IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0162234
(2002-06-05)
|
등록번호 |
US-7669599
(2010-04-21)
|
발명자
/ 주소 |
- Gunaratnam, Michael K
- Amarasinghe, Amal
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
12 인용 특허 :
18 |
초록
▼
Mask ports 180 for attaching supplemental oxygen tubes 510 or measurement devices to a respiratory mask are downwardly directed and recessed into the base 110 of the mask frame 100. The ports may comprise a pair of downwardly extending tubular spigots 185 each housed in a respective recess 190 in th
Mask ports 180 for attaching supplemental oxygen tubes 510 or measurement devices to a respiratory mask are downwardly directed and recessed into the base 110 of the mask frame 100. The ports may comprise a pair of downwardly extending tubular spigots 185 each housed in a respective recess 190 in the base 110, with a shallow bridging recess 290 therebetween for receiving a bridging piece 300 of a closure cap 280.
대표청구항
▼
The invention claimed is: 1. A mask frame for a respiratory mask, the mask frame having a wall defining a mask cavity adapted for communication with a patient's airways and including a gas inlet oriented in a first plane and adapted for connection to a supply of breathable gas, further including at
The invention claimed is: 1. A mask frame for a respiratory mask, the mask frame having a wall defining a mask cavity adapted for communication with a patient's airways and including a gas inlet oriented in a first plane and adapted for connection to a supply of breathable gas, further including at least one port formed in a lowermost portion of the mask frame, wherein the at least one port is defined by portions of the wall that form a substantially cylindrical bore, wherein the at least one port communicates with the mask cavity via a port aperture, wherein the port is oriented in a second plane substantially perpendicular to the first plane, the mask frame having a front wall, a base wall and an apex opposite the base wall, wherein the at least one port is formed in the base wall, and wherein the port is structured to provide supplemental breathable gas to the mask cavity, independent of the delivery of breathable gas to the mask cavity via the gas inlet. 2. A mask frame according to claim 1, wherein the substantially cylindrical bore of the at least one port extends from the lower portion away from the mask cavity. 3. A mask frame according to claim 1, wherein the at least one port includes a pair of ports. 4. A mask frame for a respiratory mask, the mask frame having a wall defining a mask cavity adapted for communication with a patient's airways and including a gas inlet adapted for connection to a supply of breathable gas, further including at least one port formed in a lowermost portion of the mask frame, wherein the at least one port is defined by portions of the wall that form a substantially cylindrical bore, wherein the at least one port communicates with the mask cavity via a port aperture, wherein the at least one port includes a pair of ports, and wherein the mask frame further includes a removable port cap having a pair of closure portions each adapted to be pushed into a respective one of the pair of ports to seal a respective one of the ports, and a bridge portion connecting the closure portions. 5. A mask frame according to claim 4, wherein the port cap further includes at least one gripping tab which extends away from the port cap. 6. A mask frame according to claim 4, wherein the port cap further includes at least one gripping tab which extends, in use, forward of the front wall of the mask frame. 7. A mask frame according to claim 4, wherein, in use, a base of the port cap is substantially flush with the base wall of the mask frame. 8. A mask frame according to claim 4, wherein the base wall further includes a shallow bridging recess extending between the pair of ports, for receiving the bridge portion of the port cap. 9. A mask frame for a respiratory mask, the mask frame having a wall defining a mask cavity adapted for communication with a patient's airways and including a gas inlet oriented in a first plane and adapted for connection to a supply of breathable gas, further including at least one port formed in a lowermost portion of the mask frame, wherein the at least one port is defined by portions of the wall that form a substantially cylindrical bore, wherein the at least one port communicates with the mask cavity via a port aperture, wherein the port is oriented in a second plane substantially perpendicular to the first plane, the mask frame having a front wall, a base wall and an apex opposite the base wall, wherein the at least one port is formed in the base wall, and wherein the port is structured to allow measurement of the pressure inside the mask cavity, without interfering with the delivery of breathable gas from the gas inlet to the patient's airways in use. 10. A mask frame according to claim 9, wherein the respiratory mask is a nasal mask, and wherein the at least one port is configured to be positioned below the patient's nares. 11. A mask frame according to claim 9, further including a tube having an end adapted for insertion in the at least one port. 12. A mask frame according to claim 9, wherein communication between the port and the mask cavity is independent of communication of pressurized gas between the gas inlet and the mask cavity. 13. A mask frame according to claim 9, wherein the frame includes a patient oriented side in communication with the gas inlet and being configured to support a compliant patient interface in communication with the mask cavity via an orifice. 14. A mask frame for a respiratory mask, the mask frame defining a mask cavity adapted for communication with a patient's airways and including a gas inlet adapted for connection to a supply of breathable gas, further including at least one recess formed in a lower portion of the mask frame and at least one tubular mask port located within the at least one recess, wherein: the at least one recess extends from the lower portion toward the mask cavity and is defined by inwardly protruding portions of the mask frame which protrude perpendicularly inward from a surface of the lower portion of the mask frame and the at least one tubular mask port has a substantially cylindrical bore formed as part of the frame and communicating with the mask cavity via a port aperture in the mask frame, and the recess includes an upper wall portion defining a tube stop formed radially outwards of the cylindrical bore. 15. A mask frame according to claim 14, wherein the at least one recess includes a pair of recesses each housing a respective tubular mask port. 16. A mask frame according to claim 14, further including a tube having an end adapted for insertion in the at least one recess such that an inner surface of the tube substantially seals against an outer surface of the at least one tubular mask port. 17. A mask frame according to claim 14, further including a tube having an end adapted for insertion in the at least one recess such that an inner surface of the tube substantially seals against an outer surface of the at least one tubular mask port, and an outer surface of the tube substantially seals against an inner surface of the at least one recess. 18. A mask frame according to claim 14, wherein the at least one recess is formed by portions of the mask frame which correspond to at least an upper wall portion of the at least one recess, opposed side wall portions of the at least one recess and a rear wall portion of the at least one recess, the wall portions of the at least one recess being spaced from the at least one tubular mask port so as to allow a tube to be pushed over the at least one tubular mask port through an open bottom end of the at least one recess. 19. A mask frame according to claim 14, wherein communication between the port and the mask cavity is independent of communication of pressurized gas between the gas inlet and the mask cavity. 20. A mask frame according to claim 14, wherein the frame includes a patient oriented side in communication with the gas inlet and being configured to support a compliant patient interface in communication with the mask cavity via an orifice. 21. A mask frame according to claim 14, wherein the port is structured to provide supplemental breathable gas to the mask cavity, independent of the delivery of breathable gas to the mask cavity via the gas inlet. 22. A mask frame according to claim 14, wherein the port is structured to allow measurement of the pressure inside the mask cavity, without interfering with the delivery of breathable gas from the gas inlet to the patient's airways in use. 23. A mask frame for a respiratory mask, the mask frame defining a mask cavity adapted for communication with a patient's airways and including a gas inlet adapted for connection to a supply of breathable gas, further including at least one recess formed in a lower portion of the mask frame and at least one tubular mask port formed as part of the frame and located within the at least one recess, wherein: the at least one recess extends from the lower portion toward the mask cavity; and the at least one tubular mask port extends downward from the mask cavity within the at least one recess, the at least one tubular mask port having a bore communicating with the mask cavity via a port aperture in the mask frame, wherein substantially an entire axial extent of the at least one tubular mask port is disposed substantially within the at least one recess. 24. A mask frame according to claim 23, wherein communication between the port and the mask cavity is independent of communication of pressurized gas between the gas inlet and the mask cavity. 25. A mask frame according to claim 23, wherein the frame includes a patient oriented side in communication with the gas inlet and being configured to support a compliant patient interface in communication with the mask cavity via an orifice. 26. A mask frame according to claim 23, wherein the port is structured to provide supplemental breathable gas to the mask cavity, independent of the delivery of breathable gas to the mask cavity via the gas inlet. 27. A mask frame according to claim 23, wherein the port is structured to allow measurement of the pressure inside the mask cavity, without interfering with the delivery of breathable gas from the gas inlet to the patient's airways in use. 28. A mask frame for a respiratory mask, said mask frame defining a mask cavity adapted for communication with a patient's airways including a gas inlet oriented in a first plane and adapted for connection to a supply of breathable gas, further including at least one downwardly opening port oriented in a second plane, substantially perpendicular to the first plane, and located in a lower most portion of the mask frame and communicating with the mask cavity, wherein the at least one port is formed by a portion of the mask frame, the portion of the mask frame protruding upwards into the mask cavity beyond the surface of the lower portion of the mask frame. 29. A mask frame according to claim 28, wherein said at least one port is formed as a tube extending into said mask cavity. 30. A mask frame according to claim 29, wherein said at least one port includes a pair of ports. 31. A mask frame according to claim 30, further including a removable port cap having a pair of closure portions each adapted to seal a respective one of said pair of ports, and a bridge portion connecting said closure portions. 32. A mask frame according to claim 31, wherein said port cap further includes at least one gripping tab which extends, in use, forward of said front wall of the mask frame. 33. A mask frame according to claim 31, wherein, in use, a base of said port cap is substantially flush with said base of the mask frame. 34. A mask frame according to claim 31, wherein said base further includes a shallow bridging recess extending between said pair of ports, for receiving said bridge portion of the port cap. 35. A mask frame according to claim 28, said mask frame being generally triangular in front view and having a front wall, a base, an apex, and a pair of inclined side walls extending from respective opposed ends of the base to said apex, wherein said at least one port is formed in said base. 36. A mask frame according to claim 28, further comprising a tube adapted for insertion in said at least one port such that an outer surface of said tube substantially seals against an inner surface of said at least one port. 37. A mask frame according to claim 28, wherein communication between the port and the mask cavity is independent of communication of pressurized gas between the gas inlet and the mask cavity. 38. A mask frame according to claim 28, wherein the frame includes a patient oriented side in communication with the gas inlet and being configured to support a compliant patient interface in communication with the mask cavity via an orifice. 39. A mask frame according to claim 28, wherein the port is structured to provide supplemental breathable gas to the mask cavity, independent of the delivery of breathable gas to the mask cavity via the gas inlet. 40. A mask frame according to claim 28, wherein the port is structured to allow measurement of the pressure inside the mask cavity, without interfering with the delivery of breathable gas from the gas inlet to the patient's airways in use.
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