SU1722507A1 - Device for prophylaxis of respiratory system diseases - Google Patents

Abstract

Device for the prevention of diseases of the respiratory system. SUMMARY OF THE INVENTION: To provide a separate 2 workout of the inhalation and exhalation muscles, the device comprises a mouthpiece, a cylindrical body 1, a pressure gauge 4, a breathing valve 13 and a breathing resistance regulator in the form of rings 5.8 and 9 with coaxially arranged openings, one of the rings 5 has calibrated orifices 6 of different diameters and is mounted in the housing 1 rotatably, and the breathing valve 13 is located in the rotary insert 12. In addition, to improve the convenience of operation, the rotary insert 12 has an outer surface spherical shape, is connected to the driver 14, for which a radial channel 15 is made in the movable ring 5, and a slot 16 is made in the housing 1. 1 Cp. file, 3 sg. (Ls

Description

The invention relates to medical technology and can be used for the prevention and treatment of diseases of the respiratory system by creating respiratory loads.

A device for training respiratory muscles is known.

A disadvantage of the known device is the impossibility of a separate training of the respiratory muscles of inhalation and exhalation, which limits the scope of its use. In addition, when training the respiratory muscles, the respiratory pressure developed during exercise is not controlled, making it difficult to accurately dose inspiratory and expiratory loads.

A device for the prevention of diseases of the respiratory system is known, comprising a mouthpiece, a cylindrical body, a pressure gauge, a breathing valve, a breathing resistance regulator, which provides for the training of expiratory muscles with simultaneous recording of the expiratory pressure while being comfortable for the patient.

However, the known device-prototype does not provide training for the muscles of the inhale, which reduces the functional effectiveness of the device.

The aim of the invention is to provide a separate workout of the muscles of inhalation and exhalation with a simultaneous increase in ease of use.

The goal is achieved by the fact that in a device for the prevention of diseases of the respiratory system containing a mouthpiece, a cylindrical body, a pressure gauge, a breathing valve, a breathing resistance regulator, the regulator is made as a set of rings with coaxially arranged openings, one of which has calibrated openings of different diameter and is installed in the housing can be rotated, and the breathing valve is located in a rotary insert mounted for rotation; around an axis perpendicular to the longitudinal axis of the housing, the rotary insert has an outer surface of spherical shape, is connected to the driver, and is installed in the cavity of the breathing resistance regulator, while the radial channel for the driver is made in the movable ring of the regulator, and in the case there is a slot .

1 shows a device for the prevention of diseases of the respiratory system, a general view; figure 2 - section aa in figure 1; on fig.Z - view B in figure 1.

The device comprises a housing 1, a breathing tube 2 with an opening 3 to the respiratory pressure measuring device 4, a mouthpiece (not shown). In case 1, a breathing resistance regulator is provided, made in the form of a set of rings with coaxially arranged openings. The ring 5 has calibrated holes 6 of different diameters, the scale 7 of which is applied to the housing 1, and mounted in the housing 1 can be rotated relative to the rings 8 and 9, stationary in the housing 1, in which the holes 10 and 11 are larger in calibrated holes 6, aligned in alignment with one of the holes 6 when the ring 5 is rotated.

5 rings 5, 8, 9 are rotatably mounted around an axis perpendicular to the longitudinal axis of the housing 1, the rotary insert 12c with the outer surface of a spherical shape, in which the breather valve 13 is located. The rotary insert 12 is connected to a driver 14 located in the radial channel 15 , made in the ring 5 and in the slot 16, made in the housing 1, and the leash 14 is connected to the handle 17.

5 The device operates as follows.

Before starting the workout, the inspiratory muscles measure maximum inspiratory pressure. To do this, turn the handle 17 around the axis of the driver 14 by turning the rotary insert 12 to a position where the valve 13 provides, during exhalation, the communication of the patient's respiratory tract through the breathing tube 2 and the housing 1 with the atmosphere.

5 The ring 5 is turned by a lead 14 relative to the rings 8 and 9 to a position where the holes 10 and 11 in the rings 8 and 9 are blocked.

The patient is connected to the respiratory

0 tube 2 through the mouthpiece and produces a maximum exhalation, the valve 13 at the same time opens. Upon expiration, the valve 13 closes and the patient takes a breath with maximum force. With this in

5, the housing 1 and the breathing tube 2 create a vacuum and through the opening 3 it is transmitted to the respiratory pressure meter 4, where the maximum respiratory pressure is recorded

0 breath. After that, depending on the maximum respiratory inspiratory pressure, the required pneumatic resistance is set for training the inspiratory muscles, aligning the coaxial orifice 6 of the desired diameter with the holes 10 and 11 by rotating the ring 5 with the leash 14. With the set load, the patient breathes for a specified time . At the same time, the value of respiratory pressure, developed under the load by inspiratory m-muscles,

monitored by a respiratory pressure meter 4.

When training the expiratory muscles, the maximum expiratory pressure is preliminarily measured. In this case, the insert 12 is set by turning the handle 17 in such a position that the valve 13 during the inhalation period ensures the connection of the patient's airway through the breathing tube 2 and the body 1 with the atmosphere. The holes 10 and 11 are covered by a ring 5. The patient is connected to the breathing tube 2 and makes the maximum inhalation, while the valve 13 opens. At the end of the inhalation, the valve 13 closes and the patient exhales with maximum force. At the same time, an overpressure is created in the breathing tube and the housing 1, which is transmitted through the opening 3 to the pressure gauge, with which the maximum expiratory pressure is recorded. Then, depending on the magnitude of this pressure, the required pneumatic resistance is established when training the expiratory muscles by rotating the ring 5 in the housing 1 with the leash 14, aligning the b hole of the desired diameter with the holes 10 and 11. With the set load, the patient breathes for a specified time. At the same time, the value of respiratory pressure developed by the expiratory muscles is monitored using a pressure gauge 4.

Thus, the proposed device provides training for the muscles of inhalation and exhalation and increases ease of operation. The device allows dosed tests during inhalation and exhalation to quantify the functional state of the respiratory muscles and 5 can be used to improve the biomechanics of respiration and lung gas exchange function in patients with pulmonary pathology, as well as in healthy people with physical education and physical activity. sports.

Claims (2)

1. A device for the prevention of diseases of the respiratory system, comprising a mouthpiece, a cylindrical body, a pressure gauge, a breathing valve, a regulator of breathing resistance, which is necessary in order to ensure separate training of the inspiratory muscles and exhalation, the breathing resistance regulator is designed as a set of rings with coaxial 0 arranged openings, one of the rings has calibrated openings of different diameters and is installed in the housing so that it can be rotated, and the breathing valve is located in the rotary insert, 5 mounted rotatably around an axis perpendicular to the longitudinal axis of the housing. 2. The device according to claim 1, from the point where, in order to increase the convenience of operation, the swivel insert has an outer surface of spherical shape, is connected to a leash and installed in the cavity of the breathing resistance regulator regulator ring 5 has a radial channel for the driver, and a slot in the body.