Dosing unit for an infusion pump device

We claim: 1. A dosing unit for an ambulatory infusion pump device, the dosing unit comprises: a cylinder pump comprising, a cylinder; and a piston displaceable along a longitudinal axis of the cylinder, wherein the piston has a piston head and a piston shaft, wherein the piston shaft has a shaft segment provided with markings that can be detected, and wherein the markings are a plurality of stripes arranged on the shaft segment in the form of at least two stripes arranged on the shaft segment along the circumference of the shaft and parallel to the longitudinal axis; a valve that can be in two operational states; and a window provided on the cylinder for providing optical access to the plurality of stripes, wherein the window provides optical access to the plurality of stripes when the valve is in one of the two operational states and does not provide optical access to the plurality of stripes when the valve is between the two operational states. 2. The dosing unit according to claim 1 , wherein the markings are optically detectable stripes. 3. The dosing unit according to claim 1 , wherein the piston shaft comprises a threaded segment interacting with a threaded portion of the cylinder in such a way that the piston is displaced along the longitudinal axis when the piston shaft is rotated around the axis. 4. The dosing unit according to claim 3 , wherein the shaft segment is between a first threaded segment and the piston head. 5. An infusion pump device with the dosing unit according to claim 1 . 6. The infusion pump device according to claim 5 , further comprising, one or more sensor units to detect the markings of the piston of the dosing unit mounted in the infusion pump device; and an evaluation unit that based on a signal received from the one or more sensor units determines an absolute position of the piston within the cylinder of the dosing unit and/or of a relative displacement of the piston within the cylinder. 7. The infusion pump device according to claim 6 , wherein the markings of the piston of the dosing unit mounted in the infusion pump device are optical markings and that the dosing unit comprises a valve that can be in two operational states, and a window on the cylinder allowing optical access to the optical markings of the piston, wherein the optical access window and the one or more sensor units of the infusion pump device are arranged in such a way that the one or more sensor units have optical access to the optical markings when the valve is in one of the two operational states and have no optical access to the optical markings when the valve is between the two operational states. 8. A kit comprising an infusion pump device and one or more dosing units according to claim 1 . 9. A dosing unit for an ambulatory infusion pump device, the dosing unit comprises: a cylinder pump comprising a cylinder; and a piston displaceable along a longitudinal axis of the cylinder, wherein the piston has a piston head and a piston shaft, wherein the piston shaft has a segment provided with markings that can be detected, and wherein the markings are a plurality of stripes arranged on the shaft segment; a valve that can be in two operational states; and a window provided on the cylinder for providing optical access to the plurality of stripes, wherein the window provides optical access to the plurality of stripes when the valve is in one of the two operational states and does not provide optical access to the plurality of stripes when the valve is between the two operational states. 10. A dosing unit for an ambulatory infusion pump device, the dosing unit comprises: a cylinder pump comprising, a cylinder; and a piston displaceable along a longitudinal axis of the cylinder, wherein the piston has optically detectable markings allowing for the determination of an absolute position of the piston within the cylinder and/or of a relative displacement within the cylinder; a valve that can be in two operational states; and a window on the cylinder for providing optical access to the optically detectable markings, wherein the optical access window provides optical access to the optically detectable markings when the valve is in one of the two operational states and does not provide optical access to the optically detectable markings when the valve is between the two operational states. 11. The dosing unit according to claim 10 , wherein a piston shaft of the piston has a marker segment on which the optical markings are provided in the form of at least two stripes arranged on a second shaft segment along the circumference of the piston shaft and parallel to the longitudinal axis. 12. The dosing unit according to claim 10 , wherein a piston shaft of the piston has a marker segment on which the optical markings are provided in the form of a plurality of optically circumferential rings arranged on a second shaft segment. 13. The dosing unit according to claim 10 , wherein the piston comprises a piston head and a piston shaft with a threaded segment interacting with a threaded portion of the cylinder in such a way that the piston is displaced along the longitudinal axis when the piston shaft is rotated around the axis. 14. The dosing unit according to claim 13 , wherein a second marker segment is between the first threaded segment and the piston head. 15. The dosing unit according to claim 10 , wherein the valve for alternatingly connecting an inner volume of the cylinder in a first operation state to an inlet conduit and in a second operational state to an outlet conduit comprising a valve seat and a valve member, wherein the valve member is part of the cylinder, and wherein the cylinder is rotatably or slidably mounted in a bearing of the valve seat such that the valve can be switched between the two states by rotating the cylinder with the valve member by a certain angle along the longitudinal axis of the cylinder, or by displacing the cylinder with the valve member in regard to the valve seat by a certain distance along the longitudinal axis.