RU1744821C - Valve unit for oxygen mask - Google Patents

Abstract

FIELD: oxygen masks. SUBSTANCE: valving unit has housing 1. Inhalation valve 2 is secured to the face of the housing. The housing had rigid bed 4 having compensating chamber 3 secured between the bed and ring seat of exhalation valve 5 by way of sealing ring 7, nut 8 and ring 9. The face wall of chamber 3 facing the seat of valve 5 has triangle projections 6. The tops of the projections face the seat of the valve. The side of chamber 3 is positioned with a spaced relation to the housing of valve 5. The unit is mounted inside mask 11 which is in communication with the oxygen source through inhalation valve 2. EFFECT: improved design. 1 dwg

Description

 The invention relates to means of human life support in high-altitude and ground conditions, namely, the device of oxygen masks.

 Known valve assembly of the front part of the oxygen mask containing a housing, a toroidal compensating chamber in communication with the oxygen supply source, fixed between the rigid lodgement and the seat of the exhalation valve, as well as the inspiration valve, while the end wall of the compensating chamber facing the exhalation valve seat and which is its locking body, made with annular protrusions.

 The disadvantage of this valve assembly of the front part is its low protective efficiency due to the high rate of return of the exhalation valve and the complexity of the design.

 The aim of the invention is to improve protective efficiency by reducing the rate of return of the exhalation valve to the closed position while simplifying the device.

 The goal is achieved by the fact that in the valve assembly of the front part containing the housing, a toroidal compensating chamber in communication with the oxygen supply source, fixed between the rigid lodgement and the seat of the exhalation valve, as well as the inspiration valve, while the end wall of the compensating chamber facing the exhalation valve seat and being its locking member, it is made with annular protrusions, annular protrusions are made of a triangular shape with vertices facing the exhalation valve seat, a toroidal chamber is mounted on the body and under pressed to the lodgement by means of a sealing ring, a nut and a rigid ring located in the chamber, while the side surface of the chamber is located with a gap relative to the body of the exhalation valve.

 The drawing shows a valve assembly.

 The valve assembly includes a housing 1, an inhalation valve 2 mounted on the end of the housing, a toroidal compensating chamber 3 mounted on a rigid tool tray 4. The end wall of the compensating chamber facing the exhalation valve 5 has protrusions 6 of triangular shape with vertices facing the saddle valve 5. This wall acts as a locking member of the valve 5. The camera 3 is mounted on the housing 1 and pressed against the lodgement 4 by means of a sealing ring 7, a nut 8 and a rigid ring 9 located in the chamber. The side surface of the chamber 3 located with a gap relative to the valve body 5 of the exhale.

 The cavity of the chamber 3 is communicated by a fitting 10 with a pressure line of an oxygen device (not shown), communicated by means of a fitting 10 with an oxygen mask 11 in which the valve assembly is installed, through the inspiration valve 2.

 The valve assembly operates as follows.

 When inhaling, the edges of the valve petal 2 of the inspiration are bent from the end of the housing 1, thereby passing oxygen into the mask to ensure breathing. At the time of exhalation, the inhalation valve 2 closes. Under the action of the exhaled mixture, part of the surface of the compensating chamber 3 bends, while stretching the triangular annular protrusions 6, and the exhaled mixture leaves the ring seat of the valve 5 into the environment through the openings in the mask body 11. The part of the chamber 3 is returned to its original state due to elastic forces of triangular protrusions 6, the energy for which is accumulated during the deflection of the chamber 3 at the time of exhalation.

Claims (1)

 VALVE ASSEMBLY OF THE OXYGEN MASK, comprising a housing, a toroidal compensating chamber in communication with an oxygen supply source, fixed between a rigid lodgement and an exhalation valve seat, and also an inspiratory valve, while the end wall of the compensating chamber facing the exhalation valve seat and being its shutoff member, made with annular protrusions, characterized in that, in order to improve protective efficiency by reducing the rate of return of the exhalation valve to the closed position while simplifying the device two, the annular protrusions are made of a triangular shape with the peaks facing the saddle of the exhalation valve, the toroidal chamber is fixed to the housing and pressed against the lodgement by means of a sealing ring, a nut and a rigid ring located in the chamber, while the side surface of the chamber is located with a gap relative to the exhalation valve body .