UA26557U - Dohoda-liapko device for therapeutic breathing - Google Patents

Abstract

A device for the therapeutic breathing comprises the container with the openings at the bottom and at the top, the metering appliance, and the respiratory element. The metering appliance is designed as two hollow cylinders, which are axially aligned allowing for rotating the internal cylinder within the external one. The bottom of the internal cylinder rests against the bottom of the external one. The bottom openings in both cylinders locate eccentrically being displaced one relative to another at the starting position of the metering appliance. Furthermore, the through arched grooves made in the bottoms of both cylinders are also aligned one relative to another.

Description

Description of the invention

The intended useful model relates to medical equipment, namely, to devices for breathing 2 medical mixtures and can be used for conducting medical breathing, which increases the content of carbon dioxide in the blood, mainly for the prevention and treatment of diseases, including bronchial asthma, hypertension, atherosclerosis, coronary heart disease, chronic obstructive bronchitis, insomnia, migraine, osteochondrosis, stomach and intestinal ulcers, constipation and other diseases.

A known device for forming a bioactive breathing environment from exhaled and atmospheric air, which consists of a container (inner chamber) with a hole for installing a breathing element, middle and outer chambers with holes and partitions, a glass container is used as an outer chamber (patent

RF Mo2177334, cl. A61М16/00, published on 12/27/2001.

The disadvantages of the known device include the complexity and bulkiness of the design, inconvenience in use, high cost, in addition, when inhaling from the external chamber, a stagnant zone is formed in it, 712 Which requires an increased volume of the chamber.

The closest, in terms of technical essence, to the claimed device is a breathing simulator containing a container with an opening for a breathing element and holes in the upper part of the container and in the bottom for connection with atmospheric air, a dispenser installed in the upper part of the container and made in the form of a conical cap with a side hole, the dispenser is made with the possibility of combining with the upper opening of the container | Declaration patent of Ukraine Mo10594, cl. A61M16/00, published on November 15, 2005).

The disadvantages of the known device are the inconvenience of using it due to the inconvenience of its adjustment, the impossibility of simultaneous adjustment of the determined composition of the respiratory mixture from exhaled and atmospheric air and the required load on the muscles of the human respiratory organs.

The basis of the useful model is the task of improving the device for therapeutic breathing 22 Dohody-Lyapko, in which the dispenser is made in the form of two hollow cylinders with bottoms installed -o coaxially one inside the other, with the possibility of rotating the inner cylinder relative to the outer one, and the bottom of each cylinder is made of a through a hole located eccentrically relative to the central axis of the cylinders and combined with the hole of another cylinder, as well as an arc-shaped through groove compatible with the groove of another cylinder, provides the possibility of adjusting the areas of the through-sections of the holes and arc-shaped grooves in the bottoms of the dispenser cylinders, thereby ensuring the composition of the breathing mixture with of exhaled and atmospheric air, which is regulated in the container in accordance with the individual requirements of the user for the composition of the exhaled air and the training load on the muscles of the respiratory organs, increasing the convenience of use. at

The task is solved by the fact that the Dogoda-Lyapko device for medical breathing, which contains a He) dispenser, a breathing element and a container with holes in the bottom and in the upper part, according to the useful model 3o, has the following constructive exceptions: сч - the dispenser is made in the form two hollow cylinders with bottoms; - the bottom of the inner cylinder rests against the bottom of the outer cylinder; - cylinders are installed coaxially inside each other; "- cylinders are installed with the possibility of turning the inner cylinder relative to the outer one; C - a through hole is made in the bottom of each cylinder, combined with the hole of another cylinder; c - the cylinder holes are located eccentrically, at a distance of 1/6-1/2 of the radius of the hole from the central axis of the cylinders;

From" - the cylinder openings are located at an angle of 902 relative to each other in the starting position of the dispenser; - in the bottom of each of the cylinders, an arc-shaped through groove with an arc length of 100-210 is made, combined with the groove of another cylinder. t 15 In addition, in order to allow atmospheric air to enter the dispenser, longitudinal through grooves are made on the outer surface of the wall of the outer cylinder. (o) The essence of the useful model is explained by the drawings, where: Fig. 1 shows the general view of the device; sl Fig. 2 - a section according to A-A of Fig. 1 in the position of the dispenser, with the arcuate grooves of the cylinders fully connected, and the holes - partially connected; Fig. 3 - section along AA - Fig. 1, in the position of the dispenser with partial connection of 1 20 arcuate grooves and full connection of holes. -h The Dogoda-Lyapko therapeutic breathing device contains a container 1, for example, a plastic bottle with a hole 2 in the bottom and an opening C in the form of a neck in the upper part of the container 1, in the opening C a dispenser 4 is installed, in which a breathing element 5 is installed, made in the form of mouthpiece, mouthpiece or inhalation mask, dispenser 4 consists of an outer hollow cylinder 6 with a bottom 7 and an inner hollow cylinder 8 with a bottom 9, cylinder 8 is installed coaxially in cylinder 6, bottom 9 of cylinder 8 rests on bottom 7 of cylinder b, in the bottom 7, a through hole 10 is made, and in the bottom 9 - a through hole 11, the holes 10, 11 are made aligned with each other and located eccentrically, at a distance of 1/6-1/2 of the radius of the hole from the central axis of the cylinders 6, 8 and offset relative to each other at an angle of 902 in the starting position of the dispenser 4, also in the bottom 7 of the cylinder 6, an arcuate through groove 12 is made, and in the bottom 9 - an arcuate through groove 13, the grooves 12, 13 are combined with each other, and the length and the arcs of the grooves 12, 13 are 100-2102, longitudinal transverse grooves 15 are made on the outer surface of the wall 14 of the cylinder 6.

The device works as follows.

In the initial position of the dispenser 4, the arcuate grooves 12, 13 are aligned with each other, and their total passage area d5 7 is maximum, while the holes 10, 11 are partially aligned (Fig. 2), their total passage area is minimal.

The breathing element 5 installed in the dispenser 4 is brought to the mouth and air is exhaled into the container 1,

exhaled air has a high content (about 4.590) of carbon dioxide (CO 5 ) and, passing through holes 10, 11 and arcuate grooves 12, 13 of cylinders 6, 8, fills container 1 and through hole 2 and longitudinal grooves 15 located on the outer surface 14 cylinder 6 partially escapes into the atmosphere, while container 1 contains 150 times more carbon dioxide (4.5:0.03-150) than in atmospheric air (when the content in atmospheric air is only 0.03905).

During inhalation, a medical mixture with an increased concentration enters the human body from container 1

CO" and slightly reduced oxygen content (05), which is formed by previously exhaled air mixed with atmospheric air entering the dispenser 4 through grooves 15, container 1 and arcuate grooves 12, 13, while 70 metered mixing of exhaled and atmospheric air takes place in a certain proportion, at the same time, the necessary load on the muscles of the human respiratory organs is provided. The relative concentration of CO »5 and O5 in the exhaling mixture depends on the ratio of the total passage area of the open parts of the holes 10, 11, which overlap and arcuate grooves 12, 13, and the training load "inhale-exhale" depends on their total passage area.

When turning the cylinder 8 in the cylinder 6 of the dispenser 4, the total passage area of the arcuate grooves 12, 13 decreases and the total passage area of the holes 10, 11 increases somewhat, while there is a smooth dosed adjustment of the content of CO, O»o and load.

When the dispenser 4 is turned to an angle of 90g, the passage area of the arcuate grooves 12, 13 decreases, and the holes 10, 11 are combined, that is, their passage area becomes maximum (Fig. 3); with further rotation of cylinders 6, 8 of dispenser 4, the total passage area of arcuate grooves 12, 13 and holes 10, 11 decreases.

At the first stage of using the device, the breathing mixture contains 0.395 CO", which is 10 times more than in atmospheric air (this mixture is breathed by astronauts during spaceship flight). At the last stages of using the device, the breathing mixture contains 2.5-3.095 CO 5, which is 80-100 times more than in atmospheric air.

Such a regulation system during the successive transition from stage to stage of using the device provides simultaneous regulation of both the composition of the breathing mixture and the "inhale-exhale" load, in accordance with the individual requirements of a person for the composition of exhaled air and the training load on the muscles of the respiratory organs . Cha

Claims (2)

The formula of the invention is the IS) 1. A device for medical breathing, containing a container equipped with holes in the bottom and in the upper part of the container, a dispenser, a breathing element, which is characterized by the fact that the dispenser is made in the form of two hollow ise) cylinders with bottoms installed coaxially in each other with the possibility rotation of the inner cylinder c relative to the outer one, and the bottom of the inner cylinder rests on the bottom of the outer cylinder, a through hole is made in the bottom of each cylinder, aligned with the hole of another cylinder, the holes are located eccentrically, at a distance of 1/6-1/2 of the radius of the hole from the central axis of the cylinders , while the holes are offset relative to each other at an angle of 902 in the starting position of the dispenser, also in the bottom of each cylinder there is an arc-shaped through groove with an arc length of 100-210g, combined with the groove of another cylinder. shsh c 2. The device according to claim 1, which is characterized by the fact that on the outer surface of the wall of the outer cylinder there are longitudinal through grooves. and? ime) (22) 1 s 50 that s 60 b5