SU1632430A1 - Device for breathing exercises - Google Patents

Abstract

This invention relates to a medical technique for the treatment of pulmonary diseases. To provide direct vibratory massage of the smooth muscles of the bronchus with exhaled air, the breathing exercise device contains a breathing tube 1, an exhalation valve in the form of a funnel 2 and a ball 3 made of ferromagnetic material, a regulator in the form of a magnet 4 mounted on the threaded part of the tube 1. 1 Il.

Description

The invention relates to medical equipment for the treatment of pulmonary diseases.

The aim of the invention is the provision of direct vibration massage of the smooth muscles of the bronchi with exhaled air.

The drawing shows a device for breathing exercises, a cut.

The device comprises a breathing tube 1, an exhalation valve in the form of a funnel 2 and a locking element in the form of a ball 3 of ferromagnetic material, an exhalation valve regulator in the form of a magnet 4 mounted on the threaded part of the breathing tube 1.

The device operates as follows.

The patient takes the breathing tube 1 into his mouth and begins to exhale air through it. The locking element that closes the funnel 2 of the breathing tube provides resistance to exhalation with a force that provides its attraction with a permanent magnet 4. Under the action of the pressure force of the exhaled air, the ball 3, breaking away from the bottom of the funnel

2. opens a hole in the breathing tube 1. The air pressure in the lungs and breathing tube 1 then drops until the force of this pressure on the ball 3 becomes less than the attractive force of the ball 3 with magnet 4. In this case, the ball 3 closes the hole on the bottom of the funnel 2, and the intermittent expiration cycle is repeated again.

Adjusting the frequency of changing the open and closed positions of the breathing tube 1 and the average resistance to breathing is carried out by removing or approaching the thread of the magnet 4 to the ball 3, as well as by changing the angle of inclination of the breathing tube 1. The force of the weight of the ball 3 with the funnel pointing upward coincides with by the force of attraction by its magnet 4 and increases the force of resistance to breathing. When the funnel 2 is turned down, the force of the weight of the ball 3 reduces the force of attraction by its magnet 4 and weakens the force of resistance to breathing.

Adjusting the frequency of changing the open and closed positions of the breathing tube 1 can also be achieved by changing the mass of the ball 3. Changing the inertial properties of the ball 3 changes the frequency of intermittent breathing, since a heavier ball 3 requires more acceleration and braking time than a lighter one , with the same force of attraction by magnet 4. An electromagnet (not shown) can be used as a magnet.

Using the proposed device, you can perform breathing exercises with simultaneous biomechanical stimulation in physical therapy classes, as well as in professionally-applied physical training of cosmonauts. Training effects are enhanced by the vibration of the internal organs of a person, and the vibration effect on the lungs turns out to be air directly, on the heart through the pleural membrane. surrounding the lungs and heart, and on the internal organs of the abdominal cavity through the diaphragm that separates them from the lungs and heart. Vibration of the internal organs of a person causes their alternating accelerations, partially compensating for the absence of gravitational force in zero gravity.

The device can be used in physical therapy classes with patients with bronchial asthma who underwent surgical operations on internal organs, as well as for heart diseases, using a device for heart massage.

Claims (1)

Claim A device for breathing exercises, containing a breathing tube and an exhalation valve. With a regulator and a locking element, characterized in that, in order to provide direct vibration massage of the smooth muscles of the bronchi with exhaled air, the regulator is made in the form of a magnet mounted on the breathing tube longitudinal movement relative to the locking element made of ferromagnetic material.