Fluid regulators provide a fluid to a cannula for use by a person. Fluid conservers also a fluid to a cannula for use by a person. A fluid conserver may be operational in a continuous flow mode of operation and an intermittent flow mode of operation. The selection of either the continuous flow mode
Fluid regulators provide a fluid to a cannula for use by a person. Fluid conservers also a fluid to a cannula for use by a person. A fluid conserver may be operational in a continuous flow mode of operation and an intermittent flow mode of operation. The selection of either the continuous flow mode of operation and the intermittent flow mode of operation may be based on a position of a flow selector. A home fill device may operate with a fluid conserver and may include an oxygen concentrator which provides a source of fluid.
대표청구항▼
The invention claimed is: 1. A conserver which receives a fluid from a source of pressurized fluid and provides fluid to a patient through a single lumen cannula, the conserver comprising: a body including at least three body members stacked along a first direction, the body having a fluid input in
The invention claimed is: 1. A conserver which receives a fluid from a source of pressurized fluid and provides fluid to a patient through a single lumen cannula, the conserver comprising: a body including at least three body members stacked along a first direction, the body having a fluid input in a first body member, a fluid output in a side of a second body member providing a single fluid connection between the body and the single lumen cannula, wherein the single fluid connection is the only fluid connection between the body and the single lumen cannula, and a fluid passage configured to connect the fluid input to the fluid output; a pressure reduction section disposed within the first body member of the body and in fluid communication with the fluid passage, the pressure reduction section receiving fluid from the fluid inlet of the body at a first pressure and providing fluid to a portion of the fluid passage positioned downstream of the pressure reduction section; at least one user input supported by the body; a pneumatic controller positioned downstream of the pressure reduction section in at least one of the at least three body members other than the first body member, the pneumatic controller having a first configuration to provide a continuous flow of fluid to the fluid outlet of the body in a continuous mode and a second configuration to provide an intermittent flow of fluid to the fluid outlet of the body in an intermittent mode, the intermittent mode and the continuous mode being selectable by the at least one user input, the pneumatic controller includes a sense diaphragm which in the intermittent mode moves along the first direction relative to a diaphragm seat between a closed position and an open position to control the provision of fluid to the single lumen cannula; and a coupler coupled to the first body member of the body, the coupler having a fluid conduit in fluid communication with the fluid inlet of the body, the coupler being adapted to couple to a source of pressurized fluid, wherein the coupler is made from a first material selected from the group of a brass based material, a copper based material, and a titanium based material and the body is made from a second material selected from the group of an aluminum based material, a composite based material, and a polymeric based material. 2. The conserver of claim 1, wherein the at least one user input includes a flow selector having at least a first fluid passage and a second fluid passage, each of the first fluid passage and the second fluid passage being selectably positionable in the fluid passage of the body between the input and the output and configured to communicate fluid to the output when positioned in the fluid passage of the body, wherein the pneumatic controller is in the continuous mode of operation based on the first fluid passage of the flow selector being positioned in the fluid passage of the body and the pneumatic controller is in the intermittent mode of operation based on the second fluid passage of the flow selector being positioned in the fluid passage of the body. 3. The conserver of claim 2, wherein the body includes a vent passage and the flow selector includes a third fluid passage, the third fluid passage being in fluid communication with the vent passage of the body when only one of the first fluid passage of the flow selector and the second fluid passage of the flow selector is positioned in the fluid passage of the body, the one being the first fluid passage of the flow selector. 4. The conserver of claim 2, wherein the flow selector is rotatably coupled to the body and the first fluid passage and the second fluid passage are positionable in the fluid passage of the body through the rotation of the flow selector relative to the body. 5. The conserver of claim 1, wherein a first cavity of one of the body members is in fluid communication with the sense diaphragm and the fluid outlet coupled to the single lumen cannula such that a drop in pressure in the single lumen cannula results in the sense diaphragm moving along the first direction to the open position. 6. The conserver of claim 5, wherein the pneumatic controller includes a demand piston moveable between a first position wherein fluid is not communicated from the fluid inlet to the fluid outlet and a second position wherein fluid is communicated from the fluid inlet to the fluid outlet, the demand piston moving between the first position and the second position along the first direction. 7. The conserver of claim 6, wherein the sense diaphragm moves towards the fluid inlet along the first direction when moving from the open position to the closed position. 8. The conserver of claim 7, wherein the piston moves towards the fluid inlet along the first direction when moving from the second position to the first position. 9. A conserver which receives a fluid from a source of pressurized fluid and provides fluid to a patient through a single lumen cannula, the conserver comprising: a body having a fluid input, a fluid output providing a single fluid connection between the body and the single lumen cannula, wherein the single fluid connection is the only fluid connection between the body and the single lumen cannula, and a fluid passage configured to connect the fluid input to the fluid output; a pressure reduction section disposed within the body and in fluid communication with the fluid passage, the pressure reduction section receiving fluid from the fluid inlet of the body at a first pressure and providing fluid to a portion of the fluid passage positioned downstream of the pressure reduction section; at least one user input supported by the body; a controller positioned downstream of the pressure reduction section, the controller having a first configuration to provide a continuous flow of fluid to the fluid outlet of the body in a continuous mode and a second configuration to provide an intermittent flow of fluid to the fluid outlet of the body in an intermittent mode wherein an inhalation of the patient is sensed through the fluid outlet coupled to the single lumen cannula by a sensing portion of the controller, the intermittent mode and the continuous mode being selectable by the at least one user input; a coupler coupled to the body, the coupler having a fluid conduit in fluid communication with the fluid inlet of the body, the coupler being adapted to couple to a portable source of pressurized fluid, wherein the coupler is made from a first material selected from the group of a brass based material, a copper based material, and a titanium based material and the body is made from a second material selected from the group of an aluminum based material, a composite based material, and a polymeric based material; and a quick connect fitting coupled to the body, the quick connect fitting including a fluid conduit in fluid communication with the fluid inlet of the body and being adapted to be coupled to a second source of pressurized fluid, the quick connect fitting being spaced apart from the coupler such that both the portable source of pressurized fluid and the second source of pressurized fluid are coupled to the conserver at the same time. 10. The conserver of claim 9, wherein the second source of pressurized fluid is an oxygen concentrator. 11. The conserver of claim 9, wherein the quick connect fitting is coupled to a side of the body and the coupler is coupled to an end of the body. 12. A conserver which receives a fluid from a source of pressurized fluid and provides fluid to a patient through a single lumen cannula, the conserver comprising: a body having a fluid input, a fluid output adapted to be coupled to a cannula providing a single fluid connection between the body and the single lumen cannula, wherein the single fluid connection is the only fluid connection between the body and the single lumen cannula, and a fluid passage configured to connect the fluid input to the fluid output; a pressure reduction section disposed within the body and in fluid communication with the fluid passage, the pressure reduction section receiving fluid from the fluid inlet of the body at a first pressure and providing fluid to a portion of the fluid passage positioned downstream of the pressure reduction section; a pneumatic controller positioned downstream of the pressure reduction section, the pneumatic controller having a first configuration to provide a continuous flow of fluid to the fluid outlet of the body in a continuous mode and to provide an intermittent flow of fluid to the fluid outlet of the body in an intermittent mode, the pneumatic controller including a demand piston which is spaced apart from a seat when fluid is being provided from the fluid inlet to the fluid outlet; a flow selector having a plurality of fluid passages, each having a corresponding flow rate, the flow selector being positioned to receive fluid from the pressure reduction and to provide fluid to the pneumatic controller, the flow selector being rotatable relative to the body and including a first surface actuatable to rotate the flow selector, the first surface being actuatable from an exterior of the body and at least a portion of the first surface being moved from the exterior of the body to an interior of the body as the flow selector is rotated; and a coupler coupled to the body, the coupler having a fluid conduit in fluid communication with the fluid inlet of the body, the coupler being adapted to couple to a portable source of pressurized fluid, wherein the coupler is made from a first material selected from the group of a brass based material, a copper based material, and a titanium based material and the body is made from a second material selected from the group of an aluminum based material, a composite based material, and a polymeric based material. 13. The conserver of claim 12, wherein the flow selector is positioned between the fluid inlet in the body and the fluid outlet in the body. 14. The conserver of claim 12, wherein the flow selector is positioned between the pressure reduction section and the controller. 15. A conserver which receives a fluid from a source of pressurized fluid and provides fluid to a patient through a single lumen cannula, the conserver comprising: a body having a fluid input, a fluid output adapted to be coupled to a cannula, and a fluid passage configured to connect the fluid input to the fluid output; a pressure reduction section disposed within the body and in fluid communication with the fluid passage, the pressure reduction section receiving fluid from the fluid inlet of the body at a first pressure and providing fluid to a portion of the fluid passage positioned downstream of the pressure reduction section; a pneumatic controller positioned downstream of the pressure reduction section, the pneumatic controller having a first configuration to provide a continuous flow of fluid to the fluid outlet of the body in a continuous mode and to provide an intermittent flow of fluid to the fluid outlet of the body in an intermittent mode; a flow selector having a plurality of fluid passages, each having a corresponding flow rate, the flow selector being positioned to receive fluid from the pressure reduction and to provide fluid to the pneumatic controller; and a coupler coupled to the body, the coupler having a fluid conduit in fluid communication with the fluid inlet of the body, the coupler being adapted to couple to a portable source of pressurized fluid, wherein the coupler is made from a first material selected from the group of a brass based material, a copper based material, and a titanium based material and the body is made from a second material selected from the group of an aluminum based material, a composite based material, and a polymeric based material, wherein a position of the flow selector controls the placement of a valve which controls the pneumatic controller to place the pneumatic controller in one of the continuous mode and the intermediate mode. 16. The conserver of claim 15, wherein the flow selector includes a cam surface with which the valve interacts.
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