Spray gun converter

What is claimed is: 1. A spray gun converter comprising: a body comprising: a first end configured for insertion into a manifold of a spray gun, wherein the manifold comprises a manifold fan air outlet; a second end having a converter fitting configured for connection to a reservoir, and a reservoir air passage extending through the body from an inlet end at the first end to an outlet end on the converter fitting at the second end, wherein the inlet end is configured to fluidically couple to the manifold when assembled; a reservoir air control valve that opens and closes the reservoir air passage; and a fan air control valve, comprising: a threaded spindle extending through the body of the spray gun converter from the first end to the second end; a valve plug attached to the threaded spindle proximate the first end of the body. wherein the valve plug is configured to engage with a portion of the manifold fan air outlet; and a fan air control knob attached to the spindle proximate the second end of the body. 2. The spray gun converter of claim 1 , further comprising a gasket surrounding at least a portion of the first end of the body. 3. The spray gun converter of claim 1 , wherein the reservoir air control valve is a threaded needle valve comprising a reservoir air control knob. 4. The spray gun converter of claim 1 , wherein the reservoir air passage comprises a first portion that extends from the inlet end and a second portion that extends from the outlet end, the first and second portions forming an intersection in the body of the spray gun converter. 5. The spray gun converter of claim 4 , wherein the first and second portions are at substantially right angles at the intersection. 6. The spray gun converter of claim 4 , wherein the reservoir air control valve is located at the intersection of the first portion and second portion of the reservoir air passage. 7. The spray gun converter of claim 4 , wherein the second portion of the reservoir air passage extends linearly though the body from the outlet end to an opening in the body opposite the outlet end, wherein the reservoir air control valve is threaded into the opening, and wherein the reservoir air control valve can be adjusted to close, partially open or completely open the reservoir air passage. 8. The spray gun converter of claim 1 , wherein the body comprises a slot disposed adjacent to the first end of the body, the slot is adapted to receive at least a portion of a gasket. 9. The spray gun converter of claim 8 , wherein the inlet end is positioned closer to the first end than the slot. 10. The spray gun converter of claim 1 , wherein the manifold fan air outlet is fluidly connected to air horns on a spray head assembly of the spray gun, and the air horns comprise nozzle fan air outlets that direct air to shape the atomized liquid into a desired spray pattern. 11. A spray gun comprising: a platform comprising a manifold, wherein the manifold comprises: a chamber; a manifold air inlet fluidly connected to the chamber; a manifold center air outlet and a manifold fan air outlet each fluidly connected to the chamber; and an access fluidly connected to the chamber; a spray head assembly connected to the platform and comprising: a nozzle fluid passage comprising a nozzle fluid inlet and a nozzle fluid outlet; a nozzle center air passage comprising a nozzle center air inlet and a nozzle center air outlet; and a nozzle fan air passage comprising a nozzle fan air inlet and a nozzle fan air outlet; wherein the nozzle center air inlet is fluidly connected to the manifold center air outlet, and the nozzle fan air inlet is fluidly connected to the manifold fan air outlet; and a spray gun converter comprising: a body comprising: a first end configured for insertion into the manifold fan air outlet; a second end having a converter fitting configured for connection to a reservoir, and a reservoir air passage extending through the body from an inlet end at the first end to an outlet end on the converter fitting at the second end, wherein the inlet end is configured to fluidically couple to the manifold fan air outlet when sealed; a reservoir air control valve that opens and closes the reservoir air passage; and a fan air control valve, comprising: a threaded spindle extending through the body of the spray gun converter from the first end to the second end; a valve plug attached to the threaded spindle proximate the first end of the body, wherein the valve plug is configured to engage with a portion of the manifold fan air outlet; and fan air control knob attached to the spindle proximate the second end of the body. 12. The spray gun of claim 11 , wherein the reservoir air control valve is a threaded needle valve comprising a reservoir air control knob. 13. The spray gun of claim 11 , wherein the intersection is at substantially right angles. 14. The spray gun of claim 11 , wherein the reservoir air control valve is located at the intersection of the first portion and second portion of the reservoir air passage. 15. The spray gun of claim 11 , wherein the second portion of the reservoir air passage extends linearly though the body from the outlet end to an opening in the body opposite the outlet end, wherein the reservoir air control valve is threaded into the opening, and wherein the reservoir air control valve can be adjusted to close, partially open or completely open the reservoir air passage. 16. The spray gun of claim 11 , further comprising a fan air control valve that opens and closes the manifold fan air outlet. 17. The spray gun of claim 16 , wherein the reservoir air control valve is positioned to close the reservoir air passage and the fan air control valve is positioned to at least partially open the manifold fan air outlet. 18. The spray gun of claim 16 , wherein the reservoir air control valve is positioned to at least partially open the reservoir air passage and the fan air control valve is positioned to close the manifold fan air outlet. 19. The spray gun of claim 16 , wherein the reservoir air control valve is positioned to close the reservoir air passage and the fan air control valve is positioned to close the manifold fan air outlet. 20. The spray gun of claim 16 , wherein the reservoir air control valve is positioned to at least partially open the reservoir air passage and the fan air control valve is positioned to at least partially open the manifold fan air outlet. 21. A method for converting a gravity-fed spray gun to a pressure- assisted spray gun, the method comprising: inserting a spray gun converter into a manifold of the gravity-fed spray gun, the spray gun converter comprising: a body comprising: a first end configured for insertion into a manifold of a spray gun, wherein the manifold comprises a manifold fan air outlet; a second end having a converter fitting configured for connection to a reservoir, and a reservoir air passage extending through the body from an inlet end at the first end to an outlet end on the converter fitting at the second end, wherein the inlet end is configured to fluidically couple to the manifold when assembled; a reservoir air control valve that opens and closes the reservoir air passage; and a fan air control valve, comprising: a threaded spindle extending through the body of the spray gun converter from the first end to the second end; a valve plug attached to the threaded spindle proximate the first end of the body, wherein the valve plug