Pressure sensitive flow control valve
First Claim
Patent Images
1. A pressure sensitive flow control valve comprising:
- a valve body;
a supply port defined in a first portion of said valve body;
an outlet port defined in a second portion of said valve;
at least one exhaust port defined in a third portion of said valve body; and
directing means disposed within said valve body for controlling a flow of gas through said valve body based on a pressure of gas at said supply port and said outlet port relative to atmospheric pressure outside said valve body such that;
(1) as long as said pressure of gas at said supply port and said outlet port are greater than said atmospheric pressure by a predetermined amount, said directing means permits gas to flow from said supply port to said outlet port, provided there exists a pressure differential therebetween, and permits gas to flow from said outlet port to said supply port, provided there exists a pressure differential therebetween, and blocks said at least one exhaust port so that substantially no gas flows therethrough, and(2) if said pressure of gas at said supply port and said outlet port are not greater than said atmospheric pressure by said predetermined amount, said directing means permits substantially all gas entering said valve body through said outlet port to exit said valve body through said at least one exhaust port, thereby substantially preventing elements from passing through said valve body from said outlet port to said supply port.
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Accused Products
Abstract
A pressure sensitive valve for a positive pressure airway system which allows bi-directional flow with low resistance. When positive pressure from the air generator of the positive pressure airway system is lost, a spring actuated disc moves away from its compressed position to block the outlet of the air generator. By blocking the outlet of the air generator, the path of entry for contaminants is significantly restricted in so doing, an alternate, low resistance path to atmosphere is exposed to allow contaminants to escape.
98 Citations
25 Claims
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1. A pressure sensitive flow control valve comprising:
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a valve body; a supply port defined in a first portion of said valve body; an outlet port defined in a second portion of said valve; at least one exhaust port defined in a third portion of said valve body; and directing means disposed within said valve body for controlling a flow of gas through said valve body based on a pressure of gas at said supply port and said outlet port relative to atmospheric pressure outside said valve body such that; (1) as long as said pressure of gas at said supply port and said outlet port are greater than said atmospheric pressure by a predetermined amount, said directing means permits gas to flow from said supply port to said outlet port, provided there exists a pressure differential therebetween, and permits gas to flow from said outlet port to said supply port, provided there exists a pressure differential therebetween, and blocks said at least one exhaust port so that substantially no gas flows therethrough, and (2) if said pressure of gas at said supply port and said outlet port are not greater than said atmospheric pressure by said predetermined amount, said directing means permits substantially all gas entering said valve body through said outlet port to exit said valve body through said at least one exhaust port, thereby substantially preventing elements from passing through said valve body from said outlet port to said supply port. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A pressure sensitive flow control valve comprising:
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a valve body having a central cavity defined therein; a supply port defined in a first portion of said valve body to communicate said central cavity with a first portion of a breathing gas delivery circuit responsive to said first portion of said delivery circuit being operatively connected to said supply port; an outlet port defined in a second portion of said valve to communicate said central cavity with a second portion of a breathing gas delivery circuit responsive to said second portion of said delivery circuit being operatively connected to said outlet port; a housing disposed within said central cavity such that gas flows between an exterior of said housing and said valve body, said housing having a first cavity defined therein and a first opening communicating said first cavity with said central cavity; at least one exhaust port communicating said first cavity of said housing with an ambient atmosphere outside said valve body; a valve member adapted to substantially prevent gas from flowing from said central cavity to said first cavity responsive to said valve member being in a first position and to permit gas to flow from said central cavity to said first cavity responsive to said valve member being in a second position; and a biasing mechanism adapted to urge said valve member into said second position responsive to said first pressure in said delivery circuit to which said supply port and said outlet port are operatively coupled being not greater than said atmospheric pressure by a predetermined amount and adapted to permit said valve member to move to said first position responsive to said first pressure in said delivery circuit to which said supply port and said outlet port are operatively coupled being greater than said atmospheric pressure by said predetermined amount. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A breathing gas delivery system comprising:
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a flow generator that outputs a breathing gas at a first pressure; a delivery circuit having a first end operatively coupled to an output of said flow generator and a second end; and a patient interface operatively coupled to said second end of said delivery circuit for connecting said second end of said delivery circuit to said patient, said delivery circuit including a pressure sensitive flow control valve comprising; a valve body, a supply port defined in a first portion of said valve body and operatively coupled to said delivery circuit such that said supply port receives breathing gas output by said flow generator responsive to said flow generator outputting said breathing gas at least at said first pressure, an outlet port defined in a second portion of said valve body and operatively coupled to said delivery circuit such that said outlet port provides said breathing gas to said patient interface responsive to said flow generator outputting said breathing gas at least at said first pressure, at least one exhaust port defined in a third portion of said valve body, and directing means disposed within said valve body for controlling a flow of gas through said valve body based on said first pressure of gas in said delivery circuit relative to atmospheric pressure outside said delivery circuit such that; (1) as long as said first pressure said delivery circuit is greater than said atmospheric pressure by a predetermined amount, said directing means permits gas to flow from said supply port to said outlet port, provided there exists a pressure differential therebetween, and permits gas to flow from said outlet port to said supply port, provided there exists a pressure differential therebetween, and blocks said at least one exhaust port so that substantially no gas flows through said at least one exhaust port, and (2) if said first pressure said delivery circuit is not greater than said atmospheric pressure by a predetermined amount, said directing means permits substantially all gas entering said valve body through said outlet port to exit said valve body through said at least one exhaust port, thereby substantially preventing elements from passing through said valve body from said outlet port to said supply port.
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25. A breathing gas delivery system comprising:
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a flow generator that outputs a breathing gas at a first pressure; a delivery circuit having a first end operatively coupled to an output of said flow generator and a second end, said flow generator maintaining said delivery circuit at substantially said first pressure during operation of said flow generator; and a patient interface operatively coupled to said second end of said delivery circuit for connecting said second end of said delivery circuit to said patient, said delivery circuit including a pressure sensitive flow control valve comprising; a valve body having a central cavity defined therein; a supply port defined in a first portion of said valve body to communicate said central cavity with a first portion of said delivery circuit responsive to said first portion of said delivery circuit being operatively connected to said supply port; an outlet port defined in a second portion of said valve to communicate said central cavity with a second portion of a breathing gas delivery circuit responsive to said second portion of said delivery circuit being operatively connected to said outlet port; a housing disposed within said central cavity such that said housing does not move relative to said valve body and such that gas flows between an exterior of said housing and said valve body, said housing having a first cavity defined therein and a first opening communicating said first cavity with said central cavity; at least one exhaust port communicating said first cavity of said housing with an ambient atmosphere outside said valve body; a valve member adapted to substantially prevent gas from flowing from said central cavity to said first cavity responsive to said valve member being in a first position and to permit gas to flow from said central cavity to said first cavity responsive to said valve member being in a second position; and a biasing mechanism adapted to urge said valve member into said second position responsive to said first pressure in said delivery circuit being not greater than said atmospheric pressure by a predetermined amount and adapted to permit said valve member to move to said first position responsive to said first pressure in said delivery circuit being greater than said atmospheric pressure by a predetermined amount.
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Specification