RU2178322C2 - Elastic breathing exercising apparatus - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: exercising apparatus is formed as rubber belt with rubber resiliency of 165- 4.0 cm/newton (15-40 cm/kgf) and is composed of 5-6 cm width strips which are inserted into carcass rod slots. Rods are spaced one from another by distance of 12-15 cm. Thickness of belt or parts thereof is changed by increasing the number of layers through inserting additional rubber fragments between carcass rods. Belt width is changed by selecting carcass rods and number of rubber strips. Belt has retaining member made in the form of loop-and-hook strips of 2-3 cm width. These strips are attached at distance of 1-2 cm one from another. Exercising apparatus is further equipped with fragment of needle type-applicator having length and width corresponding to those of required treatment zone. Apparatus improves breathing functions through stimulating separate breathing system muscles required for treating process, with the ability to control the extent of effect upon each of muscle groups to provide for abdominal breathing, improved lung drainage function and increased effect upon reflexogenic zones and improved salivary discharge. Apparatus may be used in medicine and prophylactic enterprises, centers and health schools. EFFECT: simplified construction and increased efficiency. 5 cl, 3 dwg

Description

 The invention relates to medicine, in particular to pulmonology, and can be used in the treatment of bronchopulmonary diseases, as well as in infants and young children, in healthy people and in athletes. In addition, the device can be used in the training of singers and in educational activities for schoolchildren, for long-distance flights with pilots and passengers of planes, with astronauts in space flights.

 It is known "Device for training elongated exhalation" (V. S. Blodik, ed. St. N 1003850 from 03.15.83, A 61 H 1/00). The device is a tubular body with through holes, with an element having a flexible valve. The purpose of the use of this device is to train the muscles involved in the act of exhalation. The disadvantage of this device is that with its help it is impossible to train the muscles involved in the act of inspiration.

 The well-known "Corrector-simulator" (Bogach Yu.P., RF patent N 2124878, A 61 H 1/02, 15/00, 03/29/99), which was created for the purpose of correction, electro-and magnetic-mechanical stimulation and training individual muscle groups, on which the body posture, the relative position of the skeleton bones depends. The corrector is located on any part of the body, in particular on the chest area. It is made of rigid rods interconnected by spring-loaded hinges with adjustable elastic force, counteracting certain muscle groups. On the corrector body there are cells for removable finger-shaped acting elements through which electromechanical stimulation of body parts occurs. The corrector also has contacts for magnetomechanical stimulation.

 The disadvantage of this invention is its complexity in use and the inability to selectively affect precisely the respiratory muscles.

 It is known "Device for combined exposure" (RF patent N 2012324, A 61 H 30/04, 1/04, 1994), consisting of a housing with evenly spaced cells for removable finger-shaped acting elements equipped with point active electrodes with batteries. The purpose of this device is to provide a combined electromechanical effect on the human body by the type of Shiatsu massage.

 The disadvantage of this invention is the impossibility of stimulating the point areas of the skin according to the type of acupuncture and the absence of a mechanism of influence on the respiratory muscles.

 Closest to the claimed device is a "Device for training human endurance" (Kim V.V., ed. St. N 719629, A 61 H 1/02, 05.03.80). The purpose of creating the device is to increase the level of adaptation with locally programmed changes in external pressure on the chest in working conditions and sports activities. The device is a vest with shoulders having internal cavities, as well as geometrically separated closed annular chambers with locking holes.

 Creating breathing resistance on inspiration gives a certain healing and therapeutic effect. However, the simple introduction of resistance during the inspiratory phase without the possibility for the patient to affect its depth can lead to discomfort and even provoke the accumulation of sputum and an attack of shortness of breath, which is completely contraindicated in bronchopulmonary diseases, in particular with bronchial asthma. In addition, the disadvantages of the prototype are: the inability to affect the muscles of exhalation, the inability to use it in movement, the inability to dose loads on different groups of respiratory muscles, the lack of motivation for children to use it, the inability to use it in the process and at the time of educational activities of children, the lack of a mechanism improved sputum absorption.

 In addition, blocking the inhalation with an insufficiently flexible material with limited mobility of the chest areas can cause pain in the patient, especially with a full breath.

 The technical result of the proposed elastic breathing simulator Lazarev is to improve the drainage function of the lungs and increase their vital capacity.

 The specified technical result is achieved by the fact that the simulator is made in the form of a rubber belt with a rubber elasticity of 1.5-4.0 cm / N (15-40 cm / kgf), consisting of strips 5-6 cm wide, which are inserted into the grooves of the frame rods located at a distance of 12-15 cm, while the thickness of the parts of the entire belt, as well as its parts, is changed by increasing the layers due to the location of additional fragments of rubber between the frame rods, and the belt width is changed by selecting the frame rods and the number of rubber bands, while the belt has a locking element in in the form of strips of "Velcro" 2-3 cm wide, attached at a distance of 1-2 cm, and the simulator is additionally equipped with a fragment of a needle applicator, corresponding in length and width to the required exposure zone.

 The belt is made of rubber in order to create a mode of gentle loads on the breathing apparatus. Due to the adjustable elastic traction, a load is created both on the muscles of inspiration and on the muscles of exhalation. The latter is due to the fact that the patient is trying to restrain the instant compression of the ribs under the influence of the simulator.

 A strip width of 5-6 cm allows you to avoid over-pressing the rubber into the skin.

 Frame rods protect the rubber from twisting. The grooves located in them allow you to design a belt of one, two and three strips of rubber, which provides the possibility of exposure to different areas of the chest.

 The distance between the frame rods of 12-15 cm is selected in accordance with the circumference of the chest, that is, an individual approach to the child is provided.

 A hook-and-loop fastener symmetrically attached to both sides of the belt allows you to adjust its length and also attach the needle applicator plates.

 Fragments of the needle applicator provide an impact on the necessary reflexogenic zones. Moreover, the impact force increases with an increase in the elastic traction of rubber, which is provided by both an increase in its layers and a decrease in its length.

 The indicated design features allow the simulator to be used both in statics (sitting, lying) and in dynamics (in walking, running).

 Due to the limited mobility of the chest with an elastic bandage belt with an elasticity of 1.5-4.0 cm / N (15-40 cm / kgf), a compressive load arises on the lungs both with full inhalation and full exhalation, i.e., static the load limiting the mobility of the chest remains when the volume of the lungs changes, contributing to the proper functioning of the muscles throughout the breathing cycle. Creating resistance to breathing during the inspiration phase improves hemodynamics at the level of the microvascular bed, stimulates the participation of the diaphragm in the act of breathing, which helps to improve sputum resorption processes. At the same time, the choice of the location of the rubber bands of the belt allows you to selectively act on different parts of the chest.

Description of the elastic breathing simulator Lazarev
The elastic breathing simulator Lazarev (Fig. 1) is made in the form of a rubber belt with a rubber elasticity of 1.5-4.0 cm / N (15-40 cm / kgf). The belt consists of strips 1 5-6 cm wide and a length corresponding to the circumference of the patient's chest. The strips are inserted into the grooves 2 of the frame rods 3 located at a distance of 12-15 cm.

 The frame rod is a flat plastic plate (Fig. 2) with a thickness of 0.1-0.2 cm and a width of 1 cm, having an external groove 5.2 to 6.2 cm high, and a clearance of 0.3-0.5 cm. Frame rods are made in 3 versions: single-slot, double-slot, triple-slot, with a groove spacing of 2 cm.

 The belt has a fixing element in the form of Velcro strips 4 (Fig. 1,) 5-6 cm high and 2-3 cm wide, attached at a distance of 1-2 cm and located symmetrically on both sides of the belt, so that gaps remain between the Velcro 5 rubber (Fig. 1). Velcro strips have continuous numbering.

 The simulator is equipped with additional fragments of rubber bands corresponding to 1, 2 or more gaps between the frame rods.

 The simulator is also equipped with additional fragments of a needle applicator (Fig. 3), attached with the reverse side to the Velcro corresponding to the size of the Velcro on the belt.

 The simulator is used as follows.

где ln - длина охвата эластичного пояса в свободном состоянии, см;
l₁ - охват грудной клетки при вдохе, см;
l₂ - охват грудной клетки при выдохе, см.The patient measures the circumference of the chest on inhalation and exhalation, its height from the lower ribs to the armpits. A rubber strip of the appropriate length is selected, which is determined in a free state by the ratio

where ln is the length of the coverage of the elastic belt in a free state, cm;
l ₁ - coverage of the chest during inspiration, cm;
l ₂ - coverage of the chest during exhalation, see

а затем ежедневно уменьшают длину охвата эластичного пояса в свободном состоянии на 1-3 см, доведя ее до

После определения длины полосы пояса, его ширины, полосы вставляют в пазы каркасных стержней соответствующей высоты.In this case, the restriction of mobility of the chest with an elastic bandage belt begins with the length of the coverage of the latter in a free state, satisfying the ratio

and then daily reduce the length of the elastic waist in a free state by 1-3 cm, bringing it to

After determining the length of the strip of the belt, its width, the strip is inserted into the grooves of the frame rods of the corresponding height.

 Depending on the tasks, 4 versions of the simulator can be designed: single-lane, two-lane simple (with adjacent lanes), two-lane complex (with lanes across one), and three-lane.

 The simulator is applied to the necessary area of the chest. In this case, a strip of rubber is pulled up to a certain mark located next to the corresponding Velcro. The bands, depending on the medical and health-improving tasks to be solved, can stretch both to the same marks and to different ones. In the latter case, different bands create different loads on different parts of the chest, which provides a drainage effect.

 To increase the effectiveness of exposure stimulation of reflexogenic zones is performed. To do this, on the side adjacent to the patient’s body, in certain places of the belt, stick-on applicator plates are applied to the Velcro.

 The applicant is not aware of breathing simulators with the claimed combination of essential features, which confirms the compliance of the invention with the criterion of "novelty." The claimed combination of essential features does not follow explicitly from the current level of knowledge about breathing simulators, which confirms the compliance of the invention with the criterion of "inventive step".

 Design features of the proposed simulator: ease of use, light weight, fastener, small thickness - allow you to fix it on the chest for a long time, which helps to increase the efficiency of its use. In particular, it is the duration of use that is a prerequisite for the elimination of the phenomena of emphysema in patients with bronchial asthma.

 Lazarev’s elastic breathing simulator improves the function of external respiration by stimulating individual groups of muscles of the respiratory system necessary for the treatment process, provides the ability to control the level of exposure to each of these groups, activates the drainage function of the lungs, improves microcirculation in the lower parts of the bronchopulmonary tree, affects reflexogenic zones, improves sputum outflow. This effect occurs due to the elastic traction of the rubber bands. At the same time, the ability to increase the load on a certain area of the chest allows for the drainage of sputum from certain sections of the lungs.

 Resistance to the muscles of inspiration leads to the inclusion of diaphragmatic breathing, which increases the excursion and vital capacity of the lungs. Training also has a positive effect on the inspiratory activity of neurons of the respiratory center, spinal cord mononeurons.

 Additional advantages of the simulator is that it can be sewn into medical or sportswear. In addition, it can be used for diagnostic studies by stitching a sensor to record the respiratory curve during exercise.

 The latter contributes to the formation of a child’s motivation to use this simulator due to the possibility of influencing the final result, which suggests the presence of a biofeedback phenomenon.

 Due to the fact that the applicator superimposed on the belt can be made in the form of electrodes, the mechanical action of the simulator can be supported by electric impulses according to the type of electro-puncture.

 The proposed elastic breathing simulator Lazarev was used on children and adolescents with bronchial asthma attending the School of Health. The age of children is from 2 to 16 years. As a result of the use of this simulator, a pronounced positive effect was obtained, consisting in improving sputum outflow, increasing external respiration function (lung capacity, expiratory flow rate, respiratory muscle strength), reducing the frequency of attacks, increasing the duration of remission, reducing the number of medications taken). Repeatedly, the simulator was used at the time of an asthma attack, which led to a partial relief of the attack.

 The proposed simulator was also used on infants suffering from acute bronchitis, pneumonia, and respiratory allergosis. As a result of its use, a pronounced positive effect was obtained, consisting in the abatement of coughing attacks and an improvement in the general status of patients.

 The simulator was also used in the hospital in the postoperative period on children operated on for staphylococcal destruction of the lungs. The resulting positive effect was expressed in the reduction of the rehabilitation period. This simulator was used by a group of children in a kindergarten. The effect obtained in this case was expressed in an improvement in overall well-being, a decrease in somatic morbidity during the subsequent year after exposure.

 For children aged 12-14 years, the effect of this simulator was tested during a nine-hour flight on an airplane.

 The resulting positive effect was expressed in improving overall well-being.

 An elastic breathing simulator was used on persons of retirement age in the process of performing respiratory gymnastics and morning running. The resulting effect was to improve mood and increase vitality.

 The proposed simulator was used on athletes involved in martial arts. The resulting effect is to increase the overall stamina of the body.

 Thus, the proposed elastic breathing simulator Lazarev can be used to improve the function of external respiration in the treatment of bronchopulmonary diseases, such as bronchial asthma, asthmatic bronchitis, chronic bronchitis, respiratory allergosis and others. It can be used in the hospital in the postoperative period in patients operated on for staphylococcal destruction of the lungs, as well as in infants and young children, in healthy people and in athletes. In addition, including bronchial asthma, to increase health reserves in healthy people and for training athletes involved in various sports. The simulator can be used to treat patients of all age categories, including infants and senior citizens. It can be used in infants, used in a hospital in the postoperative period in patients operated on for staphylococcal destruction of the lungs, in the onset of children with bronchial asthma, in the process of educational activity in children in kindergarten and school, during long flights by air transport and in a spaceship, in training athletes in any sport. Therefore, the simulator can be used for both therapeutic and prophylactic purposes.

Claims (5)

 1. An elastic breathing simulator, consisting of a rubber belt and a fixing element, characterized in that the simulator is made in the form of a rubber belt with a rubber elasticity of 1.5-4.0 cm / N (15-40 cm / kgf), consisting of strips of width 5-6 cm.  2. The elastic breathing simulator according to claim 1, characterized in that the strips are inserted into the grooves of the frame rods at a distance of 12-15 cm.  3. The elastic breathing simulator according to claim 2, characterized in that the grooves of the frame rods have a height of 5.2-6.2 cm, the clearance of 0.3-0.5 cm, while the frame rods consist of 1.2.3 grooves .  4. The elastic breathing simulator according to claim 1, characterized in that it has a fixing element in the form of Velcro strips 2-3 cm wide, attached at a distance of 1-2 cm, symmetrically, on both sides of the rubber.  5. The elastic breathing simulator according to claim 1, characterized in that it is further provided with a fragment of a needle applicator.

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