Nozzle for the supply of biological material, in particular cells, medical device with such a nozzle, use of a nozzle, method for mixing fluids and apparatus

What is claimed is: 1. Nozzle for the supply of biological material comprising: a mixing chamber ( 11 ) which is delimited by a proximal end surface ( 21 ) and a distal end surface ( 22 ) spaced apart from the proximal end surface ( 21 ), at least one nozzle opening ( 23 ) which is formed in the distal end surface ( 22 ), at least two supply ducts ( 30 , 40 , 50 ) which discharge into the mixing chamber ( 11 ), a first supply duct ( 30 ) is arranged in the proximal end surface ( 21 ) and configured to discharge into the mixing chamber ( 11 ) coaxially to the nozzle opening ( 23 ), and a second supply duct ( 40 ) including an inlet opening ( 42 ) which discharges into the mixing chamber ( 11 ) laterally from and tangentially to an axis passing through the at least one nozzle opening ( 23 ) at the distal end surface ( 22 ) wherein the inlet opening ( 42 ) discharges into the mixing chamber ( 11 ) in a plane orthogonal to the axis passing through the at least one nozzle opening ( 23 ). 2. Nozzle according to claim 1 , wherein the mixing chamber ( 11 ) has a length L which is at most 500 μm. 3. Nozzle according to claim 1 , wherein the inlet opening ( 42 ) has a depth T which corresponds to length L of the mixing chamber ( 11 ). 4. Nozzle according to claim 1 , wherein the distal end surface ( 22 ) of the mixing chamber ( 11 ) is arranged perpendicular to a longitudinal axis of the second supply duct ( 40 ). 5. Nozzle according to claim 1 , wherein the inlet opening ( 42 ) has a rectangular cross-sectional profile or tapers in a direction of the mixing chamber ( 11 ). 6. Nozzle according to claim 5 , wherein the inlet opening ( 42 ) has in particular two curved lateral surfaces ( 43 , 44 ) which converge at the mixing chamber ( 11 ). 7. Nozzle according to claim 6 , wherein an outer lateral surface ( 43 ) of the inlet opening ( 42 ) forms a continuous transition into an inner circumferential surface ( 12 ) of the mixing chamber ( 11 ). 8. Nozzle according to claim 1 , further comprising at least one third supply duct ( 50 ) with an additional lateral inlet opening ( 52 ), which discharges laterally into the mixing chamber ( 11 ) at the distal end surface ( 22 ). 9. Nozzle according to claim 1 , wherein one or more of the supply ducts ( 30 , 40 , 50 ), the mixing chamber ( 11 ), and the nozzle opening ( 23 ) are formed in one piece or several pieces. 10. Nozzle according to claim 1 , wherein the supply ducts ( 30 , 40 , 50 ) are formed in a duct carrier ( 60 ) or the nozzle opening ( 23 ) is formed in a nozzle plate ( 20 ), wherein the mixing chamber ( 11 ) is formed in the nozzle plate ( 20 ) or in a mixing chamber plate ( 10 ) which is arranged between the nozzle plate ( 20 ) and the duct carrier ( 60 ). 11. Nozzle according to claim 1 , further comprising at least one temperature control duct ( 90 ) configured to provide temperature control for a fluid flowing through at least one supply duct ( 30 , 40 , 50 ), wherein the temperature control duct ( 90 ) connects a supply line and a return line in such a manner that a closed temperature control circuit is formed. 12. Nozzle according to claim 1 , further comprising at least an atomiser plate ( 80 ) connected distally to the nozzle plate ( 20 ) and having an atomiser opening ( 82 ) arranged coaxially to the nozzle opening ( 23 ), wherein at least one atomiser duct ( 81 ) is formed in the atomiser plate ( 80 ), connects the atomiser opening ( 82 ) to a gas supply duct ( 70 ) and preferably discharges tangentially into the atomiser opening ( 82 ). 13. Nozzle for medical purposes comprising: a mixing chamber ( 11 ), which is delimited by a proximal end surface ( 21 ) and a distal end surface ( 22 ) spaced apart from the proximal end surface ( 21 ), and at least one nozzle opening ( 23 ) which is arranged in the distal end surface ( 22 ), wherein the mixing chamber ( 11 ) has a substantially cylindrical inner contour with at least two inlet openings ( 42 , 52 ) which discharge into the mixing chamber ( 11 ) laterally from and tangentially to an axis passing through the at least one nozzle opening ( 23 ), which inlet openings ( 42 , 52 ) are fluid-connected to a supply duct ( 40 , 50 ), wherein the at least two inlet openings ( 42 ) discharge into the mixing chamber ( 11 ) in a plane orthogonal to the axis passing through the at least one nozzle opening ( 23 ), and wherein the inlet openings ( 42 , 52 ) have different or the same cross-sectional surfaces. 14. Nozzle according to claim 13 , wherein a cross-sectional surface of the inlet opening ( 42 , 52 ) is formed to be smaller than a cross-sectional surface of the supply line ( 30 ). 15. Nozzle according to claim 13 , wherein a ratio of the cross-sectional surfaces of the inlet openings ( 42 , 52 ) corresponds to a ratio of volumetric flows of at least two fluids which flow with different or same volumetric flows into the mixing chamber ( 11 ), so that the fluids flow into the mixing chamber ( 11 ) with a substantially same average entry speed.