Breathable gas supply apparatus

The invention claimed is: 1. A breathable gas supply apparatus for delivering pressurized, humidified breathable gas to a patient for use in treatment of a respiratory disorder, the breathable gas supply apparatus comprising: a flow generator configured to pressurize a flow of breathable gas, the flow generator comprising a flow generator air inlet and a flow generator air outlet; a water container configured to humidify the pressurized flow of breathable gas, the water container comprising a water container air inlet and a water container air outlet, the water container having a substantially flat external surface that surrounds the water container air outlet, the water container being configured to receive the flow of breathable gas at the water container air inlet from the flow generator air outlet, and the water container being configured to be removably connected to the flow generator; a humidified air outlet pipe configured to be connected to an air conduit to direct the humidified, pressurized flow of breathable gas to a mask worn by the patient during treatment; a first elastomeric face seal being located between the flow generator air outlet and the water container air inlet in use to seal between the flow generator air outlet and the water container air inlet; and a second elastomeric face seal configured to sealingly abut against the substantially flat external surface of the water container that surrounds the water container air outlet in use, the second elastomeric face seal surrounding the water container air outlet, and the second elastomeric face seal being positioned between the water container air outlet and the humidified air outlet pipe in use, wherein the first elastomeric face seal and the second elastomeric face seal are configured to be urged into sealing engagement against corresponding surfaces of the water container by pressure from the pressurized flow of breathable gas. 2. The breathable gas supply apparatus according to claim 1 , wherein the first elastomeric face seal and the second elastomeric face seal are configured to seal without any portion of the water container entering a first aperture and a second aperture formed by the first elastomeric face seal and the second elastomeric face seal, respectively, such that removing the water container results in decoupling of the water container from the first elastomeric face seal and the second elastomeric face seal. 3. The breathable gas supply apparatus according to claim 1 , wherein the water container air inlet is located on a lateral side of the water container and the substantially flat external surface of the water container that surrounds the water container air outlet is perpendicular to a direction of airflow entering the water container air inlet. 4. The breathable gas supply apparatus according to claim 1 , further comprising a sealed air path through the first elastomeric face seal and through the water container air inlet to an interior of the water container, when the water container is pneumatically connected with the flow generator by sliding the water container generally laterally into position, and wherein the sealed air path extends from the flow generator, through the water container, and to the second elastomeric face seal. 5. The breathable gas supply apparatus according to claim 1 , further comprising: an external case; a user interface positioned on the external case; and a fan comprising a motor and a coaxial impeller configured to pressurize the flow of breathable gas and direct the pressurized flow of breathable gas to the flow generator air outlet. 6. The breathable gas supply apparatus according to claim 1 , wherein the water container further comprises a water tub and a tub lid that are joined at respective peripheral portions of the water tub and the tub lid. 7. The breathable gas supply apparatus according to claim 6 , further comprising a water container seal shaped and dimensioned to correspond with the respective peripheral portions of the water tub and the tub lid, the water container seal being positioned between the water tub and the tub lid to seal between the water tub and the tub lid at the respective peripheral portions. 8. The breathable gas supply apparatus according to claim 6 , wherein the water container air inlet and the water container air outlet are formed in the tub lid. 9. The breathable gas supply apparatus according to claim 6 , wherein the water tub further comprises filling level graduations to indicate a filling height of water. 10. The breathable gas supply apparatus according to claim 6 , wherein the water tub further comprises a floor constructed of metal to conduct heat from a heater pad to water in the water container. 11. The breathable gas supply apparatus according to claim 6 , wherein the tub lid is configured to be removed for filling the water container with water. 12. The breathable gas supply apparatus according to claim 1 , wherein the water container forms a headspace in which the pressurized flow of breathable gas is humidified by water in the water container, wherein the water container air inlet is arranged such that the pressurized flow of breathable gas enters the headspace in a downward direction, and wherein the water container air outlet is arranged such that the pressurized flow of breathable gas exits the headspace in an upward direction. 13. The breathable gas supply apparatus according to claim 12 , wherein the water container air inlet and the water container air outlet are positioned such that the pressurized flow of breathable gas enters the headspace through the water container air inlet at a first height and exits the headspace through the water container air outlet at a second height, the first height being vertically lower than the second height. 14. The breathable gas supply apparatus according to claim 1 , wherein the water container has a substantially flat external surface that surrounds the water container air inlet. 15. The breathable gas supply apparatus according to claim 14 , wherein the first elastomeric face seal is configured to sealingly abut against the substantially flat external surface of the water container that surrounds the water container air inlet in use. 16. The breathable gas supply apparatus according to claim 1 , wherein the first elastomeric face seal is constructed from silicone. 17. The breathable gas supply apparatus according to claim 1 , wherein the second elastomeric face seal is constructed from silicone. 18. The breathable gas supply apparatus according to claim 1 , wherein the second elastomeric face seal further comprises a curved sealing flange configured to contact and seal against the water container. 19. The breathable gas supply apparatus according to claim 1 , further comprising a sealed air path through the first elastomeric face seal and through the water container air inlet to an interior of the water container, when the water container is pneumatically connected with the flow generator by sliding the water container generally laterally into position, wherein the sealed air path extends from the flow generator, through the water container, and to the second elastomeric face seal, wherein the first elastomeric face seal and the second elastomeric face seal are configured to seal without any portion of the water container entering a first aperture and a second aperture formed by the first elastomeric face seal and the second elastomeric face seal such that removing the water container results in decoupling of the water con