Air distribution system for rapid tire inflation

What is claimed is: 1. A tire inflation system for a vehicle supported by a plurality of inflatable tires, the system comprising: a compressor carried on the vehicle; an air storage tank carried on the vehicle and connected to the compressor for storing compressed air; a plurality of automatically operable fill valves, each fill valve being associated with a respective one of the tires so that each tire is communicated with the air storage tank by a separate one of the fill valves to increase inflation pressure in the tire when a respective fill valve is in an open position; and a controller operably associated with all of the fill valves, the controller having a multiple tire rapid inflation mode in which the fill valves associated with at least two of the tires are maintained in the open positions for an initial period until pressure in the air storage tank and the at least two tires substantially equalizes, and for a subsequent period during which the compressor provides additional inflation air to the at least two tires. 2. The system of claim 1 , wherein: the multiple tire rapid inflation mode is configured such that during the subsequent period the compressor provides the additional inflation air to the at least two tires through the air storage tank. 3. The system of claim 1 , wherein: the multiple tire rapid inflation mode is an all tire rapid inflation mode in which all of the fill valves are maintained in the open positions for the initial period until pressure in the air storage tank and all of the tires substantially equalizes, and for the subsequent period during which the compressor provides additional inflation air to the all of the tires. 4. The system of claim 1 , wherein: each of the fill valves is a non-throttling on-off valve selectively movable between a discrete open position and a discrete closed position. 5. The system of claim 4 , wherein: each of the fill valves is a solenoid operated fill valve. 6. The system of claim 1 , wherein: the controller has a manual mode in which a human operator can separately control each of the fill valves to separately inflate each of the tires. 7. The system of claim 1 , further comprising: a plurality of tire pressure sensors, one of the tire pressure sensors disposed in each of the tires, each tire pressure sensor configured to wirelessly transmit pressure data; and wherein the controller is configured to receive the pressure data from the tire pressure sensors. 8. The system of claim 1 , further comprising: a plurality of automatically operable dump valves, each dump valve being associated with a respective one of the tires so that each tire is vented by a separate one of the dump valves to decrease inflation pressure in the tire when a respective dump valve is in an open position. 9. The system of claim 8 , wherein: each of the fill valves and each of the dump valves are separate solenoid operated valves, each tire having associated therewith one of the fill valves located in an inflation air line between the air storage tank and the respective tire, and each of the dump valves being communicated with an open exhaust zone and with the inflation air line between the respective fill valve and the tire. 10. The system of claim 8 , wherein: the controller has an all tire rapid deflation mode in which all of the dump valves are initially in the open positions, and each separate dump valve is then closed when the inflation pressure in a respective tire drops to a set low pressure level. 11. The system of claim 1 , wherein: the controller includes an input device configured such that a human operator can enter a low pressure setting and a high pressure setting into the controller; and the controller is configured in the multiple tire rapid inflation mode to maintain the fill valves associated with the at least two tires in the open positions until inflation pressure in the at least two tires reaches the high pressure setting. 12. The system of claim 11 , further comprising: a tank pressure sensor communicated with the air storage tank; and wherein the controller is operably associated with the tank pressure sensor to receive signals indicative of air pressure in the air storage tank, and the controller is configured to control inflation pressure in the tires based upon the signals from the tank pressure sensor. 13. The system of claim 1 , wherein: each of the fill valves is incorporated in a three-way valve having the open position, a dump position in which the respective tire is vented to decrease inflation pressure in the tire, and a blocked position in which there is no flow of air to or from the tire through the three-way valve. 14. The system of claim 1 , further comprising: an inflation air main line connected to the air storage tank; a manifold connected to the inflation air main line, each of the fill valves being connected to the manifold, so that that each fill valve is communicated with the air storage tank through the manifold and the inflation air main line; and a plurality of separate inflation air branch lines, each fill valve being communicated with a respective tire by one of the separate inflation air branch lines. 15. The system of claim 14 , wherein: the inflation air main line comprises one and only one tubular conduit communicating the air storage tank with the manifold. 16. The system of claim 1 , the vehicle including a tractor having at least first and second axles, and a trailer having at least a third axle, and wherein: the compressor and air storage tank are carried on the tractor; and at least one of the fill valves is communicated with a tire of the tractor and at least one of the fill valves is communicated with a tire of the trailer. 17. The system of claim 1 , wherein: the air storage tank is a main air storage tank; and the system further comprises an auxiliary air storage tank carried on the vehicle and connected to the main air storage tank. 18. A method of rapid inflation of a plurality of tires of a vehicle, the method comprising: (a) providing on the vehicle a compressed air tank system; (b) providing on the vehicle an air compressor; (c) providing a plurality of automated fill valves, each fill valve being associated with a respective one of the tires so that each tire can be communicated with the air tank system by a separate one of the fill valves; (d) storing compressed air from the compressor in the air tank system at a storage pressure; and (e) under control of a multiple tire rapid inflation mode of a controller, opening the fill valves associated with at least two of the tires and maintaining the fill valves associated with the at least two tires in the open positions during an initial period until pressure in the air tank system and the at least two tires substantially equalizes, and during a subsequent period during which the compressor provides additional inflation air to the at least two tires. 19. The method of claim 18 , wherein: during the subsequent period of step (e) the compressor provides the additional inflation air to the at least two tires through at least part of the air tank system. 20. The method of claim 18 , wherein: in step (e) the multiple tire rapid inflation mode is an all tire rapid inflation mode in which all of the fill valves are maintained in the open positions for the initial period until pressure in the air storage tank and all of the tires substantially equalizes, and for the subsequent period during which the compressor provides