Ground striper pump piston having dual checks

The invention claimed is: 1. A pump comprising: a piston configured to reciprocate along a pump axis; an internal channel extending axially through the piston and configured to provide a flowpath through the piston from an upstream chamber to a downstream chamber, the internal channel comprising a plurality of bores disposed coaxially on the pump axis; a first check valve disposed in a first bore of the plurality of bores, the first check valve including a first ball having a first diameter; and a second check valve disposed in a second bore of the plurality of bores, the second check valve including a second ball having a second diameter larger than the first diameter; wherein the first ball is disposed upstream of the second ball; and wherein the second ball defines a limit of downstream travel of the first ball, such that the first ball can engage the second ball with the first check valve in an open state. 2. The pump of claim 1 , wherein each of the first check valve does not include a spring and the second check valve does not include a spring. 3. The pump of claim 1 , wherein: the piston forms a first shoulder within the internal channel and a second shoulder within the internal channel; the first shoulder is disposed at an upstream end of the first bore of the plurality of bores, wherein the first shoulder is a first seat of the first check valve, such that the first ball engages the first shoulder with the first check valve in a closed state; and the second shoulder is disposed at a downstream end of the first bore of the plurality of bores and at an upstream end of the second bore of the plurality of bores, wherein the second shoulder is a second seat of the second check valve, such that the second ball engages the second shoulder with the second check valve in a closed state. 4. A striping machine configured to apply striping material to a ground surface, the striping machine comprising: a frame; at least one wheel supporting the frame; a dispenser configured to apply a spray of the material to the ground surface; a first reservoir supported on the frame and configured to store a first component material; and a first pump configured to pump the first component material from the first reservoir to the dispenser, wherein the first pump is the pump of claim 1 . 5. The pump of claim 1 , wherein the piston divides the cylinder into a pumping chamber and a downstream chamber, wherein the internal channel is configured to receive fluid from the pumping chamber and provide fluid to the downstream chamber through at least one port configured to discharge fluid from the piston. 6. The pump of claim 5 , further comprising: a third check valve disposed upstream of the piston and configured to control fluid flow into the pumping chamber. 7. The pump of claim 6 , wherein the pump is a double displacement pump such that the piston expels fluid into the downstream chamber during each of an upstroke and a downstroke. 8. The pump of claim 1 , wherein: the first bore of the plurality of bores extends from an upstream end of the piston to a first shoulder, the first shoulder forming a first seat with which the first ball is configured to engage; the second bore of the plurality of bores extends from the first shoulder to a second shoulder, the second shoulder forming a second seat with which the second ball is configured to engage; and the plurality of bores includes a third bore extending from the second shoulder to at least one port configured to discharge fluid from the piston. 9. The pump of claim 1 , wherein the piston further comprises: a piston rod extending into the cylinder and configured to reciprocate along the piston axis; a piston body mounted to the piston rod; and a piston face mounted to the piston body; wherein the internal channel extends axially through the piston face and into the piston body; and at least one port configured to discharge fluid from the piston extends through the piston body. 10. The pump of claim 9 , wherein the piston body defines a first shoulder within the internal channel and defines a second shoulder within the internal channel, and wherein the first ball is configured to seat on the first shoulder and the second ball is configured to seat on the second shoulder. 11. The striping machine of claim 4 , wherein the first check valve and the second check valve do not include springs. 12. The striping machine of claim 4 , further comprising: a second reservoir supported on the frame and configured to store a second component material; and a second pump configured to pump the second component material from the second reservoir to the dispenser; wherein the first component material and the second component material mix upstream of exiting the dispenser. 13. The striping machine of claim 12 , further comprising: a motor operatively connected to the second pump to power the second pump; wherein the first pump is mechanically linked to the second pump such that the piston of the first pump reciprocates in phase with a piston of the second pump. 14. A pump comprising: a piston configured to reciprocate along a pump axis; an internal channel extending axially through the piston and configured to provide a flowpath through the piston from an upstream chamber to a downstream chamber, the internal channel comprising a plurality of bores disposed coaxially on the pump axis; a first check valve disposed in a first bore of the plurality of bores, the first check valve including a first ball; and a second check valve disposed in a second bore of the plurality of bores, the second check valve including a second ball; wherein the first ball is disposed upstream of the second ball; wherein the internal channel extends through the piston from an upstream end of the piston to at least one port configured to discharge fluid from the piston; and wherein the first check valve and the second check valve are configured to control fluid flow through the internal channel from the upstream end to the at least one port. 15. The pump of claim 14 , wherein: the first check valve is disposed upstream of the second check valve; and the first ball has a smaller diameter than the second ball. 16. The pump of claim 15 , wherein the second ball defines a limit of downstream travel of the first ball, such that the first ball can engage the second ball with the first check valve in an open state. 17. A striping machine configured to apply striping material to a ground surface, the striping machine comprising: a frame; at least one wheel supporting the frame; a dispenser configured to apply a spray of the material to the ground surface; a first reservoir supported on the frame and configured to store a first component material; and a first pump configured to pump the first component material from the first reservoir to the dispenser, wherein the first pump is the pump of claim 14 . 18. A pump comprising: a piston configured to reciprocate along a pump axis; an internal channel extending axially through the piston and configured to provide a flowpath through the piston from an upstream chamber to a downstream chamber, the internal channel comprising a plurality of bores disposed coaxially on the pump axis; a first check valve disposed in a first bore of the plurality of bores, the first check valve including a first ball having a first diameter; and a second check valve disposed in a second bore of the plurality of bores, the second check valve including a second ball having a second diameter larg