Positive displacement plunger pump with gas escape valve

The invention claimed is: 1. A well pump assembly, comprising: a barrel having an axis; a standing valve acting as a discharge valve, the standing valve having a ball above a seat at an upper end of a standing valve chamber, the standing valve chamber being above the barrel and in fluid communication with an interior of the barrel, the standing valve adapted to be in fluid communication with an interior of a string of production tubing; a plunger carried reciprocally and sealingly in the barrel between a downward moving power stroke and an upward moving fill stroke; a travelling valve carried by the plunger below the standing valve for reciprocating movement therewith, the travelling valve admitting well fluid through the travelling valve into the barrel during the fill stroke, the travelling valve closing during the power stroke so that the plunger pushes well fluid from the barrel into the standing valve chamber and discharges the well fluid through the standing valve for conveyance up the production tubing; a gas release port extending from the standing valve chamber below the ball and seat of the standing valve to the exterior of the pump assembly; and a check valve in the gas release port, the check valve having an outward flow blocking position for blocking liquid well fluid in the standing valve chamber from exiting through the gas release port while the plunger is in the power stroke, and the check valve having a gas release position that enables gas present in the standing valve chamber to flow out the gas release port while the plunger is in the power stroke. 2. The pump assembly according to claim 1 , wherein: the gas release position occurs in response to pressure within the standing valve chamber being inadequate to lift the ball above the seat of the standing valve during the power stroke. 3. The pump assembly according to claim 1 , wherein: the check valve has an inward flow blocking position that blocks well fluid on the exterior of the pump assembly from entering the standing valve chamber through the gas release port while the plunger is in the fill stroke. 4. The pump assembly according to claim 1 , wherein the check valve comprises: an outward flow blocking seat in the gas release port; a movable element path in the gas release port that leads upward relative to the axis to the outward flow blocking seat; a movable element movable along the movable element path; wherein the movable element is pushed upward along the movable element path into sealing engagement with the outward flow blocking seat in response to liquid well fluid in the standing valve chamber during the power stroke; and if the gas content in the well fluid in the standing valve chamber is sufficiently high, the gas will flow around the movable element and out the outward flow blocking seat during the power stroke until the gas content drops sufficiently to cause the liquid well fluid to push the movable element into sealing engagement with the outward flow blocking seat. 5. The pump assembly according to claim 1 , wherein the check valve comprises: an outward flow blocking seat in the gas release port; a movable element path in the gas release port that leads upward relative to the axis to the outward flow blocking seat; a movable element movable along the movable element path; wherein the movable element is pushed upward along the movable element path into sealing engagement with the outward flow blocking seat in response to liquid well fluid in the standing valve chamber during the power stroke; and the movable path has a greater cross-sectional area than a cross-sectional area of the movable element, providing a gas release passage around the movable element while the movable element is out of sealing engagement with the outward flow blocking seat. 6. The pump assembly according to claim 1 , wherein the check valve is free of any biasing spring that biases the check valve to the outward flow blocking position. 7. The pump assembly according to claim 1 , wherein the check valve comprises: an inward flow blocking seat; an outward flow blocking seat upward from the inward flow blocking seat relative to an axis of the barrel; a movable element that seals against the inward flow blocking seat while the plunger is in the fill stroke; wherein the movable element is movable along a movable path into sealing engagement with the outward flow blocking seat while the check valve is in the outward flow blocking position; and the movable element is located along the movable element path out of sealing engagement with the inward flow blocking seat and the outward flow blocking seat while the check valve is in the gas release position. 8. The assembly according to claim 1 , further comprising: a housing enclosing the barrel, the housing having a larger inner diameter than an outer diameter of the barrel, defining a housing annulus between the barrel and the housing that is in fluid communication with the standing valve chamber; a barrel outlet port extending from an interior of the barrel to the housing annulus; wherein during the power stroke, the plunger pushes well fluid in the barrel out the barrel outlet port into the housing annulus and up the housing annulus to the standing valve chamber. 9. A well pump assembly, comprising: a barrel having an axis; a plunger carried reciprocally and sealingly in the barrel between a downward moving power stroke and an upward moving fill stroke; a standing valve acting as a discharge valve, the standing valve having a ball above a seat at an upper end of a standing valve chamber, the standing valve chamber being in fluid communication with an interior of the barrel below the plunger; a travelling valve carried below the standing valve by the plunger for reciprocating movement therewith, the travelling valve admitting well fluid through the travelling valve into the barrel below the plunger during the fill stroke, the travelling valve closing during the power stroke so that the plunger pushes well fluid from the barrel upward into the standing valve chamber and discharges the well fluid through the standing valve for conveyance up a production tubing; a gas release port extending from through a sidewall of the standing valve chamber below the ball and the seat of the standing valve to the exterior of the pump assembly; and check valve means in the gas release port for blocking well fluid in the standing valve chamber from exiting through the gas release port while the plunger is in the power stroke and a liquid content in the well fluid in the standing valve chamber is sufficiently high to lift the ball above the seat of the standing valve, and for enabling gas present in the well fluid in the standing valve chamber to flow out the gas release port while the plunger is in the power stroke if a gas content in the well fluid in the standing valve chamber is sufficiently high to prevent lifting of the ball above the seat of the standing valve. 10. The pump assembly according to claim 9 , wherein: the check valve means prevents substantially any liquid from flowing through the gas release port while gas is flowing out the gas release port. 11. The pump assembly according to claim 9 , wherein: the check valve means also blocks well fluid on the exterior of the pump assembly from entering the standing valve chamber through the gas release port while the plunger is in the fill stroke. 12. The pump assembly according to claim 9 , wherein the check valve means comprises: an outward flow blocking seat in the gas release port; a movable element path in the gas release port that leads upward relative to the axis to the outward fl