Respirator flow control apparatus and method

What is claimed is: 1. An air flow control system for a respirator, the control system comprising: a shell defining a breathable air zone for a user; a plurality of air delivery conduits within the shell of the respirator and having an air flow inlet end extending through an air inlet opening of the shell, wherein the conduits are separable from the shell, wherein each air delivery conduit of the plurality of air delivery conduits defines an air flow outlet within the shell to provide air flow into the breathable air zone, and wherein each air delivery conduit receives air flow from a common air flow inlet; a valve member moveable relative to the plurality of air delivery conduits and within the shell to vary the amount of air flow through the air flow outlet of each air delivery conduit to the breathable air zone; and a valve actuator outside of the shell of the respirator that is manipulatable by a user of the respirator while wearing the respirator to control movement of the valve member. 2. The air flow control system of claim 1 , wherein the plurality of air delivery conduits branch to provide separate conduits for flow of air between the common air flow inlet and the air flow outlet of each of the plurality of air delivery conduits. 3. The air flow control system of claim 1 wherein the plurality of air delivery conduits comprise a first conduit and a second conduit, wherein the amount of air flow through the first conduit defines the amount of air flow through at least the second conduit. 4. The air flow control system of claim 1 wherein the plurality of air delivery conduits are shape stable. 5. The air flow control system of claim 1 wherein the shell of the respirator and the plurality of air delivery conduits are shape stable. 6. The air flow control system of claim 1 wherein the shell of the respirator is non-shape stable. 7. The air flow control system of claim 1 wherein the valve member is movable relative to a first set of one or more openings to vary the effective air flow size through each opening of the first set of one or more openings. 8. The air flow control system of claim 7 wherein no more than 50% of the air flowing through the plurality of air delivery conduits is allowed to flow through the first set of one or more openings. 9. The air flow control system of claim 7 wherein the first set of one or more openings is disposed on a side of the plurality of air delivery conduits facing toward a head of the user. 10. The air flow control system of claim 7 wherein the first set of one or more openings is disposed on a side of the plurality of air delivery conduits facing away from a head of the user. 11. The air flow control system of claim 7 wherein the first set of one or more openings is disposed to direct air flowing therethrough across a portion of a head of the user. 12. The air flow control system of claim 1 wherein the valve member is slidable relative to the plurality of air delivery conduits. 13. The air flow control system of claim 1 wherein the valve member is rotatable relative to the plurality of air delivery conduits. 14. The air flow control system of claim 1 wherein the valve actuator is slidable relative to the shell of the respirator. 15. The air flow control system of claim 1 wherein the valve actuator is rotatable relative to the shell of the respirator. 16. The air flow control system of claim 1 , and further comprising: a controller within the shell coupled to the valve member, wherein the controller causes movement of the valve member in response to a signal generated by the valve actuator from outside of the shell. 17. A method for controlling air flow within a respirator comprises: forcing air through a plurality of air delivery conduits within a shell of the respirator, wherein the shell defines a breathable air zone for a user wearing the respirator and the plurality of air delivery conduits include an air flow inlet end extending through an air inlet opening of the shell, wherein each air delivery conduit of the plurality of air delivery conduits defines an air flow outlet within the shell to provide air flow into the breathable air zone, and wherein the conduits are separable from the shell; and manipulating an actuator outside of and adjacent to the shell, by a user of the respirator while wearing the respirator, to vary the amount of air flow through the air flow outlet of each air delivery conduit to the breathable air zone. 18. The method of claim 17 wherein the manipulating step comprises rotating the actuator relative to the shell of the respirator. 19. The method of claim 17 wherein the manipulating step comprises sliding the actuator relative to the shell of the respirator. 20. The method of claim 17 wherein the forcing step comprises providing air for each air delivery conduit from a common air flow inlet. 21. The method of claim 17 wherein the manipulating step comprises varying the amount of air flow through at least two air delivery conduits of the plurality of air delivery conduits controlled. 22. The method of claim 17 wherein the manipulating step comprises the actuator providing a signal to a moveable valve member that is in the shell. 23. A respirator comprising: a shell that defines a breathable air zone for a user wearing the respirator, wherein the shell includes a visor portion to permit a user wearing the respirator to see through the visor portion of the shell; a plurality of air delivery conduits within the shell of the respirator, wherein each of the plurality of air delivery conduits defines an air flow outlet within the shell to provide air flow into the breathable air zone; a valve within at least one of the air delivery conduits to vary the amount of air flow through the air flow outlet of each air delivery conduit to the breathable air zone; and a valve actuator for controlling the valve, wherein the valve actuator is outside the shell of the respirator and is capable of manipulation by a user of the respirator while the user is wearing the respirator wherein the plurality of air delivery conduits are separable from the shell.