Switch assembly

The invention claimed is: 1. A switch assembly for switching an electric circuit, wherein the switch assembly, wherein the switch assembly comprises: a contributory switch; a main switch; and a flexible element, wherein the contributory switch and the main switch are connected electrically in series, the contributory switch and the main switch each comprise at least one movable contact and the flexible element is connected to one movable contact of the contributory switch, a first contact, and one movable contact of the main switch, a second contact, and wherein opening of the contributory switch is arranged to compress the flexible element and the decompression of the flexible element is arranged to cause opening of the main switch. 2. A switch assembly according to claim 1 , wherein the contributory switch comprises a repulsive force actuator for actuating a mechanical movement opening a contact of the contributory switch in response to a magnetic pulse. 3. A switch assembly according to claim 1 , wherein a flexible element provides, in a compressed state, a contact force between contacts of the contributory switch during a closed state of the switch assembly. 4. A switch assembly according to claim 1 , wherein the contributory switch is coupled to the flexible element such that the mechanical movement of the opening contributory switch is arranged to, together with the flexible element, open of the main switch and to allow the flexible element to decompress so as to keep the contact of the main switch in an open state. 5. A switch assembly according to claim 2 , wherein said repulsive force actuator comprises one movable contact. 6. A switch assembly according to claim 5 , wherein the repulsive force actuator comprises a Thomson coil. 7. A switch assembly according to claim 2 , wherein said repulsive force actuator comprises two movable contacts. 8. A switch assembly according to claim 7 , wherein each of the two movable contacts of the repulsive force actuator comprises a coil movable with said movable contact enabling providing a repulsive force by opposite feeding currents in the coils. 9. A switch assembly according to claim 1 , wherein the flexible element comprises a cellular plastic material. 10. A switch assembly according to claim 1 , wherein the main switch comprises a spring-return solenoid actuator for closing the contact of the main switch. 11. A switch assembly according to claim 1 , comprising force-providing means for providing, in a closed state, a contact force for the contact of the mains switch and a compressive force for the flexible element. 12. A switch assembly according to claim 11 , wherein the force-providing means comprise at least one of the following: a permanent magnet and an electric magnet. 13. A switch assembly according to claim 1 , wherein a movable first contact and a movable second contact connect, in a closed state, two connectors of the switch assembly such that when one of the movable contacts is opened, two air gaps are arranged to be formed, one air gap at each end of the movable contact, wherein the two connectors comprise at least two of the following: a main connector, a middle connector and an inner connector. 14. A switch arrangement, wherein two switch assemblies according to claim 1 are coupled to one another in opposite directions. 15. A switch arrangement according to claim 14 , wherein the two switch assemblies share a common repulsive force actuator actuating a mechanical movement simultaneously in two opposite directions and thus opening a contact of each of the contributory switches in response to a single magnetic pulse. 16. A method of switching an electric circuit by a switch assembly, wherein the switch assembly comprises a contributory switch and a main switch, which are connected electrically in series, and where movable contacts of each switch are mechanically connected to each other by a flexible element, and by the method comprising: opening the contributory switch such that the flexible element becomes compressed, whereby the decompression of the flexible element is arranged to cause opening of the main switch.