Handheld spray gun

The invention claimed is: 1. A handheld sprayer comprising: a spray gun configured to receive material from a reservoir supported by the spray gun and spray the material onto a surface, the spray gun comprising: a nozzle through which the material is emitted from the spray gun; a trigger supported by the gun body, the trigger actuatable to open a flowpath for the material through the nozzle; a connector supported by the spray gun and configured to attach to a hose and supply a flow of pressurized air; an air passage extending into the spray gun, the air passage configured to receive the flow of pressurized air; a common chamber within the spray gun, the common chamber configured to receive the flow of pressurized air from the air passage; a first air pathway fluidly connected to the air passage to receive a first portion of the pressurized air, wherein at least a portion of the first air pathway extends through the spray gun from the common chamber, and wherein the first air pathway is configured to direct the first portion of the pressurized air to the nozzle, the first portion of the pressurized air configured to propel the material through the nozzle; and a second air pathway fluidly connected to the air passage to receive a second portion of the pressurized air from the air passage, wherein at least a portion of the second air pathway extends through the spray gun from the common chamber, and wherein the second air pathway is configured to direct the second portion of the pressurized air to pressurize the reservoir and force the material from the reservoir and towards the nozzle for spraying; and a pressure regulator supported by the spray gun and including a regulator spring, the pressure regulator configured to regulate a pressure of the second portion of the pressurized air. 2. The sprayer of claim 1 , wherein the pressure regulator is adjustable to vary the pressure of the second portion of the pressurized air downstream of the pressure regulator. 3. The sprayer of claim 2 , wherein the pressure regulator is actuatable between a plurality of positions between a minimum flow state and a maximum flow state. 4. The sprayer of claim 3 , wherein the pressure regulator includes a knob configured to actuate the pressure regulator between the plurality of positions, wherein the knob is rotatable between a first position corresponding to the minimum flow state and a second position corresponding to the maximum flow state. 5. The sprayer of claim 4 , wherein the knob is configured to rotate 360-degrees between the first position and the second position. 6. The sprayer of claim 1 , further comprising: an airflow control mechanism mounted to a gun body of the spray gun and configured to control the flow of the first portion through the first air pathway. 7. The sprayer of claim 6 , wherein the airflow control mechanism comprises: a valve member extending into the gun body, the valve member configured to be actuated between a closed state, where the valve member prevents the first portion from flowing through the first air pathway, and an open state, where the valve member allows the first portion to flow through the first air pathway. 8. The sprayer of claim 7 , wherein the valve member is capable of being positioned at a plurality of open positions while in the open state to vary a distance between the valve member and a valve seat. 9. The sprayer of claim 8 , wherein the valve member is mounted to the gun body via interfaced threading, the valve member configured to shift between the closed state and the open state by rotating relative to the gun body. 10. The sprayer of claim 1 , wherein the pressure regulator includes a housing mounted to a gun body of the spray gun. 11. The sprayer of claim 1 , wherein the pressure regulator is actuatable between a plurality of positions between a minimum flow position and a maximum flow position. 12. The sprayer of claim 1 , wherein the connector chamber is disposed upstream of an airflow control mechanism configure to control the flow of the first portion of pressurized air through the first air pathway, and wherein the connector chamber is disposed upstream of the pressure regulator. 13. The sprayer of claim 1 , further comprising: a relief valve disposed on the second air pathway; wherein the relief valve configured to pneumatically connect the second air pathway to atmosphere when the relief valve is in an open position, thereby venting the pressure within the second air pathway. 14. The sprayer of claim 13 , wherein the relief valve is disposed downstream of the pressure regulator. 15. The sprayer of claim 13 , wherein the relief valve is configured to shift to the open position by the pressure within the second air pathway when the pressure within the second air pathway exceeds a threshold pressure. 16. The sprayer of claim 1 , wherein: the reservoir is formed by a hopper having a hopper base with a top opening and a neck extending from an opposite end of the hopper base from the top opening; and the hopper is mounted to a gun body of the sprayer by the neck interfacing with a throat projecting from the gun body. 17. The sprayer of claim 1 , further comprising: a needle disposed at least partially within a gun body of the sprayer, the needle operably connected to the trigger to be actuated by the trigger and control spraying through the nozzle. 18. A handheld sprayer comprising: a spray gun configured to receive material from a reservoir supported by the spray gun and spray the material onto a surface, the spray gun comprising: a nozzle through which the material is emitted from the spray gun; a trigger supported by the gun body, the trigger actuatable to open a flowpath for the material through the nozzle; an air passage extending into the spray gun, the air passage configured to receive the flow of pressurized air; a first air pathway fluidly connected to the air passage to receive a first portion of the pressurized air, wherein at least a portion of the first air pathway extends through the spray gun, and wherein the first air pathway is configured to direct the first portion of the pressurized air to the nozzle, the first portion of the pressurized air configured to propel the material through the nozzle; and a second air pathway fluidly connected to the air passage to receive a second portion of the pressurized air from the air passage, wherein at least a portion of the second air pathway extends through the spray gun, and wherein the second air pathway is configured to direct the second portion of the pressurized air to pressurize the reservoir and force the material from the reservoir and towards the nozzle for spraying; and a pressure regulator supported by the spray gun and including a regulator spring, the pressure regulator configured to regulate a pressure of the second portion of the pressurized air.