RU2468833C1 - Sholin's respiratory training device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to health protection and/or individual protective means against bloodsucking flies, and may be used for sleeping respiration training in a mode of moderate hypoxia and hypercapnia with enabled respiratory protection against sleeping undercooling at low air temperature or sleeping face and head protection against mosquito bites with simultaneous effect of respiratory training. The respiratory training device involves a mixing chamber and a filter connecting it with the atmosphere and made of a material of the preset air permeability. The training device is presented in the form of a sac coupled with the user's head. A sac cloth has a lesser air permeability than that of the filter. The filter adjoins an oral-nasal area of the user's face, while the mixing chamber is formed by a part of the internal cavity of the sac between the user's face and the filter.

EFFECT: physical inaccessibility of the attack of bloodsucking flies on sleeping user's head and neck.

4 cl, 4 dwg

Description

The invention relates to the field of healthcare and / or to personal protective equipment against flying bloodsucking insects and can be used to train breathing during a user's sleep in moderate hypoxia and hypercapnia with the ability to protect the respiratory tract of a user from hypothermia during sleep in an atmosphere with a low temperature air or to protect the face and head of the user during sleep from mosquito and mosquito bites with the simultaneous effect of breathing training.

The training effect of breathing simulators is based on eliminating (decreasing) chronic tissue hypoxia by adapting the respiratory center, which leads to a decrease in the minute volume of respiration and a corresponding increase in the concentration of carbon dioxide in the body at rest due to a periodic increase in the concentration of CO ₂ in the inhaled air. This, in turn, leads, according to a well-known pattern, to a rightward shift of the oxyhemoglobin dissociation curve with increasing CO ₂ in the arterial blood, an increase in the degree of oxyhemoglobin dissociation and, as a result, oxygen utilization by tissues in large quantities with the elimination (reduction) of chronic tissue hypoxia. (Agadzhanyan N.A. et al. The physiological role of carbon dioxide and human performance. - Publishing house of the Astrakhan State Medical Academy, 1995).

Climbers, tourists, gardeners, summer residents, fishermen, hunters, forcibly or intentionally, in any weather, sleep in the open air, in huts, tents or rooms that are not protected from the penetration of flying blood-sucking insects - mosquitoes, midges, horseflies. During sleep, the physiological state of rest of the body periodically occurs, during which the work of consciousness is completely or partially stopped and a number of physiological processes are weakened. During sleep in the open air, in huts, tents or rooms at low ambient temperatures, there is hypothermia of the human respiratory tract and, as a result, ARI, and at a temperature corresponding to the conditions of the life of insects, open parts of the body during sleep, especially the head and the face is attacked by flying bloodsucking insects - mosquitoes, midges, horseflies. The use of repellents - chemicals from the group of pesticides that repel harmful insects, is not good for health.

The well-known "Breathing simulator V.F. Frolova" (RU 2129885, A61M 16/00, 10.27.99), containing coaxially located inner and outer mixing chambers and a breathing tube connected to the narrowed upper part of the inner chamber. On the bottom of the outer chamber, open radial channels are made on the inner side, which together with the lower end of the inner chamber form openings for air passage. The lower portion of the annular gap between the chambers is filled with water, which provides resistance to inspiration and expiration.

Breathing on the simulator is carried out only through the mouth. The respiratory act consists of a quick (1-2 seconds) breath and a steady, steady continuous exhalation. When inhaling through the hole in the lid, air enters the mixing chamber and is sucked through the channels into the intermediate tube, breathing tube and respiratory system. At the same time, water at the beginning of inspiration is absorbed into the cavity of the intermediate tube, rises and mixes, freeing the holes for air intake. When exhaling, water is pushed into the annular gap, and then air sparges through its layer and leaves the simulator through an opening in the lid. The exhaled air mixture has a reduced concentration of oxygen and an increased concentration of carbon dioxide. At the next inhalation, this mixture first of all from the mixing chamber enters the respiratory system. Therefore, breathing is carried out in a mode of moderate hypoxia and hypercapnia.

In the process of regular classes for 25-30 minutes daily after 4-6 months, the duration of one forced continuous exhalation against the background of an improvement in the condition of the body can be 25-30 seconds, and in healthy, trained people - 40-60 seconds or more (Methodological recommendations for use Individual inhaler-simulator (Frolov breathing simulator, TU 9444-004-39151933-2004, www.breathing.ru.)).

The reasons that impede the achievement of the technical result indicated below when using a well-known breathing simulator include the need for its stationary installation during use, the relative complexity of the design and operation, especially at the beginning of training (the implementation of a controlled by the duration of inspiration and expiration only through the mouth) and the daily cost of free time for several months.

A well-known simulator is a sports simulator "Complex" SAMOZDRAV "" (TU 9519-001-42529619-2001), implementing the "Method of increasing adaptive and compensatory capabilities of the body" (RU 2187341, A61M 16/00, 08/20/2002).

The simulator is a breathing tube mixing chamber in communication with the atmosphere. The simulator is equipped with additional containers for assembling a composite mixing chamber with a given large working volume.

A way to increase the adaptive and compensatory capabilities of the body involves a course of one or two daily sessions, carried out by natural breathing on the simulator only through the mouth, lasting 20-30 minutes of inspiration formed in the mixing chamber by hypercapnic and hypoxic gas mixtures based on atmospheric air. As you progress through the course, increasing the volume of the mixing chamber, the carbon dioxide content in the mixture increases, the oxygen content decreases. This allows for 4-6 months of continuous training to increase the adaptive and compensatory abilities of the body and increase the level of physical health (Mishustin Yu.N. Breaking the deadlock. Physiology corrects errors of medicine. 5th ed., Corrected and additional - Samara: OJSC "Publishing house" Samara Printing House ", 2009. - 80 pp. ISBN 978-5-7350-0447-9).

The reasons that impede the achievement of the technical result indicated below when using a well-known breathing simulator include the need for its stationary installation during use, the relative complexity of the design and operation (breathing only through the mouth before eating or 2 hours after eating) and the daily long expenditure of free time for several months.

The well-known "Agranovsky breathing simulator" (RU 2266758, A61M 16/00, 2005.12.27), which by appointment and a combination of essential features is the closest analogue of the inventive breathing simulator.

The breathing simulator includes a cylindrical mixing chamber with a narrowed upper part, a breathing tube connected to it and a bottom with perforations in the peripheral section. The bottom of the chamber is double, and in its inner cavity there are filters - elements made of porous material of a given air permeability, and the central section of the bottom is equipped with a channel connected to the atmosphere with an inspiration indicator made in the form of a movable piston element. The breathing tube is equipped with a sound expiratory indicator made in the form of a single-acting resonant whistle. The inner cavity of the bottom can be equipped with additional removable load liners, made in the form of film disks with holes of a given area, and attached to the upper part of the chamber, adjustable in length by a loop of flexible material.

The user, while breathing in through the breathing tube, creates a rarefaction of air in the chamber, the set value of which is fixed by the inspiratory indicator - lifting and hovering in the upper position of its piston element, emitting an audible signal (click). When exhaling, the resonant whistle, under the influence of a certain air flow passing through it, starts to make a whistle, the presence and unchanging tone of which indicate the uniformity of a long exhalation. The next breath in the mixing chamber corrects the chemical composition of the inhaled air mixture by mixing the atmospheric air and the air exhaled in the previous cycle, thereby increasing the carbon dioxide content in the gas mixture and a moderate decrease in oxygen content. The resulting gas mixture in the chamber enters the user's lungs with his next breath. The set resistance to inhalation and exhalation is provided by a filter and replaceable film disks with various openings.

The training effect of the simulator is created by two factors: the formation in the mixing chamber of a moderately increased concentration of carbon dioxide in combination with a reduced oxygen content and the creation of a metered resistance to inhalation and exhalation.

The reasons that impede the achievement of the technical result indicated below when using a well-known breathing simulator include the complexity of design and operation, especially at the beginning of training (breathing only through the mouth and sound control of breathing correctly) and the daily expenditure of free time for several months.

Protecting a person from the attack of flying bloodsucking insects is an urgent task.

Known personal protective equipment against bloodsucking insects of the head and neck of a person, included in the protective clothing from bloodsucking parasitic insects (SU 267858, A45F 3/52, 1976.05.28). The set of clothes contains a lower shirt made of mesh cloth, a second upper mesh with a hood, trousers and a cape on the head. Two layers of fabric - the hood and capes provide incomplete protection because they leave the face open. A person can prevent attacks of blood-sucking insects only in the waking state.

The reasons that impede the achievement of the technical result indicated below when using the known device include the inability to protect a person’s face and neck from flying bloodsucking insects during his sleep.

Known means of protection against bloodsucking insects of the head and neck of a person, included in the clothing for protection against bloodsucking insects (US 4979236, A01K 55/00, A41D 13/00, 1990-12-25). The known means is a bag made of a semi-solid single-layer wicker breathable material, for example a fiberglass shielding material that does not block the visibility, covering the head and neck of a person, attached to the shirt of the kit. In the vicinity of the location of the user's mouth, a hole is made in the bag closed by a protective flap for free access to the user's mouth.

The protection of the human head and neck from mosquitoes, black flies and other blood-sucking insects by a known means is achieved by positioning the semi-solid surface of the product from the user's skin surface at a distance exceeding the proboscis length of the blood-sucking insect.

The reasons that impede the achievement of the following technical result when using the known device include the inability to protect a person’s face and neck from flying blood-sucking insects during his sleep, since the necessary safe distance during sleep may not be respected, and human skin may be accessible to blood-sucking insects .

It is also known a means of protection against bloodsucking insects of the head and neck of a person, which is included in a clothing set for protection against bloodsucking insects (RU 2135056, A41D 13/00, 1999.08.27). Famous clothing contains a lower shirt, a second upper shirt with a hood, trousers and a cape on the head. Each of the shirts is knitted with a sirloin weave. The thickness of the upper shirt with a hood is less than the thickness of the lower shirt, the total thickness of the lower and upper shirts exceeds the length of the proboscis of the blood-sucking insect and is at least 3.8 mm. Two layers of fabric - the hood and capes provide incomplete protection because they leave the face open. A person can prevent attacks of blood-sucking insects only in the waking state.

The reasons that impede the achievement of the technical result indicated below when using the known device include the inability to protect a person’s face and neck from flying bloodsucking insects during his sleep.

In the prior art, the applicant has not found known personal protective equipment against flying bloodsucking insects of the head and neck of a person during sleep.

The task to which the claimed invention is directed is to create a simple technological, convenient in operation and transportation of a hygienic means of breathing training during sleep with the ability to protect the wearer's respiratory tract from hypothermia during sleep in an atmosphere with a low air temperature or to protect a person during sleep and the user's head from mosquito and mosquito bites with the simultaneous effect of breathing training.

The technical result obtained by carrying out the invention consists in the fact that during a user’s sleep inside a convenient hygienic space covering the head and neck of the user, immediately in front of his airways form a mixing chamber with an increased temperature of the gas mixture contained in it and with physical inaccessibility to attack the head and neck of a sleeping flying bloodsucking insect.

The specified technical result in the implementation of the invention is achieved by the fact that in the inventive breathing simulator, including a mixing chamber and communicating it with the atmosphere, a filter of material with breathability of a given value, in contrast to the known breathing simulator, the claimed simulator is made of fabric in the form of a bag mating with the head the user, the fabric of the bag is selected with a lower value of breathability than the value of the breathability of the filter, while the filter is installed near the location of the mouth the area of the face of the user, and the mixing chamber is formed by a part of the interior space of the bag between the face of the user and the filter.

The specified technical result during the implementation of the invention is also achieved by the fact that the simulator bag can be equipped with an additional lower removable lining with an opening mating with the filter, so that the total thickness of the upper and lower layers of the bag and the filter thickness exceeds the proboscis proboscis length and is at least 3.8 mm, while the filter is made of a two-layer mesh with cells inaccessible for the penetration of blood-sucking insects, and that in the bag the top layer is made of household fabric, and the bottom is made of terry or waffle.

Figure 1 shows the claimed breathing simulator, side view; figure 2 is the same front view; figure 3 is a breathable two-layer filter, side view; figure 4 is the same front view.

The breathing simulator (Figs. 1 and 2) contains a fabric bag 1 mating with the user's head and a filter 2 mounted on one of its front sides, the installation location of which is associated with the roton region of the user's face. The air permeability value of the fabric of the bag 1 is less than the air permeability value of the filter 2. The space between the face of the user and the filter 2 serves as a mixing chamber.

The bag 1 is preferably made two-layer of the upper forming layer 3 and the lower interchangeable backing layer 4 with the hole 5, mating with the filter 2.

Filter 2 (FIGS. 3 and 4) can be made of a gasket 6 with openings 7 with a thickness of at least 3.8 mm and two layers 8 and 9 of mesh material with cells inaccessible to the penetration of blood-sucking insects.

The top layer 3 of bag 1 can be made of household fabric (GOST 29298-2005. Cotton and mixed household fabrics. General specifications), and the bottom layer 4 - of terry or waffle fabric (GOST 11027-80. Cotton terry fabrics and piece goods and waffle. General specifications). In this case, the total thickness of the upper 3 and lower 4 layers of the bag 1 and the total thickness of the filter 2 exceeds the proboscis length of the blood-sucking insect and is at least 3.8 mm.

The breathing simulator works as follows.

Before falling asleep, the user puts a bag 1 on his head, orienting the filter 2 in front of the mouth region of the face. During natural inhalation, air through the filter 2 fills the inner part of the space of the bag 1 in front of the mouth region of the face and the lungs of the user. During a natural exhalation, heated air from the lungs displaces the air in this space.

The next breath in the abovementioned space, which acts as a mixing chamber, corrects the chemical composition of the inhaled air mixture by mixing the incoming atmospheric air and air exhaled in the previous cycle, thereby increasing the carbon dioxide content in the gas mixture and a moderate decrease in oxygen content. The resulting gas mixture in the chamber enters the user's lungs with his next every breath.

The training action of the simulator is created due to natural breathing during sleep with air with a moderately increased concentration of carbon dioxide in combination with a low oxygen content.

At the same time, in the case of a user's sleep in an atmosphere with a low air temperature, the inhaled mixture formed in the space in front of the rotiferous region has a higher temperature and protects the user's airways from overcooling.

In the case of a user’s sleep at a temperature corresponding to the life conditions of insects, in addition to breathing training, the use of the inventive simulator provides physical protection for the user's face and head from attack by flying bloodsucking insects, since the distance from the outer surface of the bag 1 — the upper layer 3 and the mesh surface 8 of the filter 2 of the simulator the skin of the face and head of the user is guaranteed to exceed the length of the proboscis of a flying blood-sucking insect.

The simulator is structurally simple and technologically advanced to manufacture, when folded it takes up a small volume and does not cause difficulties during transportation, and the replaceable lining 4 of the simulator ensures the satisfaction of hygiene requirements during operation.

Thus, it is seen that the above information confirms the possibility of implementing the claimed invention, achieving the specified technical result and solving the problem.

Claims (4)

1. A breathing simulator including a mixing chamber and a filter made of a material with air permeability of a predetermined value communicating with the atmosphere, characterized in that the simulator is made of fabric in the form of a bag mating with the user's head, the fabric of the bag is selected with a lower air permeability than the air permeability of the filter while the filter is installed near the location of the rotonous region of the user's face, and the mixing chamber is formed by part of the inner space of the bag between the face of the user and the filter trome. 2. The breathing simulator according to claim 1, characterized in that the bag is equipped with an additional lower removable lining with a hole mating with the filter. 3. The breathing simulator according to claim 2, characterized in that the total thickness of the upper and lower layers of the bag and the filter thickness exceeds the proboscis length of the blood-sucking insect and is at least 3.8 mm, while the filter is made of a two-layer mesh with cells inaccessible to the penetration of bloodsucking insects. 4. A breathing simulator according to any one of claims 2 and 3, characterized in that in the bag the top layer is made of household fabric, and the bottom is terry or waffle.

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