Dosing unit for an ambulatory infusion device

The invention claimed is: 1. A dosing unit for an infusion pump device, the dosing unit comprising: a piston pump with a pump cylinder; a plunger arranged within the pump cylinder, the pump cylinder and the plunger coaxially arranged along a longitudinal axis; and a separate bias force element that is separate from the pump cylinder and the plunger; wherein the plunger has a plunger shaft with a plunger thread and the pump cylinder has a threaded sleeve part with a cylinder thread; wherein one of the plunger thread or cylinder thread is an outer thread and the other one is an inner thread, the inner thread and outer thread engaging with each other in such a way that a rotational movement of the plunger around the longitudinal axis results in a linear displacement of the plunger along the longitudinal axis; and wherein the separate bias force element that biases the inner thread and the outer thread in regard to each other along the longitudinal axis, such that the threaded engagement of the inner thread and the outer thread is free of play independent of a direction of a rotational movement and linear displacement of the plunger in regard to the cylinder. 2. The dosing unit of claim 1 , wherein the plunger thread is the outer thread and the cylinder thread is the inner thread. 3. The dosing unit of claim 1 , wherein the separate bias force element subjects the plunger shaft to a force perpendicular to the longitudinal axis, thereby pressing a portion of the plunger thread onto a portion of the cylinder thread. 4. The dosing unit of claim 3 , wherein the separate bias force element comprises a radially biased flat surface that abuts a lateral surface of the outer thread. 5. The dosing unit of claim 1 , wherein one or more portions of the cylinder thread or the plunger thread are pivotably mounted on the cylinder, or on the plunger shaft, respectively. 6. The dosing unit of claim 5 , further comprising a spring element, wherein the spring element radially biases the pivotably mounted thread portions toward the other thread. 7. The dosing unit of claim 1 , wherein the separate bias force element comprises a tensioned segment of wire that is mounted to the cylinder or the plunger and is arranged in such a way that it is located in a groove segment of the outer thread and exercises a bias force perpendicular to the longitudinal axis. 8. The dosing unit of claim 1 , wherein the bias force element comprises a threaded element, which is coaxially mounted on the threaded sleeve part or on the plunger shaft, and is longitudinally shiftable in regard to the first threaded sleeve or the plunger shaft, respectively; which has a thread portion engaging with the plunger thread or the cylinder thread, respectively; and which has a spring element that subjects the threaded element to an axial bias force in regard to the first threaded sleeve or the plunger shaft, respectively. 9. The dosing unit of claim 1 , wherein the bias force element comprises one or more spring elements with inner or outer thread segments, such that the inner or outer thread segments are radially biased toward the outer or inner thread, and wherein the inner or outer thread segments act as the inner or outer thread, respectively. 10. The dosing unit of claim 1 , wherein the bias force element is elastic. 11. The dosing unit of claim 1 , wherein the bias force element is made from a material that is different from the material of the cylinder and/or the plunger. 12. The dosing unit of claim 1 , wherein the bias force element is made from metal, and/or the cylinder and/or the plunger is made from polymer. 13. The dosing unit of claim 1 , further comprising a plunger driving part provided for transmitting rotational torque to the plunger without itself being linearly displaced, the cylinder, the plunger and the plunger driving part being coaxially arranged along a longitudinal axis and rotatable around said axis in regard to static parts of the dosing unit; and wherein the plunger driving part has a driving rod that is arranged in a longitudinal bore of the plunger shaft, the driving rod being linearly displaceable within the longitudinal bore along the longitudinal axis, and being rotationally engaged with the plunger shaft. 14. The dosing unit of claim 13 , further comprising one or more first coupling parts mounted to or being integral with the cylinder, and one or more second coupling parts mounted to or being integral with the plunger driving part and/or the plunger; the first and second coupling parts interacting in such a way that upon a reversal of the rotation direction of the plunger driving part the cylinder is rotationally coupled to the plunger driving part if it was previously not rotationally coupled; and/or one or more first coupling parts mounted to or being integral with the cylinder and/or the plunger driving part, and one or more second coupling parts mounted to or being integral with the plunger driving part and/or the plunger; the cylinder being rotationally coupled to the plunger on certain linear positions of the plunger in regard to the cylinder and being not rotationally coupled to the plunger on the other position. 15. The dosing unit of claim 14 , wherein the one or more first coupling parts are mounted to or integral with the cylinder, and the one or more second coupling parts are mounted to or integral with the plunger driving part and/or the plunger; wherein the first and second coupling parts interact in such a way that the first and second coupling parts are bidirectionally switchable between a first state and a second state, by reversing the rotation direction of the plunger driving part; the first and second coupling parts are unidirectionally switchable from the first state to the second state, by mechanically blocking cylinder rotation or actuating the first coupling part; and the cylinder is rotationally coupled to the plunger driving part in the first state of the first and second coupling parts; and not rotationally coupled in the second state. 16. The dosing unit of claim 15 , wherein the one or more first coupling part is mounted to or being integral with the cylinder, and the one or more second coupling part is mounted to or being integral with the plunger driving part; wherein the first and/or the second coupling parts comprise one or more bistable elements that can be in a first configuration where the bistable elements rotationally couple the first and second coupling parts by static friction or positive locking when the plunger driving part rotates clockwise, and do not rotationally couple the first and second coupling parts when the plunger driving part rotates counterclockwise; and in a second configuration where the bistable elements rotationally couple the first and second coupling parts by static friction or positive locking when the plunger driving part rotates counterclockwise, and do not rotationally couple the first and second coupling parts when the plunger driving part rotates clockwise. 17. The dosing unit of claim 16 , wherein the one or more bistable elements are friction elements that are switchable between two configurations, and that the rotational coupling is a static frictional coupling. 18. The dosing unit of claim 17 , wherein the one or more bistable friction elements are switchable between the two configurations by reversing the rotation direction of the plunger driving part in case the first and second coupling parts are not rotationally coupled; and by reversing the rotation direction of the plunger driving part and blocking cylinder rotation in