RU2337736C1 - Isolating respiratory device - Google Patents

Abstract

FIELD: items of personal and house use.

SUBSTANCE: device contains a unit, isolating respiratory organs, a respiratory bag and a regenerative cartridge, connected among them with a respiratory hose. The valve box with valves of breath, exhalation and the valve of superfluous pressure connected by flexible communication with a wall of a respiratory bag is established in the case of the respiratory bag. Breath and exhalation valves are symmetrised against an axis of the valve box, and the valve of superfluous pressure is established on the same axis on an opposite side of the valve box. Flexible connection is located in a plane parallel to breast of the user.

EFFECT: increase of reliability of the device and resistance decrease during inhalation and exhalation.

3 dwg

Description

The invention relates to chemically bound oxygen insulating breathing apparatus.

Known insulating breathing apparatus on chemically bound oxygen (ed. St. USSR No. 223592, A62B 7/00, 1968), containing a regenerative cartridge with a product based on potassium superoxide, connected to the cartridge a breathing bag with an overpressure valve and a breathing hose, connecting cartridge with a respiratory isolation unit. An overflow valve is installed between the breathing hose and the breathing bag.

The design of the apparatus allows to increase the degree of product development, since during the operation of the apparatus part of the exhaled gas mixture is discharged into the breathing bag without regeneration through the bypass valve, which allows you to adjust the intensity of oxygen production by the product.

However, when the breathing bag is overfilled through an overpressure valve, part of the regenerated air is discharged along with unregenerated air into the atmosphere, which leads to a decrease in the time of the protective action of the device.

Known insulating breathing apparatus on chemically bound oxygen, containing a regenerative cartridge with nozzles of inspiration and expiration, a breathing bag, a node for isolating the respiratory system, connected by a breathing hose to the valve box. The valve box contains an inspiratory and expiratory valve and an overpressure valve connected by a flexible rod to the wall of the respiratory bag (RF patent No. 2067884, АВВ 7/08, 1996). The design of the apparatus allows to increase the time of the protective action due to the economical consumption of oxygen in the cartridge. This is due to the fact that only non-regenerated air is discharged into the atmosphere when the breathing bag overflows into the atmosphere. For this, the valve box is installed in the breathing hose, and the overpressure valve is placed in the cavity of the valve box frontally to the inspiration valve in front of the exhalation valve.

However, the constructive implementation of the apparatus does not provide sufficient reliability of its operation for the following reasons. The execution of the valve box with nozzles arranged in the form of a straight cross and, accordingly, the arrangement of the valves placed in it at an angle of 90 ° creates additional aerodynamic drag due to the occurrence of curvatures and turbulences of air flows in this case, moreover, with an increase in the volumetric velocity of air flows (with an increase in pulmonary ventilation) the effect of resistance growth is enhanced, which can lead to a violation of the balanced operation of the valves.

In addition, the known design does not provide sufficient reliability of the overpressure valve, since the flexible connection between the receiving element of the valve and the wall of the breathing bag is perpendicular to the user's chest (in the working position, the breathing bag is located on the user's chest).

If the bag is accidentally pressed, which often happens when the user performs some work in the device, the flexible connection will not be able to stretch enough and, accordingly, open the overpressure valve or the valve may delay opening.

The objective of the invention is to improve the operational characteristics of an insulating breathing apparatus.

The technical result from the use of the invention is to increase the reliability of the apparatus and reduce resistance on inspiration and exhalation.

The technical result is achieved by the invention, according to which in a chemically bound oxygen isolating breathing apparatus comprising a respiratory isolation assembly, a regenerative cartridge, a breathing bag, a breathing hose connecting the respiratory isolation assembly to the breathing bag and a regenerative cartridge, and a valve box with inspiration valves, exhalation and an overpressure valve connected by a flexible connection with the wall of the breathing bag, the valve box is installed in the housing of the breathing bag, while the valve The inspiratory and expiratory flow are located symmetrically to the axis of the valve box, the overpressure valve is installed on the same axis on the opposite side of the valve box, and the flexible connection is located in a plane parallel to the user's chest.

Such a constructive implementation of the apparatus allows to reduce the resistance of both inhalation and exhalation due to the symmetrical arrangement of the valves, since in this case the possibility of swirling of air flows and the possibility of delay or distortion of the inhalation and exhalation valves are excluded.

The influence of the external pressure on the breathing bag on the mechanical pressure of the valve is excluded, since the design of the apparatus does not limit the tension of the flexible connection. The flexible connection in this design is located in a plane parallel to the user's chest, and in case of pressure on the bag or accidental impact on it, its position remains unchanged. Accordingly, the reliability of the overpressure valve is maintained.

The invention is illustrated in the drawing, in which:

figure 1 - General view of the apparatus;

figure 2 is a view along arrow A on the valve box;

figure 3 is a view along arrow B on the valve box.

The chemically bound oxygen insulating breathing apparatus contains a regenerative cartridge 1 with inspiration 2 and expiration 3 nozzles. The cartridge 1 is equipped with a starting device 4. A breathing bag 5 and a breathing hose 6 are connected to the nozzles of the inspiration 2 and expiration 3 of the cartridge 1, which passes through the breathing bag 5 .

Using the flange 15, a valve box 7 is installed in the housing of the breathing bag 5, connected by a hose 8 to the respiratory isolation unit 9, which can be used as a mouthpiece or mask.

In the cavity of the valve box 7, a heat exchanger 14, an inspiratory valve 10, and an exhalation valve 11 are installed. Valves 10 and 11 are placed symmetrically with respect to the axis of the valve box L (Fig. 3).

The overpressure valve 12 is installed on the opposite side of the valve box, is placed along the L axis and is connected by a flexible connection 13 with the wall of the breathing bag 5. A flexible connection 13 is passed through the wall of the valve box 7 and is in a plane parallel to the user's chest (figure 2).

The breathing apparatus operates as follows. Before inclusion in the apparatus, the starting device is actuated 4. The mouthpiece 9 is taken into the mouth.

The exhaled air through the hose 8 enters the cavity of the valve box 7, which is mounted through the flange 15 into the body of the breathing bag 5, then through the exhalation valve 11 and the breathing hose 6, passing inside the breathing bag and connected to the exhalation pipe 3, into the regenerative cartridge 1. Regenerated air through the inhalation pipe 2 enters the breathing bag 5. Inhaled air from the breathing bag 5 through the inspiratory valve 10 of the valve box, passing through the heat exchanger 14, on which it is cooled, through the hose 8 enters the insulation unit about Rganov breathing. When you exhale, the breathing bag is filled, while the flexible connection 13 associated with the walls of the bag is stretched, opening the overpressure valve 12, which discharges unregenerated air into the atmosphere from the valve box cavity.

Claims (1)

A chemically bound oxygen isolating breathing apparatus comprising a respiratory isolation assembly, a regenerative cartridge, a breathing bag, a breathing hose connecting the respiratory isolation assembly to the breathing bag and a regenerative cartridge, and a valve box with inspiratory, expiratory, and overpressure valves connected by a flexible connection with the wall of the breathing bag, characterized in that the valve box is installed in the housing of the breathing bag, while the inspiratory and expiratory valves are located symmetrically relative to the axis of the valve box, the overpressure valve is mounted on the same axis on the opposite side of the valve box, and the flexible connection is located in a plane parallel to the user's chest.

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