RU155090U1 - DEVICE FOR CORRECTION OF HYPOCAPNIC AND HYPERCAPNIC TYPES OF LUNG VENTILATION - Google Patents

Abstract

A device for correcting hypocapnic and hypercapnic types of lung ventilation, including a breathing tube, characterized in that it further comprises an oxygen mask with a tube made of silicone, the side holes of the mask are made with plugs, the tube is made with a diameter of 1.5 cm, a length of 1-2 m and twisted into a spiral.

Description

The technical solution relates to medical equipment, namely to devices for medical and medical-training and rehabilitation practice.

A device for training diaphragmatic breathing (patent for utility model No. 23628 dated June 11, 2007) containing four interchangeable tubes made with ribbed diameter 2.5 x 2.5 cm was selected as the prototype. The first tube 1.5 m long was twisted with a spiral with 5 turns the second is 2 m long twisted by a spiral with 6 turns, the third is 2.5 m long twisted by a spiral with 7 turns and the fourth is twisted by a spiral up to 3 m long with 8 turns.

The disadvantage of this device is the inability to obtain when using a gas mixture comprising carbon dioxide.

The objective of the utility model is to enable the use of active training factors in the process of breathing training: changes in the oxygen and carbon dioxide content, breathing resistance on inhalation and breathing resistance on exhalation, change in rhythm and respiratory rate.

The essence of the technical solution lies in the fact that the device for the correction of hypocapnic and hypercapnic types of ventilation, including breathing tubes, additionally contains an oxygen mask made of silicone, the side holes of the mask are made with plugs, the tubes are made with a diameter of 1.5 cm, and the first tube 1 m long is twisted by a spiral with 2 turns, a second tube 1.5 m long is twisted by a spiral with 3 turns, a third tube 2 m long is twisted by a spiral with 4 turns. The technical solution provides balanced breathing during the training period and provides the ability to use such active training factors as changes in the oxygen and carbon dioxide content, breathing resistance on inhalation and breathing resistance on exhalation, and changing the rhythm and frequency of breathing during breathing training.

The device contains (Fig. 1) a mask 1 with plugs 2 in the side openings of the mask 1, a set of replaceable tubes 3. The breathing tubes 3 are made 1 m, 1.5 m and 2 m long, 1.5 cm in diameter, separately twisted into a spiral . The mask of the device has a tight protection that provides breathing only through the breathing tube. The device provides the resulting load when inhaling and exhaling due to the parameters of the length of the tube and its diameter.

The device operates as follows:

At the first stage of training, a tube 1 m long, 1.5 cm in diameter, twisted into a spiral with 2 turns, is used. After adapting to such a training, the tube is replaced and a tube 1.5 m long, 1.5 cm in diameter, twisted into a spiral with 3 turns, then a twisted tube with turns, 2 m long, 1.5 cm in diameter is used.

During training, as a result of the lengthening of the tube, short-term hypoxia is created and, thus, during the breathing process, the body is trained similar to interval hypoxic training. A twisted tube in a spiral allows you to create a turbulent flow on the exhale, which contributes to the creation of additional resistance on the exhale, which in turn contributes to the additional training of diaphragmatic breathing. A periodic increase in carbon dioxide in the lungs is achieved by slowing the breath and the effect of breathing through the mask of the device. At the same time, part of the carbon dioxide supplied with the exhaled air into the breathing tube is mixed with the inhaled air upon inhalation and the gas mixture enriched in carbon dioxide enters the lungs. The result of breathing training is a slowdown of breathing and an increase in the duration of expiration, a decrease in the minute volume of breathing, the elimination of hyperventilation and the normalization of gas homeostasis of the body.

Preliminary studies made it possible to determine that the most optimal, from the point of view of regulating the fan load, were the following parameters: the diameter of the tube was 1.5 cm, which corresponds to the diameter of the main bronchi, and the length of the tube was the main load regulator, the increase of which was a multiple of 50 cm, which allowed most clearly regulate the amount of respiratory load.

The technical solution provides balanced breathing during the training period and provides the ability to use such active training factors as changes in the oxygen and carbon dioxide content, breathing resistance on inhalation and breathing resistance on exhalation, and changing the rhythm and frequency of breathing during breathing training.

Claims (1)

A device for correcting hypocapnic and hypercapnic types of lung ventilation, including a breathing tube, characterized in that it further comprises an oxygen mask with a tube made of silicone, the side holes of the mask are made with plugs, the tube is made with a diameter of 1.5 cm, a length of 1-2 m and twisted into a spiral.

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