Centrifugal pump assembly

What is claimed is: 1. A centrifugal pump assembly comprising: at least one impeller; an electric drive motor driving the impeller; a back-flow channel forming a flow connection from a delivery side of the impeller to a suction side of the impeller; a valve closing, in a pressure-dependent manner, the flow connection; and a control device setting a speed of the drive motor, said control device being further configured, after a detection of an air accumulation by way of the control device, to automatically reduce the speed of the drive motor and subsequently rapidly increase the speed of the drive motor again. 2. A centrifugal pump assembly according to claim 1 , wherein the control device is further configured such that the speed of the drive motor is reduced to such an extent that the valve of the back-flow channel opens. 3. A centrifugal pump assembly according to claim 1 , wherein the control device is further configured such that the speed of the drive motor is increased to a maximal speed. 4. A centrifugal pump assembly according to claim 1 , wherein the control device is further configured such that the speed of the drive motor is increased to a maximum speed in less than three seconds. 5. A centrifugal pump assembly according to claim 1 , wherein the control device detects the air accumulation based on the control device further having a monitoring function to recognize an air accumulation by way of electrical power consumption falling below a defined first limit valve at a certain speed. 6. A centrifugal pump assembly according to claim 5 , wherein the control device is configured such that the first limit value for the electrical power consumption lies above a second limit value for the electrical power consumption, wherein said second limit value signals a dry running of the centrifugal pump assembly. 7. A centrifugal pump assembly according to claim 1 , wherein a rotation axis of the drive motor and of the at least one impeller extends horizontally in a defined operational position. 8. A centrifugal pump assembly according to claim 1 , further comprising at least another impeller and a common shaft, wherein the centrifugal pump assembly is configured as a multi-stage pump with at least two impellers which are driven by the common shaft. 9. A centrifugal pump assembly according to claim 8 , wherein the back-flow channel connects the delivery side of one of the impellers, which is last in the flow direction, to the suction side of a first of the impellers. 10. A house water system for delivery or pressure increase or both delivery and pressure increase in a water supply, the house water system comprising a centrifugal pump assembly comprising: at least one impeller; an electric drive motor driving the impeller; a back-flow channel forming a flow connection from a delivery side of the impeller to a suction side of the impeller; a valve closing, in a pressure-dependent manner, the flow connection; and a control device setting a speed of the drive motor, said control device being further configured, after a detection of an air accumulation by way of the control device, to automatically reduce the speed of the drive motor and subsequently rapidly increase the speed of the drive motor again. 11. A method for removing an air accumulation from a centrifugal pump assembly comprising at least one impeller, an electric drive motor driving the impeller, a back-flow channel forming a flow connection from a delivery side of the impeller to a suction side of the impeller, a valve in the back-flow channel closing, in a pressure-dependent manner, the flow connection and a control device setting a speed of the drive motor during operation thereof, the method comprising the steps of: in a reducing step, reducing a speed of the drive motor of the centrifugal pump assembly, wherein the speed of the drive motor, in the reducing step, is reduced to such an extent that the valve in the back-flow channel between the delivery side and the suction side of the centrifugal pump assembly opens; and subsequently, in an increasing step, rapidly increasing the speed of the drive motor of the centrifugal pump assembly. 12. A method according to claim 11 , wherein in the increasing step, the speed of the drive motor of the centrifugal pump assembly is increased to the maximal speed. 13. A method according to claim 11 , wherein the speed of the drive motor, in the increasing step, is increased to the maximal speed in less than three seconds. 14. A method according to claim 11 , wherein the air accumulation in the centrifugal pump assembly, which is to be removed, is recognized by way of electrical power consumption falling below a defined limit value at a certain speed. 15. A method for removing an air accumulation from a centrifugal pump assembly comprising at least one impeller, an electric drive motor driving the impeller, a back-flow channel forming a flow connection from a delivery side of the impeller to a suction side of the impeller, a valve closing, in a pressure-dependent manner, the flow connection, and a control device setting a speed of the drive motor during operation thereof, the method comprising the steps of: in a reducing step, reducing a speed of the drive motor of the centrifugal pump assembly; and subsequently, in an increasing step, rapidly increasing the speed of the drive motor of the centrifugal pump assembly; wherein the air accumulation in the centrifugal pump assembly, which is to be removed, is recognized by way of electrical power consumption falling below a defined limit value at a certain speed.