Resilient fluid housing

The invention claimed is: 1. A high pressure-capable fluid sprayer comprising: a piston pump with a piston disposed to pump a fluid, the piston placing the fluid under pressure in excess of 360 pounds per square inch; a spray tip having an outlet aperture configured to atomize and spray the fluid; and a main pump housing formed of compliant polymer, defining a main pump chamber surrounding the piston, and disposed to receive fluid from a fluid source, the main pump housing having a wall exposed to atmospheric pressure during pumping by the piston pump; and an outlet valve assembly with an outlet valve housing defining an outlet valve chamber disposed between the spray tip and the main pump chamber, the outlet valve housing formed of compliant polymer and having a wall exposed internally to the fluid output from the piston pump under pressure and externally to atmospheric pressure during pumping by the piston pump, wherein one or both of the walls of the main pump and the outlet valve housing distend outwardly during pumping due to the fluid pressure generated by the piston to reduce pressure spikes of the fluid being pumped. 2. The high pressure-capable fluid sprayer of claim 1 , wherein the outlet valve assembly includes a valve ball and valve seat situated at least three times as far from the main pump housing as from the spray tip. 3. The high pressure-capable fluid sprayer of claim 1 , wherein the main pump chamber and the outlet valve chamber together comprise the majority of a fluid-accessible volume of the fluid sprayer. 4. The high pressure-capable fluid sprayer of claim 3 , wherein compliance of the main pump housing prevents peak internal fluid pressures within the fluid-accessible volume from exceeding 1800 psi. 5. The high pressure-capable fluid sprayer of claim 3 , wherein compliance of the main pump housing prevent average internal fluid pressures within the fluid-accessible volume from exceeding 1200 psi. 6. The high pressure-capable fluid sprayer of claim 1 , further comprising a prime valve assembly fluidly connected to the main pump chamber and operable to prime the fluid sprayer, the prime valve assembly having a prime valve housing defining a prime valve chamber. 7. The high pressure-capable fluid sprayer of claim 6 , wherein at least a portion of the prime valve housing is formed of compliant plastic. 8. The high pressure-capable fluid sprayer of claim 1 , wherein the main pump housing and the outlet valve housing each have Young's modulus less than 1,000,000 psi. 9. The high pressure-capable fluid sprayer of claim 1 , wherein the main pump housing and the outlet valve housing are capable of withstanding at least 1000 psi pressure spikes. 10. The high pressure-capable fluid sprayer of claim 1 , wherein at least one of the outlet valve housing and the main pump housing is formed of acetal or nylon. 11. The high pressure-capable fluid sprayer of claim 1 , wherein the walls of the main pump distends outwardly during pumping due to the fluid pressure generated by the piston to reduce pressure spikes of the fluid being pumped. 12. The high pressure-capable fluid sprayer of claim 1 , wherein the wall of the outlet valve housing distends outwardly during pumping due to the fluid pressure generated by the piston to reduce pressure spikes of the fluid being pumped. 13. The high pressure-capable fluid sprayer of claim 1 , wherein both of the walls of the main pump and the outlet valve housing distend outwardly during pumping due to the fluid pressure generated by the piston to reduce pressure spikes of the fluid being pumped. 14. A high pressure-capable fluid sprayer comprising: a piston pump with a piston disposed to pump a fluid, the piston placing the fluid under pressure in excess of 360 pounds per square inch; a spray tip having an outlet aperture configured to atomize and spray the fluid; and a main pump housing defining a main pump chamber surrounding the piston, and disposed to receive fluid from a fluid source; and an outlet check valve assembly with an outlet valve housing defining an outlet valve chamber disposed between the spray tip and the main pump chamber, the outlet valve housing being tubular and containing at least part of a check valve, the outlet valve housing formed of compliant polymer and having a wall exposed internally to the fluid output from the piston pump under pressure and externally to atmospheric pressure during pumping by the piston pump, wherein the wall of the outlet valve housing distends outwardly during pumping due to the fluid pressure generated by the piston to reduce pressure spikes of the fluid being pumped.