Fluid pump

The invention claimed is: 1. A fluid pump for conveying a fluid comprising: a housing with a fluid inlet and a fluid outlet, a rotor which is disposed rotatably about an axis of rotation in the housing, and a rotor body and at least one conveying element connected rigidly to the rotor body in order to convey the fluid from the fluid inlet to the fluid outlet, the rotor being mounted in the housing radially to the axis of rotation by means of a passive magnetic bearing and also axially and radially by means of a mechanical and/or hydrodynamic bearing disposed on the inlet side or outlet side, wherein a safety bearing being disposed on one side of the rotor situated opposite the mechanical and/or hydrodynamic bearing, wherein the safety bearing has a first safety bearing component connected rigidly to the rotor and a second safety bearing component connected rigidly to the housing, during operation of the fluid pump, an axial and radial spacing between the first and the second safety bearing component being greater than a radial minimal spacing between the rotor and the housing, and the safety bearing being equipped to restrict deflection of the rotor in the radial direction inside the housing. 2. The fluid pump of claim 1 , wherein the safety bearing is configured such that, during operation of the fluid pump, there is, between the first and the second safety bearing component, an axial spacing ≥10 μm and/or ≤500 μm and a radial spacing ≥50 μm and/or ≤1,000 μm. 3. The fluid pump of claim 1 , wherein the safety bearing is disposed outside a primary fluid path leading from the fluid inlet to the fluid outlet. 4. The fluid pump of claim 3 , wherein the safety bearing is disposed on one side of a volute of the housing orientated away from the mechanical and/or hydrodynamic bearing. 5. The fluid pump of claim 1 , wherein the conveying element is disposed in a region of the rotor body adjacent to the mechanical and/or hydrodynamic bearing. 6. The fluid pump of claim 1 , wherein the conveying element is disposed on the rotor body such that the conveying element overlaps the mechanical and/or hydrodynamic bearing radially to the axis of rotation. 7. The fluid pump of claim 1 , wherein the conveying element is disposed in a region of the rotor body in which a spacing between a surface of the rotor body and the housing is greater than a minimal spacing between the surface and the housing. 8. The fluid pump of claim 7 , wherein the conveying element is disposed in a volute of the housing. 9. The fluid pump of claim 1 , wherein the conveying element has, on one side orientated towards the housing, an axial section contour which is adapted to an inner axial section contour of the housing on a side of the housing orientated towards the conveying element so that a radial spacing between the conveying element and the housing, along at least one region of the conveying element, is essentially constant in the axial direction. 10. The fluid pump of claim 9 , wherein the radial spacing between the conveying element and the housing, along at least one region of the conveying element is least ≥40% of a length of the conveying element in the axial direction. 11. The fluid pump of claim 9 , wherein the axial section contour of the conveying element and the inner axial section contour of the housing have corresponding spherical curves. 12. The fluid pump of claim 1 , wherein the magnetic bearing is disposed in the axial direction on a side of the rotor body situated towards the safety bearing. 13. The fluid pump of claim 1 , wherein the magnetic bearing has at least one first and one second magnet, the first magnet being disposed in the housing and the second magnet being disposed in the rotor body, the second magnet opposite the first magnet being offset in the axial direction relative to the mechanical and/or hydrodynamic bearing so that the rotor body is pretensioned in the axial direction counter to a fluid flow. 14. The fluid pump of claim 1 , wherein the mechanical and/or hydrodynamic bearing has a first bearing component connected rigidly to the rotor and a second bearing component connected rigidly to the housing, and the magnetic bearing is configured such that, during operation of the fluid pump, a spacing between the first and the second bearing component is minimised. 15. The fluid pump of claim 14 , wherein the magnetic bearing is configured such that, during operation of the fluid pump, the spacing between the first and the second bearing component is smaller than the axial and/or radial spacing between the first safety bearing component and the second safety bearing component. 16. The fluid pump of claim 1 , wherein the fluid pump is an axial flow pump or a radial flow pump or a combination of axial flow- and radial flow pump. 17. The fluid pump of claim 1 , wherein the first and/or the second safety bearing component comprise a ceramic, polymeric, metallic and/or monocrystalline material or consist thereof, and/or wherein a first and/or second bearing component of the mechanical and/or hydrodynamic bearing comprise a ceramic, polymeric, metallic and/or monocrystalline material or consist thereof. 18. The fluid pump of claim 1 , wherein the first and/or the second safety bearing component has a coating which inhibits wear and tear and/or reduces blood damage, and/or in that wherein a first and/or second bearing component of the mechanical and/or hydrodynamic bearing has a coating which inhibits wear and tear and/or reduces blood damage.