Vehicle suspension control system with high flow exhaust mechanization

What is claimed is: 1. An air management system for a vehicle having a body and plurality of wheels, said air management system including: at least one air spring for interconnecting the body and one of the wheels; a compressor for filling said air spring; a central air line disposed between said air spring and said compressor and fluidly connected to said air spring and said compressor; at least one spring air line extending between said central air line and said air spring; at least one suspension valve disposed along said spring air line for selectively allowing and preventing air from flowing between said air spring and said central air line; at least one auxiliary air line extending between said spring air line and said central air line; at least one high flow exhaust valve disposed along said auxiliary air line for selectively allowing and preventing air from passing between said spring air line and said central air line; and at least one isolation check valve disposed in series with said high flow exhaust valve along said spring air line and allowing air to pass through said isolation check valve from said air spring to said central air line and preventing air from passing through said isolation check valve from said central air line to said air spring. 2. An air management system as set forth in claim 1 wherein said auxiliary air line is connected to said spring air line at a point that is spaced from said suspension valve toward said air spring. 3. An air management system as set forth in claim 1 wherein said at least one air spring includes a pair of air springs; said at least one spring air line includes a pair of spring air lines each extending between said central air line and one of said air springs; said at least one suspension valve includes a pair of suspension valves each disposed along one of said spring air lines; said at least one auxiliary air line includes a base portion connected to said central air line and a pair of wing portions each extending from said base portion to one of said spring air lines; and wherein said high flow exhaust valve is disposed along said base portion. 4. An air management system as set forth in claim 3 wherein said at least one isolation check valve includes a pair of isolation check valves each disposed along one of said wing portions. 5. An air management system as set forth in claim 1 further including a reservoir for storing compressed air from said compressor; a reservoir air line extending between said reservoir and said central air line; said reservoir air line splitting into a first branch and a second branch and joining back to a single air line along a portion of said reservoir air line; a first reservoir valve disposed along said first branch and a second reservoir valve disposed along said second branch such that said first and second reservoir valves are parallel with one another, each of said first and second reservoir valves having an orifice for allowing air to pass therethrough, and each of said reservoir valves selectively allowing air to pass through said reservoir valve between said reservoir and said central air line; said orifice of said first reservoir air line being smaller than said orifice of said second reservoir air line for providing variable flow rates of air being conveyed between said reservoir tank and said central air line depending on which reservoir valve is opened and which reservoir valve is closed. 6. An air management system as set forth in claim 5 wherein a boost air line extends between said reservoir air line and said compressor for allowing air from said reservoir to pass to said compressor. 7. An air management system as set forth in claim 6 further including a first boost check valve disposed along said boost air line allowing air to pass from said reservoir to said compressor while preventing air from passing from said compressor to said reservoir. 8. An air management system as set forth in claim 7 further including a second boost check valve disposed along said reservoir air line between said first reservoir valve and said central air line allowing air to pass through said second boost check valve from said reservoir to said central air line while preventing air from passing through said second boost check valve from said central air line to said first reservoir valve. 9. An air management system as set forth in claim 1 further including a manifold block containing said central air line, said suspension valve, said high flow exhaust valve and said at least one isolation check valve. 10. An air management system as set forth in claim 9 wherein said manifold block includes an inlet port fluidly connected to said central air line and at least one suspension port fluidly connected to said spring air line. 11. An air management system as set forth in claim 10 wherein said manifold block includes a front face and a rear face on opposing sides from one another, wherein said inlet port and suspension port are disposed on said front face, and wherein said suspension valve, said high flow exhaust valve and said isolation check valve are disposed on said rear face. 12. An air management system as set forth in claim 11 wherein said suspension valve is disposed in air line with said suspension port in said manifold block. 13. An air management system as set forth in claim 11 further including a pressure sensor disposed in said manifold block and connected to said central air line for reading a pressure of said at least one air spring. 14. An air management system as set forth in claim 13 wherein said manifold block defines a compressor inlet port fluidly connected to said central air line; a base air line fluidly connects said compressor to said compressor inlet port; and wherein a dryer is disposed in-line with said compressor inlet port outside of said manifold block for removing moisture from air being transferred from said compressor to said manifold block. 15. An air management system as set forth in claim 14 further including a dryer control valve disposed in-line with said compressor inlet port outside of said manifold block for allowing the volume of said manifold block to be isolated from said dryer and said compressor. 16. An air management system as set forth in claim 11 further including a controller electrically connected to said suspension valve, said high flow exhaust valve and said isolation valve for allowing said controller to open and close said suspension valve, high-flow exhaust valve and said isolation valve. 17. An air management system as set forth in claim 16 wherein said controller is integrated into said manifold block. 18. A method for operating an air management system for a vehicle having a body and plurality of wheels, said method including: providing at least one air spring for interconnecting the body and one of the wheels; providing a compressor for filling the air spring; providing a central air line disposed between the air spring and the compressor and fluidly connected to the air spring and the compressor; providing at least one spring air line extending between the central air line and the air spring; providing at least one suspension valve disposed along the spring air line and moveable between an open position and a closed position, wherein the suspension valve allows air to pass between the air spring and the central air line while the suspension valve is in the open position, and wherein the suspension valve inhibits air from passing between the air spring and the central line while the suspension valve is i