Valve solenoid with improved performance

What is claimed is: 1. A valve solenoid, comprising: a coil pot defining an internal volume; a coil positioned concentrically within the internal volume and spaced apart from the coil pot; an outer tube positioned concentrically within the coil; a pole core including a pole core first portion, a pole core second portion and a pole core third portion, the pole core first portion positioned concentrically within the outer tube and the pole core second portion positioned outside the outer tube; an armature including an armature first portion and an armature second portion, the armature first portion positioned distal from the pole core and outside the coil pot, the armature second portion extending from the armature first portion towards the pole core, at least a portion of the armature second portion positioned concentrically within the outer tube, the armature defining a channel therewithin; an inner tube, at least a portion of the inner tube positioned concentrically within the channel defined by the armature such that the at least a portion of the armature second portion is positioned concentrically between the outer tube and the inner tube; an armature pin fixedly coupled to the armature proximal to the armature first portion, at least a portion of the armature pin positioned within the channel; and a biasing member positioned within the channel, a first end of the biasing member coupled to the armature pin, a second end of the biasing member coupled to the pole core, the biasing member configured to exert a biasing force on the armature pin in an axial direction away from the pole core. 2. The valve solenoid of claim 1 , further comprising: an adjustment member positioned within the pole core, the second end of the biasing member coupled to the adjustment member, at least a portion of the adjustment member positioned within the inner tube. 3. The valve solenoid of claim 2 , wherein the adjustment member is coupled to the pole core via threads defined on an inner surface of the pole core, the adjustment member configured to axially displace within the pole core via a rotation of the adjustment member, the rotation configured to adjust a length of the portion of the adjustment member positioned within the inner tube so as to adjust a biasing force exerted by the biasing member on the armature pin. 4. The valve solenoid of claim 3 , wherein the biasing member includes a compression spring. 5. The valve solenoid of claim 1 , further comprising: an adjustment member positioned within the armature, the second end of the biasing member coupled to the adjustment member, at least a portion of the adjustment member positioned within the inner tube. 6. The valve solenoid of claim 1 , wherein the valve solenoid is movable between: a first operating mode, wherein no electromagnetic field is produced by the coil, and the biasing member exerts an axial force on the armature pin such that the armature is positioned distal from the pole core and a gap exists between the pole core first portion and the armature second portion, and a second operating mode, wherein an electromagnetic field is produced by the coil, the electromagnetic field pulls the armature in an axial direction towards the pole core against the biasing force, and the armature second portion axially slides between the outer tube and the inner tube towards the pole core and contacts the pole core first portion. 7. The valve solenoid of claim 6 , wherein a combination of the outer tube and the inner tube prevent radial movement of the armature during the axial displacement of the armature relative to the pole core. 8. The valve solenoid of claim 6 , wherein an end of the armature pin is coupled to a valve such that in the first operating mode the valve is open, and in the second operating mode the valve is closed. 9. The valve solenoid of claim 1 , wherein the pole core third portion abuts an inner surface of the coil pot, the pole core third portion fixedly coupled to the coil pot. 10. The valve solenoid of claim 9 , wherein the pole core third portion is fixedly coupled to the inner surface of the coil pot. 11. A system, comprising; an exhaust reductant storage tank; a pumping assembly, including: a valve; and a valve solenoid coupled to the valve, the valve solenoid including: a coil pot defining an internal volume, a coil positioned concentrically within the internal volume and spaced apart from the coil pot, an outer tube positioned concentrically within the coil, a pole core including a pole core first portion, a pole core second portion and a pole core third portion, the pole core first portion positioned concentrically within the outer tube and the pole core second portion positioned outside the outer tube, an armature including an armature first portion and an armature second portion, the armature first portion positioned distal from the pole core and outside the coil pot, the armature second portion extending from the armature first portion towards the pole core, at least a portion of the armature second portion positioned concentrically within the outer tube, the armature defining a channel therewithin, an inner tube, at least a portion of the inner tube positioned concentrically within the channel defined by the armature such that the at least a portion of the armature second portion is positioned concentrically between the outer tube and the inner tube, an armature pin fixedly coupled to the armature proximal to the armature first portion, at least a portion of the armature pin positioned within the channel, an end of the armature pin distal from the armature coupled to the valve, and a biasing member positioned within the channel, a first end of the biasing member coupled to the armature pin and a second end of the biasing member coupled to the pole core, the biasing member configured to exert a biasing force on the armature pin in an axial direction away from the pole core; and a selective catalytic reduction system in fluidic communication with the pumping assembly via the valve, the selective catalytic reduction system including at least one catalyst formulated to treat an exhaust gas flowing through the SCR system in the presence of the exhaust reductant. 12. The system of claim 11 , wherein the valve solenoid further comprises: an adjustment member positioned within the pole core, the second end of the biasing member coupled to the adjustment member, at least a portion of the adjustment member positioned within the inner tube. 13. The system of claim 12 , wherein the adjustment member is coupled to the pole core via threads defined on an inner surface of the pole core, the adjustment member configured to axially displace within the pole core via a rotation of the adjustment member, the rotation configured to adjust a length of the portion of the adjustment member positioned within the inner tube so as to adjust a biasing force exerted by the biasing member on the armature pin. 14. The system of claim 11 , wherein the valve solenoid is movable between: a first operating mode wherein no electromagnetic field is produced by the coil, the biasing member exerts an axial force on the armature pin such that the armature is positioned distal from the pole core and a gap exists between the pole core first portion and the armature second portion, the armature pin exerts an axial force on the valve so that the valve is closed, and a second operating mode wherein an electromagnetic field is produced by the coil, the electromagnetic field pulls the armature in an axial direction towards the pole core against the biasing force, the armature second port