Rotary piston pump made of plastic

What is claimed is: 1. A rotary piston pump for one-time use made of plastic for screwing onto a fastening nozzle on a tubular bag, the rotary piston pump comprising two rotors ( 10 ) which are coupled to each other via gear wheels ( 11 ) and which can be driven in opposition and which are mounted in a pump housing ( 5 ), which has a suction nozzle ( 6 ) and an outlet nozzle ( 7 ), wherein each rotor ( 10 ) has a rotor shaft ( 12 ) rotatable about a respective rotor axis, rotor shaft ends ( 15 ) of the rotor shaft ( 12 ) being mounted in walls ( 8 , 4 ) of the pump housing ( 5 ), and each of the gear wheels ( 11 ) is integrally molded to a respective one of the rotor shafts ( 12 ), and wherein each rotor ( 10 ) has two rotor wing walls ( 13 ) which are arranged diametrically on the rotor shaft ( 12 ), which are generally perpendicular to the rotor axis, which flare continuously outward and to each of peripheral ends of which a rotor wing shoe ( 14 ) is molded, wherein the rotor wing shoe ( 14 ) forms a portion of a cylinder centered on the rotor axis, and wherein each of the rotor wing shoes ( 14 ) contacts a respective cylindrical inside wall region of the pump housing ( 5 ), on one side, and the rotor shaft ( 12 ) of the adjacent rotor ( 10 ) on the other, in a sliding and sealing manner, characterized in that seals are integrally molded on each of the rotors ( 10 ), wherein the seals substantially prevent effects of air admission onto content located in the tubular bag, wherein the seals comprise, on each of the rotor wing walls ( 13 ), a lateral sealing lip ( 27 ) extending radially outward from the respective rotor axis. 2. The rotary piston pump according to claim 1 , characterized in that the seals comprise sealing or scraping edges ( 23 ) on exterior surfaces ( 21 ) of the rotor wing shoes ( 14 ). 3. The rotary piston pump according to claim 2 , characterized in that the pump housing ( 5 ) has a closed bearing sleeve ( 29 ) for accommodating a first rotor shaft journal ( 35 ) as well as an open bearing sleeve ( 30 ) for accommodating a second rotor shaft journal ( 35 ) comprising a drive coupling part ( 16 ), wherein further sealing means are present in a region of the open bearing sleeve ( 30 ). 4. The rotary piston pump according to claim 3 , characterized in that the further sealing means comprise at least one circumferential sealing lip ( 31 ′) which is integrally molded on the second rotor shaft journal ( 35 ) which is configured to be inserted into the open bearing sleeve ( 30 ) of the pump housing ( 5 ). 5. The rotary piston pump according to claim 4 , characterized in that the further sealing means comprise at least one circumferential sealing lip ( 31 ) which is integrally molded on the open bearing sleeve ( 30 ). 6. The rotary piston pump according to claim 5 , characterized in that the rotor wing walls ( 13 ), which comprise the rotor wing shoes ( 14 ) and flare continuously outward, have concave indentations ( 38 ) on the peripheral ends thereof, the shape or, respectively, the curve shape of said indentations is formed in such a way that a quasi-permanent, mutual contact of the end edges ( 22 ) with the surface of said concave indentations ( 38 ) results and therefore as few as possible or no product residues remain in said concave indentations during a pumping operation. 7. The rotary piston pump according to claim 6 , characterized in that partial chambers ( 39 ) can be formed in the intermediate region between the two rotors ( 10 ) in a quasi-permanent manner during operation, wherein on the one hand, due to the feature that the exterior surface ( 21 ) of each rotor wing shoe ( 14 ) of a rotor contacts the rotor shaft ( 12 ) of the adjacent rotor ( 10 ) during operation, a first partial chamber-sealing is achieved, and on the other hand, due to the feature that a quasi-permanent, mutual contact of the end edges ( 22 ) with the surface of the concave indentations ( 38 ) results during operation, at least approximately a second partial chamber-sealing is achieved, whereby the effects of air admission onto the content located in the tubular bag are likewise reduced as a result of partitioning. 8. The rotary piston pump according to claim 2 , wherein the sealing or scraping edges are centered between and parallel to end edges ( 22 ) of the rotor wing shoes and extend radially from the exterior surfaces ( 21 ) of the rotor wing shoes ( 14 ), wherein the end edges are parallel to the rotor axis. 9. The rotary piston pump according to claim 1 , characterized in that the pump housing ( 5 ) has a closed bearing sleeve ( 29 ) for accommodating a first rotor shaft journal ( 35 ) as well as an open bearing sleeve ( 30 ) for accommodating a second rotor shaft journal ( 35 ) comprising a drive coupling part ( 16 ), wherein further sealing means are present in a region of the open bearing sleeve ( 30 ). 10. The rotary piston pump according to claim 9 , characterized in that the further sealing means comprise at least one circumferential sealing lip ( 31 ′) which is integrally molded on the second rotor shaft journal ( 35 ) which is configured to be inserted into the open bearing sleeve ( 30 ) of the pump housing ( 5 ). 11. The rotary piston pump according to claim 10 , characterized in that the further sealing means comprise at least one circumferential sealing lip ( 31 ) which is integrally molded on the open bearing sleeve ( 30 ). 12. The rotary piston pump according to claim 1 , characterized in that the rotor wing walls ( 13 ), which comprise the rotor wing shoes ( 14 ) and flare continuously outward, have concave indentations ( 38 ) on the peripheral ends thereof, a shape or, respectively, a curve shape of said indentations is formed in such a way that a quasi-permanent, mutual contact of end edges ( 22 ) with a surface of said concave indentations ( 38 ) results and therefore as few as possible or no product residues remain in said concave indentations during a pumping operation. 13. The rotary piston pump according to claim 12 , characterized in that partial chambers ( 39 ) can be formed in the intermediate region between the two rotors ( 10 ) in a quasi-permanent manner during operation, wherein on the one hand, because an exterior surface ( 21 ) of each rotor wing shoe ( 14 ) of one of the two rotors contacts the rotor shaft ( 12 ) of the other of the two rotors ( 10 ) during operation, a first partial chamber-sealing is achieved, and on the other hand, due to the feature that a quasi-permanent, mutual contact of the end edges ( 22 ) with the surface of the concave indentations ( 38 ) results during operation, at least approximately a second partial chamber-sealing is achieved, whereby the effects of air admission onto the content located in the tubular bag are likewise reduced as a result of partitioning. 14. The rotary piston pump according to claim 13 , characterized in that the seals comprise longitudinal skimming ribs ( 28 ) on the rotor shafts ( 12 ). 15. A rotary piston pump for one-time use made of plastic for screwing onto a fastening nozzle on a tubular bag, the rotary piston pump comprising two rotors ( 10 ) which are coupled to each other via gear wheels ( 11 ) and which can be driven in opposition and which are mounted in a pump housing ( 5 ), which has a suction nozzle ( 6 ) and an outlet nozzle ( 7 ), wherein each rotor ( 10 ) has a rotor shaft ( 12 ) rotatable about a respective rotor axis, rotor shaft ends ( 15 ) of the rotor shaft being mounted in walls ( 8 , 4 ) of the pump housing ( 5 ), and each of the gear wheels is integrally molded to a respective one of the rotor shafts, and wherein each rotor