SU1526699A1 - Breathing apparatus - Google Patents

Abstract

This invention relates to a medical technique for conducting respiratory hypoxic stimulation. To increase patient safety, the breathing apparatus contains a mask 1, an absorption cartridge 4, a filter 5, a bag 6, an internal diaphragm 7 and an external atmospheric diaphragm 9. 1 Cp. f-ly, 1 ill.

Description

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This invention relates to a medical technique for conducting respiratory hypoxic stimulation.

The aim of the invention is to improve patient safety while simplifying the design.

The drawing schematically shows a breathing apparatus.

The breathing apparatus contains a mask 1 with exhalation valves 2 and inspiration 3, an absorption cartridge 4 of oxygen dioxide, a dust filter 5, a bag 6, an internal diaphragm 7, a tee 8, an external diaphragm 9, inhalation ducts 10 and a breath 11.

The outer diaphragm 9 connects the air duct of the inhale 10 with the atmosphere, and the ratio of the areas of the through holes of the inner diaphragm 7 and the outer diaphragm 9 is from 1.5 to 2.2

The breathing apparatus works in the best way possible.

The mask 1 is sealed to the face of the patient. When exhausted, the air with a reduced oxygen content through the exhalation valve 2 enters the cartridge 4 with a chemical absorber, where it is purified of carbon dioxide, and is heated. From the cartridge 4, the air cleared of carbon dioxide through the anti-dust filter 5 enters the breathing bag 6 and is partially emitted into the surrounding atmosphere through the diaphragms 7 and 9. In the breathing bag 6, the gas-air mixture is cooled.

When inhaling, inhalation valve 3 opens. The gas-air mixture with low oxygen content from the breathing bag 6 through the diaphragm 7 enters the breath. At the same time, inhalation receives air from the environment through another diaphragm 9, additionally cooling the air inhaled from the breathing bag 6.

The ratio of the flows entering the breath from the breathing bag 6 and from the surrounding atmosphere is determined by the aerodynamic resistance (orifice areas) of the diaphragms 7 and 9.

During subsequent breathing cycles, the oxygen content in the exhaled gas-air mixture and in the breathing bag 6 is reduced to the limit

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The ratio of the openings of the diaphragms 7 and 9, and then remains at the same level. Since the oxygen concentration in the breathing bag 6 after a short time, as well as the amount of air drawn from the surrounding atmosphere through the diaphragm 9, depends only on the characteristics of the diaphragms 7 and 9, the oxygen concentration in the inhaled gas mixture is fixed, the required level oxygen in the blood is established in 3-5 minutes and practically does not depend on the individual characteristics of a person and the volume of pulmonary ventilation (physical activity).

The breathing apparatus makes it possible to effectively conduct normobaric hypoxic stimulation with greater safety for patients, to simplify the design of the apparatus.

The breathing apparatus increases the nonspecific resistance of both sick and practically healthy people, reduces side effects during drug therapy (for example, chemotherapy of malignant neoplasms), which creates a significant social effect.

Claims (3)

1. A breathing apparatus containing a mask, valves and air intakes of inhalation and exhalation, a breathing bag and an absorption cartridge, that is, f. the goal of improving patient safety, it is equipped with a tee with internal and external calibrated diaphragms installed in the inhalation duct, while the external diaphragm informs the inhalation duct with the atmosphere. 2. A pop. 1 apparatus, characterized in that it is provided with a dust filter installed between the absorption cartridge and the breathing bag. 3. A pop-1 apparatus, characterized in that the ratio of the areas of the through holes of the inner and outer calibrated diaphragms is 1.5-2, 2.