A CPAP device for delivering pressurized, humidified breathable gas for a patient includes a flow generator configured to pressurize a flow of breathable gas. The flow generator includes an air outlet and a removable water container configured to humidify the pressurized breathable gas received from
A CPAP device for delivering pressurized, humidified breathable gas for a patient includes a flow generator configured to pressurize a flow of breathable gas. The flow generator includes an air outlet and a removable water container configured to humidify the pressurized breathable gas received from the flow generator. The water container includes an air inlet and an air outlet. The CPAP device further includes a first elastomeric face seal configured to sealingly abut against a substantially flat portion of the water container surrounding the water container air inlet, the first elastomeric face seal being located at an intermediate position between the flow generator air outlet and the water container air inlet when the water container is placed into position to pneumatically communicate with the flow generator. In addition, the CPAP device includes a second elastomeric face seal, a portion of which is configured to sealingly abut against a substantially flat external surface portion of the water container surrounding the water container air outlet.
대표청구항▼
1. A breathable gas supply apparatus for treatment of respiratory disorders comprising: a flow generator with an air inlet on a rear wall, the air inlet configured to provide a supply of ambient air to a blower of the flow generator;a water tub with a first air opening, a second air opening, a top p
1. A breathable gas supply apparatus for treatment of respiratory disorders comprising: a flow generator with an air inlet on a rear wall, the air inlet configured to provide a supply of ambient air to a blower of the flow generator;a water tub with a first air opening, a second air opening, a top portion, a side surface configured to face the rear wall in use and having the second air opening therein and a bottom portion, said bottom portion having a heat conducting surface;a base with a heater, the base being configured to receive the water tub;a lid,a rotatably engageable catch for the lid, the catch being configured to secure the water tub in the base;a first seal between the lid and the top portion of the water tub;an outlet pipe configured to connect with an air delivery tube;a first gas flow port aligned with and in a facing arrangement with the first air opening;a second gas flow port in a facing arrangement with the second air opening; anda second seal configured to create a sealed passage between the second gas flow port and the second air opening,wherein the water tub and the base include complementary configurations that facilitate alignment of the water tub with respect to the base to ensure alignment between the first air opening and the first gas flow port,wherein when the catch is engaged to the base, downwards force is maintained on the water tub to maintain heat-transfer contact between the bottom portion and the heater,wherein the water tub is configured to be removed and refilled with water without requiring disengagement of the air delivery tube from the outlet pipe, andwherein the first air opening, the second air opening, the first gas flow port and the second gas flow port are part of a flow path between the flow generator and the outlet pipe. 2. The breathable gas supply apparatus according to claim 1, further comprising a display and user input, wherein the display and user input are mounted on a circuit board that is interior to the breathable gas supply apparatus, and a power supply circuit board with a vertically oriented surface including electrical components mounted on the vertically oriented surface. 3. The breathable gas supply apparatus according to claim 1, further comprising an inlet muffler cavity; andan inlet filter provided to the air inlet, the inlet filter being configured to filter the ambient air prior to entering the flow generator; whereinthe lid, the first seal and the water tub form part of a sealed air path from the first gas flow port to an outlet of the outlet pipe;the water tub comprises an opening in the top portion configured to enable the water tub to be fillable when the lid is removed and the water tub is received in the base;the flow path comprises a closed passage between a rectangular aperture and a circular aperture;the water tub comprises a flow passage with an enclosed cross-section, the flow passage extending along a top side of the water tub away from the second air opening and towards an interior region of the water tub;the second seal is provided to the base around a periphery of the second gas flow port andthe outlet pipe extends at an acute angle with a wall of the base where the outlet pipe is disposed. 4. The breathable gas supply apparatus according to claim 1, wherein the first seal comprises a channel which mates with a rim on the lid, and the first seal is mounted to the lid. 5. The breathable gas supply apparatus according to claim 1, wherein the first seal is configured to prevent backflow of condensation on an interior side of the lid from flowing back into the flow generator. 6. The breathable gas supply apparatus according to claim 1, wherein the heater is not spring-loaded. 7. The breathable gas supply apparatus according to claim 1, wherein the breathable gas supply apparatus is configured so that air that flows between the first air opening and the second air opening flows through at least one intermediate aperture and at least one turn. 8. The breathable gas supply apparatus according to claim 1, wherein the water tub is adapted for drop-in assembly with the base and the second air opening and the second gas flow port are configured to align for sealing by way of the drop-in assembly. 9. The breathable gas supply apparatus according to claim 1, wherein the bottom portion of the water tub comprises a tub vertical wall and a surface of the base comprises a base vertical wall, the complementary configurations of the water tub and the base comprising the tub vertical wall and the base vertical wall. 10. The breathable gas supply apparatus according to claim 1, wherein the heat conducting surface of the water tub has a complementary shape to the shape of an upper heating surface of the heater;the heat conducting surface of the water tub is a bottom surface of the water tub that is horizontal; andthe heat conducting surface is metal. 11. The breathable gas supply apparatus according to claim 1, wherein the catch comprises a notch and a tab that are engageable with one another by rotation; andone of the notch or the tab is located on the base. 12. The breathable gas supply apparatus according to claim 1, wherein the catch is movable by rotation from a disengaged position to an engaged position and engagement of the catch while the water tub is received in the base causes the first seal to exert downward force on the water tub. 13. The breathable gas supply apparatus according to claim 1, wherein the blower comprises a motor with an impeller mounted to rotate around a vertical axis. 14. The breathable gas supply apparatus according to claim 1, wherein the blower comprises feet that cooperate with corresponding receptacles to reduce vibration transmitted by the blower to a case of the breathable gas supply apparatus. 15. The breathable gas supply apparatus according to claim 1, further comprising a coupling member on an outlet of the blower and interior to the breathable gas supply apparatus, wherein the coupling member is flexible and forms a blower flow passage connected to the outlet of the blower. 16. The breathable gas supply apparatus according to claim 15, wherein the coupling member comprises thermoplastic elastomer and/or silicone rubber. 17. The breathable gas supply apparatus according to claim 15, wherein the coupling member comprises at least two corrugations. 18. The breathable gas supply apparatus according to claim 1, further comprising a coupling member on an outlet of the blower and interior to the breathable gas supply apparatus, wherein the coupling member is flexible and forms a blower flow passage connected to the outlet of the blower; whereinthe coupling member comprises thermoplastic elastomer and/or silicone rubber;the coupling member comprises at least two corrugations;the first seal comprises a channel which mates with a rim on the lid;the first seal is configured to prevent backflow of condensation on an interior side of the lid from flowing back into the flow generator;the heater is not spring-loaded;the breathable gas supply apparatus is configured so that air that flows between the first air opening and the second air opening flows through at least one intermediate aperture and at least one turn;the water tub is adapted for drop-in assembly with the base;the second air opening and the second gas flow port are configured to align for sealing by way of the drop-in assembly;the bottom portion of the water tub comprises a tub vertical wall and a surface of the base comprises a base vertical wall, and the complementary configurations of the water tub and the base comprise the tub vertical wall and the base vertical wall;engagement of the catch while the water tub is received in the base causes the first seal to exert downward force on the water tub; andthe blower comprises feet that cooperate with corresponding receptacles to reduce vibration transmitted by the blower to a case of the breathable gas supply apparatus. 19. The breathable gas supply apparatus according to claim 1, further comprising a coupling member on an outlet of the blower and interior to the breathable gas supply apparatus, wherein the coupling member is flexible and forms a blower flow passage connected to the outlet of the blower, wherein the coupling member comprises thermoplastic elastomer and/or silicone rubber, and the coupling member comprises at least two corrugations;a display and user input, wherein the display and user input are mounted on a circuit board that is interior to the breathable gas supply apparatus, and a power supply circuit board with a vertically oriented surface including electrical components mounted on the vertically oriented surface;an inlet muffler cavity;an inlet filter provided to the air inlet, the inlet filter being configured to filter the ambient air prior to entering the flow generator; whereinthe lid, the first seal and the water tub form part of a sealed air path from the first gas flow port to an outlet of the outlet pipe;the water tub comprises an opening in the top portion configured to enable the water tub to be fillable when the lid is removed and the water tub is received in the base;the outlet pipe extends at an acute angle with a wall of the base where the outlet pipe is disposed;the flow path comprises a closed passage between a rectangular aperture and a circular aperture;the water tub comprises a flow passage with an enclosed cross-section, the flow passage extending away from the second air opening and towards an interior region of the water tub;the first seal comprises a channel which mates with a rim on the lid;the flow passage runs along a top side of the water tub;the heater is not spring-loaded;the breathable gas supply apparatus is configured so that air that flows between the first air opening and the second air opening flows through at least one intermediate aperture and at least one turn;the water tub is adapted for drop-in assembly with the base;the second air opening and the second gas flow port are configured to align for sealing by way of the drop-in assembly;the bottom portion of the water tub comprises a tub vertical wall and a surface of the base comprises a base vertical wall, and the complementary configurations of the water tub and the base comprise the tub vertical wall and the base vertical wall;the heat conducting surface of the water tub has a complementary shape to the shape of an upper heating surface of the heater;in use, the heat conducting surface of the water tub is a bottom surface of the water tub that is horizontal;the heat conducting surface is metal;the catch comprises a notch and a tab that are engageable with one another by rotation;one of the notch or the tab is located on the base;engagement of the catch while the water tub is received in the base causes the first seal to exert downward force on the water tub;the second seal is provided to the base around a periphery of the second gas flow port;the blower comprises a motor with an impeller mounted to rotate around a vertical axis; andthe blower comprises feet that cooperate with corresponding receptacles to reduce vibration transmitted by the blower to a case of the breathable gas supply apparatus. 20. A breathable gas supply apparatus for treatment of respiratory disorders comprising: a flow generator with a blower and an air inlet configured to provide a supply of ambient air to the blower;a water tub with a first air opening, a second air opening, a top portion, a side surface having the second air opening and a bottom portion, said bottom portion having a heat conducting surface;a base with a heater, the base being configured to receive the water tub;a rotatable catch configured to retain the water tub in the base;a first seal located at a position that is vertically between the top portion and the bottom portion of the water tub when the breathable gas supply apparatus is in an upright position;an outlet pipe configured to connect with an air delivery tube;a first gas flow port aligned with and in a facing arrangement with the first air opening;a second gas flow port in a facing arrangement with the second air opening;a second seal configured to create a sealed passage between the second gas flow port and the second air opening,wherein the water tub and the base include complementary configurations that facilitate alignment of the water tub with respect to the base to ensure alignment between the first air opening and the first gas flow port,wherein engagement of the catch causes compression of the first seal so that downwards force is maintained on the water tub to maintain heat-transfer contact between the heat conducting surface and the heater,wherein the water tub is configured to be removed and refilled with water without requiring disengagement of the air delivery tube from the outlet pipe, andwherein the first air opening, the second air opening, the first gas flow port and the second gas flow port are part of a flow path between the flow generator and the outlet pipe. 21. The breathable gas supply apparatus according to claim 20, wherein the water tub comprises at least one intermediate aperture and at least one turn to guide pressurized breathable gas passing through the water tub. 22. The breathable gas supply apparatus according to claim 20, wherein the bottom portion of the water tub comprises a tub vertical surface and the base comprises a base vertical surface, and the complementary configurations of the water tub and the base comprise the tub vertical surface and the base vertical surface. 23. The breathable gas supply apparatus according to claim 20, further comprising: hubs that are received in sockets, wherein the first seal is configured to rotate in a first direction about the hubs until reaching a maximum extent of normal travel and when rotated further in the first direction, the hubs move outward from the sockets. 24. The breathable gas supply apparatus according to claim 20, wherein the breathable gas supply apparatus is configured so that air that flows between the first air opening and the second air opening flows through at least one intermediate aperture and at least one turn,the bottom portion of the water tub comprises a tub vertical surface and the base comprises a base vertical surface, and the complementary configurations of the water tub and the base comprise the tub vertical surface and the base vertical surface,the breathable gas supply apparatus further comprises hubs that are received in sockets, wherein the first seal is configured to rotate in a first direction about the hubs until reaching a maximum extent of normal travel and when rotated further in the first direction, the hubs move outward from the sockets. 25. The breathable gas supply apparatus according to claim 20, wherein the first seal is above a maximum fill height of the water tub when the breathable gas supply apparatus is in the upright position. 26. The breathable gas supply apparatus according to claim 20, further comprising a third seal vertically between the first seal and the bottom portion when the breathable gas supply apparatus is in the upright position. 27. A breathable gas supply apparatus for treatment of respiratory disorders comprising: a flow generator with a blower and an air inlet configured to provide a supply of ambient air to the blower;a water tub with a first air opening, a second air opening, a top portion, a side surface having the second air opening and a bottom portion, said bottom portion having a heat conducting surface;a base with a heater, the base being configured to receive the water tub;a first seal proximate the top portion of the water tub;an outlet pipe configured to connect with an air delivery tube;a first air port facing and in fluid communication with the first air opening;a second air port facing and in fluid communication with the second air opening;a second seal between the second air port and the second air opening; anda covering portion that extends over and covers at least a portion of the water tub when the water tub is received in the base,wherein a shape of the water tub and a shape of the base cause alignment of the water tub with respect to the base and cause alignment between the first air opening and the first air port,wherein the second air port and the second air opening are aligned and sealed when the water tub is secured to the base,wherein the first seal is compressible, due to the covering portion, to exert force in a direction that maintains heat-transfer contact between the heat conducting surface and the heater,wherein the water tub is removable and refillable with water without disengaging the air delivery tube from the outlet pipe, andwherein the first air opening, the second air opening, the first air port and the second air port are part of a flow path between the flow generator and the outlet pipe. 28. The breathable gas supply apparatus according to claim 27, wherein the breathable gas supply apparatus is configured so that air that flows between the first air opening and the second air opening flows through at least one intermediate aperture and at least one turn. 29. The breathable gas supply apparatus according to claim 27, wherein the bottom portion of the water tub comprises a tub vertical surface and the base comprises a base vertical surface, and the shape of the water tub and a shape of the base that cause alignment of the water tub includes the tub vertical surface and the base vertical surface. 30. The breathable gas supply apparatus according to claim 27, further comprising: hubs that are received in sockets, wherein the first seal is configured to rotate in a first direction about the hubs until reaching a maximum extent of normal travel and when rotated further in the first direction, the hubs move outward from the sockets.
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