Drain check in pressure regulator

The invention is: 1. A pressure regulator comprising: a housing including a flow passage extending from a housing inlet, through the housing to a housing outlet; a plunger configured to move reciprocally within the housing along an axis of the plunger, wherein the plunger is hollow and defines a plunger passage included in the flow passage of the housing, the plunger passage including a plunger inlet at one end of the plunger and a plunger outlet at an opposite end of the plunger that faces the housing outlet, a regulator valve seat in the housing and disposed between the housing inlet and the plunger inlet, wherein the regulator valve seat faces the plunger inlet; and a drain check shuttle within the housing and configured to move reciprocally with respect to both the housing and the plunger, wherein the drain check shuttle has a first position within the housing at which the drain check shuttle abuts the regulator valve seat and closes the flow passage, and a second position displaced from the regulator valve seat and which opens the flow passage. 2. The pressure regulator of claim 1 wherein the drain check shuttle includes an annular structure having an outer perimeter configured to slidably engage the housing and an inner perimeter configured to receive and engage the regulator valve seat. 3. The pressure regulator of claim 2 wherein the inner perimeter of the drain check shuttle is configured to slidably engage the plunger. 4. A pressure regulator comprising: a housing including a flow passage extending from an inlet, through the housing to an outlet; a plunger configured to move reciprocally within the housing along an axis of the plunger, wherein the plunger is hollow and defines a passage included in the flow passage of the housing; a regulator valve seat in the housing and disposed between the inlet to the flow passage and an inlet to the plunger; and a drain check shuttle within the housing and configured to move reciprocally with respect to both the housing and the plunger, wherein the drain check shuttle has a first position within the housing at which the drain check shuttle abuts the regulator valve seat and closes the flow passage, and a second position displaced from the regulator valve seat and which opens the flow passage; wherein the drain check shuttle includes an opening supporting a first annular seal configured to engage the regulator valve seat and supporting a second annular seal configured to engage the plunger; and wherein a diameter of the first annular seal is greater than a diameter of the second annular seal. 5. A pressure regulator comprising: a housing including an inlet flow passage and an outlet flow passage, the housing including an inlet cap having the inlet flow passage and an outlet cap having the outlet flow passage, the inlet cap and the outlet cap being connected to one another; a plunger reciprocally mounted in the housing, wherein the plunger includes a plunger passage and a plunger inlet; a regulator valve seat disposed between the inlet flow passage and the plunger inlet, wherein the regulator valve seat includes an annular surface aligned with the plunger inlet along an axis of the plunger passage, and the plunger has a first position at which the plunger inlet is spaced apart from the annular surface of the regulator valve seat and a second position in which the plunger inlet is adjacent the annular surface of the regulator valve seat; and a drain check shuttle disposed in the inlet cap, the drain check shuttle being positioned downstream of the regulator valve seat and configured to prevent an incoming water flow from flowing through the outlet flow passage when an inlet water pressure is below a predetermined threshold. 6. The pressure regulator of claim 5 , wherein the drain check shuttle is arranged to slide along an inner side wall of the inlet cap between a closed position in which the drain check shuttle seals against the regulator valve seat to prevent incoming water flow from entering the plunger passage and an open position in which the drain check shuttle is displaced from the regulator valve seat to permit the incoming water flow to pass through the plunger passage to the outlet flow passage. 7. The pressure regulator of claim 6 , wherein the drain check shuttle includes a pressing surface facing upstream and arranged to interface with the incoming water flow when the drain check shuttle is in the closed position, and wherein once the inlet water pressure exceeds the predetermined threshold, the pressing surface is adapted to receive a force exerted thereon by the incoming water flow that causes the drain check shuttle to slide into the open position. 8. The pressure regulator of claim 7 , wherein the drain check shuttle is arranged to slide into the open position against a force provided by a spring such that the force exerted on the pressing surface by the incoming water flow exceeds the force of the spring. 9. The pressure regulator of claim 8 , wherein the spring is arranged to urge the drain check shuttle into the closed position. 10. The pressure regulator of claim 6 , wherein the drain check shuttle has a ring-shape including an outer wall positioned adjacent the inner side wall of the inlet cap and an inner wall delimiting a bore formed through the drain check shuttle. 11. A pressure regulator comprising: a housing including an inlet flow passage and an outlet flow passage, the housing including an inlet cap having the inlet flow passage and an outlet cap having the outlet flow passage, the inlet cap and the outlet cap being connected to one another; a plunger reciprocally mounted in the housing; a regulator valve seat disposed between the inlet flow passage and an inlet to the plunger; and a drain check shuttle disposed in the inlet cap, the drain check shuttle being positioned downstream of the regulator valve seat and configured to prevent an incoming water flow from flowing through the outlet flow passage when an inlet water pressure is below a predetermined threshold; wherein the drain check shuttle is arranged to slide along an inner side wall of the inlet cap between a closed position in which the drain check shuttle seals against the regulator valve seat to prevent incoming water flow from passing the drain check shuttle and an open position in which the drain check shuttle is displaced from the regulator valve seat to permit the incoming water flow to pass through the regulator to the outlet flow passage; wherein the drain check shuttle has a ring-shape including an outer wall positioned adjacent the inner side wall of the inlet cap and an inner wall delimiting a bore formed through the drain check shuttle; and wherein the drain check shuttle includes a first O-ring disposed in the inner wall of the drain check shuttle, the first O-ring arranged to seal against the regulator valve seat when the inlet water pressure is below the predetermined threshold. 12. The pressure regulator of claim 11 , wherein a gap is formed between the regulator valve seat and the first O-ring when the drain check shuttle is in the open position to permit the incoming water flow to pass through the pressure regulator. 13. The pressure regulator of claim 12 , wherein the drain check shuttle includes a second O-ring disposed in the inner wall of the drain check shuttle downstream of the first O-ring, the second O-ring arranged to form a dynamic seal with the plunger. 14. The pressure regulator of claim 13 , wherein the drain check shuttle includes a third O-ring disposed in the outer wall of the drain check shuttle to form a dynamic seal with the inner side wall of the i