Dual fuel common rail system and fuel injector

What is claimed is: 1. A dual fuel injector comprising: an injector body defining a first nozzle outlet set, a first fuel inlet, a second nozzle outlet set, a second fuel inlet, and a drain outlet and having disposed therein a first nozzle chamber fluidly connected to the first fuel inlet, a second nozzle chamber fluidly connected to the second fuel inlet, a first control chamber fluidly connected to the first fuel inlet, and a second control chamber fluidly connected to the first fuel inlet; a first control valve member guided in the injector body to move between a first position in contact with a first valve seat to close a first fluid connection between the first control chamber and the drain outlet, and a second position out of contact with the first valve seat to open the first fluid connection, and including a first guide segment separating a first high pressure area from a first low pressure area; a second control valve member guided in the injector body to move between a first position in contact with a second valve seat to close a second fluid connection between the second control chamber and the drain outlet, and a second position out of contact with the second valve seat to open the second fluid connection, and including a second guide segment separating a second high pressure area from a second low pressure area; a first solenoid actuator with a first armature operably coupled to the first control valve member; a second solenoid actuator with a second armature operably coupled to the second control valve member; and the first control valve member, the second control valve member, the first armature and the second armature move along a common centerline. 2. The dual fuel injector of claim 1 wherein the first solenoid actuator and the second solenoid actuator have separate coils but share a shared stator. 3. The dual fuel injector of claim 1 wherein the first fuel inlet is surrounded by an inner conical seat and an outer conical seat; the second fuel inlet opens between the outer conical seat and the inner conical seat; and the first nozzle outlet set and the second nozzle outlet set are defined by a tip component of the injector body. 4. The dual fuel injector of claim 1 wherein each of the first and second control chambers is fluidly connected to the first fuel inlet through two passages in parallel when the first and second control valve members are in their respective first positions. 5. The dual fuel injector of claim 1 including a first pressure passage extending between the first control chamber and the first control valve member; a second pressure passage extending between the second control chamber and the second control valve member; and a majority of the lengths of the first pressure passage and the second pressure passage being oriented parallel to the common centerline. 6. The dual fuel injector of claim 1 wherein the first control valve member is trapped to move between a first flat valve seat and a first conical valve seat; and the second control valve member is trapped to move between a second flat valve seat and a second conical valve seat. 7. The dual fuel injector of claim 6 wherein the injector body includes a first guide piece that includes the first conical valve seat and defines a first guide bore that receives the first guide segment; the injector body includes a second guide piece that includes the second conical seat, and defines a second guide bore that receives the second guide segment; the injector body includes a first plate that is in contact with the first guide piece and includes the first flat valve seat; and the injector body includes a second plate that is in contact with the second guide piece and includes the second flat valve seat. 8. The dual fuel injector of claim 7 wherein the first solenoid actuator and the second solenoid actuator have separate coils but share a shared stator; the first fuel inlet is surrounded by an inner conical seat and an outer conical seat; the second fuel inlet opens between the first common rail conical seat and the second common rail conical seat; the first nozzle outlet set and the second nozzle outlet set are defined by a tip component of the injector body; each of the first and second control chambers is fluidly connected to the first fuel inlet through two passages in parallel when the first and second control valve members are in their respective first positions; a first pressure passage extending between the first control chamber and the first control valve member; a second pressure passage extending between the second control chamber and the second control valve member; and a majority of the lengths of the first pressure passage and the second pressure passage being oriented parallel to the common centerline. 9. The dual fuel injector of claim 8 wherein each of the first and second needle valve members move parallel to, but offset from, the common centerline. 10. The dual fuel injector of claim 8 wherein each of the first and second needle valve members move along the common centerline. 11. A dual fuel system comprising: a plurality of fuel injectors that have a non-injection configuration, a liquid fuel injection configuration, a gaseous fuel injection configuration and a combined fuel injection configuration, and each of the fuel injectors having a liquid fuel inlet, a gaseous fuel inlet and a drain outlet; a gaseous fuel common rail fluidly connected to the gaseous fuel inlet of each of the fuel injectors; a liquid fuel common rail fluidly connected to the liquid fuel inlet of each of the fuel injectors; each of the fuel injectors includes a liquid control valve member, with a guide segment, guided in an injector body to move along a common centerline, and the guide segment defines a portion of a first leak path from the liquid fuel inlet to the drain outlet; each of the fuel injectors includes a gas control valve member, with a guide segment, guided in an injector body to move along the common centerline, and the guide segment defines a portion of a second leak path from the liquid fuel inlet to the drain outlet; the injector body including a tip component that defines a liquid nozzle outlet set and a gas nozzle outlet set; and a dual solenoid actuator with a first armature operably coupled to the liquid control valve member along the common centerline, a second armature operably coupled to the gas control valve member along the common centerline, and a shared stator. 12. The dual fuel system of claim 11 wherein each of the liquid control valve member and the gas control valve member are trapped to move between a flat valve seat and a conical valve seat. 13. The dual fuel system of claim 11 wherein the gaseous fuel common rail and the liquid fuel common rail are fluidly connected to each of the fuel injectors through outer and inner passages, respectively, defined by a pair of concentric tubes. 14. The dual fuel system of claim 11 wherein a gas control chamber of each of the fuel injectors is fluidly connected to the liquid fuel inlet by two passages in parallel when the gas control valve member is in a first position; and a liquid control chamber of each of the fuel injectors is fluidly connected to the liquid fuel inlet by two passages in parallel when the liquid control valve member is in a first position. 15. The dual fuel system of claim 14 wherein each of the fuel injectors includes a first pressure passage extending between the liquid control chamber and the liquid control valve member; a second pressure passage extending between the gas control chamber and the gas control