Plug-in fiber coupling unit, fiber coupling system and method for coupling optical fibers to integrated optical waveguides

What is claimed is: 1. A fiber coupling unit for coupling optical fibers to optical waveguides that are integrated into a substrate and extend up to an end face of the substrate, the coupling unit comprising: a coupling substrate of a glass or polymer material with a contact surface for contacting a surface of the substrate with the integrated waveguides and with one or several trench structures that extend at least up to the contact surface and serve for accommodating one or several optical fibers, wherein one or several end faces of one or several optical fibers inserted into the trench structures or a raised structure of the coupling substrate on an edge of the contact surface forms a coupling or stopping face for the end face of the substrate with the integrated waveguides on the coupling substrate and at least one opening extending through the coupling substrate in a direction perpendicular to the contact surface, the at least one opening being defined by side walls extending perpendicular to the contact surface, to accommodate a mechanical connecting element in a cross-sectionally form-fitting fashion or to guide the mechanical connecting element along an axis extending parallel to the contact surface and perpendicular to the coupling or stopping face in a cross-sectionally form-fitting fashion. 2. The fiber coupling unit according to claim 1 , wherein one or several optical fibers are inserted into the trench structures and fixed in the trench structures. 3. The fiber coupling unit according to claim 2 , wherein the one or several optical fibers are connected to a fiber connector or a fiber socket on an end protruding from the fiber coupling unit. 4. The fiber coupling unit according to claim 1 , wherein the coupling substrate features at least two of said openings in the contact surface or at least two mechanical connecting elements protruding from the contact surface. 5. A method for coupling optical fibers to optical waveguides that are integrated into a substrate and extend up to an end face of the substrate, comprising: dimensioning the fiber coupling unit according to claim 1 such that optical axes of optical fibers inserted into the trench structures correspond to optical axes of the integrated waveguides when the contact surface of the coupling substrate is placed on a surface area of the substrate in a predefined coupling position, producing at least one opening in the surface area of the substrate that, in the coupling position, coincides with at least one of the one or several openings in the contact surface of the coupling substrate, with said at least one opening in the surface area of the substrate being designed such that the coupling position is defined at least along an axis extending parallel to the contact surface and to the coupling or stopping face by a mechanical connecting element inserted into the openings, and placing the fiber coupling unit on the surface area of the substrate with the contact surface of the coupling substrate arranged such that at least one mechanical connecting element inserted into the opening in the substrate or into at least one of the openings in the coupling substrate engages into the respectively corresponding opening in the coupling substrate or the substrate. 6. The method according to claim 5 , wherein the producing includes producing the at least one opening in the substrate continuously through the substrate. 7. A fiber coupling system with a fiber coupling unit according to claim 1 and a substrate with integrated optical waveguides, wherein the one or several trench structures in the coupling substrate are structured such that optical axes of optical fibers inserted into the trench structures correspond to optical axes of the integrated waveguides when the contact surface of the coupling substrate is placed on a surface area of the substrate in a predefined coupling position, and wherein the substrate includes at least one opening that in the coupling position coincides with at least one of the one or several openings in the contact surface of the coupling substrate, with said at least one opening in the substrate being configured such that the coupling position is defined at least along an axis extending parallel to the contact surface of the coupling substrate and to the coupling or stopping face by a mechanical connecting element inserted into the openings. 8. The fiber coupling system according to claim 7 , wherein the at least one mechanical connecting element is either fixed in the at least one opening in the substrate or in at least one of the one or several openings in the contact surface of the coupling substrate. 9. The fiber coupling system according to claim 8 , the substrate and the coupling substrate are separably or inseparably connected to one another. 10. The fiber coupling system according to of claim 7 , wherein the at least one opening in the substrate extends continuously through the substrate. 11. The fiber coupling system according to claim 7 , wherein the coupling substrate includes at least two of the openings in the contact surface or at least two mechanical connecting elements protruding from the contact surface and the substrate with the integrated waveguides includes at least two of the openings that coincide with the openings in or mechanical connecting elements on the contact surface of the coupling substrate.