Optical sensor element, optical oxygen sensor, and method for monitoring the function of an optical oxygen sensor

The invention claimed is: 1. An optochemical sensor element for an optochemical oxygen sensor, comprising: a substrate layer having a first substrate side facing toward a measuring medium and a second substrate side opposite the first substrate side; a functional layer which is arranged on the first substrate side and is subdivided into at least a first functional segment and a second functional segment separate from one another, wherein the first functional segment has a second reference dye and the second functional segment has an indicator dye, wherein the second reference dye comprises an organic material and is insensitive to oxygen, and is suitable to emit a second luminescence signal upon stimulation with a first stimulation signal, wherein the indicator dye comprises an organic material and is sensitive to oxygen, and is suitable to emit a third luminescence signal upon stimulation with the first stimulation signal, wherein the substrate layer is transparent to the first stimulation signal and to the second and third luminescence signals, wherein the first functional segment has a first reference dye that comprises an inorganic material and is insensitive to oxygen, resistant to photobleaching, and suitable to emit a first luminescence signal upon stimulation with the first stimulation signal, wherein the first reference dye includes a material from a group consisting of: titanate, nitride, gallate, sulfide, sulfate, aluminate, silicate, HAN Purple, Egyptian blue, ruby red, aluminoborate, chromated yttrium aluminum borate, gadolinium aluminum borate, manganese(IV)-doped magnesium titanate, manganese(IV)-activated magnesium fluorogermanate, ruby, alexandrite, and/or europium(III)-activated yttrium oxides, wherein the second reference dye includes a material from a group consisting of: porphyrins or phthalocyanines, with H, Mg, or Si as central ion, and the indicator dye includes a material consisting of porphyrins or phthalocyanines, with Pd, Pt, Ir, Ru, La, Fe, Co, Ni, or Cu as a central ion, wherein an aging of the second reference dye can be detected based on the first luminescence signal and the second luminescence signal, wherein an aging of the indicator dye can be detected based on the first luminescence signal or the second luminescence signal and the third luminescence signal. 2. The optochemical sensor element of claim 1 , wherein the functional layer furthermore comprises a third functional segment with the first reference dye, wherein the first reference dye comprises an inorganic material and is insensitive to oxygen, and is suitable to emit the first luminescence signal upon stimulation with the first stimulation signal. 3. The optochemical sensor element of claim 1 , wherein a comparison layer with a first comparison segment is arranged on the second substrate side of the substrate, wherein the first comparison segment has the first reference dye, the second reference dye, or the indicator dye. 4. The optochemical sensor element of claim 3 , wherein the comparison layer has a plurality of comparison segments, wherein each comparison segment has the first reference dye, the second reference dye, or the indicator dye. 5. The optochemical sensor element of claim 1 , wherein the functional layer is circular and the first functional segment and the second functional segment are formed by a radial subdivision of the functional layer, or wherein the functional layer is rectangular and the first functional segment and the second functional segment are formed by a rectangular subdivision of the functional layer. 6. The optochemical sensor element of claim 1 , wherein the first functional segment and the second functional segment of the functional layer are separated from one another by a separating wall. 7. The optochemical sensor element of claim 1 , wherein the second reference dye has the same ligand as the indicator dye and a central ion different from the indicator dye. 8. An optochemical oxygen sensor, comprising: a sensor body having a light source, a photodetector, and a control unit, wherein the control unit is connected to the light source and the photodetector, and is suitable to control the light source and evaluate the signals detected by the photodetector; a sensor head having an optochemical sensor element, wherein the optochemical sensor element comprises: a substrate layer having a first substrate side facing toward a measuring medium and a second substrate side opposite the first substrate side; a functional layer which is arranged on the first substrate side and is subdivided into at least a first functional segment and a second functional segment separate from one another, wherein the first functional segment has a second reference dye and the second functional segment has an indicator dye, wherein the second reference dye comprises an organic material and is insensitive to oxygen, and is suitable to emit a second luminescence signal upon stimulation with a first stimulation signal, wherein the indicator dye comprises an organic material and is sensitive to oxygen, and is suitable to emit a third luminescence signal upon stimulation with the first stimulation signal, wherein the substrate layer is transparent to the stimulation signal and to the second and third luminescence signals; wherein the sensor body and the sensor head are arranged in such a way that the light source is suitable to emit at least the first stimulation signal in such a way that the functional layer of the optochemical sensor element is irradiated by the first stimulation signal, wherein the photodetector is suitable to detect luminescence signals emitted by the functional layer, wherein the first functional segment has a first reference dye that comprises an inorganic material and is insensitive to oxygen, resistant to photobleaching, and suitable to emit a first luminescence signal upon stimulation with the first stimulation signal, wherein the first reference dye includes a material from a group consisting of: titanate, nitride, gallate, sulfide, sulfate, aluminate, silicate, HAN Purple, Egyptian blue, ruby red, aluminoborate, chromated yttrium aluminum borate, gadolinium aluminum borate, manganese(IV)-doped magnesium titanate, manganese(IV)-activated magnesium fluorogermanate, ruby, alexandrite, and/or europium(III)-activated yttrium oxides, wherein the second reference dye includes a material from a group consisting of: porphyrins or phthalocyanines, with H, Mg, or Si as central ion, and the indicator dye includes a material consisting of porphyrins or phthalocyanines, with Pd, Pt, Ir, Ru, La, Fe, Co, Ni, or Cu as a central ion, wherein an aging of the second reference dye can be detected based on the first luminescence signal and the second luminescence signal, wherein an aging of the indicator dye can be detected based on the first luminescence signal or the second luminescence signal and the third luminescence signal. 9. The optochemical oxygen sensor of claim 8 , wherein the photodetector has a stimulation filter unit which is suitable to filter the first luminescence signal, a second luminescence signal, or the third luminescence signal emitted by the optochemical sensor element. 10. The optochemical oxygen sensor of claim 8 , wherein the optochemical oxygen sensor furthermore has an optical waveguide having at least two conductor fibers, wherein the light source is suitable to generate at least two independent stimulation signals, wherein a first conductor fiber is arranged in such a way that the first stimulation signal is directed onto the first functional segment, and a second conductor fiber is arranged in such a way that a second stimulation signal is directed onto the