RU74812U1 - RESPIRATORY PROTECTIVE APPARATUS - Google Patents

Abstract

1. The apparatus for protecting respiratory organs, including a breathing bag connected through an oxygen distribution unit to an oxygen cylinder, a regenerative cartridge in communication with the breathing bag, and a breathing hose with a mouthpiece connected through the inspiration valve to the breathing bag and through the exhalation valve to a regenerative cartridge, characterized in that the regenerative cartridge is mounted on an oxygen cylinder and its side in contact with the cylinder is made in the form of a congruent surface of the contacting side of the cylinder, regenerative cartridge within two perforated tubes are installed, one of which is connected through the exhalation valve with the breathing hose, and the other - with the respiratory meshkom.2. The apparatus according to claim 1, characterized in that the perforated tubes are placed in a regenerative cartridge at its opposite sides.

Description

The utility model relates to rescue equipment, namely, devices for protecting respiratory organs when people are temporarily in an atmosphere unsuitable for breathing, and can be used, for example, in underground accidents as a self-rescuer or respirator.

The well-known self-rescuer for underground operations SHSS-T, designed to evacuate personnel from the danger zone and to carry out primary measures to prevent the spread of accidents in the mines of the coal mining industry, as well as in any hazardous areas where there is a probability of an accident associated with the release of harmful substances (advertising prospectuses of FSUE “TambovNIHI.” Insulating respiratory protective equipment. Self-rescuer for underground work. ShSS-T. ZAO NPO “SPECTRUM”, Tambov, 2002).

Known self-rescuer contains a cartridge with chemically bound oxygen, a starting device, a breathing bag, a breathing hose with a mouthpiece and a valve box.

The main disadvantages of the known self-rescuer are high aerodynamic drag, increased fire hazard, because it is heated when oxygen is released, and the absence of an oxygen reserve during work.

Known regenerative self-rescuer respirator containing a breathing bag, an oxygen cylinder, an oxygen distribution unit and a breathing hose connected to the inspiratory and expiratory valves, on which the mouthpiece is fixed (-Carbon. -2006. -No. 1. -C.25-27 ) The principle of operation of the known device is based on the supply of oxygen from the cylinder in an amount depending on the severity of the work performed.

When exhaling, air from a person’s lungs enters the regenerative cartridge through the exhalation valve, where it is cleaned of carbon dioxide and moisture, and then passes into the breathing bag, where it is mixed with oxygen received through the oxygen distribution unit. When inhaling, the purified and oxygen-enriched air from the breathing bag through the inspiration valve enters the breathing hose and then through the mouthpiece into the lungs of the person.

The disadvantages of the known device include:

significant dimensions and mass make it difficult to use it as a self-rescuer;

part of soda lime contained in the regenerative cartridge does not participate in air purification, because located at a distance from the path of its movement through the mesh to the respiratory bag, i.e. is ballast.

The technical result of the utility model is to reduce the size and weight of the respiratory protection device by changing the design of its regenerative cartridge.

An apparatus for respiratory protection is proposed, including a breathing bag connected through an oxygen distribution unit to an oxygen cylinder, a regenerative cartridge in communication with a breathing bag, and a breathing hose with a mouthpiece connected through an inspiration valve to a breathing bag and through an exhalation valve to a regenerative cartridge.

The difference is that the regenerative cartridge is mounted on the oxygen cylinder and its side in contact with the cylinder is made in the form of a congruent surface of the contacting side of the cylinder, and two perforated tubes are installed inside the regenerative cartridge, one of which is connected through the exhalation valve to the breathing hose and the other - with a breathing bag.

Another difference is that the perforated tubes are placed in the regenerative cartridge at its opposite sides.

The proposed breathing apparatus has a small-sized lightweight regenerative cartridge HP-I, which was tested at the stand "Model of the lungs" with a positive result. The use of this regenerative cartridge and the improvements that have become the subject of separate applications for utility models have made it possible to create an apparatus that has two times less dimensions and weight in comparison with known breathing apparatus on compressed air. Its protective action is designed for at least 2 hours, which is sufficient for a guaranteed exit of mine workers from a gassed atmosphere in case of accidents.

The essence of the utility model is illustrated in the drawing, where Fig. 1 shows a schematic structural diagram of a breathing apparatus, and Fig. 2 is a section I-I of Fig. 1.

The regenerative apparatus for respiratory protection contains a housing 1 with a compartment 2 for protection against external factors.

The air duct system of the apparatus consists of a hose 3 intended for inhalation and exhalation, with a mouthpiece 4 located on it, a tee 5 with exhalation valves 6 and inhalation 7, a salivary pump 8, a respiratory bag 9 with an overpressure valve 10, and hoses 11 and 12 designed for exhalation and inhalation connected to the corresponding valves, and a regenerative cartridge 13 in communication with the breathing bag 9 and with the exhalation hose 11.

The oxygen supply system contains an oxygen cylinder 14 with a shutoff valve 15 connected by a channel 16 to the oxygen distribution unit 17. To control the pressure of the compressed oxygen coming from the cylinder, there is a pressure gauge 18. Through the oxygen distribution unit, the oxygen cylinder is connected to the breathing bag 9.

The airway system of the apparatus joins the human respiratory system and forms a single system with them, through which the inhaled and exhaled air circulates, isolated from the external environment.

The regenerative cartridge 13 in the housing is mounted on an oxygen cylinder so that its wall 19 is made congruent in contact with it surface 20 of the oxygen cylinder 14, i.e. the radii of their curvature R are assumed to be the same. The outer side of the regenerative cartridge may be curved or other known shape. Instead of the enclosing mesh, two tubes 21 and 22 with perforated walls are placed inside the regenerative cartridge at opposite walls. The tube 21 is connected to the exhalation hose 11, and the tube 22 to the breathing bag 9.

The regenerative cartridge is equipped, for example, with a lime chemical absorber for cleaning carbon dioxide from the air.

Apparatus for protecting the respiratory system operates as follows.

Air exhaled by a person containing about 4% carbon dioxide through the mouthpiece 4 and hose 3 through the exhalation valve 6 and exhalation hose 11 enters through the perforated tube 21 into the regenerative cartridge 13. Due to the location of the tubes at opposite walls, air moves to the perforated tube 22 evenly through the entire mass of the absorber, while it is being purified from carbon dioxide, heating and moisturizing.

The purified air from the regenerative cartridge enters the breathing bag 9, where it is enriched with oxygen, which is supplied in the required amount from the oxygen distribution unit 17, and, if there is excessive pressure, is vented through the valve 10. When inhaling, the enriched air from the breathing bag through the hose 12 and the inspiration valve 7 enters breathing hose 3 and further into the lungs of a person, after which the cycle repeats. The salivary pump 8 serves to remove from the tee 5 saliva flowing from the breathing hose. A constant supply of oxygen in an amount of (1.4 ± 0.1) dm ³ / min is sufficient for a person performing moderate work, while increasing the severity of the work performed, the oxygen distribution unit 17 increases the oxygen supply.

The device has small dimensions and weight, which makes it possible to use it both as a self-rescuer and as a respirator.

Claims (2)

1. The apparatus for protecting respiratory organs, including a breathing bag connected through an oxygen distribution unit to an oxygen cylinder, a regenerative cartridge in communication with the breathing bag, and a breathing hose with a mouthpiece connected through the inspiration valve to the breathing bag and through the exhalation valve to a regenerative cartridge, characterized in that the regenerative cartridge is mounted on an oxygen cylinder and its side in contact with the cylinder is made in the form of a congruent surface of the contacting side of the cylinder, regenerative cartridge within two perforated tubes are installed, one of which is connected through the exhalation valve with the breathing hose, and the other - with the breathing bag. 2. The apparatus according to claim 1, characterized in that the perforated tubes are placed in a regenerative cartridge at its opposite sides.