최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0688619 (2012-11-29) |
등록번호 | US-8616211 (2013-12-31) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 8 인용 특허 : 478 |
A cushion for a patient interface that delivers breathable gas to a patient includes a base wall structured to be connected to a frame, an underlying support cushion extending away from the base wall towards the patient's face in use, and a membrane provided to substantially cover at least a portion
A cushion for a patient interface that delivers breathable gas to a patient includes a base wall structured to be connected to a frame, an underlying support cushion extending away from the base wall towards the patient's face in use, and a membrane provided to substantially cover at least a portion of the underlying cushion. The membrane is adapted to form a continuous seal on the patient's face. The underlying cushion has a spring-like connection with the base wall. The underlying cushion and/or base wall define a spring constant that varies along a length of the seal.
1. A mask assembly for delivering breathable gas to a patient, the assembly comprising: a co-molded frame and cushion structure including: a frame; anda full-face cushion co-molded to the frame and including a nasal bridge region, a pair of side of nose regions, a pair of upper cheek regions, a pair
1. A mask assembly for delivering breathable gas to a patient, the assembly comprising: a co-molded frame and cushion structure including: a frame; anda full-face cushion co-molded to the frame and including a nasal bridge region, a pair of side of nose regions, a pair of upper cheek regions, a pair of lower cheek regions and a chin region, the cushion defining, at least in part, a breathing cavity, the cushion comprising: a face-contacting membrane including a nasal bridge region, a pair of side of nose regions, a pair of upper cheek regions, a pair of lower cheek regions and a chin region forming a continuous sealing structure to form a continuous seal on nasal bridge, side of nose, upper cheek, lower cheek and chin regions of the patient's face, the face-contacting membrane having an inner edge that defines a triangular-shaped aperture to receive the patient's nose and mouth; anda support structure to support the face-contacting membrane, the support structure including: a base wall; andan underlying cushion connected to the base wall, the underlying cushion, in a cross-sectional view, extending from the base wall and toward the breathing cavity to provide support for the face-contacting membrane, the underlying cushion including a pair of side of nose regions, a pair of upper cheek regions and a pair of lower cheek regions, such that the underlying cushion and the face-contacting membrane form at least a double-walled construction at least in the pair of side of nose regions, the pair of upper cheek regions and the pair of lower cheek regions of the cushion, said at least double-walled construction being configured such that the underlying cushion is positioned to restrain movement of the face-contacting membrane,wherein, in a cross-sectional view, a widest point of the cushion is an external surface of the underlying cushion or face-contacting membrane, and the base wall is internally offset, with respect to the widest point of the cushion,wherein the cushion has only a single-walled construction formed by the face-contacting membrane in a majority of the chin region of the cushion so as to allow the face-contacting membrane to readily flex in the chin region of the cushion. 2. The assembly according to claim 1, wherein the underlying cushion includes a nasal bridge region such that the underlying cushion is continuous at least along the pair of upper cheek regions, the pair of side of nose regions and the nasal bridge region of the underlying cushion. 3. The assembly according to claim 2, wherein a first cross-sectional configuration of the base wall and the underlying cushion in the nasal bridge region of the cushion is different than a second cross-sectional configuration of the base wall and the underlying cushion in the pair of lower cheek regions of the cushion. 4. The assembly according to claim 3, wherein the base wall includes a frame connection, the frame connection having an engaging portion onto which a portion of the frame is positioned, the engaging portion and the portion of the frame forming a part of the co-molded frame and cushion structure. 5. The assembly according to claim 3, wherein the first and second cross-sectional configurations of the base wall and the underlying cushion in the nasal bridge region and the pair of lower cheek regions of the cushion vary by varying an underlying cushion offset relative to the base wall. 6. The assembly according to claim 5, wherein: the underlying cushion is movable when the cushion is worn and a force by the frame is exerted on the cushion,the underlying cushion being movable from an initial position towards a space exterior of the cushion when the frame force is exerted on the cushion, andthe underlying cushion is configured to resiliently move back into the initial position when the frame force is no longer exerted on the cushion, andwherein the cushion is configured to exert a spring force when the frame force is exerted on the cushion such that the underlying cushion resiliently moves back into the initial position when the frame force is no longer exerted on the cushion. 7. The assembly according to claim 6, wherein the first and second cross-sectional configurations of the base wall and the underlying cushion vary so as to provide a spring constant in the nasal bridge region of the cushion that is different than a spring constant in the pair of lower cheek regions of the cushion, wherein the face-contacting membrane extends from the underlying cushion and terminates at the inner edge of the face-contacting membrane. 8. The assembly according to claim 7, wherein the face-contacting membrane in the nasal bridge region of the cushion has a height that is greater than a height of the face-contacting membrane in the pair of side of nose regions of the cushion. 9. The assembly according to claim 1, wherein the face-contacting membrane in the nasal bridge region of the cushion has a height that is greater than a height of the face-contacting membrane in the pair of side of nose regions of the cushion. 10. A mask assembly for delivering breathable gas to a patient, the assembly comprising: a co-molded frame and cushion structure including: a frame; anda full-face cushion co-molded to the figure and including a nasal bridge region, a pair of side of nose regions, a pair of upper cheek regions, a pair of lower cheek regions and a chin region, the cushion defining, at least in part, a breathing cavity, the cushion comprising; a face-contacting membrane including a nasal bridge region, a pair of side of nose regions, a pair of upper cheek regions, a pair of lower cheek regions and a chin region forming a continuous sealing structure to form a continuous seal on nasal bridge, side of nose, upper cheek, lower cheek and chin regions of the patient's face, the face-contacting membrane having an inner edge that defines a triangular-shaped aperture to receive the patient's nose and mouth; anda support structure to support the face-contacting membrane, the support structure including: a base wall; andan underlying cushion connected to the base wall, the underlying cushion, in a cross-sectional view, extending from the base wall and toward the breathing cavity to provide support for the face-contacting membrane, the underlying cushion including a pair of side of nose regions, a pair of upper cheek regions and a pair of lower cheek regions, such that the underlying cushion and the face-contacting membrane form at least a double-walled construction at least in the pair of side nose regions, the pair of upper cheek regions and the pair of lower cheek regions of the cushion, said at least double-walled construction being configured such that the underlying cushion is positioned to restrain movement of the face-contacting membrane,wherein, in a cross-sectional view, a widest point of the cushion is an external surface of the underlying cushion or face-contacting membrane, and the base wall is internally offset, with respect to the widest point of the cushion,wherein: the underlying cushion includes an inwardly curved portion that extends into and curves inwardly toward the breathing cavity in a spaced-relationship with respect to the face-contacting membrane,the face-contacting membrane, from front view, covers the inwardly curved portion of the underlying cushion,the inwardly curved portion of the underlying cushion terminates at a free end of the underlying cushion, the free end of the underlying cushion being disposed within the breathing cavity, andthe inwardly curved portion of the underlying cushion extends along the side of nose, upper cheek and lower cheek regions of the underlying cushion and terminates such that the inwardly curved portion of the underlying cushion is absent in a majority of the chin region of the cushion. 11. The assembly according to claim 10, wherein the inwardly curved portion of the underlying cushion terminates proximate a transition between the chin region and a respective lower cheek region of the cushion. 12. The assembly according to claim 11, wherein the underlying cushion terminates in each lower cheek region of the cushion. 13. The assembly according to claim 11, wherein the underlying cushion terminates in the chin region of the cushion. 14. The assembly according to claim 10, wherein a first cross-sectional configuration of the base wall and the underlying cushion in the nasal bridge region of the cushion and a second cross-sectional configuration of the base wall and the underlying cushion in the pair of lower cheek regions of the cushion vary from one another by varying an underlying cushion offset relative to the base wall. 15. The assembly according to claim 14, wherein: the underlying cushion is movable when the cushion is worn and a force is exerted on the cushion,the underlying cushion is movable from an initial position towards a space exterior of the cushion when the force is applied, andthe underlying cushion is configured to resiliently move back into the initial position when the force is no longer exerted on the cushion, andwherein the cushion is configured to exert a spring force when the force is exerted on the cushion such that the underlying cushion resiliently moves back into the initial position when the force is no longer exerted on the cushion. 16. A mask assembly for delivering breathable gas to a patient, the assembly comprising: a co-molded frame and cushion structure including: a frame; anda full-face cushion co-molded to the frame and including a nasal bridge region, a pair of side of nose regions, a pair of upper cheek regions, a pair of lower cheek regions and a chin region, the cushion defining, at least in part, a breathing cavity, the cushion comprising: a continuous face-contacting membrane having an inner edge defining an aperture adapted to receive a patient's nose and mouth, said face-contacting membrane having a nasal bridge region, a pair of side of nose regions, a pair of upper cheek regions, a pair of lower cheek regions and a chin region which together form a continuous sealing structure; anda support structure for the face-contacting membrane, comprising: a continuous side wall having, in a cross-sectional view, a top portion and a bottom portion; anda pair of underlying cushions joined in the nasal bridge region of the cushion and extending from the top portion of the side wall, each of said underlying cushions terminating at a free end to provide support for the face-contacting membrane in the nasal bridge region, side of nose regions, upper cheek regions and lower cheek regions of the cushion, the pair of underlying cushions extending, in a cross-sectional view, away from the side wall and toward the breathing cavity such that at least the free ends of the pair of underlying cushions are disposed within the breathing cavity,wherein the face-contacting membrane extends, in a cross-sectional view, from the top portion of the side wall to the inner edge of the face-contacting membrane in a spaced-relationship with the pair of underlying cushions to, from front view, cover the pair of underlying cushions,wherein, in a cross-sectional view, a widest point of the cushion is an external surface of the support structure or face-contacting membrane, and the bottom portion of the side wall is continuously and inwardly offset with respect to the external surface,wherein the height difference between an apex of the face-contacting membrane and an apex of the pair of underlying cushions is greatest in the nasal bridge region of the cushion, andwherein the pair of underlying cushions is absent in a majority of the chin regions of the cushion such that a portion of the face-contacting membrane is unrestrained by the pair of underlying cushions in at least a portion of the chin region so as to allow the face-contacting membrane to flex toward the breathing cavity in the at least a portion of the chin region. 17. The assembly according to claim 16, wherein the face-contacting membrane and the pair of underlying cushions form at least a double-walled construction at least in the side of nose regions, upper cheek regions and lower cheek regions of the cushion such that the pair of underlying cushions is positioned to restrain movement of the face-contacting membrane, and wherein the cushion has only a single-walled construction in the at least a portion of the chin region of the cushion. 18. The assembly according to claim 17, wherein a first cross-sectional configuration of the side wall and the pair of underlying cushions in the nasal bridge region of the cushion and a second cross-sectional configuration of the side wall and the pair of underlying cushions in the lower cheek regions of the cushion vary by varying an underlying cushion offset. 19. The assembly according to claim 18, wherein the side wall includes a frame connection, the frame connection having an engaging portion onto which a portion of the frame is positioned, the engaging portion and the portion of the frame forming a part of the co-molded frame and cushion structure. 20. The assembly according to claim 18, wherein: the side wall extends laterally beyond a first exterior portion of the cushion,the side wall is movable with respect to the first exterior surface of the cushion when the cushion is worn and a force by the frame is exerted on the cushion, andthe side wall is movable from an initial position towards a space exterior of the cushion when the frame force is exerted on the cushion, andthe side wall is configured to resiliently move back into the initial position when the frame force is no longer exerted on the cushion. 21. The assembly according to claim 20, wherein the cushion is configured to exert a spring force when the frame force is exerted on the cushion such that the side wall resiliently moves back into the initial position when the frame force is no longer exerted on the cushion. 22. The assembly according to claim 21, wherein at least a portion of the side wall includes a spring configuration that, at least in part, defines displacement of the cushion with respect to the frame force exerted on the cushion, and wherein the first and second cross-sectional configurations of the side wall and the pair of underlying cushions vary so as to provide a spring constant in the nasal bridge region of the cushion that is different than a spring constant in the lower cheek regions of the cushion. 23. The assembly according to claim 16, wherein the face-contacting membrane, in the nasal bridge region, includes a contoured portion that curves inwardly and terminates at the inner edge of the face-contacting membrane, the contoured portion being configured to follow a contour or curvature of the patient's nasal bridge region. 24. The assembly according to claim 23, wherein at least a portion of the side wall includes a spring configuration that, at least in part, defines displacement of the cushion with respect to the frame force exerted on the cushion, and wherein a first cross-sectional configuration of the side wall and the pair of underlying cushions in the nasal bridge region of the cushion and a second cross-sectional configuration of the side wall and the pair of underlying cushions in the lower cheek regions of the cushion vary from one another so as to provide a spring constant in the nasal bridge region of the cushion that is different than a spring constant in the lower cheek regions of the cushion. 25. The assembly according to claim 16, wherein: the side wall extends laterally beyond a first exterior portion of the cushion,the side wall is movable with respect to the first exterior portion of the cushion when the cushion is worn and a force by the frame is exerted on the cushion, andthe side wall is movable from an initial position towards a space exterior of the cushion when the frame force is exerted on the cushion, andthe side wall is configured to resiliently move back into the initial position when the frame force is no longer exerted on the cushion. 26. The assembly according to claim 25, wherein the cushion is configured to exert a spring force when the frame force is exerted on the cushion such that the side wall resiliently moves back into its initial position when the frame force is no longer exerted on the cushion. 27. The assembly according to claim 26, wherein the face-contacting membrane and the pair of underlying cushions form at least a double-walled construction at least in the nasal bridge region, side of nose regions and upper cheek regions of the cushion such that the pair of underlying cushions is positioned to restrain movement of the face-contacting membrane. 28. The assembly according to claim 27, wherein the face-contacting membrane, in the nasal bridge region, has a substantially flat portion in elevation view. 29. The assembly according to claim 16, wherein each of said underlying cushions is continuous along a respective upper cheek region and a respective lower cheek region of the cushion, and each of said underlying cushions terminates proximate a transition between the chin region and the respective lower cheek region of the cushion. 30. The assembly according to claim 29, wherein the cushion has only a single-walled construction formed by the face-contacting membrane in at least a portion of the chin region so as to allow the face-contacting membrane to readily flex in the at least a portion of the chin region without restraint due to the pair of underlying cushions.
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