DE19849543A1 - Optical fibre which can be marked - Google Patents

Abstract

The optical fibre has a single or multi-layer cladding. At least an outer layer (2) of the cladding or the outer cladding material contains a pigment which changes colour when electromagnetic radiation, e.g. from a Nd:YAG laser, is applied. The radiation may alternatively be microwave, infrared, or from a UV excimer laser. The soot present in the cladding material may act as a pigment which changes colour when exposed to a CO2 laser.

Description

The present invention relates to a markable optical fiber or core (hollow core, loose tube, fixed core) ge according to the preamble of claim 1.

Around the fiber optic fibers or fiber optic wires of an optical message To be able to distinguish cables, they must be color-coded draws or be provided with a color marking. The Color coding of the fibers / veins is more common wise during their manufacture by coloring the outer jacket lung, d. H. by introducing an appropriate colorant in the outer jacket material. Coloring the coat material than leads because of the large number of colors required long set-up times and logistical problems, service costs increased.

The manufacturing costs can be reduced by the Fibers / veins only with a characteristic produced by extrusion dash marks. Although this reduces the dyeing costs, it solves but not the logic associated with the multitude of colors problem.

Markers are also made by applying a solution tels and / or generated by applying a UV ink, wherein the familiar colors, however, are poor on the frequent polypropylene used as the sheath material. About that in addition, the environment is affected by the emissions of the solution charged.

The magazine LASER 4/87, pp. 34-36 suggests a plastic with a colored marking provided that a pigment admixed to the plastic abge with the aid of the absorption maximum of the pigment  tuned selectively destroyed laser probe, or the pigment discolored or discolored by irradiation with laser light.

EP-0 329 884 A1 describes a method for destruction free marking of an electrical or optical cable with a laser probe. The electrical / optical conductor enveloping plastic contains a photosensitive substance, which discolors when irradiated with laser light. As Radiation source is particularly found in the ultraviolet or visible spectral range of emitting lasers dung.

The object of the invention is to create an optical fiber or wire, which changes color without damaging the jacket can be marked. This task is characterized by one of the characteristics of independent patent claim 1 or Core solved, the dependent claims expedient management forms and advantageous further developments of the fiber / core affect.

An optical fiber or wire is proposed, the outer outer sheath layer or its outer sheath material Contains pigment, which is characterized by high-energy electromagnetic discoloration or radiation, in particular laser radiation can change color.

As far as the choice of color pigments is concerned, there are here various possibilities. So color pigments can be in the Jacket material can be introduced, which is reflected by the radiation of an Nd: YAG laser, by microwave radiation, by In infrared radiation or by the radiation of a UV excimer La Activate sers, i.e. decolorize or recolour.

It is also possible to use the soot present in the cladding material as a color pigment, the soot being destroyed, for example by irradiation with a CO ₂ laser probe, and the cladding area scanned by the laser probe thus becoming discolored.

Finally, you can also use a multi-chromatic color pigment bring into the jacket material and individual components of the Selectively destroy pigments using high-energy radiation or discolor.

In the case of the color pigments introduced into the jacket material, it can also be a mixture of different colored pig act through a suitable combination of the pigments, depending on the energy and formulation, ver have different colors created.

The color pigments are preferably in a relatively low concentration of about 0.3-0.8%, preferably 0.5%, introduced into the material of the casing.

For example, a fiber optic fiber / core can be colored green, if you have a combination of yellow and blue color pigments. By selective destruction The coat in the irradiated container takes on the yellow pigment rich blue color when the blue pigment is destroyed however, a yellow color.

The possibilities can also be determined by the Ver The use of titanium oxide can be expanded by adding a light coating is produced. By destroying the white portion read colored or dark markings can be generated. Each Depending on the type of deflection of the laser probe, stripes, Dots, signs or symbols on the coat made the.

While in the conventional methods usually mechanical damage to the surface by the ther mix degradation of the polymer forming the sheath care, this cannot occur with the invention, because  no black and white contrast, but a colored marking is generated on a light background.

The specified techniques can be used except for fiber optic cables and fiber optic wires also with fiber optic tapes and optical cables put.

Further features and advantages of the invention result from the following description of preferred exemplary embodiments with reference to the accompanying drawings. It shows:

. Fig. 1 is a so-called fiber-optic bundle core in cross section;

Fig. 2 is a provided with a two-layered sheath fiber optic bundle core in cross section;

Fig. 3 shows a third embodiment of a fiber optic bundle core in cross section; and

FIG. 4 is a partial perspective view of the embodiment according to FIG. 1.

The fiber optic loose tube shown in cross section in FIG. 1 has a single-layer jacket 2 , which consists in particular of polypropylene and contains colored pigments. In order to produce a colored marking, the surface of the casing 2 is exposed to high-energy radiation which activates the color pigments. The casing 2 protects the optical waveguide fibers 6 loosely embedded in a filling compound 4 .

The jacket of the loose tube shown in FIG. 2 consists of an inner layer 8 and an outer layer 10 . The inner layer 8 made of polycarbonate, for example, and the outer layer 10 , which is made of polypropylene, for example, again serve to protect the optical waveguide fibers 6 arranged in a filling compound 4 with excess length. In this exemplary embodiment, the color pigments which can be activated by high-energy radiation are located in the outer layer 10 of the jacket.

In the loose tube shown in cross section in FIG. 3, the optical waveguide fibers 6 embedded in the filling compound 4 are arranged in a jacket having three layers, where the inner layer 12 of the jacket can be made of polycarbonate and the intermediate layer 14 can be made of polypropylene. The skin layer 16 forming the outer coat contains the color pigments in a concentration of preferably 0.5%.

Fig. 4 shows a partial perspective view of the loose tube by laser irradiation with an elongated marker 18 provided NEN according to FIG. 1. The shape and arrangement of the marking 18 on the single-layer jacket 2 depends on the selected type of deflection of the laser probe. This way, markings in the form of dots, circles, stripes, letters, images or combinations of these elements can be easily produced.

Claims (9)

1. Optical fiber ( 6 ) or core with a single-layer or multi-layer jacket, characterized in that at least one outer layer ( 2 , 10 , 16 ) of the jacket or the outer jacket material contains a pigment which can be discolored or decolorized by electromagnetic radiation. 2. Optical fiber ( 6 ) or wire according to claim 1, characterized in that the pigment can be discolored or decolorized by the radiation of an Nd: YAG laser. 3. Optical fiber ( 6 ) or wire according to claim 1, characterized in that the pigment can be discolored or discolored by microwave radiation. 4. Optical fiber ( 6 ) or wire according to claim 1, characterized in that the pigment can be discolored or discolored by infrared radiation 5. Optical fiber ( 6 ) or wire according to claim 1, characterized in that the pigment can be discolored or discolored by the radiation of a UV excimer laser. 6. Optical fiber ( 6 ) or core according to claim 1, characterized in that the soot present in the cladding material serves as a pigment which can be discolored or decolorized by the radiation of a CO ₂ laser. 7. Optical fiber ( 6 ) or core according to claim 1, characterized in that the pigment is a multi-chromatic pigment. 8. Optical fiber ( 6 ) or core according to one of the preceding claims, characterized in that the outer layer ( 2 , 10 , 16 ) of the sheath or the outer sheath material contains several different pigments which can be discolored or decolorized by electromagnetic radiation. 9. Optical fiber ( 6 ) or core according to one of the preceding claims, characterized in that the concentration of the pigment / the pigments in the sheath material is in each case in the range of about 0.3% -0.8%.