Fuel injector

What is claimed is: 1. A fuel injector for injecting fuel into a combustion engine, the fuel injector comprising: a valve with a needle that is movable along a longitudinal axis between an open position and a closed position, to open and close the valve; an actuator comprising an armature and a pole piece, wherein the armature is axially movable and operable to interact mechanically with the needle such that the needle is moved towards the open position by an axial movement of the armature towards the pole piece; a first spring for biasing the armature axially away from the pole piece, wherein a spring force of the first spring stops said movement of the armature when the needle is in the open position, the armature is axially displaceable relative to the needle, the needle has an upper retainer and the armature is operable to establish a form-fit engagement with the upper retainer for moving the needle towards the open position, the injector further comprises a second spring that biases the armature away from the upper retainer, and the second spring being softer than the first spring. 2. The fuel injector of claim 1 , wherein the armature is spaced apart from the pole piece when the needle is in the open position. 3. The fuel injector of claim 1 , wherein the first spring is axially movable relative to the pole piece and has an axial play towards the pole piece when the needle is in the closed position. 4. The fuel injector of claim 3 , wherein in the open position of the needle, a deflection of the first spring is small compared to the axial play of the first spring. 5. The fuel injector of claim 1 , wherein the first spring is axially displaceable relative to the needle and axially arranged between the second spring and the armature such that a spring force of the second spring is transferred to the armature via the first spring. 6. The fuel injector of claim 1 wherein the armature is spaced apart from the pole piece by a fuel filled axial gap, such that the gap is reduced when the needle is moved towards the open position, wherein the gap is shaped and dimensioned to provide a hydraulic dampening to the movement of the armature. 7. The fuel injector of claim 1 , wherein the first spring comprises a hollow cylindrical body with a radial opening. 8. The fuel injector of claim 7 , wherein the radial opening is a helical cut. 9. The fuel injector of claim 1 , further comprising a third spring configured to move the needle towards the closed position. 10. The fuel injector of claim 1 , wherein a spring seat for an end of a third spring remote from the needle is axially movable relative to a spring seat for an end of the first spring remote from the armature to calibrate a preload of the third spring. 11. The fuel injector of claim 10 , wherein: the spring seat for said end of the first spring is press-fitted into an opening of the pole piece, and the spring seat for said end of the third spring is press fitted into an opening of the spring seat for said end of the first spring. 12. The fuel injector of claim 10 , wherein: the armature is axially displaceable relative to the needle, the needle has an upper retainer, and the armature is operable to establish a form-fit engagement with the upper retainer for moving the needle towards the open position, the injector further comprises a second spring that biases the armature away from the upper retainer, the second spring being softer than the first spring, and the third spring is harder than the second spring but softer than the first spring. 13. The fuel injector of claim 1 , wherein the needle is configured to open the valve when the needle is moved away from a nozzle end of the injector. 14. A combustion engine, comprising: a plurality of fuel injector configured to inject fuel into the engine, each fuel injector comprising: a valve with a needle that is movable along a longitudinal axis between an open position and a closed position, to open and close the valve; an actuator comprising an armature and a pole piece, wherein the armature is axially movable and operable to interact mechanically with the needle such that the needle is moved towards the open position by an axial movement of the armature towards the pole piece; a first spring for biasing the armature axially away from the pole piece, wherein a spring force of the first spring stops said movement of the armature when the needle is in the open position, for each fuel injector: the armature is axially displaceable relative to the needle, the needle has an upper retainer and the armature is operable to establish a form-fit engagement with the upper retainer for moving the needle towards the open position, the injector further comprises a second spring that biases the armature away from the upper retainer, and the second spring being softer than the first spring. 15. The combustion engine of claim 14 , wherein, for each fuel injector, the armature is spaced apart from the pole piece when the needle is in the open position. 16. The combustion engine of claim 14 , wherein, for each fuel injector, the first spring is axially movable relative to the pole piece and has an axial play towards the pole piece when the needle is in the closed position. 17. The combustion engine of claim 16 , wherein, for each fuel injector, in the open position of the needle, a deflection of the first spring is small compared to the axial play of the first spring. 18. The combustion engine of claim 14 , wherein, for each fuel injector, the first spring is axially displaceable relative to the needle and axially arranged between the second spring and the armature such that a spring force of the second spring is transferred to the armature via the first spring.