Method to prevent debris build-up on reciprocating air motor pilot valves

The invention claimed is: 1. An end cap assembly for a reciprocating air motor, the end cap assembly comprising: a pilot valve having a valve stem; an end cap body comprising: a central bore for receiving an air motor rod; a valve bore in which the pilot valve is disposed such that the valve stem extends through the end cap body; and an air port extending through the end cap body, the air port having a contour to direct air toward the valve stem; and a flow deflector coupled to the end cap body to overhang the air port and direct air from the contour toward the valve stem, wherein the flow deflector is disposed in a counterbore in the end cap body so as to be inlaid in the contour. 2. The end cap assembly of claim 1 wherein the contour comprises an angled surface extending between the air port and the valve stem. 3. The end cap assembly of claim 2 wherein the contour extends from the air port toward a portion of the valve stem extending from the end cap body to form an obtuse angle with the valve stem. 4. The end cap assembly of claim 2 wherein the contour is flat. 5. The end cap assembly of claim 1 wherein the flow deflector is shaped to reorient airflow from the air port toward the valve stem. 6. The end cap assembly of claim 1 wherein the flow deflector comprises: a sheet metal strip fastened to the counterbore. 7. The end cap assembly of claim 1 wherein the deflector includes: a first portion extending at an angle toward the valve stem; and a second portion extending from the first portion parallel to the end cap body. 8. The end cap assembly of claim 1 wherein the pilot valve comprises: a valve body having an internal bore from which the valve stem extends; an air passage intersected by the valve stem in the internal bore; and an energy absorbing valve spring biasing the valve stem out of the internal bore. 9. The end cap assembly of claim 8 wherein the pilot valve further comprises: a poppet disposed within the valve body to engage the valve stem; and an energy absorbing valve spring disposed between the valve stem and biasing the poppet towards a stem bore. 10. The end cap assembly of claim 1 and further comprising: an air motor housing coupled to the end cap to define a cylinder; an air motor rod extending into the cylinder through the central bore of the end cap body; an air motor piston coupled to the air motor rod in the cylinder. 11. A reciprocating air motor comprising: an air piston; a drive rod extending from the piston; an air motor housing defining a cylinder wall, the air motor housing comprising: first and second end walls located at opposite ends of the cylinder wall; a central bore extending through the first end wall and that receives the drive rod; first and second air passages extending through the first and second end walls, respectively; first and second valve bores extending into the first and second end walls, respectively; a reversing valve for alternatively providing compressed air to the first and second air passages; and first and second pilot valves disposed in the first and second valve bores, respectively; and a flow deflector coupled to the first end wall; wherein the first air passage includes contouring to direct airflow toward the first pilot valve; and wherein the flow deflector is disposed within a counterbore within the first end wall so as to be inlaid in the contouring to funnel airflow from the contouring to the first pilot valve. 12. The reciprocating air motor of claim 11 wherein the air motor housing comprises: an end cap comprising the first end wall; and an air motor cylinder comprising: a side wall having: a first end that receives the end cap; and a second end; and the second end wall attached to the second end. 13. The reciprocating air motor of claim 11 wherein the first pilot valve comprises: a valve body disposed in the first valve bore; a valve stem extending from the valve body; a poppet disposed within the valve body; and an valve energy absorbing spring disposed between the valve stem and the poppet, wherein the energy absorbing spring biases biasing the valve stem out of the valve body. 14. The reciprocating air motor of claim 11 wherein the contouring of the first air passage comprises: a flat surface extending from the first air passage to the pilot valve to form an obtuse angle with an axis of a portion of the valve stem of the first pilot valve extending into the cylinder wall. 15. A method of removing contaminants from a valve stem in a reciprocating air motor, the method comprising: reciprocating a reversing valve to alternately deliver compressed air to opposite sides of an air motor piston through first and second ports extending through a piston cylinder; activating the reversing valve using first and second pilot valves having first and second valve stems, respectively, that engage opposite sides of the air motor piston within the cylinder; and directing blow-off air from the first port across the first valve stem, comprising: passing the blow-off air across a contour that guides air from the first port towards the first valve stem; and turning the blow-off air from the contour towards the first valve stem with a deflector overhanging the first port and disposed within a counterbore in a surface of the piston cylinder through which the first port extends so as to be inlaid in the contour. 16. The method of claim 15 wherein the contour comprises: a flat, angled surface that extends from the first port toward the first valve stem. 17. The method of claim 15 wherein the deflector comprises: a first portion angled across the contour; and a second portion extending from the first portion perpendicular to the first valve stem. 18. The method of claim 15 wherein the contour comprises: a shaped surface of the air motor piston that receives air from the first port and turns the air toward the first valve stem.