inserting the wedge / wedge ( K ) consisting of the hot melt adhesive. 3. The method according to claim 1 or 2, characterized by the insertion of a plurality of wedges consisting of a hot melt adhesive ( K ), preferably in each case between two adjacent optical fibers. 4. According to the method according to any one of claims 1 to 3 end seal for an optical fiber protective tube, characterized in that at least one wedge ( K ) made of hot melt adhesive is provided that the wedge the wedges (K) in the stepped protective tube (SU) protrudes / protrude in that at least a part of the / of projecting out of the protective tube (SU) wedge / wedges (K), the outgoing optical waveguide (L 1, L 2) and the end of the remote protective tube (SU) with a shrink tube (SR) are shrunk. 5. Optical fiber cable, the Loose tubes according to the features of claim 4 are sealed.