Blood pump

The invention claimed is: 1. An axial blood pump comprising: a tubular inlet; an impeller configured to be set into a rotation about a rotation axis of the impeller with a rotor stator, wherein the impeller is arranged at least partly within the tubular inlet and provided with a blading configured to convey blood along the blading in an axial direction parallel to the rotation axis but not a radial direction; and a tangential chamber adjoining the tubular inlet and including at least one discharge channel which runs tangentially around the rotation axis of the impeller towards an outlet of the tangential chamber, wherein a centre of each of the at least one discharge channel runs helically at least partially around the rotation axis of the impeller, and, moving towards the outlet of the tangential chamber, the centre of each of the at least one discharge channel shifts in the axial direction in which the blading is configured to convey blood along the tubular inlet. 2. The axial blood pump of claim 1 , wherein an axial width of the at least one discharge channel increases towards the outlet, wherein the axial width is defined in a direction parallel to the rotation axis of the impeller. 3. The axial blood pump of claim 1 , wherein a radial width of the at least one discharge channel increases towards the outlet, wherein the radial width is defined in a direction perpendicular to the rotation axis of the impeller. 4. The axial blood pump of claim 1 , wherein the blading of the impeller extends along the tubular inlet and/or along the tangential chamber. 5. The axial blood pump of claim 1 , wherein the tubular inlet comprises a hollow cylinder, wherein a diameter of the hollow cylinder of the tubular inlet corresponds to a diameter of an upstream opening of the tangential chamber. 6. The axial blood pump of claim 1 , wherein the impeller comprises a peripheral surface, wherein said peripheral surface carries the blading and is designed in an essentially cylinder-shaped manner, cone-shaped manner or truncated-cone-shaped manner. 7. An axial blood pump comprising: a tubular inlet comprising a hollow cylinder; an impeller configured to be set into a rotation about a rotation axis of the impeller with a rotor stator, wherein the impeller is provided with a blading configured to convey blood along the blading in an axial direction parallel to the rotation axis but not in a radial direction; and a tangential chamber adjoining the tubular inlet and including at least one discharge channel which runs tangentially around the rotation axis of the impeller towards an outlet of the tangential chamber, wherein a diameter of an upstream opening of the tangential chamber corresponds to a diameter of the hollow cylinder of the tubular inlet, wherein a centre of each of the at least one discharge channel runs helically at least partially around the rotation axis of the impeller, and wherein moving towards the outlet of the tangential chamber, the centre of each of the at least one discharge channel shifts in the axial direction in which the blading is configured to convey blood along the tubular inlet. 8. The axial blood pump of claim 7 , wherein a downstream end portion of the hollow cylinder of the tubular inlet is at least partly inserted into the upstream opening of the tangential chamber. 9. The axial blood pump of claim 7 , wherein the tubular inlet comprises a collar at a downstream end portion of the hollow cylinder of the tubular inlet, wherein the tubular inlet is fixed to the upstream opening of the tangential chamber via the collar. 10. The axial blood pump of claim 7 , wherein the impeller is arranged at least partly within the hollow cylinder of the tubular inlet. 11. The axial blood pump of claim 7 , wherein an axial width of the at least one discharge channel increases towards the outlet, wherein the axial width is defined in a direction parallel to the rotation axis of the impeller, and/or wherein a radial width of the at least one discharge channel increases towards the outlet, wherein the radial width is defined in a direction perpendicular to the rotation axis of the impeller. 12. An axial blood pump comprising: a tubular inlet; an impeller configured to be set into a rotation about a rotation axis of the impeller with a rotor stator, wherein the impeller is arranged at least partly within the tubular inlet and provided with a blading configured to convey blood along the blading in an axial direction parallel to the rotation axis but not in a radial direction; and a tangential chamber adjoining the tubular inlet and including N discharge channels which run tangentially around the rotation axis of the impeller towards an outlet of the tangential chamber, wherein the number N is greater than 1, wherein a centre of each of the N discharge channels runs helically at least partially around the rotation axis of the impeller, and wherein moving towards the outlet of the tangential chamber, the centre of each of the at least one discharge channel shifts in the axial direction in which the blading is configured to convey blood along the tubular inlet. 13. The axial blood pump of claim 12 , wherein the number N of the discharge channels corresponds to a number of blades of the blading of the impeller. 14. The axial blood pump of claim 12 , wherein the tangential chamber comprises N tongues defining the N discharge channels. 15. The axial blood pump of claim 14 , wherein the N tongues have an angular offset of approximately 360°/N from each other. 16. The axial blood pump of claim 12 , wherein the tubular inlet comprises a collar at a downstream end portion of the tubular inlet, wherein the tubular inlet is fixed to an upstream opening of the tangential chamber via the collar.