Pneumatic inlet/blowdown valve assembly

What is claimed is: 1 . A fluid compressor system for compressing a working fluid comprising: a first air-end operable to receive and compress the working fluid; a second air-end operable to receive the working fluid from the first air-end and further compress the working fluid; and a pneumatic inlet/blowdown valve assembly including: an inlet valve configured to regulate a flow of the working fluid into the first air-end, a blowdown valve configured to release a pressure within the fluid compressor system, and a piston-cylinder actuator in communication with the inlet valve and the blowdown valve, the piston-cylinder actuator including: a first piston housed within a first cylinder, a second piston housed within a second cylinder, the first piston connected to the second piston, and a blowdown valve piston cap disposed within the blowdown valve, the blowdown valve piston cap coupled to the piston shaft and configured to open and close the blowdown valve, the first piston and the second piston configured to be actuated between an idle state wherein the inlet valve is closed to stop the flow of the working fluid into the fluid compressor system and the blowdown valve is open to depressurize the fluid compressor system, and an actuated state wherein the inlet valve is open to allow the flow of the working fluid into the first air-end and the blowdown valve is closed to allow a pressure buildup in the fluid compressor system. 2 . The fluid compressor system of claim 1 , wherein the pneumatic inlet/blowdown valve assembly further includes a first solenoid valve connected between the inlet valve and the first air-end. 3 . The fluid compressor system of claim 2 , wherein the first solenoid valve supplies a first stage vacuum pressure to the piston-cylinder actuator, the first stage vacuum pressure actuating the first piston and the second piston from the idle state to the actuated state. 4 . The fluid compressor system of claim 3 , wherein the pneumatic inlet/blowdown valve assembly further includes a second solenoid valve connected to an interstage pressure tap between the first air-end and the second air-end. 5 . The fluid compressor system of claim 4 , wherein the second solenoid valve supplies an interstage pressure to the piston-cylinder actuator when energized, the interstage pressure maintaining the first piston and the second piston at the actuated state while the fluid compressor system is loading. 6 . The fluid compressor system of claim 5 , wherein the pneumatic inlet/blowdown valve assembly further includes a quick exhaust valve connected to the second solenoid valve, wherein when the fluid compressor system is unloading, the second solenoid valve is de-energized, the quick exhaust valve is configured to vent the pressure buildup in the pneumatic inlet/blowdown valve assembly, and the first piston and the second piston are actuated to the idle state. 7 . The fluid compressor system of claim 1 , wherein the piston shaft is mechanically coupled to a slider crank mechanism that moves the inlet valve between an open position and a closed position. 8 . The fluid compressor system of claim 1 , wherein the fluid compressor system is an oil-free rotary (OFR) compressor. 9 . A pneumatic inlet/blowdown valve assembly for a fluid compressor system comprising: an inlet valve regulating a flow of the working fluid into a first air-end, the first air-end operable to receive and compress a working fluid, a blowdown valve configured to release a pressure within the fluid compressor system, and a piston-cylinder actuator in communication with the inlet valve and the blowdown valve, the piston-cylinder actuator including: a first piston housed within a first cylinder, a second piston housed within a second cylinder, the first piston connected to the second piston, and the first piston and the second piston configured to be actuated between an idle state wherein the inlet valve is closed to stop the flow of the working fluid into the fluid compressor system and the blowdown valve is open to depressurize the fluid compressor system, and an actuated state wherein the inlet valve is open to allow the flow of the working fluid into the first air-end and the blowdown valve is closed to allow a pressure buildup in the fluid compressor system. 10 . The pneumatic inlet/blowdown valve assembly of claim 9 , further including a first solenoid valve connected between the inlet valve and the first air-end. 11 . The pneumatic inlet/blowdown valve assembly of claim 10 , wherein the first solenoid valve supplies a first stage vacuum pressure to the piston-cylinder actuator, the first stage vacuum pressure actuating the first piston and the second piston from the idle state to the actuated state. 12 . The pneumatic inlet/blowdown valve assembly of claim 11 , further including a second solenoid valve connected to an interstage pressure tap between the first air-end and the second air-end. 13 . The pneumatic inlet/blowdown valve assembly of claim 12 , wherein the second solenoid valve supplies an interstage pressure to the piston-cylinder actuator when energized, the interstage pressure maintaining the first piston and the second piston at the actuated state while the fluid compressor system is loading. 14 . The pneumatic inlet/blowdown valve assembly of claim 13 , further including a quick exhaust valve connected to the second solenoid valve, wherein when the fluid compressor system is unloading, the second solenoid valve is de-energized, the quick exhaust valve is configured to vent the pressure buildup in the pneumatic inlet/blowdown valve assembly, and the first piston and the second piston are actuated to the idle state. 15 . The pneumatic inlet/blowdown valve assembly of claim 9 , wherein the piston shaft is mechanically coupled to a slider crank mechanism that moves the inlet valve between an open position and a closed position. 16 . The pneumatic inlet/blowdown valve assembly of claim 9 , wherein the fluid compressor system is an oil-free rotary (OFR) compressor. 17 . A fluid compressor system for compressing a working fluid comprising: a first air-end operable to receive and compress the working fluid; a second air-end operable to receive the working fluid from the first air-end and further compress the working fluid; and a pneumatic inlet/blowdown valve assembly including: an inlet valve configured to regulate a flow of the working fluid into the first air-end, a blowdown valve configured to release a pressure within the fluid compressor system, and a piston-cylinder actuator in communication with the inlet valve and the blowdown valve, the piston-cylinder actuator including: a first piston housed within a first cylinder, and a second piston housed within a second cylinder, the first piston connected to the second piston, and the first piston and the second piston configured to be actuated between an idle state wherein the inlet valve is closed to stop the flow of the working fluid into the fluid compressor system and the blowdown valve is open to depressurize the fluid compressor system, and an actuated state wherein the inlet valve is open to allow the flow of the working fluid into the first air-end and the blowdown valve is closed to allow a pressure buildup in the fluid compressor system. 18 . The fluid compressor system of claim 17 , wherein the pneumatic inlet/blowdown valve assembly further includes a first solenoid valve connected between the inlet valve and the first air-end. 19 . The flui