Waste water pump

We claim: 1. A waste water pump comprising: an impeller ( 10 ) including a suction port ( 12 ), a sealing surface ( 14 ) annularly surrounding the suction port and sealingly bearing on a stationary seal ( 18 ) in an axial region of contact between the sealing surface ( 14 ) and the stationary seal ( 18 ) forming an axial bearing-contact region of the stationary seal ( 18 ) on the sealing surface ( 14 ), at least one groove ( 28 ) being formed in the sealing surface ( 14 ) and extending axially beyond the axial bearing-contact region of the stationary seal ( 18 ) on the sealing surface ( 14 ), the groove ( 28 ) including a first end ( 30 ) in connection with an impeller side chamber ( 20 ) and an opposite second end ( 32 ) in connection with a suction side of the impeller ( 10 ), and a surface ( 34 ) being arranged in the impeller side chamber ( 20 ) adjacent the stationary seal ( 18 ) for producing turbulences. 2. The waste water pump according to claim 1 , wherein the surface ( 34 ) for producing turbulences is formed on the stationary seal ( 18 ). 3. The waste water pump according to claim 2 , wherein the stationary seal ( 18 ) faces the impeller side chamber ( 20 ). 4. The waste water pump according to claim 3 , wherein the stationary seal ( 18 ) is designed in an annular manner and the surface ( 34 ) for producing turbulences is located on an axial end-side of the stationary seal ( 18 ). 5. The waste water pump according to claim 1 , wherein the sealing surface ( 14 ) is formed on an outer peripheral surface of the impeller ( 10 ) and is surrounded by the stationary seal ( 18 ). 6. The waste water pump according to claim 1 , wherein the sealing surface ( 14 ) and the stationary seal ( 18 ) bear radially on one another. 7. The waste water pump according to claim 1 , wherein the groove ( 28 ) extends in a rotation direction (D) of the impeller ( 10 ), the groove ( 28 ) being inclined in a manner such that the first end ( 30 ) which is at a front in the rotation direction (D) faces the impeller side chamber ( 20 ). 8. The waste water pump according to claim 1 , wherein the groove ( 28 ) only extends in a peripheral part-region of the sealing surface ( 14 ). 9. The waste water pump according to claim 1 , wherein one or more recesses ( 40 , 46 ) are formed in an annular gap ( 26 ) which connect the impeller side chamber ( 20 ) to a spiral chamber ( 24 ) surrounding the impeller ( 10 ), the one or more recesses ( 40 , 46 ) fragmenting solid matter. 10. The waste water pump according to claim 9 , wherein the annular gap ( 26 ) is formed between an outer annular surface ( 42 ) on a periphery of the impeller ( 10 ) and a radially oppositely lying inner peripheral surface ( 44 ) of a spiral housing ( 4 ) surrounding the impeller ( 10 ). 11. The waste water pump according to claim 10 , wherein at least one radially inwardly directed recess ( 40 ) of the one or more recesses ( 40 , 46 ) is formed in the outer annular surface ( 42 ). 12. The waste water pump according to claim 11 , wherein several radially inwardly directed recesses ( 40 ) of the one or more recesses ( 40 , 46 ) are formed in the annular surface ( 42 ) and are uniformly distributed over the periphery. 13. The waste water pump according to claim 12 , wherein a radially outwardly directed recess ( 46 ) of the one or more recesses ( 40 , 46 ) is formed in the radially oppositely lying inner peripheral surface ( 44 ) which lies opposite the annular surface ( 42 ). 14. The waste water pump according to claim 13 , wherein the recess ( 46 ) in the inner peripheral surface ( 44 ) of the spiral housing ( 4 ) is situated in the region of a peripheral end of the spiral chamber ( 24 ) which is away from an outlet ( 50 ). 15. The waste water pump according to claim 10 , wherein one or more recesses ( 40 , 46 ) each has a semicircular cross section.