RU2653391C2 - Device for artificial breathing in extreme situations - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment. Device comprises two flexible shells, hermetically connected to the ends of the flanges with attached handles mounted to deform the flexible shells, and a respiratory chamber connected through a flexible duct with a facial mask of the injured person. Flexible shells are made in the form of coaxially located and oriented with large bases in different directions truncated cones and have equal volumes, determined by the length of flexible connections between the flanges. Inner surfaces of the flexible shells are fixed by rings of different diameters in such a way that when the height of the truncated cones decreases, during deformation of the flexible shells, the rings enter into each other to form a plane. Breathing chamber through the valves is connected to the internal volumes of flexible shells which are connected to the atmosphere through the valves with the possibility of air input from the atmosphere into one of the shells and air output into the atmosphere from the other, and connected to a manometer to match the operation of the device with the frequency of the patient's own breathing while resuming their own breathing.

EFFECT: technical result consists in reducing the sizes and the cost price.

1 cl, 2 dwg

Description

The invention relates to medicine, in particular to methods of recovery in an adverse environment (disaster area with high radiation, the focus of the use of chemical or bacteriological weapons, natural disasters, war).

A known method of artificial respiration in extreme situations by supplying exhaled air by a lifeguard to the victim’s mouth or nose [1]. In this method, there is direct contact between the rescuer and the injured person (“mouth to mouth” or “mouth to nose”).

The disadvantages of this method in many cases impede its use. The natural feeling of fear of touching the dying person’s mouth, blood and dirt on the victim, the risk of contracting a serious or incurable disease (tuberculosis, syphilis, hepatitis, AIDS, poisonous agents in the lesion) sharply limit the method.

A device is known, see Russian patent No. 2620151, for artificial respiration in extreme situations, including an artificial respiration device containing two coaxially arranged bellows, hermetically connected at the ends by flanges containing handles mounted with the possibility of deformation of the bellows, and a breathing chamber connected through a flexible air duct with the face mask of the victim and through the valves - with the internal bellows and the bellows space, the volume of the internal bellows and the volume of the bellows space TWA through valves are connected with the atmosphere with the possibility of air entering the internal bellows and air coming out of the inter-bellows space into the atmosphere, while the volume of the internal bellows is equal to the volume of the inter-bellows space. The disadvantage of this device is the presence of bellows, which is associated with an increase in the cost of the device and an increase in its overall dimensions.

The aim of the invention is to reduce the cost and overall dimensions of the device.

This goal is achieved by the fact that instead of bellows a flexible shell (film) is used, having the form of a given volume, fastened from the inside by restrictive rings of different diameters. Moreover, with a decrease in volume, the rings enter each other, forming a plane.

In FIG. 2a) shows a device that contains two equal volumes 1 and 2 bounded by a film 24. In a section, volumes 1 and 2 are in the form of truncated cones, the inner surfaces of which are periodically fastened by rings 25. When the height of the truncated cones is reduced, their rings enter each other forming a plane, see FIG. 2b). The upper and lower bases of the cones are hermetically connected by flanges 3, 4 so that the volume 1 is equal to the volume 2. The opening of the valve 5 connects the volume 2 to the breathing chamber 11. The opening of the valve 6 connects the volume 2 to the atmosphere, oxygen cushion or other source of respiratory gas. The opening of the valve 7 connects the volume 1 to the breathing chamber 11. The opening of the valve 8 connects the volume 1 to the atmosphere. When pressure is created in volume 2 and volume 1, valves 5 and 8 open. When pressure drops in volumes, valves 6 and 7 open. Pressure in the breathing chamber is measured by a pressure gauge 19. Handles 9 are attached to flanges 3, 4. The flanges are also connected by flexible, length-adjustable bonds 10, representing, for example, belts restricting the compression of volumes over a given volume. The set volume is determined by the length of the flexible connections and is set by the minimum value depending on the age and lung volume of the victim. The breathing chamber 11 through the hole 12 using the duct 13 of the hole 14 located in the body 15 of the face mask is volumetricly connected with the cavity 18 to accommodate the mouth and nose of the victim (patient). In the cross section of the duct 13 may contain a cavity for placement of ampoules, contributing to the conduct of effective resuscitation of stimulation of blood circulation. The case 15 of the face mask is adjacent to the patient’s face through a sealant 17 made of porous easily deformed rubber and is attached to the victim’s face using a fastening device made of rubber tape of adjustable length.

If it is necessary to conduct effective resuscitation of stimulation of blood circulation, which is achieved by introducing into the volume 20, formed by the insert 23, fixed with the help of clamps 21 to it a flexible transparent shell 22 of drugs from colored ampoules. Ampoules can be fixed to the inner surface of the shell 22. The desired capsule easily breaks when exposed to force through a flexible transparent shell 22. The drug through the holes in the insert 23, duct 13, cavity 18 enters the mucous membranes of the mouth, oropharynx, larynx, trachea, from where it is fast enough it is absorbed into the blood and has a direct effect on the heart (adrenaline, atropine). The reflex effect of heart stimulation from the mucous membranes of the mouth is also possible.

In FIG. 1 shows a device containing a film forming two coaxially arranged cylinders, wherein the volume of the inner cylinder 2 is equal to the inter-cylinder volume 1.

The operation of the device lies in the fact that pre-flexible connections 10 are adjusted along the length corresponding to the negative tolerance of the lung volume of the victim. Instead of atmospheric air, oxygen or another source of respiratory gas can be connected to the device through the opening of valve 6. The face mask is oriented towards the coincidence of the cavity 18 with the location of the victim’s mouth and nose, followed by its fixing. Using handles 9, deforming the film, inhale and exhale the victim with the frequency of their own breathing. Closely monitor the readings of the pressure gauge 19. With renewed weak breathing of the victim without forced exposure, the pressure gauge will oscillate in a sinus-like mode. In this case, it is very important to maintain and restore the victim’s own breathing to combine the external respiratory frequency with the victim’s own respiratory frequency, i.e. produce artificial respiration in resonance mode. The method and device can improve the efficiency of mechanical ventilation during resuscitation and the resumption of lung function after resuscitation.

The device can be used as a gas mask, underwater breathing, and also as a simulator for strengthening the human lungs.

Information sources

1. Darbinyan T.M., Zvyagin A.A., Tsitovsky Yu.I. Anesthesia and resuscitation at the stages of medical evacuation. M.: Medicine, 1984, p. 109.

2. Francois J. et al. Emergency therapy, anesthesia and resuscitation. Kiev: Vishka School, 1984, p. 170.

3. Safar Peter. Cardiopulmonary and cerebral resuscitation. M .: Medicine, 1984, p. 62.

4. Safar Peter. Cardiopulmonary and cerebral resuscitation. M .: Medicine, 1984, p. 104.

5. Copyright certificate of the USSR N 113748, cl. A61H 31/02, 1959.

Claims (1)

Device for artificial respiration, containing two flexible shells, hermetically connected at the ends of the flanges with handles attached to them, installed with the ability to deform the flexible shells, and a breathing chamber connected through a flexible duct with the face mask of the victim, characterized in that the flexible shells are made in the form coaxially located and oriented with large bases in different directions of truncated cones and have equal volumes, determined by the length of the flexible connections between the flanges, while the lower surfaces of the flexible shells are fastened by rings of different diameters in such a way that, when the height of the truncated cones is reduced when the flexible shells are deformed, the rings enter each other to form a plane, and the breathing chamber is connected through the valves to the internal volumes of the flexible shells, which are connected through the valves to the atmosphere air from the atmosphere into one of the shells and air into the atmosphere from the other, and is connected to a manometer to coordinate the operation of the device with the frequency of its own breathing the victim's injuries while resuming breathing.

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