Metering valve for a pump unit for feeding fuel to internal combustion engine and pump unit comprising such a valve

What is claimed is: 1. A metering valve ( 7 ) for a pump unit ( 1 ) for feeding fuel from a tank ( 2 ) to an internal combustion engine ( 3 ); the metering valve ( 7 ) comprising: a sleeve ( 27 ) having an axis (A) and provided with a first open end for receiving a thruster ( 21 ), a second opposite end provided with an opening ( 35 ) for axially discharging the fuel and at least one side opening ( 28 ) for feeding fuel; a plug-shaped piston ( 30 ) slidably housed along the axis A inside the sleeve ( 27 ), the piston ( 30 ) having a closed end ( 31 ) with an outer surface in contact with the thruster ( 21 ), an open opposite end and at least one side opening ( 34 ); a plug ( 33 ) housed inside the discharge opening ( 35 ) of the sleeve and provided with an axial opening ( 38 ); and a spring ( 32 ) arranged between the plug ( 33 ) and the inner surface of the closed end ( 31 ) of the sleeve; wherein the plug ( 33 ) is shaped so that, when housed inside the axial discharge opening ( 35 ), at least one lateral flow channel ( 39 ) for discharging the fuel is present, wherein the piston ( 30 ) has at least one side opening ( 34 ) cooperating with the side opening ( 28 ) of the sleeve ( 27 ) so that, selectively, fuel passes through the side opening ( 28 ) of the sleeve ( 27 ) and the side opening ( 34 ) of the piston ( 30 ) and is discharged via the open end of the piston ( 30 ), and wherein the plug ( 33 ) is provided with an axial through-hole ( 38 ) centered on the axis (A). 2. The valve as claimed in claim 1 , wherein the plug ( 33 ) is shaped so that, when housed inside the axial discharge opening ( 35 ) of the sleeve ( 27 ), a plurality of lateral flow channels ( 39 ) for discharging fuel are present. 3. The valve as claimed in claim 2 , wherein the lateral flow channels ( 39 ) are axially symmetrical with respect to the axis (A). 4. The valve as claimed in claim 1 , wherein the plug ( 33 ) comprises an inner face provided with an axial step ( 37 ) for seating the spring ( 32 ). 5. The valve as claimed in claim 4 , wherein the plug ( 33 ) comprises a side wall ( 36 ) having at least one portion for contact with the axial discharge opening ( 35 ) of the sleeve ( 27 ) and at least one inset portion ( 41 ) having a radius (R 2 ) from the axis (A) smaller than the radius (R 1 ) of the contact portion. 6. The valve as claimed in claim 5 , wherein the radius (R 2 ) of the inset portion ( 41 ) coincides with the outer radius of the axial step ( 37 ). 7. The valve as claimed in claim 1 , further comprising a device for electromagnetically actuating the thruster ( 21 ). 8. A pump unit ( 1 ) for feeding fuel from a tank ( 2 ) to an internal combustion engine ( 3 ); the pump unit ( 1 ) comprising: a low-pressure pump ( 4 ) for drawing fuel from the tank ( 2 ); a high-pressure pump ( 5 ) fed by the low-pressure pump ( 4 ) for delivering high-pressure fuel to the engine ( 3 ), the high-pressure pump ( 5 ) comprising at least one intake valve ( 11 ) for feeding fuel into at least one cylinder ( 9 ) for housing a pumping piston ( 8 ) movable with a reciprocating motion between an intake stroke and a compression stroke; an intake duct ( 6 ) which connects the low-pressure pump ( 4 ) to the high-pressure pump ( 5 ); and a valve ( 7 ) according to claim 1 , the valve being arranged along the intake duct ( 6 ) for controlling the fuel fed to the intake valve ( 11 ) by the low-pressure pump ( 4 ). 9. A plug ( 33 ) for a metering valve ( 7 ) of a pump unit ( 1 ) for feeding fuel from a tank ( 2 ) to an internal combustion engine ( 3 ); wherein the metering valve ( 7 ) comprises: a sleeve ( 27 ) having an axis (A) and provided with a first open end for receiving a thruster ( 21 ), a second opposite end provided with an opening ( 35 ) for axially discharging the fuel and at least one side opening ( 28 ) for feeding fuel; and a plug-shaped piston ( 30 ) slidably housed along the axis (A) inside the sleeve ( 27 ), the piston ( 30 ) having a closed end ( 31 ) with an outer surface in contact with the thruster ( 21 ), an open opposite end and at least one side opening ( 34 ); wherein the plug ( 33 ) is shaped so as to be stably housed inside the discharge opening ( 35 ) of the sleeve and provided with an axial opening ( 38 ); and wherein the plug ( 33 ) is shaped so that, when the plug is housed inside the axial discharge opening ( 35 ), at least one lateral flow channel ( 39 ) for discharging fuel is present wherein the piston ( 30 ) has at least one side opening ( 34 ) cooperating with the side opening ( 28 ) of the sleeve ( 27 ) so that, selectively, fuel passes through the side opening ( 28 ) of the sleeve ( 27 ) and the side opening ( 34 ) of the piston ( 30 ) and is discharged via the open end of the piston ( 30 ), and wherein the plug ( 33 ) is provided with an axial through-hole ( 38 ) centered on the axis (A). 10. A method for increasing the flowrate of a metering valve ( 7 ) of a pump unit ( 1 ) for feeding fuel from a tank ( 2 ) to an internal combustion engine ( 3 ) without modifying the dimensions and the possibility of standardization of the components, the method comprising the steps of: a) providing a valve ( 7 ) comprising a sleeve ( 27 ) having an axis (A) and provided with a first open end for receiving a thruster ( 21 ), a second opposite end provided with an opening ( 35 ) for axially discharging the fuel and at least one side opening ( 28 ) for feeding fuel; a plug-shaped piston ( 30 ) slidably housed along the axis (A) inside the sleeve ( 27 ), the piston ( 30 ) having a closed end ( 31 ) with an outer surface in contact with the thruster ( 21 ), an open opposite end and at least one side opening ( 34 ); a plug ( 33 ) housed inside the discharge opening ( 35 ) of the sleeve and provided with an axial opening ( 38 ); a spring ( 32 ) arranged between the plug ( 33 ) and the inner surface of the closed end ( 31 ) of the sleeve; the piston ( 30 ) having at least one side opening ( 34 ) cooperating with the side opening ( 28 ) of the sleeve ( 27 ) so that, selectively, fuel passes through the side opening ( 28 ) of the sleeve ( 27 ) and the side opening ( 34 ) of the piston ( 30 ) and is discharged via the open end of the piston ( 30 ); and wherein the plug ( 33 ) is provided with an axial through-hole ( 38 ) centered on the axis (A); and b) providing the plug ( 33 ) with a shape so that, when the plug is housed inside the axial discharge opening ( 35 ), at least one lateral flow channel ( 39 ) for discharging the fuel is present.