Particle removing arrangement for an electric vehicle

The invention claimed is: 1. A particle removing arrangement adapted to remove particles from the upper contact surface of an electric rail comprised in an electric highway by the use of an airflow, where the particle removing arrangement is arranged in front of a current collector of a vehicle, where the particle removing arrangement comprises an inlet opening for inlet of air and an outlet opening for outlet of air, wherein the inlet opening is directed in a forward direction and the outlet opening is directed in a sideway to rearward direction in relation to the driving direction of the vehicle, and where the particle removing arrangement creates a particle removing airflow from a forward movement of the vehicle, wherein the particle removing arrangement has a first low, active position where the particle removing arrangement is positioned adjacent the upper contact surface of the electric rail and a second idle position where the particle removing arrangement is positioned above the first position. 2. A particle removing arrangement according to claim 1 , wherein the particle removing arrangement is adapted to remove particles from an upper contact surface of the electric rail that is aligned with or is positioned above the adjacent road surface. 3. A particle removing arrangement according to claim 1 , wherein the particle removing arrangement is adapted to remove particles from an upper contact surface of the electric rail that is substantially horizontal and flat. 4. A particle removing arrangement according to claim 1 , wherein the particle removing arrangement is an ejector. 5. A particle removing arrangement according to claim 4 , wherein the particle removing airflow is a suction airflow, where the particle removing arrangement comprises a particle inlet adapted to be positioned above the upper contact surface of the electric rail. 6. A particle removing arrangement according to claim 4 , wherein the outlet air flow from the outlet opening is directed in a direction that is between 90 and 180 degrees to the driving direction of the vehicle. 7. A particle removing arrangement adapted to remove particles from the upper contact surface of an electric rail comprised in an electric highway by the use of an airflow, where the particle removing arrangement is arranged in front of a current collector of a vehicle, where the particle removing arrangement comprises an inlet opening for inlet of air and an outlet opening for outlet of air, wherein the inlet opening is directed in a forward direction and the outlet opening is directed in a sideway to rearward direction in relation to the driving direction of the vehicle, and where the particle removing arrangement creates a particle removing airflow from a forward movement of the vehicle, wherein the particle removing arrangement is shaped as a funnel. 8. A particle removing arrangement according to claim 7 , wherein the particle removing airflow is a blowing airflow, which is directed towards the upper contact surface of the electric rail. 9. A particle removing arrangement according to claim 8 , wherein the outlet air flow from the outlet opening is directed in a direction that is between 90 and 135 degrees to the driving direction of the vehicle. 10. A particle removing arrangement according to claim 7 , wherein the area of the inlet opening is at least four times larger than the area of the outlet opening. 11. A particle removing arrangement according to claim 7 , wherein the outlet air flow is further directed downwards. 12. A particle removing arrangement according to claim 11 , wherein the outlet air flow is directed downwards from a horizontal plane with an angle between 10 and 45 degrees. 13. A particle removing arrangement adapted to remove particles from the upper contact surface of an electric rail comprised in an electric highway by the use of an airflow, where the particle removing arrangement is arranged in front of a current collector of a vehicle, where the particle removing arrangement comprises an inlet opening for inlet of air and an outlet opening for outlet of air, wherein the inlet opening is directed in a forward direction and the outlet opening is directed in a sideway to rearward direction in relation to the driving direction of the vehicle, where the particle removing arrangement creates a particle removing airflow from a forward movement of the vehicle, wherein the particle removing arrangement is an ejector, and wherein the outlet opening is offset in a sideway direction with regards to the particle inlet. 14. A particle removing arrangement adapted to remove particles from the upper contact surface of an electric rail comprised in an electric highway by the use of an airflow, where the particle removing arrangement is arranged in front of a current collector of a vehicle, where the particle removing arrangement comprises an inlet opening for inlet of air and an outlet opening for outlet of air, wherein the inlet opening is directed in a forward direction and the outlet opening is directed in a sideway to rearward direction in relation to the driving direction of the vehicle, where the particle removing arrangement creates a particle removing airflow from a forward movement of the vehicle, wherein the particle removing arrangement is an ejector, and wherein the area of the inlet opening is the same as the area of the outlet opening. 15. A particle removing arrangement adapted to remove particles from the upper contact surface of an electric rail comprised in an electric highway by the use of an airflow, where the particle removing arrangement is arranged in front of a current collector of a vehicle, where the particle removing arrangement comprises an inlet opening for inlet of air and an outlet opening for outlet of air, wherein the inlet opening is directed in a forward direction and the outlet opening is directed in a sideway to rearward direction in relation to the driving direction of the vehicle, where the particle removing arrangement creates a particle removing airflow from a forward movement of the vehicle, wherein the particle removing arrangement is an ejector, and wherein the flow channel of the particle removing arrangement comprises a low pressure section in the flow channel at the particle inlet. 16. A particle removing arrangement adapted to remove particles from the upper contact surface of an electric rail comprised in an electric highway by the use of an airflow, where the particle removing arrangement is arranged in front of a current collector of a vehicle, where the particle removing arrangement comprises an inlet opening for inlet of air and an outlet opening for outlet of air, wherein the inlet opening is directed in a forward direction and the outlet opening is directed in a sideway to rearward direction in relation to the driving direction of the vehicle, where the particle removing arrangement creates a particle removing airflow from a forward movement of the vehicle, wherein the particle removing arrangement is an ejector, and wherein the particle removing arrangement comprises a second flow channel arranged between the particle inlet and the low pressure section.