Reduced-noise rotary pump

The invention claimed is: 1. A rotary pump comprising: (a) a stator and (b) a rotor rotatable about a rotational axis within the stator, wherein (c) the rotor comprises multiple delivery elements adapted to move radially in relation to the rotational axis, and (d) two adjacent delivery elements limit a delivery cell together with an outer surface area of the rotor and an inner surface area of the stator, wherein (e) at least two delivery cells, which exhibit a first maximum cell volume form a first delivery cell group and (f) at least two other delivery cells, which exhibit a second maximum cell volume form a second delivery cell group, wherein (g) the first maximum cell volume of the delivery cells of the first delivery cell group is larger than the second maximum cell volume of the delivery cells of the second delivery cell group, and (h) wherein the delivery elements which limit a delivery cell of the first delivery cell group are each arranged at a first angular distance from each other on the rotor, and the delivery elements which limit a delivery cell of the second delivery cell group are each arranged at a second angular distance from each other on the rotor, wherein the first angular distance is larger than the second angular distance. 2. The rotary pump according to claim 1 , wherein the delivery cells of the first delivery cell group exhibit an at least an identical first maximum cell volume, and the delivery cells of the second delivery cell group exhibit an identical second maximum cell volume. 3. The rotary pump according to claim 1 , wherein a number of delivery cells in the first delivery cell group is not equal to a number of delivery cells in the second delivery cell group. 4. The rotary pump according to claim 1 , wherein a number of delivery cells in the first delivery cell group is smaller than a number of delivery cells of the second delivery cell group. 5. The rotary pump according to claim 1 , wherein the first delivery cell group comprises at least two and at most six delivery cells, wherein the adjacent delivery elements of the first delivery cell group are arranged at the first angular distance of 40° to 45° from each other on the rotor. 6. The rotary pump according to claim 1 , wherein the second delivery cell group comprises at least four and at most ten delivery cells, wherein the adjacent delivery elements of the second delivery cell group are arranged at the second angular distance of 35° to 40° from each other on the rotor. 7. The rotary pump according to claim 1 , wherein the rotary pump comprises a total of at least six and at most sixteen delivery cells. 8. The rotary pump according to claim 1 , wherein a circumferential distance along the inner surface area of the stator between two adjacent delivery elements which limit a delivery cell of the first delivery cell group is larger than a circumferential distance along the inner surface area of the stator between two adjacent delivery elements which limit a delivery cell of the second delivery cell group. 9. The rotary pump according to claim 1 , wherein a circumferential distance along the outer surface area of the rotor between two adjacent delivery elements which limit a delivery cell of the first delivery cell group is larger than a circumferential distance along the outer surface area of the rotor between two adjacent delivery elements which limit a delivery cell of the second delivery cell group. 10. The rotary pump according to claim 1 , wherein the rotary pump comprises more than two delivery cell groups. 11. The rotary pump according to claim 10 , wherein a maximum cell volume of the delivery cells of each delivery cell group is not equal to a maximum cell volumes of the delivery cells of each of the other delivery cell groups. 12. The rotary pump according to claim 10 , wherein the delivery cells of two non-adjacent delivery cell groups exhibit an identical maximum cell volume. 13. The rotary pump according to claim 1 , wherein the pump is a vane cell pump or a pendulum slider pump. 14. The rotary pump according to claim 1 , wherein the at least two delivery cells which exhibit the first maximum cell volume and form the first delivery cell group are adjacent delivery cells or the at least two other delivery cells which exhibit the second maximum cell volume and form the second delivery cell group are adjacent delivery cells. 15. A rotary pump comprising: (a) a stator and (b) a rotor rotatable about a rotational axis within the stator, wherein (c) the rotor comprises multiple delivery elements adapted to move radially in relation to the rotational axis, and (d) two adjacent delivery elements limit a delivery cell together with an outer surface area of the rotor and an inner surface area of the stator, wherein (e) at least two delivery cells, which exhibit a first maximum cell volume form a first delivery cell group, and (f) at least two other delivery cells, which exhibit a second maximum cell volume form a second delivery cell group, wherein (g) the first maximum cell volume of the delivery cells of the first delivery cell group is larger than the second maximum cell volume of the delivery cells of the second delivery cell group, and (h) wherein the first delivery cell group comprises at least two and at most six delivery cells, wherein the adjacent delivery elements of the first delivery cell group are arranged at a first angular distance of 43° from each other on the rotor. 16. The rotary pump according to claim 15 , wherein the second delivery cell group comprises at least four and at most ten delivery cells, wherein the adjacent delivery elements of the second delivery cell group are arranged at a second angular distance of 35° to 40° from each other on the rotor. 17. The rotary pump according to claim 15 , wherein the rotary pump comprises a total of at least six and at most sixteen delivery cells. 18. A rotary pump comprising: (a) a stator and (b) a rotor rotatable about a rotational axis within the stator, wherein (c) the rotor comprises multiple delivery elements adapted to move radially in relation to the rotational axis, and (d) two adjacent delivery elements limit a delivery cell together with an outer surface area of a rotor and the inner surface area of the stator, wherein (e) at least two delivery cells which exhibit a first maximum cell volume form a first delivery cell group and (f) at least two other delivery cells which exhibit a second maximum cell volume form a second delivery cell group, wherein (g) the first maximum cell volume of the delivery cells of the first delivery cell group is larger than the second maximum cell volume of the delivery cells of the second delivery cell group, and (h) wherein the second delivery cell group comprises at least four and at most ten delivery cells, wherein the adjacent delivery elements of the second delivery cell group are arranged at a second angular distance of 38.5° from each other on the rotor. 19. The rotary pump according to claim 18 , wherein the rotary pump comprises a total of at least six and at most sixteen delivery cells. 20. A rotary pump comprising: (a) a stator and (b) a rotor rotatable about a rotational axis within the stator, wherein (c) the rotor comprises multiple delivery elements adapted to move radially in relation to the rotational axis, and (d) two adjacent delivery elements limit a delivery cell together with an outer surface area of a rotor and the inner surface area of the stator, wherein (e) at l