RU215426U1 - Breathing simulator - Google Patents

Abstract

The technical solution relates to medical equipment, to means of health-improving effects on the human body through the respiratory system and can be used to increase the volume of the lungs, treat diseases of the bronchi and trachea, and carry out other therapeutic and preventive procedures.

The technical result of the claimed solution is to increase the therapeutic effect. The technical result is achieved by the fact that the breathing simulator contains a body, including the first chamber connected to the means of connecting the simulator to the user's respiratory tract, the second chamber connected with the first chamber, the third chamber, the means that create exhalation resistance, and one chamber is made elastic, while the first chamber is in communication with the atmosphere, the elastic chamber is located between the first and third chambers and is provided with a membrane located on the border between the second and third chambers, and as a means of creating exhalation resistance, a material that creates vibration is used with its placement in the third chamber.

The technical result is also achieved by the fact that water with silver ions is used as a material that creates vibration.

Description

The technical solution relates to medical equipment, to means of health-improving effects on the human body through the respiratory system and can be used to increase the volume of the lungs, treat diseases of the bronchi and trachea, and carry out other therapeutic and preventive procedures.

Known respirator for the preparation of hypoxic-hypercapnic respiratory mixture and can be used as a simulator for training and restoring the breathing of users, including athletes.

The respirator consists of a body made in the form of a hollow rigid cylinder, divided into two chambers by an internal partition, provided with an opening providing communication between the first chamber and the second. The first chamber is equipped with means for connecting the respirator to the user's respiratory organs, made in the form of a mask with an elastic strap. A channel connecting it to the atmosphere is made in the body of the second chamber (USSR author's certificate for the invention No. 1174043, IPC A62V 18/02). The disadvantages of the known respirator include the limited possibilities of its health-improving effect on the human body, as a result of the limited possibilities for regulating the composition of the hypoxic-hypercapnic respiratory mixture, depending on the change in the ratio of chamber volumes, and also as a result of the lack of a means that creates) resistance (obstacle) to inhalation / exhalation and its regulation. The closest technical solution to the claimed is a breathing simulator containing a body, including the first chamber connected to the means of connecting the simulator to the user's respiratory tract, the second chamber connected to the first chamber, the third chamber connected to the second chamber, means for regulating the composition of the respiratory mixture, means for creating inhalation/exhalation resistances adjustable, installed in the communication channel of the first chamber with the second chamber. The second chamber is in communication with the atmosphere, the third chamber is made elastic, the means for regulating the composition of the respiratory mixture are made in the form of an adjustable throttle device installed in the communication channel of the second chamber with the third chamber, and an adjustable throttle device installed in the communication channel of the second chamber with the atmosphere (see patent RU No. 2596886 C2, IPC A61M 16/00).

The disadvantages of the known technical solution include: the complexity of the design and its use.

The task of the development is to create a respiratory simulator of a simplified design, accessible to a wide range of people and easy to use.

The technical result of the claimed solution is to increase the therapeutic effect.

The technical result is achieved by the fact that in the respiratory simulator, containing a housing that includes the first chamber connected to the means for connecting the simulator to the user's respiratory tract, the second chamber communicated with the first chamber, the third chamber, the exhalation resistance control means, wherein one chamber is made elastic, the first the chamber is in communication with the atmosphere, the second chamber is made of an elastic material, placed between the first and third chambers and provided with a membrane located on the border of the second and third chambers, and as a means made with the possibility of creating exhalation resistance, a material made with the possibility of creating vibration is used , with its placement in the third chamber, while the material made with the possibility of creating vibration is water with silver ions.

Implementation in the breathing simulator of the second chamber made of elastic material, located between the first and third chambers, equipped with a membrane located on the border of the second and third chambers, as well as the use as a means made with the possibility of creating exhalation resistance of a material made with the possibility of creating vibration, and it is water with silver ions, with its placement in the third chamber, that allows the vibration arising from the exhalation from the vibrating material, reinforced in the elastic chamber with the membrane, to be transmitted to the lungs and significantly increase the therapeutic effect in the treatment of diseases of the bronchi and trachea, to increase the volume of the lungs while simplifying design of the simulator and its use, to make it accessible to a wide range of people.

The figure 1 shows the respiratory simulator assembly.

The figure 2 shows the breathing simulator in section.

The respiratory simulator contains a body, made, for example, in the form of a cylinder, including the first chamber 1, connected to the means of connecting the simulator to the user's respiratory tract in the form of a tube 2 (mouthpiece) protruding beyond the body, ensuring its capture by the mouth. The breathing simulator contains a second chamber 3 connected with the first chamber 1, made of elastic material, and a third chamber 4. The first chamber 1 is in communication with the atmosphere through a channel closed by a valve 5, which ensures the release of excess pressure. The simulator chambers are interconnected, for example, by means of a thread 6. The second chamber 3 is provided with a membrane 7 placed in its lower part on the border between the second and third chambers. As a means made with the possibility of creating exhalation resistance, a material is used that is made with the possibility of creating vibration, for example, water with silver ions (silver water), pouring it into the third chamber 4. There are 5 types of breathing simulator (9 cm, 10 cm, 11 cm, 12 cm, 13 cm), differing in internal volume and size.

The respiratory simulator is used as follows.

The respiratory simulator is a means of developing the muscles of the lungs.

The respiratory simulator is intended for training the human body by creating a physiological state identical to the state resulting from physical exercises.

Used to increase lung capacity in people under 40 years of age. After 40 years, it is used only for the treatment of bronchi, improving the general condition and relaxing the body. Use the drug as prescribed by the energy therapist.

1. Using the Breathing Trainer to treat inflammation of the bronchi and trachea.

The bronchi have a branched structure, so when sputum accumulates against the background of the disease, it can be difficult to get rid of it, even if a person coughs heavily.

The use of the Respiratory Trainer helps to clear the bronchi of sputum, because as a result of the vibration of the silver ion molecules of the silver water poured into the third chamber, a slight resistance to exhalation is created, and the vibrations are transmitted to the walls of the bronchi and this helps to expel sputum. The strength and frequency of vibration during exhalation can be adjusted by the angle of the user's head, when the angle of the user's head is changed by 30 degrees upwards from the horizontal position, the smallest branches of the bronchi vibrate, with the horizontal position of the user's head, the vibrations are transmitted to the central sections of the bronchi. When the head is tilted 30 degrees down from the horizon, vibrations are transmitted to the larger branches of the bronchi and trachea.

For the treatment of bronchi, the method "Full breathing" is used.

Exercise "Full breath".

This exercise can be done standing or sitting with a straight back. Starting position: stand up straight, the back should be straight. Take a slow, calm breath, trying not to draw air with noise through the nostrils - it should enter freely and naturally, as if by itself. Try to direct the flow of air into the lower part of the lungs, closer to the diaphragm, watching how the diaphragm descends, as if making room for air, presses on the abdominal cavity and causes the stomach to protrude. Then direct the air into the middle part of the lungs, feeling how, with the abdomen remaining extended, this air causes the lower ribs to expand, and then the middle part of the chest. Now direct the air into the upper part of the lungs, watching how the upper chest expands, the upper ribs move apart. In order for the air to reach the very tops of the lungs, at the end of the inhalation, it is necessary to draw in the lower abdomen, while the diaphragm rises, begins to support the chest from below and forces the air to move to the very top of the lungs. When inhaling, make sure that the inhalation does not consist of three fragmentary separate movements, but that it is carried out smoothly, with one wave-like movement of all parts of the body participating in the inhalation - from the protrusion of the abdomen, then the expansion of the ribs, chest and to the depression of the abdomen and the maximum expansion of the upper chest. Let the breath be smooth and slow, without jerks and stops.

After inhaling, hold your breath for a few seconds.

Now start exhaling slowly. At the beginning of the exhalation, the chest is still straightened, the stomach, which you pulled in at the end of the inhalation, begins to relax and protrude a little. As you exhale, the abdomen protrudes, and the chest remains expanded. At the end of the exhalation, you release the tension in the chest, it retracts, and the stomach is still sticking out, then release the tension in the stomach too. The abdomen and chest take their normal position, not retracted or protruding. With a little practice, this way of breathing will become natural and easy for you.

With this method of breathing, the entire respiratory apparatus is set in motion, and all parts of the lungs, down to their most distant cells, are filled with air and vitality. Blood enriched with oxygen begins to carry much more energy to all organs and tissues. There are healing processes throughout the body. You will immediately feel an improvement in well-being.

Performing breathing on the Breathing Simulator.

Water with silver ions is poured into chamber 4 of the respiratory simulator.

Sit with a straight back, relax. Take the tube 2 of the simulator into your mouth, pressing it with your lips, the tongue should not interfere with breathing. Position your head horizontally or at an angle of 30 degrees down or up, depending on which parts of the bronchi or trachea you want to work. Take a deep breath in through your nose for 4 counts (one and, two and, three and, four and). Hold your breath for 4 counts. Exhale fully into the simulator for 6 counts (this is one circle). Breathe for 10 to 20 circles. There shouldn't be tension. You can breathe 4 times a day 10 minutes before meals, or 60 minutes after meals.

2. Using the Breathing Trainer to increase lung capacity.

Use a different breath (similar to "Bodyflex").

Breathing exercises "Bodyflex".

Often fatigue comes on so quickly because your body is not well supplied with oxygen. In everyday life, we have shallow breathing, deep inhalations and exhalations are most often of an emotional origin. But many have already adopted a simple method of relieving stress: a few deep breaths (inhale through the nose, exhale through the mouth) - after that you calm down and life becomes easier.

Bodyflex breathing looks like this: you need to exhale all the air through your mouth, quickly inhale through your nose, exhale all the air through your mouth from the diaphragm with force, hold your breath, draw your stomach in as much as possible, count to 8-10, relax and inhale. So, exhale (stomach retracts) - inhale (full belly) - exhale strongly (stomach retracts). Then, while holding your breath, draw in your stomach even more and count to 8-10. Then exhale. Of course, to master the technique of this breathing, you must first practice.

It will take time to master this breathing exercise. When the breathing exercise is easy for you, proceed to work with the Simulator.

Breathing may cause dizziness. If the dizziness is very strong or does not stop, stop. Sit down and breathe evenly until the dizziness goes away. Then start over. Keep practicing to develop strength and endurance, and soon you will be able to perform the entire complex without stopping. The optimal time to perform Bodyflex is in the morning on an empty stomach. In any case (even if you exercise during the day or in the evening), try not to eat food before starting classes (within 2-3 hours). The last meal before classes should be easy (fruits, vegetables).

Properly set abdominal breathing involves all floors of the lungs in the respiratory act, increases blood oxygen saturation and increases the vital capacity of the lungs, and massages the abdominal organs due to the movement of the diaphragm.

Description of the technique of breathing with a breathing simulator.

Start breathing to increase the volume of the lungs and prepare the lungs for breathing with rarefied air, from 35 minutes, add 5 minutes each, use no more than 60 minutes.

Diaphragmatic (abdominal) breathing (Latin resperatio diaphragmatica) is a type of human breathing, in which the thoracic-abdominal part of the diaphragm takes an active part. It is carried out mainly due to the contraction of the diaphragm and abdominal muscles. Characteristic of the physiological breathing of men.

Performing breathing on the respiratory simulator.

We take the simulator in the mouth, grab the tube with 2 teeth. It is necessary to calm down, slow down breathing, concentrate on it. Take a slow deep breath, feel the lungs expand from the intake of oxygen, slowly exhale the air through the nose. Take a strong sharp breath through the nose, lips fit snugly to the tube 2 of the simulator. In this case, the stomach should be inflated and stick out as much as possible. Exhale through your mouth. The lungs should be released as much as possible, and the stomach should stick to the inner wall of the spine, it is necessary to retract the stomach as much as possible, directing muscle contraction from the bottom up, towards the ribs. In this position, you need to linger for 8-10 seconds. Breathe 2-3 times a day no later than 10 minutes before meals and after meals after 3 hours. Breathe 21 days, 21 days break. The number of repetitions on request. 3 cycles max.

Increase in lung volume up to 3 cycles. Repeat every 6 months.

In 10 minutes, 25 repetitions of breaths.

Every 3 days you can add 5 minutes up to 30 or 60 minutes if this is not difficult.

The DPG breathing simulator, which provides a high therapeutic effect with its simple design and ease of use, will be used in medical institutions and in everyday life.

Claims (1)

Breathing simulator, containing a housing, including a first chamber connected to the means of connecting the simulator to the user's respiratory tract, a second chamber communicated with the first chamber, a third chamber, exhalation resistance control means, wherein one chamber is elastic, characterized in that the first chamber is in communication with atmosphere, the second chamber is made of an elastic material, placed between the first and third chambers and provided with a membrane located on the border of the second and third chambers, and as a means made with the possibility of creating exhalation resistance, a material made with the possibility of creating vibration is used, with placement it in the third chamber, while the vibrating material is water with silver ions.

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