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▼
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
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, and wherein the substantially cylindrical bore of the at least one port extends from the lower portion inside the mask cavity. 2. A mask frame according to claim 1, further comprising at least one headgear attachment point. 3. 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, and 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, an apex opposite the base wall, and a pair of inclined side walls extending from respective opposed ends of the base wall to the apex, wherein the at least one port is formed in the base wall. 4. A mask frame according to claim 3, wherein the cylindrical bore includes a first axis that is adapted to receive a cylindrical tube having a second axis, the first and second axes being coincident when the cylindrical tube is pushed into direct engagement with a wall of the cylindrical bore. 5. 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, and wherein the at least one port is formed within a recess including an upper wall portion, opposed side wall portions and a rear wall portion, so as to allow a tube to be pushed through an open bottom end of the at least one recess. 6. A mask frame according to claim 5, wherein a front wall of the at least one recess is formed by part of a front wall of the mask frame. 7. A mask frame according to claim 5, wherein the opposed side wall portions of the at least one recess and the rear wall portion of the at least one recess are formed as one substantially continuous curved wall. 8. A mask frame according to claim 5, wherein the opposed side wall portions of the at least one recess, the rear wall portion of the at least one recess, and a front wall portion of the at least one recess are formed as one substantially continuous curved wall in the form of a tube. 9. A mask frame according to claim 5, wherein the recess aperture extends through the upper wall portion of the at least one recess. 10. A mask frame according to claim 5, wherein the gas inlet is located in the front wall of the mask frame, above the at least one recess. 11. 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 is formed within a recess including an upper wall portion, opposed side wall portions and a rear wall portion, so as to allow a tube to be pushed through an open bottom end of the at least one recess, wherein the at least one port is formed within a recess including an upper wall portion, opposed side wall portions and a rear wall portion, so as to allow a tube to be pushed through an open bottom end of the at least one recess, and wherein the upper wall portion of the recess defines a tube stop formed from a portion of the mask frame. 12. A mask flame for a respiratory mask, the mask flame 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 lower 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; wherein the substantially cylindrical bore of the at least one port extends from the lower portion inside the mask cavity and wherein the frame further comprises a pivotable elbow provided to the gas inlet. 13. A mask frame according to claim 12, further comprising at least one headgear attachment point. 14. A mask frame for a nasal respiratory mask, the mask frame defining a mask cavity adapted for communication with a patient's airways, the mask frame comprising: a front wall, a base and an apex;a pair of inclined side walls extending from respective opposed ends of the base to the apex;a pair of lower headgear connection points provided to the mask frame;a pair of recesses formed between the pair of lower headgear connection points in the base, the pair of recesses each extending inward towards the mask cavity and being bounded by at least one upper wall portion, opposed side wall portions, a rear wall portion and a front wall portion formed as part of the front wall of the mask frame, and being open at a bottom end thereof;a pair of mask ports, each mask port comprising a downwardly extending tubular spigot located at least partly within a respective one of the recesses, each spigot including a bore communicating with the mask cavity via a port aperture extending through the upper wall portion of each recess;a gas inlet for connection to a supply of breathable gas, the gas inlet being located in the front wall of the mask frame and above the recesses; anda removable port cap having a pair of closure portions, each closure portion adapted to be pushed into a respective recess to cover the mask port, the port cap including a bridge portion joining the pair of closure portions, each closure portion having a gripping tab which extends in use forward of the front wall of the mask frame, wherein the recesses and the port cap are shaped so that the port cap only fits in the recesses in a single orientation. 15. A mask frame according to claim 14, wherein the mask ports are separated by approximately 2.5 cm. 16. A mask frame according to claim 15, wherein the mask ports are positioned to deliver gas close to the nares of a patient. 17. A mask frame according to claim 16, wherein the port cap is formed of an elastomeric material. 18. A mask frame according to claim 17, wherein the material is silicone. 19. A mask frame according to claim 18, wherein the tubular spigot has an external diameter of approximately 4 mm. 20. A mask frame according to claim 19, wherein the tubular spigot has a length of approximately 1 cm. 21. A mask frame according to claim 20, wherein the opposed side wall portions, the rear wall portion, and the front wall portion of each of the recesses are spaced apart from the tubular spigot by at least 1 mm. 22. A mask frame according to claim 21, further comprising a pair of notches formed in the front wall of the mask frame, wherein the gripping tab of a respective one of the closure portions extends through the notches. 23. A mask frame according to claim 22, wherein a base of the port cap is substantially flush with the base of the mask frame in use. 24. A mask frame according to claim 23, further comprising an extension connected to the apex of the frame, and a forehead support connected to the extension. 25. A mask frame according to claim 24, wherein the mask frame is polycarbonate. 26. A mask for treatment of sleep disordered breathing, comprising: the mask frame of claim 14;a mask cushion connected to the frame, the mask cushion for sealing the mask with a face of the patient;headgear connected to the lower headgear connection points; andan elbow connected between the gas inlet and the supply of breathable gas. 27. A mask according to claim 26, further comprising an extension connected to the apex of the frame, and a forehead support connected to the extension. 28. A mask according to claim 27, wherein the forehead support includes upper headgear connection points connected to the headgear.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (21)
Rudolph Kevin A. (Overland Park KS), Airflow delivery system.
Blasdell Richard J. (4233 E. Mountain View Rd. Phoenix AZ 85028) Blasdell Raymond L. (691 E. Fairway Dr. Litchfield Park AZ 85340), Inhalation apparatus.
Trimble Russell L. (Overland Park KS) Dolida Roger J. (Kingwood TX) Rose Frederick R. (Overland Park KS) Metzler Philip M. (Overland Park KS), Nasal puff with adjustable sealing means.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.