KR20190087067A - Portable respiration training device system and thereof methods with training function to strengthen respiratory muscles - Google Patents

Abstract

The present invention relates to a portable respiration training device system with a training function to strengthen respiratory muscles which includes a respiration measurement training device to perform respiration air current measurement and training of a user, and a smartphone linked to the respiration measurement training device to provide information on a training result and a respiration pattern of the user, wherein the smartphone detects a maximum expiratory flow (FEF) and a maximum expiratory flow velocity (PEF) of the user by respiration amount-related information from the respiration measurement training device to prescribe or automatically set a goal of respiration training, and includes a dial-type resistance control unit to precisely control resistance, and a control method thereof. The portable respiration training device system with a training function to strengthen respiratory muscles comprises: a respiration training device including a respiration exhalation air injection unit on one end thereof, a respiration inhalation air injection unit on the other end thereof, and a body unit to measure a respiration air current of a user to perform respiration training to strengthen respiratory muscles; and a smartphone which is linked to the respiration training device, and outputs information on a respiration pattern of the user in graphs and numbers. The body unit of the respiration training device includes a vibration unit vibrating by air entering from the respiration exhalation air injection unit or the respiration inhalation air injection unit. The vibration unit includes a conic unit on one side thereof. A conic unit sharp portion, which is a vertex of the conic unit, comes in contact with a vibration support contact unit arranged on the body unit as the vibration unit vibrates. The body unit of the respiration training device includes a vibration detection unit to detect a vibration signal by a signal in accordance with whether the same comes in contact with the vibration support contact unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a portable respiration trainer system having a respiratory muscle strengthening training function,

The present invention provides a breathing apparatus comprising: a breathing measurement trainer capable of performing breathing air flow measurement and training of a user; and a smartphone interlocked with the breathing measurement trainer to provide information on a training result and a breathing pattern of a user, The user's maximum expiratory flow rate (FEF) and maximum expiratory flow rate (PEF) are detected by the respiratory measurement trainer according to the volume-related information, and the respiratory training target is customized or automatically set. And more particularly, to a portable respiration trainer system having a respiratory muscle strengthening training function and a control method thereof.

Chronic Obstructive Pulmonary Disease (COPD) is the most common chronic lung disease in which pulmonary function is gradually deteriorated due to irreversible airway obstruction. As the disease progresses gradually, the bronchus becomes narrower and narrower, In particular, when the air is exhaled (exhaled), the air does not move well, resulting in breathing difficulties. Dyspnea reduces exercise and causes weakness of respiratory muscles. After that, it causes dyspnea even at lower intensity exercise, and it follows a vicious cycle in which the exercise amount decreases again. Respiratory rehabilitation treats these patients with exercise therapy to break the vicious cycle, allowing patients to live as much as possible within their limited lung function limits and improve their quality of life. Therefore, respiratory training is essential for the treatment and recovery of patients with COPD (Chronic Obstructive Pulmonary Disease).

Because of the nature of the disease, respiratory training is important to educate the proper breathing method because airway obstruction can not be sufficiently transferred to the outside of the body. In particular, positive pressure breathing training is performed for chronic obstructive pulmonary disease. Positive pressure breathing increases the functional residual amount by applying positive pressure during respiration, especially at the end of respiration, and opens the occluded airway. (PEEP) or CPAP (Continuous Positive Airway Pressure Breathing) is a method of increasing the oxygen partial pressure in arterial blood by opening the alveolar narrowing down to pulmonary edema .

A commonly used respiratory trainer is designed to allow the ball to move within three cylinders and to perform breathing exercises in which the patient blows air into the cylinder and lifts the ball up. However, this training method can only provide simple and repetitive training, does not provide a systematic training method of varying the intensity of training or controlling resistance, and does not know the information about the change of breathing pattern during the training of the patient, There is a disadvantage that evaluation of the state can not be performed.

In addition, depending on the user, it is possible to undermine the health of the user by exercising too much.

In the prior art, Korean Patent No. 10-1294834 has a respiratory trainer that enables the respiratory trainee to perform active breathing training by setting, storing, updating, and displaying the training target. This is because breathing training is performed with no additional load (resistance) applied, which is relatively ineffective for breathing-related muscle training. In addition, this is a device having a mouthpiece, a display unit, an alarm generating unit, a pulse wave detecting unit, an electrocardiogram detecting unit, an arithmetic processing unit, and the like, which is not easy to carry.

In another prior art, Korean Patent No. 10-1620992 discloses a breathing training system through user breathing pattern analysis and a method for providing breathing training contents using the same. It uses a mobile device, measures the inspiration and expiration of a user, extracts a respiration pattern including the interval and strength between inspiration and expiration, and compares it with a predetermined respiration training target pattern, By reconfiguring the pattern, we provide the user with optimal breathing training by reflecting the sophisticated patterns of breathing in real time. This invention also provides breathing training in a no-load state, which is relatively ineffective for breathing-related muscle training. It also measures the movement of a mobile device on a chest wall, Measuring does not measure the actual respiratory flow, and therefore can not accurately assess the condition of the trainee.

To this end, the present inventors filed a patent application for a portable breathing trainer system and method in Korean Patent Application No. 10-2016-0177304 entitled "Portable Breathing Trainer System and Method". This portable respiratory trainer system consists of a breathing trainer and a smartphone that can measure and train breathing air, but it is difficult for non-specialists to set goals and train them. Particularly, it has been desired to provide a target value prescribed in a customized format according to a user, and to be able to adjust the resistance control unit more precisely and more easily.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a respiration measurement trainer capable of performing measurement and training of a user's respiratory air flow and a smartphone interlocked with the respiration measurement trainer, The smartphone detects the maximum expiration flow rate (FEF) and the maximum expiratory flow rate (PEF) of the user by the respiration amount related information from the respiration measurement trainer, automatically sets the target value of the breathing training in a customized manner, The present invention provides a portable respiration trainer system having a respiratory muscle strengthening training function and a control method thereof, which is provided with a resistance control unit and can more accurately control the resistance.

In order to solve the above-described problems, the present invention provides a respiratory trainer for performing respiratory muscle strengthening training, comprising a breathing / exhausting unit at one end and a respiratory / And a smartphone interlocked with the respiration trainer and outputting a graph and a numerical value of information about the respiration pattern of the user, wherein the trunk of the respiration trainer includes a respiratory exhaust infusion section or a respiratory / Wherein the vibrating portion has a conical portion at one side thereof and the conical tip portion serving as a vertex of the conical portion is in contact with the vibrating portion receiving contact portion provided on the body portion as the vibrating portion vibrates The body of the respiratory trainer depends on whether it is in contact with the vibrating pedestal contact part It characterized by comprising a vibration detector for detecting a vibration signal by the call.

According to another aspect of the present invention, there is provided a breathing apparatus including a respiratory exhaust control unit disposed between a respiratory-exhaust infusion unit and a body, a respiratory-exhaust control unit including a respiratory- The ventilation exhaust control hole is formed in an arcuate through-hole so as to have a body plate at one end of the body, a through hole formed by the semicircular membrane of the body cover, , And the degree of air resistance at the time of respiratory exhaust is adjusted according to the degree of overlapping.

According to another aspect of the present invention, there is provided a respiratory / air-conditioning apparatus including a respiratory-inspiratory control unit disposed between a respiratory-air-intake unit and a body, a respiratory-inspiratory control unit having a through- The breathing air intake adjusting hole is an arcuate through-hole, and the body plate at one end of the body is provided with a through hole formed by the semicircular membrane of the body cover. And the degree of air resistance at the time of breath inspiration is adjusted according to the degree of overlap.

And an intermediate portion of the vibrating portion is engaged with the partition supporting jaw of the trunk portion.

The body of the respiration trainer is provided with a trunk part membrane in the middle, a partition supporting tuck is provided in the middle of the trunk part membrane, and a vibration supporting part of the vibration part is inserted into the through hole of the partition supporting jaw so that the partition supporting jaw and the vibration part are fastened .

The vibrating portion is further provided with a ring-shaped vibrating portion contact buffering portion on the other side thereof.

The upper surface of the breathing and exhausting control unit has a circular shape and a plurality of protrusions protruding at regular intervals are provided on the side surface of the breathing and exhausting control unit.

A breathing exhaust prevention valve is positioned between the body and the breathing air intake control unit. The breathing exhaust prevention valve is formed of a circular plate, and a central rod is provided at the center of the circular plate.

The central rod of the breathing exhaust prevention valve is inserted into the central ventilation of the respiratory air intake control unit and the central ventilation of the respiratory air intake unit, and the central rod of the central rod A circular plate fastening means is mounted at the end.

The breathing exhaust prevention valve is configured to push the circular plate of the breathing exhaust prevention valve backward by the air pressure in the body part while the breathing exhaust is applied, thereby blocking the breathing air intake adjusting opening of the breathing intake adjusting part.

According to the portable respiration trainer system and control method therefor of the present invention, a respiration measurement trainer capable of performing measurement and training of a user's respiratory airflow, and information about a training result and a respiration pattern of a user in cooperation with the respiration measurement trainer The smartphone detects the maximum expiration flow rate (FEF) and the maximum expiratory flow rate (PEF) of the user by the respiration amount related information from the respiration measurement trainer and automatically sets the target value of the breathing training in a customized manner And a dial type resistance adjusting portion is provided, so that the resistance can be adjusted more precisely.

So even beginners who do not have expertise can do the training that suits them.

1 is a use state diagram of the portable respiratory trainer system of the present invention.
Figure 2 shows the appearance of the portable respiratory trainer of the present invention.
Figure 3 is an exploded perspective view of the portable respiratory trainer of Figure 2;
Fig. 4 shows the respiratory-tract infusion section of Fig.
Fig. 5 shows the breathing and air-conditioning part of Fig.
Fig. 6 shows the trunk portion of Fig. 3;
7 shows the vibrating portion of Fig.
8 shows the body cover of Fig.
Fig. 9 shows the breathing air exhaust preventing valve of Fig. 3; Fig.
Fig. 10 shows the respiratory-inspiratory regulator of Fig. 3;
Fig. 11 shows the respiratory-air-intake unit of Fig. 3;
FIG. 12 is a perspective view showing a case where the body cover and the vibration part are removed from the portable breathing trainer of FIG. 2; FIG.
FIG. 13 is a perspective view of the portable respiration trainer shown in FIG. 2 when the body cover is removed. FIG.
Figure 14 is a cross-sectional view of the portable respiratory trainer of Figure 2;
15 shows an example of a vibrating part and a respiratory inspiration part of the portable respiration trainer of the present invention.

Hereinafter, a portable respiration trainer system having a respiratory muscle strengthening training function and a control method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a use state diagram of the portable respiratory trainer system of the present invention.

The portable respiration trainer system of the present invention comprises a portable respiration trainer 100 and a smart device 500. The smart device 500 is a device installed in advance with a predetermined application program (app).

The smart device 500 presents a target value and the user places the mouthpiece portion of the portable respiratory trainer 100, that is, the respiratory or ventilation injection portion 112 or the breathing and air intake portion 132, The portable respiration trainer 100 transmits the breathing signal of the user to the smart device 500 in real time. The smart device 500 measures the maximum expiratory flow rate (FEF) and the maximum expiratory flow rate (PEF) of the user and provides them as a graph of flow-volume curves. And stores it in a memory unit (not shown) of the smart device 500.

The smart device 500 computes and sets the target repetition number, the maximum flow rate value, the flow velocity value, and the air flow resistance intensity using the user's respiration pattern, the maximum expiration flow rate (FEF), and the maximum expiratory flow rate (PEF).

That is, the respiration training is performed using the portable respiration trainer 100, and the values measured by the breathing training are transmitted to the smart device 500 through the Bluetooth transmission and installed in the Android-based application, do. Respiratory training dedicated apps are configured to run in Android apps for easy use in everyday life. Here, the smart device 500 refers to a personal portable terminal, and may be a smart phone, a notebook, a smart pad, or the like.

3 is an exploded perspective view of the portable respiration trainer of FIG. 2, FIG. 4 shows the breathing and venting injection unit of FIG. 3, and FIG. 5 is a cross-sectional view of the breathing and exhausting control unit of FIG. Fig. 6 shows the body portion of Fig. 3, Fig. 7 shows the vibrating portion of Fig. 3, Fig. 8 shows the body cover of Fig. 3, Fig. 9 shows the breathing exhaust prevention valve of Fig. Fig. 11 is a perspective view showing the respiratory air-intake unit of Fig. 3, Fig. 12 is a perspective view of the portable respiration trainer of Fig. 2 when the body cover and the vibration unit are removed, Fig. 14 is a sectional view of the portable respiration trainer of Fig. 2; Fig.

The portable respiration trainer 100 is formed in a cylindrical shape and includes a breathing and exhausting injecting unit 110, a respiratory exhaust adjusting unit 120, a body 150, a body cover 160, a vibrating unit 170, A reverse antireflection valve 180, a breathing air intake control unit 200, and a respiratory air intake unit 210.

The breathing and exhausting injecting unit 110 is a means for training breathing during breathing. The breathing and injecting unit 110 may be referred to as a breathing mouthpiece unit. The breathing and injecting unit 110 includes a breathing mouthpiece unit 112, The ventilation ventilation hole 105 is provided inside the vent mouthpiece portion 112, that is, inside the ventilation ventilation injection portion 110. The breathing and exhaust adjusting mouth support portion 115 is provided under the breathing air mouthrest portion 112 to fix the position of the first air resistance adjusting portion 120, And a body insertion portion 117 is provided below the breathing and air-conditioning portion insertion portion 116. The body-

The respiratory-exhaust-controlling-part supporting jaw 115 is a ring-shaped jaw having a larger radius than the respiratory-exhaust-controlling-part inserting portion 116 or the respiratory-exhausting ventilation hole 105.

The respiratory / exhaust control part insertion part 116 is formed in a cylindrical shape with one side thereof being broken (toe-in) and forming a step with the respiratory-exhaust-controlling-part supporting step 115 and also with the body-inserting part 117. The outer radius of the respiratory-exhaust-controlling portion insertion portion 116 is larger than the outer radius of the trunk insertion portion 117. The inner diameter (inner radius) of the through-hole 125 for inserting the breathing and exhausting-injection portion is the same as the inner diameter of the breathing / exhausting-portion inserting portion 116. The breathing and exhaust adjusting part inserting part 116 is inserted into the breathing and exhausting part inserting through hole 125 of the breathing and exhaust adjusting part 120. The breathing and exhaust adjusting part inserting part 116 and the respiratory exhaust adjusting part supporting jaw 115 serve to make the breathing and exhaust adjusting part 120 rotatably mounted in the portable respiration training machine 100.

The trunk insertion portion 117 is inserted into the trunk through hole 154 of the trunk portion 150 and is fixed by the trunk insertion portion fixing tangs 147 so that the trunk portion 150 and the breathing exhaust injection portion 110 ).

The breathing and exhaust adjusting unit 120 is a means for adjusting the air resistance at the time of breathing exhaust. The upper surface 121 of the breathing and exhaust adjusting unit has a circular shape, and the protrusion It is equipped with a large number and serves as a rotary knob (dial).

The upper surface 121 of the breathing and exhaust control unit has a through hole 125 for inserting a breathing and exhausting unit and a through hole 126 for controlling breathing and exhausting.

The vent hole 125 for inserting the breathing and exhausting portion is a hole for inserting the breathing and exhausting portion inserting portion 116 of the breathing and exhausting injecting portion 110. The through hole 125 is formed at one side along the edge of the breathing and exhausting portion upper surface 121 Circular, that is, a C-type aperture. The upper surface 121 of the breathing and exhausting control portion is formed with a circular opening formed in the vent hole 125 for inserting the breathing and exhausting portion, that is, one end of the breathing and exhausting portion inserting hole 125, Below the spacing portion 128 between the other end of the through hole 125 is provided a lower zone 127. The low zone 127 serves to prevent the rotation of the breathing / exhausting control unit 120 from being forced to continue to rotate while the breathing / exhausting unit insertion portion 116 is inserted into the breathing / exhausting unit insertion hole 125 .

The through hole 126 for controlling the breathing and exhausting is an arcuate through hole and a through hole formed by the torso plate 155 and the semicircular membrane 162 of the torso cover 160 at one end (i.e., left end) The degree of air resistance at the time of respiratory ventilation is adjusted according to the degree of overlapping with the air vent 140. That is, by rotating the breathing and exhaust adjusting part side surface 122, the degree of overlapping with the through hole is different, and thus the air flow can be controlled.

The trunk part 150 includes a cylindrical body housing part 151 having a partially broken shape and a trunk partitioning film 146 is provided on the inner side of the fracture part 140 of the trunk housing part 151, The body 140 is detachably attached to the body cover 160. The fracture portion 140 is engaged with the body cover 160 so that the body 150 has a cylindrical shape.

A body plate 155 is provided at the left and right ends of the trunk partition 146. Both ends of the trunk plate 155 are formed in an arc shape and the body plate 155 is fixed to the body cover 160 Thereby forming a through hole together with the semicircular film 162. The flow of air can be adjusted according to the degree of overlap of the breathing and exhaust adjusting holes 126 of the breathing and exhaust adjusting unit 120 in the through holes.

That is, the left and right ends of the body part 150 include a body part through hole 154 and a body part plate 155. The body part plate 155 is provided with a breathing exhaust adjusting through hole 126 and a breathing air intake adjusting hole 226 ) To regulate air resistance (i.e., air flow).

The trunk opening 154 is a portion into which the breathing and exhausting injecting unit 110 coupled with the breathing and exhausting controlling unit 120 is inserted and into which the trunking unit 117 is inserted or the breathing and exhausting controlling unit inserting unit 116 and the trunk insertion portion 117 are inserted.

The main body partition wall 146 has a partition support tab 152 at its center and a vibration support tab 172 of the vibration portion 170 is inserted into the through hole 153 of the partition support tab 152, The jaw 152 and the vibrating portion 170 are engaged and the vibration portion 170 is mounted in the body portion 150. [ At one side of the trunk partition membrane 146, there is a cylindrical vibrating portion support 157. The vibrating support 157 has a conical inner shape, that is, a conical portion 175 of the vibrating portion 170 can be inserted therein. The vibrating part receiving contact part 158 and the conical parting part 176 are brought into contact with each other at the center of the inner side of the vibrating part support 157 to detect the vibration or vibration frequency, And the portable respiration trainer operation processing unit transmits this to the smart device 500. [

A plurality of (for example, four) torso engaging portions 159 are provided on the breakage portion 140 of the torso portion 150 and are engaged with and engaged with the cover engaging portion 169 of the torso cover 160 The body part 150 and the body part cover 160 are coupled and fastened.

The vibrating part 170 is a rectangular plate having a conical part 175 on one side and a vibrating part contact buffer 173 on the other side.

The conical tip portion 176 which is a vertex of the conical tip portion 175 gradually decreases in radius as the vibrating portion 170 vibrates and the vibrating portion receiving contact portion 158 So as to detect the vibration or vibration frequency.

The vibrating portion contact buffering portion 173 has a certain distance from the body covering portion 160 so that the vibrating portion 170 does not come into contact with the inside of the body covering portion 160 as the vibrating portion 170 vibrates (Or a cylindrical shape) as a means for allowing a user to make a sound.

That is, the body portion 150 includes a vibration detecting portion (not shown) that detects a vibration signal by a signal depending on whether the conical tip portion 176 is in contact with the vibrating portion receiving contact portion, To an operation processing unit (not shown)

The body cover 160 is engaged with the body housing part 151 having the breakage part 140 of the body 150, that is, the breakage part 140, 140, respectively. The body cover 160 has a plurality of (for example, four) cover fastening portions 169, and these cover fastening portions 169 are engaged with the body fastening portions 159.

The trunk cover 160 has a semicylindrical shape, and both ends of the trunk cover 160 have a semi-circular film 162. The semicircular membrane 162 forms a through hole at the left end and the right end of the body 150 together with the body plate 155. The semicylindrical membrane 162 and the breathing exhaust control through hole 126 or the breathing air intake control hole 226, And adjusts the air resistance (i.e., air flow) according to the degree of overlap.

The breathing exhaust prevention valve 180 is located between the body 150 and the breathing air intake control part 200 and is provided with a breathing air intake control hole 226 of the breathing air intake control part 200 And a central rod 185 is provided at the center of the circular plate 181. A circular plate 185 serving as a stopper is provided at the end of the central rod 185 Means 186 are mounted.

The central rod 185 is attached to the central opening 227 of the respiratory-inspiratory-control unit and the central air hole 227 of the respiratory-air intake control unit 200, After being inserted into the central through hole 217, a circular plate fastening means 186 is mounted at the end of the central rod 185. The length of the central rod 185 is larger than the distance from the respiratory-air-intake unit 210 to the respiratory-air intake controller 200. Thus, while the breathing exhaust is not applied, since the circular plate 181, that is, the breathing exhaust prevention valve 180, does not block the breathing air intake control opening 226 of the breathing air intake control part 200, the airflow is free . However, during respiratory ventilation, the circular plate 181 is pushed backward by the air pressure in the chamber formed by the body 182, more specifically the fracture portion 140, so that the respiratory / Thereby blocking the through hole 226. In some cases, a sensor for detecting the flow rate or the flow rate of air may be further mounted on the breathing exhaust emission control valve 180.

The breathing inspiration control unit 200 is a means for controlling the air resistance at the time of breathing. The inner bottom surface 221 of the respiratory inspiration control unit is circular, and the protrusions Which serves as a rotary knob (dial).

The respiratory-inspiratory control unit inner bottom surface 221 is provided with a respiratory-air intake control unit central aperture 227, a respiratory-air-intake-portion insertion aperture 225, and a respiratory-air intake adjustment aperture 226.

When the respiratory / air intake control unit 200 is mounted on the respiratory air intake unit 210, the respiratory / air intake control unit insertion unit 216 is inserted into the respiratory / The breathing and air intake control unit 200 is mounted on the respiratory air intake unit 210 while the bottom surface 223 of the respiratory air intake unit 210 meets the ring-shaped jaw 213 of the respiratory air intake unit 210.

The respiratory-inspiratory-control-unit central through-hole 227 is a through-hole through which the central rod 185 of the respiratory-exhaust-airtight prevention valve 180 is inserted.

The respiratory / insufficiency injection portion insertion hole 225 is a through hole for inserting the respiratory / air intake control portion insertion portion 216 of the respiratory air intake portion 210. The through hole 225 is formed with one side along the edge of the upper surface 221 of the respiratory / Circular, that is, a C-type aperture.

The through-hole 226 for controlling breathing and air intake is an arcuate through-hole and is formed at one end (i.e., the right end) of the body 150 by a through-hole formed by the body plate 155 and the semicircular membrane 162 of the body cover 160 The degree of air resistance at the time of breath inspiration is adjusted in accordance with the degree of overlapping with the air intake passage 140. That is, by rotating the breathing air intake control side wall 222, the degree of overlapping with the through hole is different, and thus the air flow can be controlled.

The breathing and insufflation injecting unit 210 is a means for training breathing during breathing and may be referred to as an intake training mouthpiece unit and includes a cylindrical breathing mouthpiece unit 216 having a ring- And a breathing and air-sucking portion circular membrane 215 is disposed on an inner bottom surface of the breathing air inlet mouthpiece portion 212. The breathing and air-inserting portion circular membrane 215 is provided with an arc- , And a central through hole (217) of the respiratory-air intake unit. Here, the central vent hole 217 of the respiratory-air intake unit is a through-hole for inserting the central rod 185 of the respiratory-exhaust-air prevention valve 180 together with the central vent hole 227 of the respiratory-

Below the breathing air intake mouthpiece 212, that is, below the breathing air intake part circular membrane 215, a breathing air intake adjusting part inserting part 216 is provided. The breath inserting room inserting part 216 And a body insertion portion 217 at the bottom.

The respiratory / air intake control part insertion part 216 is formed in a cylindrical shape with one side being broken (toe) and has the same radius as the respiratory-air-intake part circular film 215 and has a step with the body insertion part 217.

The respiratory / air intake control portion insertion portion 216 is inserted into the respiratory-air-intake portion insertion hole 225 of the respiratory-air intake control portion 200. The bottom surface 223 of the respiratory-inspiratory-control-part side wall 222 is inserted into the respiratory-air-intake-port insertion hole 225, The breathing and air-intake control unit 200 is mounted on the breathing and air-intake unit 210. In this way, the breathing and air intake control unit 200 is rotatably mounted on the portable respiration training machine 100.

The trunk insertion part 217 is inserted into the trunk through hole 154 of the trunk part 150 and is fixed by the trunk insertion part fixing step 147 of the trunk part 150, The breathing and air-sucking injection unit 210 is engaged and fixed.

15 shows an example of a vibrating part and a respiratory inspiration part of the portable respiration trainer of the present invention.

15 (a) is a state in which the respiratory / ventilating injection unit 110, the respiratory / exhaust control unit 120 and the body part 150 are connected. FIG. 15 (b) shows a state in which the respiratory / The injection unit 210 is connected.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only by the appended claims, and all equivalent or equivalent variations thereof are included in the scope of the present invention.

100: Portable breathing trainer 110: Breathing exhaust injection unit
120: respiratory / exhaust control unit 150: body
160: body cover 170:
180: respiratory exhaust ventilation prevention valve 200: respiratory air intake control part
210: breathing and air inlet unit 500: smart device 500

Claims (14)

A respiration trainer for performing respiratory muscle strengthening training with a respiratory exhaust infusion section at one end and a respiratory inspiratory infusion section at the other end and a body section for measuring a user respiratory flow signal; 1. A portable respiratory trainer system including a smartphone for outputting a graph and a numerical value of information about a pattern,
The trunk portion of the respiratory trainer has a vibrating portion that is vibrated by the air introduced from the breathing exhaust infusion portion or the breathing air intake portion,
Wherein the vibrating portion includes a conical portion at one side thereof and the conical tip portion serving as a vertex of the conical portion is brought into contact with the vibrating portion receiving contact portion provided on the body portion as the vibrating portion vibrates,
Wherein the body part of the respiration trainer comprises a vibration detection part for detecting a vibration signal by a signal depending on whether or not the vibration receiving part is in contact with the vibration receiving part of the vibration receiving part. A respiration trainer for performing respiratory muscle strengthening training with a respiratory exhaust infusion section at one end and a respiratory inspiratory infusion section at the other end and a body section for measuring a user respiratory flow signal; 1. A portable respiratory trainer system including a smartphone for outputting a graph and a numerical value of information about a pattern,
A respiratory exhaust control unit is located between the breathing / exhausting unit and the body,
The breathing and exhaust control unit is provided with a through hole for inserting a breathing and inserting portion and a through hole for controlling breathing on a top surface of the breathing and exhausting control portion and a body portion of the breathing and exhausting portion is inserted into the through hole for inserting the breathing and exhausting portion.
The breathing and exhausting control through-hole is an arcuate through-hole, and the degree of air resistance at the time of respiratory exhaust is adjusted according to the degree of superimposition of the body plate at one end of the body and the through holes formed by the semi- Features a portable breathing trainer system. A respiration trainer for performing respiratory muscle strengthening training with a respiratory exhaust infusion section at one end and a respiratory inspiratory infusion section at the other end and a body section for measuring a user respiratory flow signal; 1. A portable respiratory trainer system including a smartphone for outputting a graph and a numerical value of information about a pattern,
A breathing air intake control unit is located between the breathing air intake unit and the body,
The breathing inspiration control unit includes a ventilation hole for inserting a breathing air intake portion and a ventilation hole for controlling breathing intake on the inner bottom surface of the respiratory air intake control portion and a body portion of the breathing air intake portion is inserted into the ventilation hole for inserting the breathing air intake portion.
The through-hole for adjusting respiratory suction is an arcuate through-hole, and the degree of air resistance at the time of breath inspiration is controlled in accordance with the degree of overlapping of the body plate at one end of the body and the through hole formed by the semi- Features a portable breathing trainer system. The method according to claim 1,
And an intermediate portion of the vibrating portion is coupled with a partitioning support jaw of the body portion. 5. The method of claim 4,
The body of the respiration trainer is provided with an interstice film in the middle,
Wherein the partition supporting jaw is provided in the middle of the trunk part membrane and the vibration supporting part of the vibration part is inserted into the through hole of the partition supporting jaw so that the partition supporting jaw and the vibration part are fastened. 6. The method of claim 5,
And a ring-shaped vibrating portion contact buffering portion is provided on the other side of the vibrating portion. 6. The method of claim 5,
A respiratory exhaust control unit is located between the breathing / exhausting unit and the body,
A vent hole for inserting a breathing and exhausting unit and a vent hole for controlling breathing are provided on an upper surface of the breathing and exhausting control unit,
Wherein a part of the body of the breathing and exhausting injection unit is inserted into the through hole for inserting the breathing and exhausting part. 8. The method of claim 7,
Wherein the upper surface of the breathing and exhausting control unit has a circular shape and a plurality of protrusions protruding at regular intervals are formed on the side surface of the breathing and exhausting control unit. 9. The method of claim 8,
Characterized in that the ventilation exhaust control hole is an arcuate through hole and adjusts the degree of air resistance at the time of respiratory exhaust according to the degree of overlapping with the through hole formed by the body plate at one end of the body and the semi- Portable breathing trainer system. 8. The method of claim 7,
A breathing air intake control unit is located between the breathing air intake unit and the body,
The respiratory / air intake control unit includes a ventilation hole for inserting a respiratory / air-intake unit and a ventilation / breathing air-adjustment hole in an inner bottom surface of the respiratory-inspiration control unit. Portable breathing trainer system. 11. The method of claim 10,
The through-hole for adjusting respiratory suction is an arcuate through-hole, and the degree of air resistance at the time of breath inspiration is controlled in accordance with the degree of overlapping of the body plate at one end of the body and the through hole formed by the semi- Features a portable breathing trainer system. 12. The method according to any one of claims 3 to 11,
A breathing air exhaust preventing valve is positioned between the body and the breathing air adjusting portion,
Wherein the breathing exhaust prevention valve is formed of a circular plate, and a central rod is provided at the center of the circular plate. 13. The method of claim 12,
A respiratory exhaust prevention valve is mounted on a respiratory inspiratory control unit associated with the respiratory air intake unit,
Wherein the central rod of the breathing air venting prevention valve is configured to be inserted into the central vent hole of the respiratory inspiratory control part and the central vent hole of the respiratory air introductory part, and then the circular plate securing means is mounted at the end of the central rod. 14. The method of claim 13,
Wherein the breathing exhaust prevention valve is configured to push the circular plate of the breathing exhaust prevention valve backward by the air pressure in the body portion while the breathing exhaust is applied so as to close the breathing air intake adjusting opening of the breathing intake adjusting portion .

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