DE4410939A1 - Optical waveguide with applied markings - Google Patents

Abstract

The optical waveguide (LW) is provided with an outer marking (M1, M2). A cover layer (CO) is applied over the marking (M1, M2). The marking (M1, M2) is applied to the outer surface of the waveguide (LW) in the form of a PVC varnish. The cover layer (CO) is a varnish which is set by UV irradiation. The marking (M1, M2) may be formed as a ring marking or the marking and the cover layer (CO) may be formed over the whole surface of the waveguide (LW). After the marking (M1, M2) is applied, the cover layer (CO) is applied over it and the cover layer (CO) is then hardened by exposure to UV light.

Description

The invention relates to an optical waveguide with a marking on the outside, over which a top layer is applied.

An optical waveguide of this type is from DE-C2 31 42 374 known. The marking of the optical fiber is done by means of color spots that are sprayed onto the outer surface of the Optical fiber are applied. At the end of the markie gaps between the markings be closed by applying a clear lacquer in such a way that a uniform outer diameter is created.

DE-C2 34 27 835 describes a method for ring marking an optical fiber known in which before application the ring mark a drying of the previously applied and the color application serving the coloring is carried out. The ring marking and the coloration before it are made with the same colorant, but the Ring mark applied in a more diluted state is called the coloring. For coloring and the ring PVC colors can be used for marking.

The invention has for its object a light waves to create a ladder that is easy and safe to use the desired marking is to be provided. This task is in an optical fiber of the type mentioned solved in that the marking in the form of a PVC paint is applied to the outer surface of the optical waveguide and that the top layer consists of a UV-curable lacquer.  

The invention further relates to a method for application a marking on an optical waveguide, according to the Marking process a top layer is applied, and which is characterized in that the marking in Form of a PVC varnish applied to the optical fiber becomes, that then the top layer in the form of a UV-curable Lacquer is applied and that the top layer then is cured by light.

The invention and its developments are based on a Drawing explained in more detail in which an embodiment for shown the implementation of the method according to the invention is. In the figure, an optical fiber LW is shown that from left to right during the manufacturing process is moved. This optical fiber has one of the actual optical fiber LF, the outside is provided with a protective layer (coating) CT, the one or can be formed in multiple layers. By means of a Marking device MD are on the optical fiber LW Markings attached, of which in the present example two are shown and labeled M1 and M2. These Markings are preferably designed as ring markings, d. H. they run in a ring around the outer surface of the light world lenleiters LW around. But you can also z. B. as lines or the like. available. When applying ring markings is the Marking device MD expediently with one or more oscillating nozzles provided an oscillating movement Execute transversely to the longitudinal axis of the optical waveguide LW. For The markings are made of PVC varnish, which is essentially made of pigments, a PVC matrix and a solvent consists. The main advantage of such a varnish is the good adhesion on the coating CT, the easy processing availability and the relatively low price. The application of the Markings M1, M2 are expediently made with a Layer thickness from 1 µm to 5 µm (when dry).  

Particularly good adhesion of the markings M1, M2 (and also a subsequent cover layer CO) is advantageous as a result achieved that the outer surface of the optical fiber (LW) at least in the areas where the markings open up bring are preheated. In the present example is this by a z. B. in the form of a radiant heater Heater HE indicated that the ring markings Optical waveguide LW encloses in a ring between them. The temperature increase on the outer layer of the CT coating should be chosen between 20 and 60 °.

The surface of the light is marked M1, M2 waveguide LW no longer smooth. This has the consequence that the outwardly projecting markings M1, M2 at the further processing, e.g. B. as part of a stranding or the like, easily removed in whole or in part become. In addition, such changes in diameter in Outside area with optical fibers for additional attenuation to lead.

To avoid this, a coating device is CD provided, which the marked optical fiber all around provides a top layer of CO, the layer thickness of which is at least is chosen so large that the markings M1, M2 still are covered, i.e. are no longer accessible from the outside. This is an abrasion or other damage to the mar M1, M2 markings are no longer possible since Protective layer CO are completely covered. The deck Layer CO consists of a UV-curable lacquer, preferably from an acrylic resin varnish. For curing is one UV irradiation device provided, designated UVB is.

For the protective layer CO, layer thicknesses between expediently between 1 µm and 5 µm. Overall, the thickening should of the coated optical fiber LW * compared to the unbe  layered fiber optic cables LW if possible not over 10 µm be.

Within the coating device CD is expedient rheological calibration nozzle provided, which in liquid form applied material for the protective layer CO pulls out a uniform annular outer contour and this ensures a uniform outer diameter.

Claims (10)

1. Optical waveguide with an external marking (M1, M2), over which a cover layer (CO) is applied, characterized in that the marking (M1, M2) is applied in the form of a PVC lacquer on the outer surface of the optical waveguide (LW) and that the top layer (CO) consists of a UV-curable lacquer. 2. Optical waveguide according to claim 1, characterized, that the marking (M1, M2) is applied as a ring marking is. 3. Optical waveguide according to claim 1 or 2, characterized, that the top layer (CO) both the marking (M1, M2) as also the outer surface of the optical fiber (LW) completely covered. 4. Optical waveguide according to claim 3, characterized, that the top layer (CO) as a continuously smooth, a con constant outer diameter coating formed is. 5. A method for applying a marking (M1, M2) to an optical waveguide (LW), a cover layer (CO) being applied after the marking operation, characterized in that
that the marking (M1, M2) is applied in the form of a PVC lacquer on the optical waveguide (LW),
that the top layer (CO) is then applied in the form of a UV-curable lacquer and that the top layer (CO) is then cured by light. 6. The method according to claim 5, characterized, that acrylic resin varnish is used as the top layer (CO). 7. The method according to any one of claims 5 or 6, characterized, that before the application of the marking (M1, M2) the Lichtwel lenleiter (LW) is at least superficially heated. 8. The method according to any one of claims 5 to 7, characterized, that the marking with a layer thickness between 1 micron and 5 µm is applied. 9. The method according to any one of claims 5 to 8, characterized, that when applying a mark (M1, M2) in the form of Wring them open by at least one oscillating nozzle are brought, their direction of movement transverse to the pass direction of the optical fiber runs. 10. The method according to any one of claims 5 to 9, characterized, that the application of the top layer (CO) by a potash brier nozzle is made.