CN111840933A

CN111840933A - Breathe and temper device for lung function recovery

Info

Publication number: CN111840933A
Application number: CN202010778519.8A
Authority: CN
Inventors: 王至婉; 桂吟哲; 李海霞; 周素贞; 夏利敏; 王艳红
Original assignee: First Affiliated Hospital of Henan University of TCM
Current assignee: First Affiliated Hospital of Henan University of TCM
Priority date: 2020-08-05
Filing date: 2020-08-05
Publication date: 2020-10-30
Anticipated expiration: 2040-08-05
Also published as: CN111840933B

Abstract

The invention provides a respiratory exercise device for recovering lung function, which comprises an air blowing nozzle; a first housing; the pneumatic knocking device is arranged in the first shell and fixedly connected with the inner wall of the first shell, the pneumatic knocking device is communicated with the penetrating end of the first transverse pipe, the non-penetrating end of the first transverse pipe is connected with the blowing nozzle, and the first transverse pipe is provided with a one-way valve; the pressure sensing layer is arranged on the inner wall of the first shell; the telescopic device is arranged in the first shell and comprises a first telescopic rod, and the first telescopic rod is positioned below the pneumatic knocking device; the second telescopic rod is obliquely arranged in the first shell, the high end of the second telescopic rod is hinged to the top of the first telescopic rod, and the low end of the second telescopic rod is hinged to the pressure sensing layer; the controller is arranged on the outer wall of the first shell and is electrically connected with the pressure sensing layer; the breathing exercise device for recovering the lung function, provided by the invention, not only exercises the breathing function of a patient, but also improves the interestingness.

Description

Breathe and temper device for lung function recovery

Technical Field

The invention relates to the technical field of respiratory training equipment, in particular to a respiratory exercise device for lung function recovery.

Background

Because the respiratory system diseases can cause different degrees of damage to the lung, which leads to the reduction of the lung function, in the clinical treatment, in order to better improve the illness state of patients with chronic bronchitis and emphysema and delay the development process of the diseases, the conventional treatment and the auxiliary rehabilitation exercise of the lung function are required.

The conventional breathing exercise device is mainly a noninvasive treatment method for exercising the breathing function of an air blowing balloon, the method is characterized in that air is blown into the balloon through an air blowing pipe, the expansion degree of the balloon is detected, and a preset training effect is achieved.

Disclosure of Invention

An object of the present invention is to provide a respiratory exercise apparatus for recovering lung function, which solves the problems set forth in the background art described above.

The invention provides a respiratory exercise device for restoring lung function, which comprises

A blowing nozzle;

a first housing;

the pneumatic knocking device is arranged in the first shell and fixedly connected with the inner wall of the first shell, the pneumatic knocking device is communicated with a penetrating end of a first transverse pipe penetrating into the first shell, a non-penetrating end of the first transverse pipe is connected with the blowing nozzle, and the first transverse pipe is provided with a one-way valve;

the pressure sensing layer is arranged on the inner wall of the first shell;

a telescopic device arranged in the first shell and comprising

The first telescopic rod is positioned below the pneumatic knocking device and can move downwards along the longitudinal direction under the knocking of the pneumatic knocking device;

the second telescopic rod is obliquely arranged in the first shell, the high end of the second telescopic rod is hinged to the top of the first telescopic rod, and the low end of the second telescopic rod is hinged to the pressure sensing layer;

the controller is arranged on the outer wall of the first shell and is electrically connected with the pressure sensing layer;

the lamp strip is arranged on the peripheral wall of the first shell and electrically connected with the controller, and the controller, the lamp strip and the pressure sensing layer are all electrically connected with the power supply.

Preferably, the first telescopic rod comprises

A first sleeve;

the second sleeve is sleeved inside the first sleeve and is connected with the first sleeve in a sliding mode, a fixed cover is fixed to the top end of the first sleeve, a ball body capable of being in contact with the pneumatic knocking device is arranged in the fixed cover and is made of light plastics, the bottom end of the second sleeve is fixed to the inner wall of the first shell, at least one first spring is further arranged in the first sleeve and the second sleeve, the top end of the first spring is fixedly connected with the bottom of the fixed cover, and the bottom end of the first spring is fixed to the inner bottom wall of the first shell.

Preferably, the second telescopic rod comprises

A third sleeve;

the fourth sleeve is sleeved inside the third sleeve and is in sliding connection with the second sleeve, the top of the third sleeve is hinged to the first sleeve, the bottom of the fourth sleeve is hinged to the pressure sensing layer, at least one second spring is arranged in the third sleeve and the fourth sleeve, one end of the second spring is fixedly connected with the third sleeve, and the other end of the second spring is connected with the pressure sensing layer.

Preferably, the pneumatic knocking device comprises

The top of the second shell is connected with the inner wall of the first shell, the bottom of the second shell is provided with an opening, and the second shell is communicated with one end, penetrating into the first shell along the horizontal direction, of the first hose;

and the pneumatic knocking hammer is connected with the inner side wall of the second shell in a sliding manner and can penetrate out of the opening, at least one third spring is arranged at the top of the pneumatic knocking hammer, one end of the third spring is connected with the inner wall of the second shell, and the other end of the third spring is connected with the top of the pneumatic knocking hammer.

Preferably, a counter is further disposed on the first housing, the counter is electrically connected to the controller, and the counter is electrically connected to the power supply.

Preferably, the first shell is further connected with a second transverse pipe, and the second transverse pipe is provided with an air bag.

Preferably, the air blowing nozzle is provided with an elastic belt.

Preferably, the first shell is further provided with an air release pipe with a valve.

Preferably, the pressure sensing layer is formed by connecting a plurality of pressure sensors in parallel.

Preferably, the lamp strip is an LED lamp.

The invention has the beneficial effects that:

compared with the prior art, the respiratory exercise device for recovering the lung function can improve the interest of respiratory exercise, reduce boring or dislike emotion of a patient, enable the patient to realize comparison of each training effect through the visual effect of the light emitting frequency of the lamp band within a certain time, enhance the training confidence of the patient, enable the patient to exercise voluntarily, enable the training device to realize the training of lung muscles by arranging the controller, the lamp band, the pressure sensing layer, the telescopic device, the pneumatic knocking device and the counter, respectively close the valves on the second transverse pipe and the air release pipe during training, enable a person to be trained to hold the breathing mouth in the mouth to blow air into the breathing mouth, enable the air to enter the pneumatic knocking device from the first transverse pipe, and rapidly increase the air pressure in the second shell under the premise of unchanged volume of the second shell of the pneumatic knocking device, therefore, the pneumatic knocking hammer penetrates out of the opening to knock on the ball body arranged at the top of the first telescopic rod in the telescopic device, so that the first telescopic rod moves downwards along the longitudinal direction under the impact of the knocking hammer, the high end of the second telescopic rod is hinged at the top of the first telescopic rod, and the bottom end of the second telescopic rod is hinged on the pressure sensing layer, so that when the first telescopic rod moves downwards under stress, the length of the second telescopic rod hinged on the first telescopic rod changes, at the moment, the spring in the second telescopic rod can extrude the pressure sensing layer, as the pressure sensing layer is formed by connecting a plurality of pressure sensors in parallel, the pressure signals of the sensing layer can be averaged, the controller senses the pressure signals and starts the lamp strip and the counter, the telescopic device extrudes the pressure sensing layer on the inner wall of the first shell once, the lamp strip can be lightened once, and the counter counts once, so that a patient can be in a specified time period, the count through the lamp is bright with the counter judge oneself last time with score this, thereby from obtaining joyful sense, the interest has been increased, be favorable to patient rehabilitation, take exercise and once need open the valve on the gas release pipe and exhaust, make and breathe this internal atmospheric pressure the same with atmospheric pressure, close the valve on the gas release pipe again and carry out the secondary training, when breathing intensity training, open the valve on the second hose, close the gas release pipe valve, when blowing through exhaling the suction nozzle, gas can finally and then in the gasbag, when blowing to the certain degree, make the body pressure boost of breathing through the extrusion gasbag, improve the degree of difficulty of blowing, be favorable to taking exercise breathing intensity.

Drawings

Fig. 1 is a schematic perspective view of a respiratory exercise apparatus for recovering lung function;

fig. 2 is a sectional view of a respiratory exercise apparatus for restoring lung function;

FIG. 3 is a schematic view of a pneumatic percussive apparatus of a respiratory exercise apparatus for restoring lung function;

fig. 4 is a schematic view of a telescopic device of the respiratory exercise apparatus for lung function recovery;

FIG. 5 is a cross-sectional view of a first telescoping rod of a respiratory exercise device for lung function recovery;

FIG. 6 is a cross-sectional view of a second telescoping rod of the respiratory exercise device for pulmonary function recovery;

fig. 7 is a circuit connection diagram of a respiratory exercise apparatus for restoring lung function.

Description of reference numerals:

1. the pneumatic percussion hammer comprises a breathing nozzle, 2 parts of a first shell, 3 parts of a first transverse pipe, 4 parts of a pneumatic percussion device, 4-1 parts of a second shell, 4-2 parts of a pneumatic percussion hammer, 4-3 parts of a third spring, 5 parts of a pressure sensing layer, 6 parts of a telescopic device, 6-1 parts of a first telescopic rod, 6-11 parts of a first sleeve, 6-12 parts of a second sleeve, 6-13 parts of a fixed cover, 6-14 parts of a sphere, 6-15 parts of a first spring, 6-2 parts of a second telescopic rod, 6-21 parts of a third sleeve, 6-22 parts of a fourth sleeve, 6-23 parts of a second spring, 7 parts of a controller, 8 parts of a lamp strip, 9 parts of a counter, 10 parts of a second transverse pipe, 11 parts of an air bag and 12 parts of an air release pipe.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

Examples

As shown in FIGS. 1 to 7, an embodiment of the present invention provides a respiratory exercise apparatus for restoring lung function, including

An air blowing nozzle 1;

a first housing 2;

the pneumatic knocking device 4 is arranged in the first shell 2 and fixedly connected with the inner wall of the first shell 2, the pneumatic knocking device 4 is communicated with a penetrating end of a first transverse pipe 3 penetrating into the first shell 2, a non-penetrating end of the first transverse pipe 3 is connected with the air blowing nozzle 1, and a one-way valve is arranged on the first transverse pipe 3;

the pressure sensing layer 5 is arranged on the inner wall of the first shell 2;

a telescopic device 6 arranged in the first casing 2, comprising

The first telescopic rod 6-1 is positioned below the pneumatic knocking device 4, and the first telescopic rod 6-1 can move downwards along the longitudinal direction under the knocking of the pneumatic knocking device 4;

the second telescopic rod 6-2 is obliquely arranged in the first shell 2, the high end of the second telescopic rod 6-2 is hinged to the top of the first telescopic rod 6-1, and the low end of the second telescopic rod 6-2 is hinged to the pressure sensing layer 5;

the controller 7 is arranged on the outer wall of the first shell 2 and is electrically connected with the pressure sensing layer 5;

the lamp area 8 is established on the periphery wall of first casing 2, lamp area 8 is connected with controller 7 electricity, and controller 7, lamp area 8 and pressure sensing layer 5 all are connected with the power electricity.

In the embodiment, in order to solve the problems that the breathing exercise device in the prior art is not interesting and easily causes boring or feeling of opposition to a patient, when the breathing exercise training is carried out by using the breathing exercise training device, firstly, the first shell 2 is exhausted, the air blowing nozzle 1 is contained in the mouth of an exerciser after the exhaust, then the exerciser deeply sucks a breath to blow the air blowing nozzle 1, the air is sent into the pneumatic knocking device 4 through the first transverse pipe 3, the pneumatic knocking device 4 can hit the first telescopic rod 6-1 in the telescopic device 6 positioned below the pneumatic knocking device 4, the first telescopic rod 6-1 can displace downwards along the rod length direction of the first telescopic rod 6-1 after being stressed, and further, the length of the second telescopic rod 6-2 hinged on the first telescopic rod 6-1 is driven to change, and at the moment, the second telescopic rod can extrude the pressure sensing layer 5, pressure sensing layer 5 atress surpasss the pressure value of setting for on the controller 7, and lamp area 8 can be opened to controller 7, and lamp area 8 takes place brightly to can judge patient's lung and temper the effect, thereby the interest when improving the lung training is favorable to patient's initiative cooperation lung to be taken exercise.

Wherein, the invention provides a specific structure of the first telescopic rod 6-1, and the first telescopic rod 6-1 comprises

A first sleeve 6-11;

a second sleeve 6-12, the second sleeve 6-12 is sleeved inside the first sleeve 6-11, the second sleeve 6-12 is connected with the first sleeve 6-11 in a sliding way, the top end of the first sleeve 6-11 is fixed with a fixed cover 6-13, a ball body 6-14 which can be contacted with the pneumatic knocking device 4 is arranged in the fixed cover 6-13, the ball body 6-14 is made of light plastic, the bottom end of the second sleeve 6-12 is fixed on the inner wall of the first shell 2, at least one first spring 6-15 is also arranged in the first sleeve 6-11 and the second sleeve 6-12, the top end of the first spring 6-15 is fixedly connected with the bottom of the fixed cover 6-13, and the bottom end of the first spring 6-15 is fixed on the inner bottom wall of the first shell 2. When the pneumatic knocking device 4 knocks on the ball 6-14, the first sleeve 6-11 moves downwards along the length of the second tube 6-12, wherein the first spring 6-15 is arranged in the first sleeve 6-11 and the second tube 6-12 in order to restore the first sleeve 6-11 when the first sleeve 6-11 is not stressed.

Wherein, the invention provides a specific structure of the second telescopic rod 6-2, and the second telescopic rod 6-2 comprises

A third sleeve 6-21;

the fourth sleeve 6-22 is sleeved inside the third sleeve 6-21, the fourth sleeve 6-22 is connected with the second sleeve 6-21 in a sliding mode, the top of the third sleeve 6-21 is hinged to the first sleeve 6-11, the bottom of the fourth sleeve 6-22 is hinged to the pressure sensing layer 5, at least one second spring 6-23 is arranged in the third sleeve 6-21 and the fourth sleeve 6-22, one end of the second spring 6-23 is fixedly connected with the third sleeve 6-21, and the other end of the second spring 6-23 is connected with the pressure sensing layer 5. When the first sleeve 6-11 moves downwards along the length direction of the second pipe body 6-12, the length of the second telescopic rod 6-2 hinged to the first sleeve 6-11 changes, at this time, the third sleeve 6-21 moves along the length direction of the fourth sleeve 6-22, the second spring 6-23 arranged in the third sleeve 6-21 and the fourth sleeve 6-22 contracts, at this time, the force of the third spring 6-23 recovering deformation can extrude the pressure sensing layer 5, and the second spring 6-23 is arranged in the third sleeve 6-21 and the fourth sleeve 6-22 for the purpose of restoring the third sleeve 6-21.

Wherein, the invention provides a concrete structure of the pneumatic knocking device 4, and the pneumatic knocking device 4 comprises

The top of the second shell 4-1 is connected with the inner wall of the first shell 2, the bottom of the second shell is provided with an opening, and the second shell 4-1 is communicated with one end of the first hose 3 which penetrates into the first shell 2 along the horizontal direction;

the pneumatic knocking hammer 4-2 is connected with the inner side wall of the second shell 4-1 in a sliding mode and can penetrate through the opening, at least one third spring 4-3 is arranged at the top of the pneumatic knocking hammer 4-2, one end of the third spring 4-3 is connected with the inner wall of the second shell 4-1, and the other end of the third spring 4-3 is connected with the top of the pneumatic knocking hammer 4-3. When the pneumatic knocking hammer is used, air enters the second shell 4-1 along the first transverse pipe 3, the volume of the second shell 4-1 is unchanged, and when the air is increased, the pneumatic knocking hammer 4-2 in sliding connection with the inner wall of the second shell 4-1 penetrates through the opening and knocks a ball 6-14 positioned below the second shell 4-1.

Wherein, in order to further improve the interest of breathing exercise device, through setting up counter 9 of being connected with controller 7 electricity, when lamp area 8 was opened, counter 9 also can be opened under controller 7's control, and the number of times of opening of record lamp area 7 can be through in certain time span, to 9 count numbers of times of counter last and this contrast, judge the effect of its lung exercise, still be equipped with counter 9 on the first casing 2, counter 9 is connected with controller 7 electricity, just counter 9 is connected with the power electricity.

In order to further increase the difficulty of lung exercise, a valve on the second transverse tube 10 can be opened when blowing up, the gas blown last time can be stored in the air bag, at this time, the first shell 2 does not need to be exhausted, at this time, the air bag 11 is pressed by hands when blowing up for the second time, so that the gas in the air bag 11 enters the first shell 2, and the pressure in the first shell 2 is increased; the first shell 2 is further connected with a second transverse tube 10, and an air bag 11 is arranged on the second transverse tube 10.

Wherein, the air blowing nozzle 1 is provided with an elastic belt for better fixing the air blowing nozzle 1.

Wherein, the first shell 2 is also provided with a gas release pipe 12 with a valve for exhausting gas to the first shell 2.

Wherein, the pressure sensing layer 5 is formed by connecting a plurality of pressure sensors in parallel.

Wherein the lamp strip 8 is an LED lamp.

The above disclosure is only for the preferred embodiments of the present invention, but the embodiments of the present invention are not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims

1. A respiratory exercise device for restoring lung function, comprising

An air blowing nozzle (1);

a first housing (2);

the pneumatic knocking device (4) is arranged in the first shell (2) and fixedly connected with the inner wall of the first shell (2), the pneumatic knocking device (4) is communicated with a penetrating end of a first transverse pipe (3) penetrating into the first shell (2), a non-penetrating end of the first transverse pipe (3) is connected with the air blowing nozzle (1), and a one-way valve is arranged on the first transverse pipe (3);

the pressure sensing layer (5) is arranged on the inner wall of the first shell (2);

a telescopic device (6) arranged in the first shell (2) and comprising

The first telescopic rod (6-1) is positioned below the pneumatic knocking device (4), and the first telescopic rod (6-1) can move downwards along the longitudinal direction under the knocking of the pneumatic knocking device (4);

the second telescopic rod (6-2) is obliquely arranged in the first shell (2), the high end of the second telescopic rod (6-2) is hinged to the top of the first telescopic rod (6-1), and the low end of the second telescopic rod (6-2) is hinged to the pressure sensing layer (5);

the controller (7) is arranged on the outer wall of the first shell (2) and is electrically connected with the pressure sensing layer (5);

the lamp strip (8) is arranged on the peripheral wall of the first shell (2), the lamp strip (8) is electrically connected with the controller (7), and the controller (7), the lamp strip (8) and the pressure sensing layer (5) are electrically connected with the power supply.

2. The respiratory exercise device for recovering pulmonary function of claim 1,

the first telescopic rod (6-1) comprises

A first sleeve (6-11);

the second sleeve (6-12) is sleeved inside the first sleeve (6-11), the second sleeve (6-12) is connected with the first sleeve (6-11) in a sliding mode, a fixed cover (6-13) is fixed at the top end of the first sleeve (6-11), a ball body (6-14) capable of being in contact with the pneumatic knocking device (4) is arranged in the fixed cover (6-13), the ball body (6-14) is made of light plastic, the bottom end of the second sleeve (6-12) is fixed on the inner wall of the first shell (2), at least one first spring (6-15) is further arranged in the first sleeve (6-11) and the second sleeve (6-12), and the top end of the first spring (6-15) is fixedly connected with the bottom of the fixed cover (6-13), the bottom end of the first spring (6-15) is fixed on the inner bottom wall of the first shell (2).

3. The respiratory exercise device for recovering pulmonary function of claim 2, wherein the second telescopic rod (6-2) comprises

A third sleeve (6-21);

the fourth sleeve (6-22) is sleeved inside the third sleeve (6-21), the fourth sleeve (6-22) is connected with the second sleeve (6-21) in a sliding mode, the top of the third sleeve (6-21) is hinged to the first sleeve (6-11), the bottom of the fourth sleeve (6-22) is hinged to the pressure sensing layer (5), at least one second spring (6-23) is arranged in the third sleeve (6-21) and the fourth sleeve (6-22), one end of the second spring (6-23) is fixedly connected with the third sleeve (6-21), and the other end of the second spring (6-23) is connected with the pressure sensing layer (5).

4. A respiratory exercise device for the recovery of pulmonary function according to claim 1, wherein the pneumatic knocking means (4) comprises

The top of the second shell (4-1) is connected with the inner wall of the first shell (2), the bottom of the second shell is provided with an opening, and the second shell (4-1) is communicated with one end, penetrating into the first shell (2) along the horizontal direction, of the first hose (3);

the pneumatic knocking hammer (4-2) is connected with the inner side wall of the second shell (4-1) in a sliding mode and can penetrate out of the opening, at least one third spring (4-3) is arranged at the top of the pneumatic knocking hammer (4-2), one end of the third spring (4-3) is connected with the inner wall of the second shell (4-1), and the other end of the third spring (4-3) is connected with the top of the pneumatic knocking hammer (4-3).

5. The respiratory exercise apparatus for restoring lung function according to claim 1, wherein the first housing (2) is further provided with a counter (9), the counter (9) is electrically connected to the controller (7), and the counter (9) is electrically connected to the power supply.

6. The respiratory exercise apparatus for restoring pulmonary function according to claim 1, wherein a second horizontal tube (10) is further connected to the first housing (2), and an air bag (11) is provided on the second horizontal tube (10).

7. The respiratory exercise apparatus for restoring lung function according to claim 1, wherein an elastic band is provided on the blowing nozzle (1).

8. The respiratory exercise apparatus for restoring pulmonary function of claim 1, wherein the first housing (2) is further provided with a valved air release tube (12).

9. The respiratory exercise device for recovering pulmonary function of claim 1, wherein the pressure sensing layer (5) is composed of a plurality of pressure sensors connected in parallel.

10. The respiratory exercise device for recovering pulmonary function of claim 1, wherein the light strip (8) is an LED lamp.