RU2467771C2 - Respiration training device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment. Respiration training device consists of mask, fastening belts, doser-mixer, consisting of thin-walled tube with slots on the ends, hole in the lower part of doser-mixer, overlapped with elastic segments, hole in case, also overlapped with elastic segments, onto which replaceable bag is put.

EFFECT: invention makes it possible to simplify training device construction and optimise resistance to breathing.

2 cl, 5 dwg

Description

The invention relates to devices for the prevention and treatment of respiratory diseases with a hypoxic-hypercapnic mixture. Currently, the following simulators are known: Samozdrav (1), Frolova TDI-01 (2).

These simulators consist of a mouthpiece, a tube connecting the mouthpiece with a device that creates a hypoxic-hypercapnic respiratory gas mixture.

Also known is a breathing apparatus (3) containing a breathing mask, fastening straps and a gas-tight breathing bag connected to the mask, filled with breathable air at atmospheric pressure. This device is used to survive in critical situations and is offered for training with a hypoxic-hypercapnic gas mixture.

The main disadvantage of these simulators: 1. because of their design, they do not allow combining sports or household activities with breathing exercises, 2. They do not provide the minimum resistance to breathing with the optimal composition of the inhaled air mixture necessary for a particular user and during various physical activities.

The closest analogue of the claimed simulator is a breathing apparatus for creating hypoxia (4). The apparatus contains a mask connected by a pipe to a carbon dioxide adsorber, while the pipe enters the neck of the adsorber housing and is fixed in it. The lower pipe of the adsorber is connected to the breathing bag. Grooves are made in the neck of the adsorber to secure the cervical girdle when the device is worn. Holes are made in opposite grooves. The hole is equipped with a removable plug, which acts as a discrete air supply regulator.

This breathing apparatus is designed to breathe air with only a low oxygen content, resulting in very high complexity. The proposed easy and simple simulator for training with hypoxic-hypercapnic air does not have these drawbacks. The breathing simulator (Fig. 1) consists of a mask 1, as for anesthesia, but without an exhalation valve made of plastic of medical PVC, fastening straps 2 and a replaceable breathing bag 3 (like a balloon). The volume of the bag is equal to two to three volumes of exhaled air ≈500 mm ³ . A removable plastic mixer-regulator of the inhaled air mixture 4 is inserted into the hole in the lower part of the mask, on which a breathing bag 3 is put on, providing a gradual decrease in the oxygen concentration and an increase in the concentration of carbon dioxide.

I. The dispenser-mixer (Fig. 2, 3) consists of a thin-walled cylinder 5, the hole in the base of the cylinder near the breathing bag is blocked by elastic elastic petals of synthetic material 7, the hole for fresh air in the side surface of the cylinder is also blocked by elastic elastic petals 7 of synthetic material. Elastic elastic petals provide minimal resistance with a constant ratio between fresh air and exhaled air in the inhaled gas mixture at different respiration rates. Near both bases of the cylinder are grooves 6 for attaching the mask and a removable plastic bag.

II. The dispenser-mixer (Fig. 4, 5), the casing of which consists of a thin-walled cylinder 5, part of the hole in the base of the cylinder near the breathing bag 5, overlapped by segment 8. In the side surface of the cylinder there is an opening for fresh air. Inside the mixer dispenser housing there is a rotating cylinder 9 with a handle 10, the outer diameter of which is equal to the internal diameter of the mixer dispenser housing, with an opening in the cylinder wall and a segment 11 at the base of the cylinder near the breathing bag 3, fastened to the housing segment 8. Segment 11 covers part of the opening in the base of the cylinder near the breathing bag 3 of the rotating cylinder. On the wall of the outer cylinder, near both bases there are grooves 6 for attaching the mask 1 and a removable plastic bag 3.

The regulator-mixer, when inhaling, regulates the intake and mixes two gas flows: fresh air and from the breathing bag, and when exhaling divides the flow of exhaled air into two flows: into the breathing bag and into the atmosphere.

Inhaled air mixture consists of 40-30% of atmospheric air and 60-70% of the respiratory bag. Or 18-12% of oxygen, 3-9% of carbon dioxide and 79% of nitrogen. Breathing with such air activates immunity and apoptosis: mechanisms of the natural prevention of cancer and viral diseases (4, 5), and also cleanses the body of free radicals and old cells that cause human aging. As a result of the resulting hypoxia, the human body begins to use the available fat reserves as an oxygen source, which contributes to the normalization of weight.

This simulator is proposed for use in the treatment and prevention of viral and oncological diseases, during the training of athletes and to improve the health of the population. It is expected that when using the simulator 2-3 hours a day, a significant rejuvenation of the human body, normalization of weight and an increase in life expectancy will occur.

Used Books

1.www.receptspb.ru/samozdrav.htm

2. RF patent No. 2159131.

3. RF patent №2248825.

4. RF patent No. 2070064.

5. "Physiology of extreme conditions of the body" Novikov VS, 1995, Moscow.

6. “Intermittent normobaric hypoxic therapy” N. A. Agadzhanyan, R. B. Strelkov, A. Ya. Chizhov, 1997, Moscow.

Claims (2)

1. The breathing simulator, consisting of a breathing mask, mounting straps, a replaceable bag, a dispenser-mixer, characterized in that the dispenser-mixer consists of a thin-walled cylinder, the hole in the base of the cylinder near the breathing bag is blocked by elastic elastic petals, the hole in the cylinder wall is blocked by elastic elastic petals, near both bases of the cylinder there are grooves. 2. The simulator according to claim 1, characterized in that the body of the dispenser-mixer consists of a thin-walled cylinder, a part of the hole in the base of the cylinder near the breathing bag is blocked by a segment and with a hole in the cylinder wall, inside the case there is a rotating thin-walled cylinder of smaller diameter with a handle, a hole in the wall of a thin-walled cylinder, part of the hole in the base of the cylinder near the breathing bag is blocked by a segment movably fastened to a segment of the body of the dispenser-mixer.

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