RU2430751C1 - Respirator - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment. A respirator comprises a breathing mask and a counter chamber connected with its space under mask through a respiratory valve and comprising a flexible bag with an adjustable outlet. A wall of the chamber has a fresh air intake pass, and the flexible bag cavity is connected directly with the space under mask of the breathing mask.

EFFECT: invention enables partial-load respiratory exercises.

2 cl, 1 dwg

Description

The invention relates to medical equipment for the treatment of respiratory organs by eliminating deep breathing and tissue hypoxia.

A breathing device is known, consisting of a breathing tube with a mouthpiece at one end, a can with a lid, inside which is a glass connected to the second end of the breathing tube, the simulator TDI-01. (see patent No. 1790417, from 09.22.1992). Lotos LLC, PO Box 6642, Omsk, 644050.

Also known are breathing devices consisting of a breathing tube with a mouthpiece at one end, a set of glass jars with lids, inside of which a glass is connected in turn, connected to the second end of the breathing tube (Individual breathing simulator, TDI-02, TU 9619-001-42529619-98 ), and a Fitness simulator, TFI, (Complex "Samozdrav", TU 9619-001-42529619-2001). Research and Production Enterprise "Samozdrav", Samara.

The disadvantages of these respiratory devices (simulators) are: the bulkiness of their design, inconvenience in operation and the exclusion of the patient from the breathing process of the nasal cavity and maxillary sinuses, thereby eliminating them from a direct effect on the reduction of tissue hypoxia of the cerebral cortex, organs of vision, hearing and smell the patient; and also - the lack of the ability to train the respiratory system at a three-beat rhythm, which is so necessary to consolidate the results of treatment.

Also known is a breathing device consisting of a breathing tube made in the form of a breathing mask, with the main valves for inspiration and expiration and an additional adjustable valve for expiration; and a time counter made in the form of an elastic bag with an adjustable outlet located in the chamber with its inspiration valve; moreover, the cavity of the chamber is communicated with the mask cavity of the respiratory mask through its main inspiratory valve, and the cavity of the elastic bag is communicated with the cavity of the respiratory mask through its main exhalation valve, while the cavity of the respiratory mask is communicated with its additional adjustable expiratory valve, prototype (A.S. 1676632 A1, class A61M 16/10, 1966).

The disadvantage of this respiratory device is the inability to mix inhaled air with exhaled air containing a high concentration of carbon dioxide, which helps to eliminate tissue hypoxia of the patient and facilitates the training of his respiratory organs.

The aim of the present invention is to provide controlled mixing of inhaled air with exhaled air containing a high concentration of carbon dioxide, and simplifying the design of the respiratory device.

This is achieved by the fact that in the breathing device containing a breathing mask with a main inspiratory valve and a time counter, made in the form of a chamber, with an elastic bag inside which has an adjustable outlet, a fresh air intake channel closed by an elastic channel is made in the wall of the time counter chamber bag, when it is stretched by the exhaled air of the patient, while the cavity of the elastic bag is made directly communicating with the mask cavity of the respiratory device.

The drawing shows a section of the proposed respiratory device. It consists of a breathing mask 1 with a mask cavity 2 and the main inhalation valve 3 and a time counter made in the form of a chamber 6 with an elastic bag 4 inside, which has an adjustable outlet 5. A channel 7 is made in the wall of the chamber 6 for fresh air intake. The elastic bag 4, when stretched by exhaled air, covers the fresh air intake channel 7 and the passage channel 8 of the main inspiratory valve 3. In this case, the cavity 9 of the elastic bag 4 is directly connected to the mask cavity 2 of the respiratory device.

The proposed respiratory device operates as follows.

The mask 1 is fixed on the patient's face, covering it with a cavity 2 of his nose and mouth. The adjustable outlet 5 of the elastic bag 4 is completely closed. Moreover, its cavity 9 and the cavity 10 of the chamber 6 are filled with ambient air.

At the patient’s first inhalation, the surrounding air enters the submachine cavity 2 from the cavity 10 of the chamber 6 through the opening main inspiratory valve 3 and partially directly from the cavity 9 of the elastic bag 4.

When the patient exhales, the main inspiratory valve 3 closes and exhaled air containing a high concentration of carbon dioxide completely fills the cavity 9 of the elastic bag 4, stretching it and closing the passage channel for fresh air intake 7 and the passage channel 8 of the main inspiratory valve 3. After this, the patient tries again it is impossible to inhale air, but at the same time it can inhale exhaled air from the cavity 9 of the elastic bag 4 containing a higher concentration of carbon dioxide. And breathing training begins.

By opening the passage section of the outlet 5 of the elastic bag 4, the patient independently sets the frequency of inspirations, the duration of exhalation and pause after exhalation, thus choosing a sparing mode of training the respiratory system and eliminating tissue hypoxia, adapting them to a certain frequency of inspirations and exhalations.

After the appearance of superficial breathing in the patient, the elastic bag 4 practically ceases to stretch, which means that the phase of consolidation of the obtained training results has begun. The duration of her patient determines independently, depending on her health, covering or completely closing the bore of the adjustable hole 5 of the elastic bag 4, while the sessions of their fastening should be at least 10 minutes daily for 1-1.5 months.

Claims (2)

1. A respiratory device comprising a mask with a main inspiratory valve and a time counter, made in the form of a chamber with an elastic bag inside, having an adjustable outlet, characterized in that a passage channel for fresh air intake is made in the wall of the time counter chamber, and the cavity is elastic the bag is made directly communicating with the submaskal cavity of the respiratory device. 2. The respiratory device according to claim 1, characterized in that the adjustable outlet in the elastic bag is made in the form of an adjustable exhaust valve.

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