Blood pump

The invention claimed is: 1. A blood pump, comprising: a pump housing having a blood flow inlet and a blood flow outlet; a flexible drive shaft which is positioned in a lumen of a catheter, wherein the lumen of the catheter is in fluid communication with the pump housing; a delivery element which is connected to the flexible drive shaft in a distal region of the flexible drive shaft; and a motor having a motor housing configured to be arranged outside a body of a patient, wherein the motor comprises: a stator and a rotor which is rotatably mounted in the stator, wherein the flexible drive shaft is connected to the rotor at a proximal end of the flexible drive shaft, and wherein the stator and the rotor are connected to one another and form a gap which is delimited by the rotor and the stator, wherein the motor housing comprises a rinsing opening which is fluidically connected to the gap, wherein, during operation of the blood pump, blood enters the pump housing through the blood flow inlet, the motor drives the flexible drive shaft, the flexible drive shaft rotates the delivery element, and the blood exits the pump housing through the blood flow outlet, and, wherein the rinsing opening, the gap, and the lumen of the catheter are in fluid communication such that, during operation of the blood pump, a rinsing fluid introduced into the rinsing opening passes through the gap and the lumen of the catheter and exits the lumen of the catheter into the pump housing. 2. The blood pump according to claim 1 , wherein the gap has a width of at most 1 mm. 3. The blood pump according to claim 1 , wherein the gap is fluidically connected to an intermediate space which is formed between the catheter and the flexible drive shaft. 4. The blood pump according to claim 1 , wherein the gap has a minimal width of 0.05 mm. 5. The blood pump according to claim 1 , wherein the stator comprises a winding and the rotor comprises a rotor magnet, and the winding has an inner radius which is at most 1.5 times an outer radius of the rotor magnet. 6. The blood pump according to claim 5 , wherein a radial distance between the winding and the rotor magnet is at most 2 mm. 7. The blood pump according to claim 5 , wherein the winding is potted into a biocompatible potting compound. 8. The blood pump according to claim 5 , wherein the rotor has a coating or a cover for protection of the rotor magnet. 9. The blood pump according to claim 8 , wherein the gap is formed between an outer side of the coating or the cover of the rotor and an inner side of the winding of the stator. 10. The blood pump according to claim 1 , wherein the stator comprises a fluid-tight sleeve with an essentially annular cross section, by way of which the gap is delimited. 11. The blood pump according to claim 10 , wherein the rotor comprises a rotor magnet and wherein the fluid-tight sleeve has an extension in an axial direction which is smaller than 1.5 times an axial extension of the rotor magnet. 12. The blood pump according to claim 1 , wherein the rotor is radially mounted by at least one plain bearing. 13. The blood pump according to claim 1 , wherein the rotor is radially mounted by at least one ball bearing. 14. The blood pump according to claim 13 , wherein the at least one ball bearing comprises non-magnetisable material. 15. The blood pump according to claim 14 , wherein the at least one ball bearing comprises balls which comprise a ceramic material. 16. The blood pump according to claim 13 , wherein the at least one ball bearing comprises a cage which comprises a plastic. 17. The blood pump according to claim 1 , wherein the flexible drive shaft has a length sufficient to connect the delivery element arranged inside a ventricle with the motor arranged outside the body of the patient. 18. The blood pump according to claim 1 , comprising an unfoldable pump head which encompasses the delivery element and the pump housing, wherein the delivery element and the pump housing are designed to automatically unfold after a forced compression. 19. The blood pump according to claim 1 wherein the gap has a width of at least 0.1 mm. 20. The blood pump according to claim 1 , wherein touchable surfaces of a housing of the motor are configured to heat up to a temperature of not more than 60 degrees C. while the rotor is configured to spin at a speed of 15,000 r.p.m.