초록 ▼

Face masks that include a unidirectional valve are disclosed. The unidirectional valves permit fluid communication between an interior gas space defined by the mask and the wearer and an exterior gas space outside of the face mask. The unidirectional valves includes one or more valve flaps positione

Face masks that include a unidirectional valve are disclosed. The unidirectional valves permit fluid communication between an interior gas space defined by the mask and the wearer and an exterior gas space outside of the face mask. The unidirectional valves includes one or more valve flaps positioned over an opening formed in the base of the valve. Each of the valve flaps includes a free edge and a hinge located generally opposite from the free edge.

대표청구항 ▼

1. A face mask that comprises: a mask body adapted to fit over at least the nose and mouth of a person to help define an interior gas space when worn; anda unidirectional valve that permits fluid communication between the interior gas space and an exterior gas space, wherein the unidirectional valve

1. A face mask that comprises: a mask body adapted to fit over at least the nose and mouth of a person to help define an interior gas space when worn; anda unidirectional valve that permits fluid communication between the interior gas space and an exterior gas space, wherein the unidirectional valve comprises: a base attached to the mask body, the base comprising two or more openings through which gas may pass between the interior gas space and the exterior gas space, wherein each opening of the two or more openings is surrounded by a seal surface that extends around the opening;a stationary diaphragm positioned on the base, wherein the diaphragm extends over the two or more openings and their respective seal surfaces;two or more valve flaps formed within the diaphragm, wherein each valve flap of the two or more valve flaps is located over one of the two or more openings, and wherein each valve flap of the two or more valve flaps comprises a boundary slot formed through the diaphragm and a hinge along which the valve flap is attached to the diaphragm, wherein the boundary slot defines a free edge of the valve flap that extends from a first end to a second end and wherein the hinge extends between the first end and the second end of the free edge of the valve flap; andwherein each valve flap of the two or more valve flaps exhibits a cantilever bend ratio of 0.0050 or less and has a thickness of 10 to 2000 micrometers and comprises a closed position in which the valve flap contacts the seal surface and remains in contact with seal surface regardless of the orientation of the unidirectional valve, and wherein the valve flap also comprises an open position in which at least a portion of the valve flap is lifted off of the seal surface such that gas may pass between the interior gas space and the exterior gas space. 2. A face mask according to claim 1, wherein the boundary slot for each valve flap of the two or more valve flaps comprises a slot width such that the free edge of the valve flap is spaced from an opposing edge of the diaphragm across the boundary slot. 3. A face mask according to claim 1, wherein the hinge of at least one of the valve flaps comprises a score line formed into the diaphragm. 4. A face mask according to claim 1, wherein the hinge of at least one of the valve flaps comprises one or more hinge slots formed through the diaphragm, and one or more land portions connecting the valve flap to the diaphragm. 5. A face mask according to claim 1, wherein the two or more valve flaps located over the two or more openings are oriented in the same direction such that the free edge of one valve flap is located adjacent the hinge of the other valve flap and wherein the hinges of the valve flaps are generally parallel to each other. 6. A face mask according to claim 1, wherein each opening is surrounded by a planar seal surface, and wherein the planar seal surfaces that extend around each opening of the two or more openings are located in the same plane. 7. A face mask according to claim 1, wherein each seal surface comprises a planar seal surface, and wherein the planar seal surfaces that extend around each opening of the two or more openings are located in different planes. 8. A face mask according to claim 1, wherein each valve flap of the two or more valve flaps is unbiased against its seal surface when in the closed position. 9. A face mask according to claim 1, wherein each valve flap of the two or more valve flaps is biased against its seal surface when the valve flap is in the closed position. 10. A face mask according to claim 1, wherein the seal surface that extends around each opening of the two or more openings comprises a resilient seal surface. 11. A face mask according to claim 1, wherein the mask body comprises a filtering mask body, and wherein the unidirectional valve comprises an exhalation valve. 12. A face mask according to claim 1, wherein the unidirectional valve further comprises a cover attached to the base, wherein the diaphragm is located between the cover and the base, wherein the cover comprises a vent structure for each opening of the two or more openings, wherein each vent structure defines a distinct flow path through the cover for gas passing through each of opening of the two or more openings. 13. A face mask according to claim 12, wherein, for each valve flap in the diaphragm, the vent structure comprises a louver that comprises an edge positioned to retain the diaphragm in proximity with the base. 14. A face mask according to claim 12, wherein each vent structure comprises a main vent located opposite the opening and a side vent located to one side of the opening. 15. A face mask that comprises: a mask body adapted to fit over at least the nose and mouth of a person to help define an interior gas space when worn; anda unidirectional valve that permits fluid communication between the interior gas space and an exterior gas space, wherein the unidirectional valve comprises: a base attached to the mask body, the base comprising at least two openings through which gas may pass between the interior gas space and the exterior gas space, wherein each opening of the at least two openings is surrounded by a seal surface that extends around the opening;first and second valve flaps located respectively over each of the at least two openings, and wherein each of the first and second valve flaps comprises a stationary portion and a movable portion, wherein a hinge is located between the stationary portion and the movable portion, and wherein each valve flap comprises a free edge extending around the movable portion of the valve flap outside of the hinge; andwherein each valve flap exhibits a cantilever bend ratio of 0.0050 or less and has a thickness of 10 to 2000 micrometers and comprises a closed position in which the movable portion of the valve flap contacts the seal surface and remains in such contact regardless of the orientation of the valve, and wherein the each valve flap also comprises an open position in which the movable portion of the valve flap is lifted off of the seal surface such that gas may pass between the interior gas space and the exterior gas space; andand further wherein the first and second valve flaps that are located over the at least two openings are oriented in the same direction such that the free edge of the first valve flap is located adjacent the hinge of the second valve flap and wherein the hinges of the first and second valve flaps are generally parallel to each other. 16. A face mask according to claim 15, wherein the hinge of at least one of the first and second valve flaps comprises a score line. 17. A face mask according to claim 15, wherein the hinge of at least one of the first and second valve flaps comprises one or more hinge slots formed through the valve flap, and one or more land portions through which the movable portion of the first and/or second valve flap is connected to stationary portion of the first and/or second valve flap. 18. A face mask according to claim 15, wherein each seal surface comprises a planar seal surface, and wherein each of the planar seal surfaces that extends around each opening of the at least two or more openings is located in the same plane. 19. A face mask according to claim 15, wherein each seal surface comprises a planar seal surface, and wherein each of the planar seal surfaces that extends around each opening of the at least two openings is located in a different planes. 20. A face mask according to claim 15, wherein each valve flap of the first and second valve flaps is unbiased against its seal surface when in the closed position. 21. A face mask according to claim 15, wherein each valve flap of the first and second valve flaps is biased against its seal surface when the valve flap is in the closed position. 22. A face mask according to claim 15, wherein the seal surface that extends around each opening of the at least two openings comprises a resilient seal surface. 23. A face mask according to claim 15, wherein the mask body comprises a filtering mask body, and wherein the unidirectional valve comprises an exhalation valve. 24. A face mask according to claim 15, wherein the unidirectional valve further comprises a cover attached to the base, wherein the first and second valve flaps are located between the cover and the base, wherein the cover comprises a vent structure for each opening of the at least two openings, wherein each vent structure defines a distinct flow path through the cover for gas passing through each of opening of the at least two openings. 25. A face mask according to claim 24, wherein, for each of the first and second valve flaps, the vent structure comprises a louver that comprises an edge positioned to retain the respective valve flap in proximity with the base. 26. A face mask according to claim 24, wherein each vent structure comprises a main vent located opposite the opening and a side vent located to one side of the opening.