Optical waveguides – Optical fiber waveguide with cladding – Utilizing multiple core or cladding
Reexamination Certificate
2000-02-24
2003-02-04
Ullah, Akm E. (Department: 2874)
Optical waveguides
Optical fiber waveguide with cladding
Utilizing multiple core or cladding
Reexamination Certificate
active
06516126
ABSTRACT:
This application is based on and claims the benefit of German Patent Application No. 199 08 110.7 filed Feb. 25, 1999, which is incorporated by reference herein.
BACKGROUND OF THE INVENTION
The invention concerns an elongated, flexible element with a core element for energy and/or data transmission and an extruded polymeric sheathing which encloses the core element.
Among other things, polymeric optical fibers, which are composed, for example, of polymethyl methacrylate (PMMA) and/or fluorinated PMMA, are used in vehicles or in mechanical engineering since they are mechanically rugged and easy to handle. They comprise a core with cladding for conducting light. As protection from extraneous light and damage by external influences, the fibers are also provided with an exterior sheathing. The sheathing as a rule is extruded onto the surface of the fiber. Because of the areas of application, the sheathing should not only prevent mechanical damage to and incidence of light into the fiber, but should also provide protection against humidity, chemicals, in particular oils and greases, and thermal stress and, if appropriate, should be flameproof.
In order for the optical transmission of the fibers not to be impaired through mechanical stresses, the material of sheathing must be of low shrinkage. For this reason it is proposed in the utility model DE 92 09 018 that shielding of polyamide, polyurethane or polyoxymethylene (POM) be used in place of shielding of polyethylene (PE), polypropylene (PP), chloridized polyethylene or polyvinyl chloride (PVC). However, it is a drawback that these materials only fulfill a portion of the necessary requirements, while their cost is relatively high, e.g., in relation to polyolefins. Also in many cable types for specific areas of application, for example, drag cables for robots, there is a demand for sheathing with suitable combinations of different features.
SUMMARY OF THE INVENTION
Against this background, the object of the invention is to develop a sheathing for elongated components that fulfils in a cost effective manner a combination of chemical and mechanical requirements.
This object of the invention is achieved by a cable wherein the sheathing contains at least two polymers, the adhesion capability of which is low when extruded in layers on to each other, the sheathing has at least two adjacent layers, whereas the polymeric material of one layer exclusively or predominantly is the first polymer and the second layer includes a mixture of both polymers.
A fundamental idea of the invention is that the required features of sheathing can be realized through a combination of layers of different materials. The interior side of the sheathing facing the core element is advantageously formed by a comparably hard plastic which provides mechanical protection for the core element. In contrast, the external surface is a soft, preferably chemically resistant plastic. The combination of a flameproof interior layer with a mechanically strong surface is also advantageous. A soft interior layer is suitable as a buffer layer between the core element and a harder external layer. The sheathing can be produced so as to be cost effective and to have low shrinkage through optimization of layer thicknesses. It is possible to provide three or more layers in order to achieve the desired features.
However, suitable combinations of polymers have the disadvantage that the adhesion capability of layers of the pure materials extruded on each other is small. Accordingly no sufficient material bond is realized, so that the sheathing cannot be easily removed and its resistance to mechanical stress is reduced. This is in particular true if layers of polar plastics, for instance polyurethane, are combined with non-polar plastics such as polypropylene, for example. Also in the case of combination of different polar plastics, for example such as polyurethane and polyoxymethylene, or of different non-polar plastics as a result of the necessary processing parameters, such as the extrusion temperature, sufficient adhesion of the layers is often not achievable.
In the sheathing according to the invention, a first polymer forms exclusively or at least one-half of the polymeric material of a layer. To realize a strong layer bond, it is proposed that in a bordering layer of the sheathing, a mixture of the first polymer with the second be present. The proportion of the first polymer of the mixture is considerably smaller than in the first layer and it forms one-half or one-third of the polymeric material of this layer for example. The proportion of the first polymer in both adjoining layers results in good adhesion and therefore a strong bond. In contrast, the features of the layers differ considerably from the proportion of the first polymer. If the sheathing consists of three or more layers, several layers are possible with mixtures of this kind. The first polymer in turn can be a mixture of chemically related materials, for instance PP and EPDM; the same applies to the second polymer.
The sheathing is produced through extrusion. It is carried out advantageously in a step in which at least two materials are brought into an extrusion head in order to optimize the bonding of the layers, for example through crosshead extrusion. It is also conceivable to manufacture the sheathing in several successive steps, such as through tandem extrusion.
On account of the strong bonding of materials, the sheathing according to the invention can easily be removed, for example for fabrication of the element. It can be produced to be mechanically strong, resistant to stress-cracking, and low shrinking. Good chemical resistance, in particular against oils and greases, as well as low absorption of moisture can be also achieved. Finally, sheathing with high flexibility at low temperatures and good resistance to heat can be produced. It is particularly well suited for use in the construction of machines and of vehicles, such as in the manufacture of automobiles, ships or aircraft.
In a useful rendering of the invention, the mixture of the two polymers contains a compatibility agent, e.g., a maleic anhydride-containing copolymer. The compatibility agent prevents a separation of the mixture in the melted state into different phases. Consequently, the production and handling of the mixture, in particular of polar and non-polar polymers, is simplified.
In order to optimize specific features of a layer, it can contain a pure polymer. However, it is often advantageous for both adjoining layers to contain a mixture of the first and second polymers. In this way, good adhesion can be achieved with a relatively small addition of, e.g., 20% of the other polymer.
The layers of sheathing preferably transition into each other without a sharp boundary surface, such as through the use of an extrusion process which causes the melting of the edges of the materials. A continuous transition of the material of the interior surface into the material of the external surface of the sheathing without the formation of defined layers is particularly advantageous.
A useful configuration of sheathing consists in its external or interior layer being a mixture with a polymer of a bordering layer. It is possible this way to build up the sheathing from only two layers.
Alternatively the polymer mixture according to the invention and/or the copolymer in an at least three-layered sheathing forms a bond-producing layer between two bordering layers, with the polymer portion of the first layer being composed predominantly of the first and that of the second layer being composed predominately of the second polymer. Consequently, in a three-layered sheathing the bond-producing layer thus contains a mixture of the materials of its two surfaces.
The sheathing is suitable in particular for the protection of polymeric optical fibers. Alternatively, it is suitable as insulation or cladding of electrical cables and lines for specific applications, in particular for drag cables, like those used with industrial robots. In the latter case, the sheathing is a
Mehl Alfred
Rous Friedemann
Nexans
Sughrue & Mion, PLLC
Ullah Akm E.
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