RU2774381C2 - Breathing machine - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: machine for breathing virus-free air includes a mask with inhalation and exhalation valves, glasses and a hose connecting the inhalation valve to an inhaled air purifier, while the inhaled air purifier of the machine is equipped with a means of disinfection of inhaled and exhaled air, made in the form of two air channels of different diameters separated from each other and located in each other. An air heater connected to a battery to a set temperature in the range of 50-350°C is mounted in an exhaled air disinfection channel. The machine is equipped with a means of cooling the disinfected air, while the means of disinfection and cooling are connected to each other by means of a connecting pipeline, and the cooling means is connected to the mask by means of, for example, a corrugated hose.

EFFECT: obtaining a breathing machine.

9 cl, 1 dwg

Description

The present invention relates to the field of ensuring the viability of a person, in particular, to devices for breathing air decontaminated from viruses and can be used for breathing specialists and a wide range of people performing work near and / or directly with the infected, in the event of various viral diseases, influenza, coronavirus, plague, cholera, anthrax, etc.

It has now been established that most of the infections occur during human breathing, in which microbes, when exhaled by a person infected with, for example, a coronavirus, spread over distances of several meters, infecting the air and surrounding objects, touching which is also fraught with infections. Scientists in many countries are working intensively to find an effective remedy, drugs for the treatment of coronavirus. At the same time, without a long-term testing of newly created drugs, it is not known what effectiveness these drugs will be and what consequences may be after their use. But since life goes on and specialists working with the sick must definitely be protected from infection with viruses, breathing means that are safe for humans are required.

Widely known are simple and affordable devices that protect the human respiratory system and reduce the number of microbes penetrating the human body - face masks consisting of several layers of fabric with ties or elastic bands that ensure the mask is held on the person's face. In the process of breathing, the air passing through several layers of fabric in the mask is partially cleaned and retained from large suspensions in the air.

The disadvantages of such funds include a low degree of protection of the human respiratory organs from the ingress of infectious microbes.

Other means of protecting against infectious microbes that currently exist are also ineffective, and specialists working with infected people themselves are practically not protected from infection.

It is known from information sources that a group of French scientists found that coronavirus dies when exposed to a temperature of 92 ° C for 15 minutes. See ria.ru>20200417/1570161898.html.

It follows from this that if the coronavirus is exposed to a higher temperature, then the exposure time until the death of the coronavirus will be shorter, for example, at a temperature of 120 ° C, the exposure time will decrease to 3-5 minutes, and at a temperature of 150 ° C, the time will be several seconds.

An individual breathing apparatus is known, containing a front part, inhalation and exhalation valves, a cartridge with a regenerative product, a breathing bag, a filter cartridge, a device for controlling the operation of the apparatus, while the filter cartridge connected to the external environment through a check valve contains a catalyst for deep oxidation of harmful gas impurities and is also connected to the breathing bag, on the one hand, and the exhaled mixture discharge valve, on the other hand, through the automatic control device for the operation of the device. See https://fmdpatent.ru/patent/256/2562033.html.

The disadvantages of the known respiratory apparatus include an insufficient degree of delay by the apparatus of pathogenic bacteria and viruses of various directions.

More advanced means of protecting the respiratory organs from entering the human body of various, including toxic substances - gas masks - a prototype, consisting of a mask with goggles with corrugated hoses for incoming breathing air and a box filled with a specific type of poisonous substance are known. (See Mail.ru answers: otvet.mail.ru Recommend a cool gas mask to cosplay a stalker).

The disadvantages of the known device - the prototype include the low possibility of preventing microbes from entering the human body by inhalation of air purified by a gas mask.

The technical result of the invention is to eliminate the disadvantages of the prototype, in particular, disinfection from various types of pathogenic microbes inhaled into the human body and exhaled air.

The set technical result is achieved by using known common features with the prototype, including a mask with inhalation and exhalation valves, goggles and a hose connecting the inhalation valve with the inhaled air purifier and new features, which consist in the fact that the inhaled air purifier of the device is equipped with a disinfectant for inhaled and exhaled air, made in the form of two air channels of different diameters separated from each other and located one in the other, in the channel for decontaminating exhaled air, an air heater connected to the battery is mounted to a predetermined temperature in the range of 50-350 degrees C, the device is equipped with a means of cooling the disinfected air, made in the form of an air channel mounted in a container with water, while the disinfection and cooling means are connected to each other by means of a connecting pipeline, and the cooling means is connected to the mask using, for example, a corrugated hose.

The disinfected air cooling channel is made in the form of a coil or a dispersing nozzle mounted on the bottom of the water tank and with at least one layer of moistened fabric above the water surface in the tank.

The air heater can be made in the form of a quartz emitter mounted in a transparent glass pipeline, which additionally affects air microbes with light radiation.

The channel for heating and disinfection of the inhaled air is made in the form of an annular space with an area of 8.0-15.0 square cm around the channel for the disinfection of exhaled air with a heater.

The inlet for decontaminated air opening of the branch pipe for the removal of air cooled for breathing from the water tank is made above the surface of the moistened tissue in the central part of the water tank.

To increase the time of exposure to high temperature on the inhaled air, a means can be installed in the cavity of the annular channel that slows down the speed of air passing through the channel, for example, in the form of a wire tangle or a screen with guides that allow increasing the air path when passing through the channel.

The breathing apparatus is equipped with a battery charger mounted in a separate compartment of the apparatus.

The water tank of the machine is equipped with a hose for replenishing and/or replacing it.

The channel of the disinfectant at the inlet of the air supply to it is equipped with a fan.

Control over the air heating temperature during disinfection is performed using a temperature sensor mounted at the air outlet from the air heating channel.

The novelty of the proposed technical solution is the presence as a means of cleaning the inhaled air of the device - a means of disinfecting the inhaled and exhaled air, made in the form of two air channels of different diameters separated from each other and located one in the other, a heater connected to the battery is mounted in the channel for disinfecting the exhaled air air to a predetermined temperature in the range of 50-350 degrees C, the device is equipped with a means for cooling disinfected air, made in the form of an air channel mounted in a container with water, while the means of disinfection and cooling are connected to each other by means of a connecting pipeline, and with a mask means cooling is connected using, for example, a corrugated hose.

Thus, the presence in the device of a means for disinfecting inhaled and exhaled air, made in the form of two air channels of different diameters separated from each other and located one in the other, installation in the channel for disinfecting exhaled air, connected to the battery of the air heater to a predetermined temperature in the range of 50-350 degrees C allows, by heating the air in the channels to the required temperature, to destroy the viruses that are in the air entering through the annular channel for breathing. In this case, the required air temperature in the breathing channel is created when the air contacts the heated walls of the inner channel with the heater. The exhaled air passing through the channel with the heater heats up higher than the breathing air and guarantees the disinfection of the exhaled air and the safety of the surrounding area from infections.

The device has a device for cooling disinfected air, made in the form of an air channel mounted in a container with water, which makes it possible to reduce the temperature of the air inhaled after heating to the required one and ensure uninterrupted breathing with air disinfected from infections.

The interrelation of the disinfectant and cooling means with each other by means of a connecting pipeline, and with the mask the cooling means is connected by means of, for example, a corrugated hose, prevents the entry of ambient air that has not undergone disinfection into the lungs of a person.

Signs of performing a channel for cooling disinfected air in the form of a coil or a scattering nozzle mounted on the bottom of a tank with water and at least one layer of moistened tissue above the water surface in the tank, making an air heater in the form of a quartz emitter mounted in a transparent glass pipeline, additionally affecting air microbes by light radiation, making a channel for heating and disinfecting inhaled air in the form of an annular space with an area of 8.0-15.0 cm2 around the channel for disinfecting exhaled air with a heater with water above the surface of the moistened tissue in the central part of the water tank, the installation in the cavity of the annular channel of a means that slows down the speed of passage through the channel of air, for example, in the form of a wire tangle or a screen with guides, which allows increasing the path of the air ha when passing through the channel to increase the time of exposure to high temperature on the inhaled air, the presence of a charger for the battery mounted in a separate compartment of the apparatus for breathing, the presence of a hose for replenishing and / or replacing the water tank, the presence of a disinfectant on the channel at the inlet of the fan air supply to it, the control of the temperature of air heating during disinfection using a temperature sensor mounted at the air outlet from the channel of its heating - these are additional signs aimed at a more detailed and detailed disclosure of the main features that contribute to the achievement of the technical result proposed by the invention. .

Thus, the implementation of the inlet for disinfected air opening of the branch pipe for the removal of air cooled for breathing from a container with water above the surface of the moistened tissue in the central part of the water container helps to prevent water from entering the air pipe for sampling air from a container with water when specialists tilt in any direction during their work.

The patent information search conducted in the process of preparing materials did not reveal a combination of the proposed known and new features of the proposed invention in the patent and scientific and technical literature, which allows us to classify the features as having novelty.

Since the proposed combination of features is not known from the existing level of technology and allows to obtain a higher technical result, the proposed essential features can be recognized as meeting the criterion of inventive step.

The description of the implementation of the proposed device and the above sources of experimental work allow us to classify the proposed device as industrially feasible.

In FIG. 1 schematically shows a general view of the breathing apparatus.

The breathing apparatus consists of a housing 1, in the compartments of which a container 2 is installed, filled with water 3 along the height of the container by 40-45% and 55-60% of the container filled with cooled disinfected air 4. The agent that disinfects the inhaled and exhaled air is made in the form of two air channels of different diameters separated from each other and located one in the other, mounted in a common container 5 of disinfected air. In the channel 6 for the disinfection of exhaled air, made, for example, of transparent glass, an air heater 8 connected to the battery 7 is mounted to a predetermined temperature in the range of 50-350 degrees C. A quartz emitter can be used as a heater, which simultaneously heats the air in the channel of the inhaled air to the required temperature and at the same time acts through the transparent glass channel 6 on infectious microbes in the inhaled air. The air channel 9 for the inhaled air is made in the form of an annular channel around the channel 6 for the disinfection of exhaled air. The disinfected air cooling means is made in the form of a coil (not shown in the drawing) or in the form of a scattering nozzle 10 mounted on the bottom of the tank 2 with water 3 and at least one layer of moistened fabric 11 above the surface of the water in the tank 2. Capacity 5 of disinfected air is connected to the air cooling tank 2 by means of a connecting pipeline 12, and with a mask (not shown in the drawing) the cooling means is connected using, for example, a corrugated hose connected to the pipe 13. The disinfection means channel at the inlet of the air supply to it is equipped with fan 14. The channel for heating and disinfecting the inhaled air in cross section is made in the form of an annular space with an area of 8.0-15.0 square meters. cm, around the channel 9 disinfection of exhaled air with a heater. Control over the air heating temperature during disinfection is performed using a temperature sensor 15 mounted at the air outlet from the air heating channel. To increase the time of exposure to high temperature in the cavity of the annular channel 9, a means can be installed that slows down the speed of passage through the air channel, for example, in the form of a wire tangle 16 or a screen with guides that allow increasing the air path when passing through the channel or slowing down the speed of its passage. The breathing apparatus is equipped with a charger 17 for the battery 7. The water container 2 of the apparatus is equipped with a hose 18 for its replenishment and/or replacement.

The inlet for decontaminated air opening 19 of the branch pipe 13 for the removal of cooled breathing air from the water tank is made above the surface of the moistened tissue 11 in the central part of the water tank 2. When the specialist tilts while working in any position of the apparatus, water at a level of 40-45% in height will not touch the hole 19 of the pipe 13 and will not enter either the pipe 13 or the corrugated breathing hose.

The proposed apparatus works as follows: A specialist who works with patients infected with viruses initially puts the apparatus on his back and turns on the fan 14 and the heater 8 of the incoming breathing air, see arrow A. After making sure, according to the readings of the sensor 15, that the temperature of the inhaled air has warmed up to the required , for example, up to 150°C (or 200°C or others), puts on a mask and gets to work. At the same time, the inhaled air replenished by the pressure of the fan 14, passing through the annular channel 9 from the heated walls of the channel 6, heats up and enters after heating into the container 5 (see arrows C), from which, using the connecting pipe (pipeline) 12, heated yes 150 (200) degrees, the air enters, for example, to the dispersing nozzle 10 and, having passed through the water 3 and the wet cloth 11, is cooled to the temperature required for breathing and through the hole 19 of the pipe 13, mounted in the center of the container 2, it enters along the arrow "D" along the corrugated hose to the mask inhalation valve. Depending on the charge of the battery, a specialist can work continuously for 2-4 hours or more, depending on the battery, then a break with battery charging and you can work again. At the end of the work, the specialist's protective suit and breathing apparatus can be decontaminated by placing them in a heat chamber for several minutes, in which the temperature of the death of infectious microbes is maintained. If it is necessary to charge the apparatus with water, it has a hose 18 connected to the water supply or through which the necessary amount of water can be poured into the container 2 by gravity. The fan 14, by forcing air through the annular channel 9, ensures the pumping of air at a predetermined speed and facilitates the inhalation of air by the specialist. Exhaled, see arrow B and decontaminated through the air channel 6, the air is safe and is released into the surrounding space.

The use of the proposed device when working in the zone of viral diseases will allow specialists and any other people to work without fear of contracting a virus, and not infecting others, even if the specialist himself somehow turned out to be sick.

Claims (9)

1. Apparatus for breathing, including a mask with inhalation and exhalation valves and a hose connecting the inhalation valve with the means of cleaning the inhaled air, characterized in that the means of purifying the inhaled air of the apparatus is equipped with a means of disinfecting the inhaled and exhaled air, made in the form of two separated from each other and air channels of different diameters located one inside the other, in the channel for decontaminating exhaled air, an air heater connected to the battery is mounted to a temperature in the range of 50-350 ° C, the device is equipped with a means of cooling the disinfected air, made in the form of an air channel mounted in a container with water, while the disinfection and cooling means are connected to each other by means of a connecting pipeline, and the cooling means is connected to the mask by means of a corrugated hose. 2. Apparatus according to claim 1, characterized in that the disinfected air cooling channel is made in the form of a coil or diffuser mounted on the bottom of the water tank and with at least one layer of moistened tissue above the water surface in the tank. 3. Apparatus according to claim. 1, characterized in that the air heater is made in the form of a quartz emitter mounted in a transparent glass pipeline, additionally affecting air microbes with light radiation. 4. Apparatus according to claim 1, characterized in that the channel for heating and disinfecting the inhaled air is made in the form of an annular space with an area of 8.0-15.0 cm ² around the channel for disinfecting exhaled air with a heater. 5. Apparatus according to claim 1, characterized in that the inlet for decontaminated air, the opening of the branch pipe for the removal of cooled breathing air from the water tank is made above the surface of the moistened tissue in the central part of the water tank. 6. Apparatus according to claim 1, characterized in that in order to increase the time of exposure to high temperature on the inhaled air, a means is installed in the cavity of the annular channel that slows down the speed of passage through the air channel, in the form of a wire tangle or a screen with guides that allow increasing the air path during passage channel. 7. Apparatus according to claim 1, characterized in that the breathing apparatus is equipped with a battery charger mounted in a separate compartment of the apparatus. 8. Apparatus according to claim 1, characterized in that the water tank of the apparatus is provided with a hose for its replenishment and/or replacement. 9. Apparatus according to claim. 1, characterized in that the channel of the disinfectant at the inlet of the air supply to it is equipped with a fan.

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