CN111330233A - Abdominal respiration training device and method - Google Patents

Abstract

The invention discloses an abdominal respiration training device, which comprises a vest, wherein a plurality of vertically extending inflation conduits are arranged on the vest and are uniformly distributed along the circumferential direction of the vest; each air charging conduit is respectively connected with an air charging and exhausting hose, and an air charging and exhausting pump and an electromagnetic valve are arranged on the air charging and exhausting hose; the inner side of the front piece of the vest is also provided with a pressure sensor which is connected with the controller; a frequency control circuit is arranged in the controller and is connected with the air pump and the electromagnetic valve; the frequency control circuit is used for controlling the opening and closing of the air inflation and air exhaust pump and the electromagnetic valve, and carrying out rhythmic air inflation and air exhaust on each air inflation conduit on the vest. The invention can reduce the moving range of the front and back diameters and the left and right diameters of the thorax of a wearer, thereby increasing the vertical moving distance of the thorax, increasing the moving amplitude of diaphragm muscle, improving intra-abdominal pressure, increasing the abdominal respiration of the wearer and facilitating the abdominal respiration training of the wearer in various body positions.

Description

Abdominal respiration training device and method

Technical Field

The invention relates to the field of medical care, in particular to an abdominal respiration training device and method.

Background

Respiration is one of the physiological processes necessary to maintain metabolism and other activities of the body, and is performed by three interconnected and simultaneous links, including pulmonary ventilation, and the exchange of gas between blood and tissue cells, which are performed in the respiratory tract and alveoli.

When inhaling, the diaphragm and intercostal muscles contract, the thorax expands, the diaphragm top descends, the negative pressure in the thoracic cavity is reduced, air enters the alveolus through the air passage, oxygen enters the capillary vessel through the alveolar wall, and carbon dioxide generated by tissue metabolism in the capillary vessel enters the alveolus. When the patient exhales, the diaphragm and intercostal muscles relax, the thorax is recovered by elasticity, and carbon dioxide is discharged out of the body through the air passage. Thus, a breath is formed by inhaling one breath.

In the breathing process, the thorax is always regarded as a whole, and the actual situation is that the coordinated movement of ribs and diaphragm in the thorax causes the volume of the thorax to change three-dimensionally, and the ribs change the front-back diameter and the left-right diameter moving range of the thorax to form thoracic breathing; the diaphragm contracts to push the abdominal viscera, so as to change the vertical movement distance of the thorax and form abdominal respiration. Compared with chest type respiration, abdominal type respiration can increase diaphragm displacement, enhance diaphragm capability, increase utilization rate of ineffective cavity and improve lung function.

From the perspective of ventilation mechanics, the vertical movement distance of the thorax is increased by limiting the anteroposterior diameter and the lateral diameter of the thorax, so that abdominal respiration can be strengthened, and the improvement of the respiratory capacity are facilitated. Meanwhile, the vertical movement distance of the thorax is increased, so that the intra-abdominal pressure can be increased, the trunk stability is favorably maintained, the trunk keeps stable extension, and the respiratory function is improved.

A normal adult breathes about at least 21600 times in 24 hours in an average of 15 breaths per minute, activates abdominal respiration, and has positive significance for improving and enhancing respiratory function.

Disclosure of Invention

The invention aims to provide an abdominal respiration training device and method, which are used for assisting a user in abdominal respiration.

In order to achieve the purpose, the invention provides an abdominal respiration training device which comprises a vest, wherein a plurality of vertically extending inflation guide pipes are arranged on the vest and are uniformly distributed along the circumferential direction of the vest;

each inflation conduit is respectively connected with an inflation air-exhaust hose, one end of each inflation air-exhaust hose, which is far away from each inflation conduit, is open, and the open end is a vent; the inflation air extraction hose is provided with an inflation air extraction pump and an electromagnetic valve which are positioned between each inflation conduit and the air vent;

the inner side of the front piece of the vest is also provided with a pressure sensor which is connected with a controller; a frequency control circuit is arranged in the controller and is connected with the air pump and the electromagnetic valve; the frequency control circuit is used for controlling the opening and closing of the air inflation and air exhaust pump and the electromagnetic valve, and carrying out rhythmic air inflation and air exhaust on each air inflation conduit on the vest.

Preferably, the number of inflation conduits is 12.

Preferably, the solenoid valve is provided in the controller.

Preferably, the controller is provided with a pressure data display panel, and the pressure data display panel is used for displaying pressure data detected by the pressure sensor.

Preferably, the controller is further provided with an expiration indicator light and an inspiration indicator light; the controller controls the expiration indicator lamp or the inspiration indicator lamp to be lightened according to the inflation and air exhaust states: when the inflation air pump inflates each inflation conduit on the vest, the expiration indicator lamp is lightened; when the air pump pumps air to each air tube on the vest, the air suction indicator lights.

Preferably, the pressure sensor is provided with an adhesive piece, and the pressure sensor can be adhered to the inner side of the front piece of the vest.

Preferably, the top end of each inflation conduit extends to the upper part of the vest, and the top ends of the inflation conduits are positioned at the same height; the bottom ends of the air inflation guide pipes extend to the bottom of the vest, and the bottom ends of the air inflation guide pipes are positioned at the same height; each inflatable guide pipe is vertically divided into a plurality of sections, the adjacent two sections are isolated by a vent valve, and the vent valve is used for controlling the ventilation between the adjacent two sections; the lengths of all sections on the same inflation conduit are the same, the lengths of all sections are not more than 2cm, all sections are vertically arranged at equal intervals, and the distance between every two adjacent sections is not more than 1 cm; the air inflation and air exhaust hose is connected with the vertical middle part of each air inflation conduit.

The invention also provides a method for abdominal respiration training by adopting the training device, which is detailed in the embodiment.

In particular, the present invention enables adjustment of the inflatable region of each inflation catheter, comprising the specific steps of:

opening all the vent valves on each inflation conduit, opening the electromagnetic valves, then exhausting air from each inflation conduit by the inflation air exhaust pump to discharge air in each section of the inflation conduit, then closing the electromagnetic valves and the inflation air exhaust pump, then finding out a section of each inflation conduit with the height corresponding to the height of the nipple of the wearer, closing the vent valves at the top ends of the sections, closing one vent valve on each inflation conduit between the two anterior superior iliac spines and the lowest edge of the costal arch of the wearer, and keeping the rest vent valves open; at this time, only two vent valves on any one of the inflation conduits are closed, the region of the inflation conduit between the two vent valves is taken as the inflatable region of the inflation conduit, the top end of the inflatable region of each inflation conduit corresponds to the height of the nipple of the wearer, and the bottom end of the inflatable region of each inflation conduit is positioned between the two anterior superior iliac spines of the wearer and the lowest edge of the costal arch.

The invention can perform rhythmic inflation and air exhaust on each inflation conduit on the vest, realizes the rhythmic pressurization on the thorax of a wearer of the vest, reduces the moving radius range of the front and back diameters and the left and right diameters of the thorax of the wearer, increases the vertical moving distance of the thorax, increases the moving amplitude of diaphragm muscles, thereby improving the intra-abdominal pressure of the wearer and exciting the abdominal respiration of the wearer.

The invention can increase the utilization rate of the ineffective cavity, improve the lung function, increase the vital capacity, increase the oxygen supply capacity of the body and simultaneously increase the intra-abdominal pressure of a wearer through abdominal respiration. Moreover, the abdominal respiration training device is suitable for being used in various body positions, is not limited by movement, and has the characteristics of simple structure, convenience in wearing and the like.

The existing breathing training equipment mostly uses a gas nozzle opening for a wearer to perform breathing training through a pressure adjusting device in the equipment. Compared with the existing breathing training equipment, the abdominal breathing training device designed by the invention can help people to perform abdominal breathing training, so that people can develop a correct breathing mode.

The vest can be made of SCR (selective catalytic reduction) super-elastic fabric, is convenient and comfortable to wear, can be worn in any position, is not influenced by the movement function, and can be used for respiratory training by a wearer in any state through the inflation conduit of the vest. The inflation conduit in the invention can be made of LDPE soft material, thereby not only reducing the weight of the equipment, but also prolonging the service life of the equipment.

Drawings

FIG. 1 is a schematic view of a belly breathing training device according to example 1;

fig. 2 is a schematic view of a abdominal breathing training device in example 2.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1

As shown in fig. 1, the invention provides an abdominal respiration training device, which comprises a vest 1, wherein the vest 1 is provided with a plurality of vertically extending inflation conduits 2, and the inflation conduits 2 are uniformly distributed along the circumferential direction of the vest 1;

each inflation conduit 2 is respectively connected with an inflation air-exhaust hose 3, one end of each inflation air-exhaust hose 3, which is far away from each inflation conduit 2, is open, and the open end is a vent; the air-inflation air-extraction hose 3 is provided with an air-inflation air-extraction pump 4 and an electromagnetic valve 5, and the air-inflation air-extraction pump 4 and the electromagnetic valve 5 are positioned between each air-inflation conduit 2 and the air vent;

the inner side of the front piece of the vest 1 is also provided with a pressure sensor 6, and the pressure sensor 6 is connected with a controller 7; the controller 7 is internally provided with a frequency control circuit which is connected with the air pump 4 and the electromagnetic valve 5; the frequency control circuit is used for controlling the opening and closing of the air inflation and air extraction pump 4 and the electromagnetic valve 5, and carrying out rhythmic air inflation and air extraction on each air inflation conduit 2 on the vest 1;

more specifically:

the number of the inflation conduits 2 is 12;

the electromagnetic valve 5 is arranged in a controller 7;

the controller 7 is provided with a pressure data display panel which is used for displaying pressure data detected by the pressure sensor 6;

the controller 7 is also provided with an expiration indicator light and an inspiration indicator light; the controller 7 controls the expiration indicator lamp or the inspiration indicator lamp to be turned on according to the states of inflation and air suction: when the air pump 4 inflates each air conduit 2 on the vest 1, the expiration indicator lamp is lighted; when the air pump 4 pumps air to each air conduit 2 on the vest 1, the air suction indicator lamp is lighted;

the pressure sensor 6 is provided with a pasting piece, and the pressure sensor 6 can be pasted on the inner side of the front piece of the vest 1.

The patient (wearer of the vest 1) can use the training device described above for abdominal breathing training, comprising the steps of:

the wearer wears the matching vest 1: the transverse width of the vest 1 is shorter than the distance between the connection lines of the axillary midline of the two sides of the wearer; the pressure sensor 6 is located in the precordial region of the wearer; the top end of each inflation conduit 2 on the vest 1 corresponds to the nipple of the wearer, and the bottom end of each inflation conduit 2 is positioned between the two anterior iliac spines and the lowest edge of the costal arch of the wearer;

the frequency control circuit controls the air inflation and air extraction pump 4 and the electromagnetic valve 5 to be opened and closed according to the preset breathing frequency and breathing ratio, and rhythmically inflates and evacuates each air inflation conduit 2 on the vest 1 to assist the wearer in abdominal breathing;

the wearer breathes according to the instructions of the expiration indicator light point and the inspiration indicator light point:

the wearer exhales when the exhalation indicating lamp is lightened, and each inflation conduit 2 on the vest 1 is in an inflation state in the exhalation process of the wearer;

when the air suction indicator lamp is turned on, a wearer inhales air, each air inflation conduit 2 on the vest 1 is in an air suction state in the air suction process of the wearer, and the vest 1 and each air inflation conduit 2 on the vest 1 limit the moving range of the front-back diameter and the left-right diameter of the thorax of the wearer, so that the vertical moving distance of the thorax of the wearer is increased.

Example 2

As shown in fig. 2, the invention also provides another abdominal respiration training device, which comprises a vest 1, wherein the vest 1 is provided with a plurality of vertically extending inflation conduits 2, and the inflation conduits 2 are uniformly distributed along the circumferential direction of the vest 1;

each inflation conduit 2 is respectively connected with an inflation air-exhaust hose 3, one end of each inflation air-exhaust hose 3, which is far away from each inflation conduit 2, is open, and the open end is a vent; the air-inflation air-extraction hose 3 is provided with an air-inflation air-extraction pump 4 and an electromagnetic valve 5, and the air-inflation air-extraction pump 4 and the electromagnetic valve 5 are positioned between each air-inflation conduit 2 and the air vent;

the inner side of the front piece of the vest 1 is also provided with a pressure sensor 6, and the pressure sensor 6 is connected with a controller 7; the controller 7 is internally provided with a frequency control circuit which is connected with the air pump 4 and the electromagnetic valve 5; the frequency control circuit is used for controlling the opening and closing of the air inflation and air extraction pump 4 and the electromagnetic valve 5, and carrying out rhythmic air inflation and air extraction on each air inflation conduit 2 on the vest 1;

more specifically:

the number of the inflation conduits 2 is 12;

the electromagnetic valve 5 is arranged in a controller 7;

the controller 7 is provided with a pressure data display panel which is used for displaying pressure data detected by the pressure sensor 6;

the controller 7 is also provided with an expiration indicator light and an inspiration indicator light; the controller 7 controls the expiration indicator lamp or the inspiration indicator lamp to be turned on according to the states of inflation and air suction: when the air pump 4 inflates each air conduit 2 on the vest 1, the expiration indicator lamp is lighted; when the air pump 4 pumps air to each air conduit 2 on the vest 1, the air suction indicator lamp is lighted;

the pressure sensor 6 is provided with a pasting piece, and the pressure sensor 6 can be pasted on the inner side of the front piece of the vest 1;

the top end of each inflation conduit 2 extends to the upper part of the vest 1, and the top ends of the inflation conduits 2 are positioned at the same height; the bottom ends of the air inflation guide pipes 2 extend to the bottom of the vest 1, and the bottom ends of the air inflation guide pipes 2 are positioned at the same height; each inflation conduit 2 is vertically divided into a plurality of sections, the adjacent two sections are isolated by a vent valve 8, and the vent valve 8 is used for controlling the ventilation between the adjacent two sections; the lengths of all sections on the same inflation conduit 2 are the same, the lengths of all sections are not more than 2cm, all sections are vertically arranged at equal intervals, and the distance between every two adjacent sections is not more than 1 cm; the air inflation and air exhaust hose 3 is connected with the vertical middle part of each air inflation conduit 2.

The patient (wearer of the vest 1) can use the training device described above for abdominal breathing training, comprising the steps of:

the wearer wears the matching vest 1: the transverse width of the vest 1 is shorter than the distance between the connection lines of the axillary midline of the two sides of the wearer; the pressure sensor 6 adhered on the inner side of the front piece of the vest 1 is positioned in the precordial area of the wearer by adjusting the adhering position of the pressure sensor 6 on the inner side of the front piece of the vest 1; the inflatable area of each inflation conduit 2 is adjusted by controlling the opening and closing of the vent valve 8 on each inflation conduit 2, so that the top end of the inflatable area of each inflation conduit 2 corresponds to the height of the nipple of the wearer, and the bottom end of the inflatable area of each inflation conduit 2 is positioned between the anterior superior iliac spines and the lowest edge of the costal arch of the wearer;

the frequency control circuit controls the air inflation and air extraction pump 4 and the electromagnetic valve 5 to be opened and closed according to the preset breathing frequency and breathing ratio, and rhythmically inflates and evacuates each air inflation conduit 2 on the vest 1 to assist the wearer in abdominal breathing;

the wearer breathes according to the instructions of the expiration indicator light point and the inspiration indicator light point:

the wearer exhales when the exhalation indicating lamp is lightened, and each inflation conduit 2 on the vest 1 is in an inflation state in the exhalation process of the wearer;

when the air suction indicator lamp is turned on, a wearer inhales air, each air inflation conduit 2 on the vest 1 is in an air suction state in the air suction process of the wearer, and the vest 1 and each air inflation conduit 2 on the vest 1 limit the moving range of the front-back diameter and the left-right diameter of the thorax of the wearer, so that the vertical moving distance of the thorax of the wearer is increased.

Specifically, the method for adjusting the inflatable region of each inflation conduit 2 by controlling the opening and closing of the vent valve 8 on each inflation conduit 2 comprises the following specific steps:

opening all the vent valves 8 on each inflation conduit 2, opening the electromagnetic valve 5, then exhausting air from each inflation conduit 2 by the inflation air exhaust pump 4 to exhaust air in each section of the inflation conduit 2, then closing the electromagnetic valve 5 and the inflation air exhaust pump 4, then finding out a section of each inflation conduit 2 with the height corresponding to the height of the nipple of the wearer, closing the vent valves 8 at the top ends of the sections, closing one vent valve 8 on each inflation conduit 2 between the upper front iliac spine and the lowest edge of the costal arch of the wearer, and keeping the rest vent valves 8 open; at this time, only two vent valves 8 of any one of the inflation tubes 2 are closed, and the region of the inflation tube 2 located between the two vent valves 8 is the inflatable region of the inflation tube 2, the top end of the inflatable region of each inflation tube 2 corresponds to the height of the wearer's nipple, and the bottom end of the inflatable region of each inflation tube 2 is located between the wearer's anterior superior iliac spine and the lowermost edge of the costal arch.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The abdominal respiration training device is characterized by comprising a vest, wherein a plurality of vertically extending inflation conduits are arranged on the vest and are uniformly distributed along the circumferential direction of the vest;

each inflation conduit is respectively connected with an inflation air-exhaust hose, one end of each inflation air-exhaust hose, which is far away from each inflation conduit, is open, and the open end is a vent; the inflation air extraction hose is provided with an inflation air extraction pump and an electromagnetic valve which are positioned between each inflation conduit and the air vent;

the inner side of the front piece of the vest is also provided with a pressure sensor which is connected with a controller; a frequency control circuit is arranged in the controller and is connected with the air pump and the electromagnetic valve; the frequency control circuit is used for controlling the opening and closing of the air inflation and air exhaust pump and the electromagnetic valve, and carrying out rhythmic air inflation and air exhaust on each air inflation conduit on the vest.

2. The abdominal breathing training device of claim 1, wherein the number of inflation conduits is 12.

3. The abdominal breathing training device of claim 1, wherein the solenoid valve is disposed in a controller.

4. The abdominal respiration training device of claim 1, wherein the controller is provided with a pressure data display panel for displaying the pressure data detected by the pressure sensor.

5. The abdominal respiration training device of any one of claims 1-4, wherein the controller is further provided with an expiration indicator light and an inspiration indicator light; the controller controls the expiration indicator lamp or the inspiration indicator lamp to be lightened according to the inflation and air exhaust states: when the inflation air pump inflates each inflation conduit on the vest, the expiration indicator lamp is lightened; when the air pump pumps air to each air tube on the vest, the air suction indicator lights.

6. The abdominal respiration training device of claim 5, wherein the pressure sensor is provided with an adhesive member, and the pressure sensor is adhered to the inside of the front piece of the vest.

7. The abdominal respiration training device of claim 6, wherein the top end of each inflation conduit extends to the upper portion of the vest, and the top ends of each inflation conduit are located at the same height; the bottom ends of the air inflation guide pipes extend to the bottom of the vest, and the bottom ends of the air inflation guide pipes are positioned at the same height; each inflatable guide pipe is vertically divided into a plurality of sections, the adjacent two sections are isolated by a vent valve, and the vent valve is used for controlling the ventilation between the adjacent two sections; the lengths of all sections on the same inflation conduit are the same, the lengths of all sections are not more than 2cm, all sections are vertically arranged at equal intervals, and the distance between every two adjacent sections is not more than 1 cm; the air inflation and air exhaust hose is connected with the vertical middle part of each air inflation conduit.

8. An abdominal respiration training method, wherein the abdominal respiration training device according to any one of claims 1 to 6 is used for respiratory training, comprising the steps of:

the wearer wears a vest matched with the wearer: the transverse width of the vest is shorter than the distance between the connection lines of the axillary midline of the two sides of the wearer; the pressure sensor is located in the precordial region of the wearer; the top end of each inflation conduit on the dorsal metacarpus corresponds to the nipple of the wearer, and the bottom end of each inflation conduit is positioned between the anterior superior iliac spines and the lowest edge of the costal arch of the wearer;

the frequency control circuit controls the air inflation air suction pump and the electromagnetic valve to be opened and closed according to the preset breathing frequency and breathing ratio, and rhythmically inflates and deflates each air inflation conduit on the vest to assist the wearer to perform abdominal breathing;

the wearer breathes according to the instructions of the expiration indicator light point and the inspiration indicator light point:

the wearer exhales when the exhalation indicating lamp is turned on, and each inflation conduit on the vest is in an inflation state during the exhalation process of the wearer;

when the air suction indicator lamp is turned on, the wearer inhales air, the air inflation conduits on the vest are in an air suction state in the air suction process of the wearer, and the vest and the air inflation conduits on the vest limit the moving range of the front-back diameter and the left-right diameter of the thorax of the wearer, so that the vertical moving distance of the thorax of the wearer is increased.

9. An abdominal respiration training method, wherein the abdominal respiration training device according to claim 7 is used for respiratory training, comprising the steps of:

the wearer wears a vest matched with the wearer: the transverse width of the vest is shorter than the distance between the connection lines of the axillary midline of the two sides of the wearer; the pressure sensor adhered on the inner side of the front piece of the vest is positioned in the precordial area of the wearer by adjusting the adhering position of the pressure sensor on the inner side of the front piece of the vest; the inflatable region of each inflation conduit is adjusted by controlling the opening and closing of the vent valve on each inflation conduit, so that the top end of the inflatable region of each inflation conduit corresponds to the nipple height of the wearer, and the bottom end of the inflatable region of each inflation conduit is positioned between the anterior superior iliac spines and the lowest edge of the costal arch of the wearer;

the frequency control circuit controls the air inflation air suction pump and the electromagnetic valve to be opened and closed according to the preset breathing frequency and breathing ratio, and rhythmically inflates and deflates each air inflation conduit on the vest to assist the wearer to perform abdominal breathing;

the wearer breathes according to the instructions of the expiration indicator light point and the inspiration indicator light point:

the wearer exhales when the exhalation indicating lamp is turned on, and each inflation conduit on the vest is in an inflation state during the exhalation process of the wearer;

when the air suction indicator lamp is turned on, the wearer inhales air, the air inflation conduits on the vest are in an air suction state in the air suction process of the wearer, and the vest and the air inflation conduits on the vest limit the moving range of the front-back diameter and the left-right diameter of the thorax of the wearer, so that the vertical moving distance of the thorax of the wearer is increased.

10. The abdominal respiration training method of claim 9, wherein the adjusting of the inflatable region of each inflation catheter by controlling the opening and closing of the vent valve on each inflation catheter comprises the following steps:

opening all the vent valves on each inflation conduit, opening the electromagnetic valves, then exhausting air from each inflation conduit by the inflation air exhaust pump to discharge air in each section of the inflation conduit, then closing the electromagnetic valves and the inflation air exhaust pump, then finding out a section of each inflation conduit with the height corresponding to the height of the nipple of the wearer, closing the vent valves at the top ends of the sections, closing one vent valve on each inflation conduit between the two anterior superior iliac spines and the lowest edge of the costal arch of the wearer, and keeping the rest vent valves open; at this time, only two vent valves on any one of the inflation conduits are closed, the region of the inflation conduit between the two vent valves is taken as the inflatable region of the inflation conduit, the top end of the inflatable region of each inflation conduit corresponds to the height of the nipple of the wearer, and the bottom end of the inflatable region of each inflation conduit is positioned between the two anterior superior iliac spines of the wearer and the lowest edge of the costal arch.

Images