Dosing unit for dosing fluids, dosing station and dosing tip for a dosing unit

The invention claimed is: 1. A dosing unit for dosing fluids, comprising a fluid guiding module having a fluid inlet and a fluid outlet, a solenoid valve for controlling or regulating a fluid flow through the fluid guiding module, a dosing tip, the fluid outlet of the fluid guiding module leading to a fluid inlet of the dosing tip, wherein the dosing tip comprises a dosing tip upper part and a dosing tip lower part, and the dosing tip comprising an elastic, self-closing outlet nozzle, the outlet nozzle being held in a form-fitting manner between the dosing tip upper part and the dosing tip lower part, the outlet nozzle having a circumferential collar which is held between the dosing tip upper part and the dosing tip lower part, wherein the circumferential collar extends from the outlet nozzle in a radial direction, wherein the circumferential collar is clamped axially between the dosing tip upper part and the dosing tip lower part, wherein a radial gap is present between an outer circumference of the collar of the outlet nozzle and an inner wall of the dosing tip lower part, wherein the dosing tip upper part has a section tapering conically towards the outlet nozzle on an end face of the dosing tip upper part directed towards the outlet nozzle, and wherein the outlet nozzle has in sections an accordingly conically tapering section on an inside of the outlet nozzle, so that the conically tapering section of the inside is placed in a centered manner on the conically tapering section of the dosing tip upper part in the mounted state of the dosing tip, wherein the conically tapering section of the dosing tip upper part on which the outlet nozzle is centered is the axially outermost section of the dosing tip upper part and protrudes into the opening of the outlet nozzle, and wherein the surface of the outlet nozzle facing the dosing tip lower part is a flat surface. 2. The dosing unit according to claim 1 , wherein the fluid inlet of the dosing tip being formed in the dosing tip upper part and a fluid outlet of the dosing tip being formed in the dosing tip lower part. 3. The dosing unit according to claim 1 , wherein the outlet nozzle has at least two closing surfaces which, in the closed state of the outlet nozzle, are in flat contact with each other, a flexible membrane which define at least a portion of a circumferential enveloping surface of the outlet nozzle being respectively integrally formed on the closing surfaces. 4. The dosing unit according to claim 1 , wherein the dosing tip upper part and the dosing tip lower part are screwed together. 5. The dosing unit according to claim 1 , wherein the dosing tip comprises at least two mutually attracting magnetic elements which urge the outlet nozzle into a closed position. 6. The dosing unit according to claim 5 , wherein a magnetic fastening module is arranged at the dosing tip for fixing the magnetic elements. 7. The dosing unit according to claim 1 , wherein receptacles for the magnetic elements are provided in the outlet nozzle. 8. The dosing unit according to claim 7 , wherein a magnetic fastening module is arranged at the dosing tip for fixing the magnetic elements. 9. The dosing unit according to claim 1 , wherein the outlet nozzle is in one piece. 10. The dosing unit according to claim 1 , wherein the dosing unit is connected to a control unit for controlling the fluid delivery. 11. The dosing unit according claim 1 , wherein the outlet nozzle is configured so as to open only when a fluid pressure between 1 bar and 2 bar is applied. 12. A dosing station for dosing fluids, comprising at least two dosing units as claimed in claim 1 . 13. A dosing tip for a dosing unit as claimed in claim 1 , wherein the dosing tip comprises at least two mutually attracting magnetic elements which urge the outlet nozzle into a closed position. 14. The dosing tip according to claim 13 , further comprising receptacles for the magnetic elements are provided in the outlet nozzle and/or in that a magnetic fastening module is arranged at the dosing tip for fixing the magnetic elements. 15. The dosing tip according to claim 14 , wherein the magnetic elements are permanent-magnetic particles, the outlet nozzle being interspersed by permanent-magnetic particles at least in the area of the closing surfaces. 16. The dosing tip according to claim 13 , wherein the magnetic elements are permanent-magnetic particles, the outlet nozzle being interspersed by permanent-magnetic particles at least in the area of closing surfaces.