Ejector arrangement

What is claimed is: 1. An ejector arrangement comprising a housing and at least two ejectors arranged in said housing, wherein each ejector has a motive inlet, a suction inlet, an outlet and a valve element, wherein the ejector arrangement comprises a common actuator that is arranged to engage at least two of the valve elements to open the motive inlets, and wherein the outlets of the at least two ejectors are connected to a common outlet chamber of the housing. 2. The ejector arrangement according to claim 1 , wherein, the common actuator engages at least one of the valve elements before another of the valve elements when the common actuator is displaced along a common axis. 3. The ejector arrangement according to claim 1 , wherein, each of the ejectors are provided with a check valve or a non-return valve at the suction inlet. 4. The ejector arrangement according to claim 1 , wherein, the housing comprises a cylindrical body around a common axis and the ejectors are arranged on a circular path around the common axis. 5. The ejector arrangement according to claim 1 , wherein, at least one of the ejectors has a larger flow capacity than the remaining ejectors. 6. The ejector arrangement according to claim 1 , wherein, a common suction line is arranged in an end face of the housing connected to all the suction inlets of the ejectors. 7. The ejector arrangement according to claim 1 , wherein, a common motive line connected to all the motive inlets is arranged to enter the housing. 8. The ejector arrangement according to claim 1 , wherein, when the common actuator is displaced towards an opening direction, the common actuator begins to open a next one of the motive inlets only after a previously opened one of the motive inlets is fully open. 9. The ejector arrangement according to claim 1 , wherein, when the common actuator is displaced towards an opening direction, the common actuator begins to open a next one of the motive inlets before a previously opened one of the motive inlets is fully open. 10. The ejector arrangement according to claim 1 , wherein, at least two of the motive inlets are opened in parallel by the common actuator when the common actuator is displaced along a common axis. 11. The ejector arrangement according to claim 1 , wherein, the common actuator comprises a pilot valve, wherein the pilot flow is controlled by an electric valve. 12. The ejector arrangement according to claim 1 , wherein, the common actuator comprises an actuating element with a plurality of orifices, each of which accommodates one of the valve elements. 13. The ejector arrangement according to claim 12 , wherein, the length of at least two of the orifices along a common axis is different. 14. The ejector arrangement according to claim 1 , wherein, each valve element comprises a first section and a second section, wherein the first section has a larger cross section than the second section, wherein the second sections of at least two of the valve elements have a different length along a common axis. 15. The ejector arrangement according to claim 1 , wherein, the housing comprises a circumferential wall, wherein the outlets are arranged radially outside the circumferential wall and the suction inlets are arranged radially inside the circumferential wall. 16. The ejector arrangement according to claim 2 , wherein, each of the ejectors is provided with a check valve or a non-return valve at the suction inlet. 17. The ejector arrangement according to claim 2 , wherein, the housing comprises a cylindrical body around a common axis and the ejectors are arranged on a circular path around the common axis. 18. The ejector arrangement according to claim 3 , wherein, the housing comprises a cylindrical body around a common axis and the ejectors are arranged on a circular path around the common axis. 19. The ejector arrangement according to claim 2 , wherein, at least one of the ejectors has a larger flow capacity than the remaining ejectors. 20. The ejector arrangement according to claim 3 , wherein, at least one of the ejectors has a larger flow capacity than the remaining ejectors.