Methods and apparatus for preventing rainout

The invention claimed is: 1. A device to reduce conduit rainout attributable to a breathable supply of humidified gas, the device comprising: a breathable gas conduit having an input aperture and an output aperture, the gas conduit configured as a channel for movement of a humidified gas between the input aperture and the output aperture; an atmosphere access port between the input aperture and output aperture; a vapor barrier between the input aperture and the output aperture of the gas conduit, the vapor barrier being proximately located to the input aperture of the gas conduit relative to the output aperture, the vapor barrier being located downstream of a source of vapor in the breathable supply of humidified gas, the vapor barrier operable to selectively prevent vapor from passing from the input aperture to the output aperture bypass tubing configured to channel a flow of dry air from a respiratory treatment apparatus to the breathable gas conduit at an output aperture side of the vapor barrier when the vapor barrier prevents vapor from passing from the input aperture to the output aperture, wherein the atmosphere access port is configured to allow communication between atmosphere and the output aperture when the vapor barrier prevents vapor from passing from the input aperture to the output aperture, so as to prevent conduit rainout after use. 2. The device of claim 1 wherein the vapor barrier is configured to normally seal the channel to prevent vapor from passing from the input aperture to the output aperture. 3. The device of claim 2 wherein the vapor barrier is configured to open to permit vapor to pass from the input aperture to the output aperture upon an application of pneumatic pressure at the input aperture that exceeds a pressure at the output aperture. 4. The device of claim 3 wherein the vapor barrier is configured to close to prevent vapor passing from the input aperture to the output aperture upon an application of a pneumatic pressure at the output aperture that exceeds or is equal to a pressure at the input aperture. 5. The device of claim 4 wherein the vapor barrier comprises a valve flap. 6. The device of claim 5 wherein the valve flap is formed of a flexibly resilient material. 7. The device of claim 4 wherein the vapor barrier comprises a bellows. 8. The device of claim 4 wherein the vapor barrier comprises a duckbill valve. 9. The device of claim 4 wherein the vapor barrier comprises an aperture cover and biasing member. 10. The device of claim 4 wherein the vapor barrier is configured for a detection of pressure changes from one side of the vapor barrier that exist on an opposing side of the vapor barrier. 11. The device of claim 1 wherein the vapor barrier is further configured to cover the atmosphere access port when the vapor barrier permits vapor to pass from the input aperture to the output aperture. 12. The device of claim 11 wherein the vapor barrier is further configured to uncover the atmosphere access port when the vapor barrier prevents vapor passing from the input aperture to the output aperture. 13. The device of claim 1 wherein the gas conduit is configured at the output aperture as a coupling for a patient interface. 14. The device of claim 1 wherein the gas conduit is configured at the input aperture as a coupling for a humidifier. 15. A device to reduce conduit rainout attributable to a breathable supply of humidified gas by, the device comprising: a breathable gas conduit having an input aperture and an output aperture, the gas conduit configured as a channel for movement of a humidified gas between the input aperture and the output aperture; an atmosphere access port between the input aperture and output aperture; a vapor barrier between the input and the output aperture, the vapor barrier being located downstream of a source of vapor in the breathable supply of humidified gas, wherein the vapor barrier is composed of a resilient biasing member configured to form a seal within the channel so as to selectively prevent vapor from passing from the input aperture to the output aperture; and bypass tubing configured to channel a flow of dry air from a respiratory treatment apparatus to the breathable gas conduit at an output aperture side of the vapor barrier when the vapor barrier prevents vapor from passing from the input aperture to the output aperture, wherein the atmosphere access port is configured to allow communication between atmosphere and the output aperture when the vapor barrier prevents vapor from passing from the input aperture to the output aperture, so as to prevent conduit rainout after use.