Fuel electro-injector for a fuel injection system for an internal combustion engine

The invention claimed is: 1. A fuel electro-injector for a fuel injection system for an internal combustion engine, the electro-injector comprising: an atomizer comprising: a) a nozzle defining a sealing seat; and b) a valve needle extending in said nozzle along a longitudinal axis and axially sliding from a closed position, in which it is coupled to said sealing seat, for performing an opening stroke in an outward direction and opening said nozzle; said sealing seat and said valve needle defining a discharge section, which is annular and has a width that continuously increases as the opening stroke of said valve needle proceeds; an electric actuator suitable for being excited by an electric command signal to cause the opening stroke of said valve needle and defining an axial displacement that is proportional to the magnitude of said electric command signal; an inlet suitable for being connected to a high-pressure fuel supply; a high-pressure space for supplying fuel from said inlet to said discharge section; an outlet suitable for being connected to a low-pressure return system, and a low-pressure space directly communicating with said outlet; and a hydraulic connection arranged between said electric actuator and said valve needle for transmitting motion from said electric actuator to said valve needle, the hydraulic connection comprising a pressure chamber, which is axially delimited, on one side, by said valve needle and, in use, is filled with fuel that, once compressed, exerts an axial thrust, in the outward direction, on said valve needle to cause said opening stroke; wherein said high-pressure space comprises an annular passageway defined between a lateral outer surface of said valve needle and an inner surface of said nozzle and axially ending at said sealing seat; wherein said low-pressure space comprises a portion that is arranged axially between said hydraulic connection and said annular passageway and is separated from said high-pressure space by means of a dynamic seal, defined by a coupling zone between said valve needle and a fixed guide portion; wherein said hydraulic connection is arranged in said low-pressure space, such that said pressure chamber communicates only with said low-pressure space; and wherein the fuel electro-injector is configured such that movement of the valve needle of the atomizer in the outward direction, from the closed position to an open position, includes movement of the valve needle away from the electric actuator. 2. The electro-injector according to claim 1 , wherein said pressure chamber has an aperture that is open, or which can be opened, when said electric actuator is de-energized to place said pressure chamber in communication with said low-pressure space, and is closed during a certain part of the displacement caused by said electric actuator to enable the pressurization of the pressure chamber. 3. The electro-injector according to claim 2 , further comprising a spherical plug that closes said aperture under the thrust of first elastic means when said electric actuator is not energized. 4. The electro-injector according to claim 2 , wherein said aperture is open when said electric actuator is not energized. 5. The electro-injector according to claim 3 , wherein said aperture is arranged on the axially opposite side with respect to said valve needle. 6. The electro-injector according to claim 4 , further comprising a second plug, which is coaxial with said aperture, is axially set apart from said aperture when said electric actuator is de-energized, and is axially movable in response to the action of said electric actuator to close said aperture. 7. The electro-injector according to claim 6 , wherein said hydraulic connection comprises: a sleeve, which laterally delimits said pressure chamber, is axially movable and is fitted for axially sliding on an axial tip of said valve needle; second elastic means that exert an axial thrust on said sleeve in a direction opposite to the axial tip of said valve needle; said aperture being defined by said sleeve. 8. The electro-injector according to claim 7 , wherein said second elastic means comprise a first spring coupled, on one side, to said sleeve and, on the other side, to a fixed axial shoulder. 9. The electro-injector according to claim 7 , wherein said valve needle comprises a needle, defining said annular passageway and said discharge section, and a transmission rod, axially resting against said needle; said second elastic means comprising a second spring coupled, on one side, to said sleeve and, on the other side, to said transmission rod. 10. The electro-injector according to claim 6 , further comprising a piston operated by an end of said electric actuator and coaxial with said second plug; said second plug being a separate piece from said piston; a spring being provided to push said plug axially to rest against said piston. 11. The electro-injector according to claim 6 , further comprising a piston operated by one end of said electric actuator, said second plug being defined by an axial end of said piston. 12. The electro-injector according to claim 10 , wherein said second plug comprises a semi-spherical portion able to close said aperture. 13. The electro-injector according to claim 1 , further comprising a piston operated by one end of said electric actuator and axially ending with a thrust portion, which axially delimits said pressure chamber on the opposite side with respect to said valve needle and engages a lateral wall of said pressure chamber in an axially sliding manner, said thrust portion having an axial face of larger area with respect to that of said valve needle to generate a displacement amplification. 14. The electro-injector according to claim 3 , further comprising a piston operated by one end of said electric actuator and axially ending with a thrust portion, which axially delimits said pressure chamber on the opposite side with respect to said valve needle and engages a lateral wall of said pressure chamber in an axially sliding manner, said aperture being made in said thrust portion, said piston being equipped with at least one slot that puts said aperture into communication with said low-pressure space. 15. The electro-injector according to claim 1 , wherein said electric actuator is a piezoelectric actuator or a magnetostrictive actuator. 16. The electro-injector according to claim 1 , wherein said coupling zone has a diameter equal to the mean diameter of said sealing seat.