CN110960835A

CN110960835A - Intelligent breathing trainer and monitoring method thereof

Info

Publication number: CN110960835A
Application number: CN201911261977.8A
Authority: CN
Inventors: 施琴朗
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-04-07

Abstract

The invention discloses an intelligent breathing trainer and a monitoring method thereof, wherein the intelligent breathing trainer comprises an expiration damper drive plate, a connecting transverse pipe, a transition bottle, a primary gas cylinder, a secondary gas cylinder, a tertiary gas cylinder, a base, an inspiration damper drive plate, a corrugated pipe, a digital counter and a horn-shaped breathing port, wherein the transition bottle is communicated with the connecting transverse pipe through a transition bottle connecting vertical pipe; the transition bottle and the base are screwed together through a drive plate of the air suction damper; the transition cylinder, the primary gas cylinder, the secondary gas cylinder and the tertiary gas cylinder are communicated with the connecting transverse pipe and are fixedly placed on the base; the corrugated pipe is fixedly connected with one end of the digital counter, and the horn-shaped breathing port is inserted into the other end of the digital counter. Through the accurate count of digital counter, carry out scientific respiratory training, can reach high-efficient training and effectively treat cardiopulmonary disease's purpose.

Description

Intelligent breathing trainer and monitoring method thereof

Technical Field

The invention relates to the technical field of breathing training, in particular to an intelligent breathing training device and a monitoring method thereof.

Background

Because the cardiopulmonary function of a patient suffering from cardiopulmonary diseases is poor, certain obstacles exist during expiration and inspiration, and therefore, in order to train the cardiopulmonary function of the cardiopulmonary patient, the cardiopulmonary patient can obtain a better treatment effect, and can carry out targeted exercise in a recovery stage, the intelligent breathing training device for the cardiopulmonary function exercise is specially designed. The breathing training device usually used adopts an impedance training basic principle, a user drives a plastic ball body in the training device through the breathing action, targeted training is carried out according to a training method guided by a doctor, and a good training method usually needs to make a more reasonable and efficient training plan to be executed so as to achieve an expected training effect. However, the conventional breathing training device cannot accurately count the breathing frequency of the patient, so that the scientific training method has a poor training effect.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to provide an intelligent breathing training device and a monitoring method thereof, which effectively count the use frequency and times of a user by setting a digital counter, thereby scientifically and reasonably executing a cardiopulmonary function training plan and achieving the expected training effect.

In order to achieve the purpose, the technical scheme of the invention is as follows: an intelligent breathing trainer comprises an expiration damper drive plate (1), a connecting transverse pipe (3), a transition bottle connecting vertical pipe (9), a transition bottle (11), a primary connecting vertical pipe (4), a primary gas cylinder (10), a primary breathing ball (12), a secondary connecting vertical pipe (2), a secondary gas cylinder (18), a secondary breathing ball (16), a tertiary connecting vertical pipe (19), a tertiary gas cylinder (17), a tertiary breathing ball (15), a base (13), an inspiration damper drive plate (14), a corrugated pipe joint (5), a corrugated pipe (6), a digital counter (7) and a horn-shaped breathing opening (8), wherein the transition bottle (11) is communicated with the connecting transverse pipe (3) through the transition bottle connecting vertical pipe (9); the transition bottle (11) and the base (13) are screwed together through a suction damper driving plate (14); the primary gas bottle (10) is communicated with the connecting transverse pipe (3) through a primary connecting vertical pipe (4), and the primary breathing ball (12) is arranged in the primary gas bottle (10); the secondary gas bottle (18) is communicated with the connecting transverse pipe (3) through a secondary connecting vertical pipe (2), and the secondary breathing ball (16) is arranged in the secondary gas bottle (18); the three-stage gas cylinder (17) is communicated with the connecting transverse pipe (3) through a three-stage connecting vertical pipe (19), and the three-stage breathing ball (15) is arranged in the three-stage gas cylinder (17); the primary gas cylinder (10), the secondary gas cylinder (18), the tertiary gas cylinder (17) and the transition cylinder (11) are all arranged on the base (13); the drive plate (1) of the expiratory damper is screwed and fixed right above the connecting transverse pipe (3); one side of the connecting transverse pipe (3) is connected with one end of the corrugated pipe joint (5), one end of the corrugated pipe (6) is connected with the other end of the corrugated pipe joint (5) in an inserting mode, the other end of the corrugated pipe (6) is fixedly connected with one end of the digital counter (7), and the horn-shaped breathing port (8) is connected with the other end of the digital counter (7) in an inserting mode.

Further, set up digital display interface on a side of digital counter (7), including inhaling pilot lamp (29), the number of times of breathing in digital display tube (28), expiration pilot lamp (30), expiration number of times digital display tube (31), reset button (27), group number display tube (32) on the interface, inhale pilot lamp (29) and arrange in the top of the number of times of breathing in digital display tube (28), expiration pilot lamp (30) are arranged in the top of expiration number of times digital display tube (31), digital display tube's below sets up reset button (27) and group number display tube (32).

Furthermore, a bidirectional valve damping sheet I (22) and a bidirectional valve damping sheet II (25) are arranged in the digital counter (7) in the direction vertical to the corrugated pipe (6), the two-way valve damping piece I (22) and the two-way valve damping piece II (25) can be spliced into a complete circle in a static state, the two-way valve damping piece I (22) and the two-way valve damping piece II (25) can respectively deflect up and down around two end points of the diameter vertical to the splicing seams of the two damping pieces, in the digital counter (7), four contacts are arranged on the upper side and the lower side of the two-way valve damping piece I (22) and the two-way valve damping piece II (25), namely a contact I (20), a contact II (21), a contact III (23) and a contact IV (24), and gaps exist between the contacts and the damping pieces in the static state of the damping pieces.

Furthermore, a battery compartment (26) is arranged on one side surface of the digital counter (7) adjacent to the digital display interface.

Further, the edge of the expiration damper dial plate (1) is provided with a dial block I (33), a dial expiration hole (35) is formed in the expiration damper dial plate (1), the expiration damper dial plate (1) is internally provided with an expiration damper fixing plate (34), an expiration damper damping plate I (41), an expiration damper damping plate II (42) and an expiration filter screen (43) from top to bottom in sequence, five oval air outlets with different sizes are sequentially formed in the expiration damper fixing plate (34) along the circumferential direction, the first air outlet (36), the second air outlet (37), the third air outlet (38), the fourth air outlet (39) and the fifth air outlet (40) are respectively arranged from large to small, and the first air outlet (41) and the second air outlet (42) are one-way motion valves, the exhalation valve damper I (41) and the exhalation valve damper II (42) can be deflected upwards to open around two end points of the diameter which is vertical to the splicing seam of the two dampers.

Further, inhale attenuator driver plate (14) and install when the training ware is breathed to intelligence, dial block II (44) are installed the lower surface edge of inhaling attenuator driver plate (14), the lower surface of inhaling attenuator driver plate (14) sets up driver plate suction hole (46), the inside of inhaling attenuator driver plate (14), from the bottom up installs in proper order and inhales attenuator fixed disk (52), filter screen (45) of breathing in, inhales valve damping piece I (53), inhales valve damping piece II (54), inhale the oval venthole that five sizes are unequal sets gradually along the circumferencial direction on inhaling attenuator fixed disk (52), from big to small respectively for inhaling attenuator first grade venthole (47), inhaling attenuator second grade venthole (48), inhaling attenuator third grade venthole (49), aspirator fourth grade venthole (50), inhale attenuator fifth grade venthole (51), the air suction valve damping pieces I (53) and the air suction valve damping pieces II (54) are one-way motion valves and can be spliced into a complete circle in a static state, and the air suction valve damping pieces I (53) and the air suction valve damping pieces II (54) can be opened by upward deflection around two end points perpendicular to the diameter of a splicing seam of the two damping pieces.

The utility model provides a breathing training monitoring method of training ware is breathed to intelligence, when the user breathes the training as required, pegs graft the one end at digital counter with tubaeform breathing mouth, and the other end passes through the bellows and pegs graft on the bellows connector, adjusts as required and breathes damper driver plate and exhale the damper driver plate to breathe the training.

Further, when the training is started and the breathing training is required, a user blows air forcibly, then the air can reach the interiors of the primary air bottle, the secondary air bottle and the tertiary air bottle from the horn-shaped breathing port through the corrugated pipe, and first a primary breathing ball in the primary air bottle shakes and floats; when the air blowing is larger, the secondary respiratory ball in the secondary air cylinder vibrates and floats, and if the air blowing is larger, the tertiary respiratory ball in the tertiary air cylinder vibrates and floats; therefore, the blowing strength can be judged according to the flying condition of the first-stage breathing ball, the second-stage breathing ball and the third-stage breathing ball, and the air inlet and outlet amount can be adjusted by further adjusting the driving plate of the damper according to the training requirement, so that the expected training effect is achieved; the same principle is used for inspiration training.

Furthermore, the effect of scientific training is achieved by accurately counting the breathing times and the group number; when a user carries out respiratory training, the contact at a specific position is touched through opening and closing of the bidirectional valve, so that a counting switch of the digital counter is switched on, a seven-segment digital display tube corresponding to the breath or inhalation on a screen displays the number of the breath or inhalation, and corresponding breath or inhalation indicator lamps are simultaneously lightened, so that a preset training plan is scientifically and accurately finished; after training a group, carrying out reset operation, at the moment, resetting the breathing or inhaling display interface, and at the moment, accumulating a number upwards for the training group number; thereby accurately recording the number of uses of the user.

Furthermore, the transition bottle is filled with liquid medicine required for treating the heart and lung diseases, and the volatile gas of the liquid medicine is brought to the focus part through respiratory training.

Compared with the prior art, the invention has the beneficial effects that:

according to the intelligent breathing trainer and the monitoring method thereof, the digital counter is designed at the inlet of the breathing bellows, so that the breathing times of a user can be accurately counted, scientific and reasonable cardiopulmonary training can be performed in a targeted manner, and a good training effect is achieved.

Drawings

FIG. 1 is a block diagram of an intelligent breathing trainer;

FIG. 2 is an internal structure diagram of a digital counter of the intelligent breathing training device;

FIG. 3 is a perspective view of a digital counter of the intelligent breathing exercise device;

FIG. 4 is a diagram of a display interface for a digital counter of an intelligent breathing trainer;

FIG. 5 is a schematic view of an expiratory damper dial of an intelligent respiratory trainer;

FIG. 6 is a cross-sectional view of an expiratory damper dial of the intelligent respiratory trainer;

FIG. 7 is a schematic view of an exhalation valve of the intelligent breathing trainer;

FIG. 8 is a schematic view of an expiratory screen of an intelligent breathing trainer;

FIG. 9 is a schematic view of an inhalation damper dial of an intelligent respiratory trainer;

FIG. 10 is a cross-sectional view of an inhalation damper dial of an intelligent respiratory trainer;

FIG. 11 is a schematic view of an inspiratory valve of an intelligent respiratory trainer;

FIG. 12 is a schematic view of an inhalation screen of an intelligent breathing trainer;

the reference numbers in the figures are: 1 exhalation damper drive plate, 2 second-stage connection vertical tube, 3 connection horizontal tube, 4 first-stage connection vertical tube, 5 corrugated tube joint, 6 corrugated tube, 7 digital counter, 8 trumpet shaped breathing port, 9 transition bottle connection vertical tube, 10 first-stage gas cylinder, 11 transition bottle, 12 first-stage breathing ball, 13 base, 14 inhalation damper drive plate, 15 third-stage breathing ball, 16 second-stage breathing ball, 17 third-stage gas cylinder, 18 second-stage gas cylinder, 19 third-stage connection vertical tube, 20 contact I, 21 contact II, 22 two-way valve damping sheet I, 23 contact III, 24 contact IV, 25 two-way valve damping sheet II, 26 battery chamber, 27 reset button, 28 inhalation times digital display tube, 29 inhalation indicator lamp, 30 exhalation indicator lamp, 31 exhalation times digital display tube, 32 sets of display tubes, 33 drive block I, 34 exhalation damper fixed plate, 35 exhalation hole, 36 exhalation damper first-stage vent hole, 37 second-gear air outlet holes of an exhalation damper, 38 third-gear air outlet holes of an exhalation damper, 39 fourth-gear air outlet holes of an exhalation damper, 40 fifth-gear air outlet holes of an exhalation damper, 41 first-gear air outlet holes of an exhalation damper, 42 second-gear air outlet holes of an exhalation damper, 43 exhalation filter screens, 44 shifting blocks II, 45 inhalation filter screens, 46 dial inhalation holes, 47 first-gear air outlet holes of an inhalation damper, 48 second-gear air outlet holes of an inhalation damper, 49 third-gear air outlet holes of an inhalation damper, 50 fourth-gear air outlet holes of an inhalation damper, 51 fifth-gear air outlet holes of an inhalation damper, 52 fixed discs of the inhalation damper, 53 first-gear air outlet holes of the inhalation damper, and 54 second-gear air outlet holes of the inhalation damper.

Detailed Description

The technical scheme of the invention is further described in detail by combining the drawings and the detailed implementation mode:

as shown in fig. 1-12, an intelligent respiratory training device comprises an expiratory damper drive plate (1), a connecting transverse pipe (3), a transition bottle connecting vertical pipe (9), a transition bottle (11), a first connecting vertical pipe (4), a first gas cylinder (10), a first expiratory ball (12), a second connecting vertical pipe (2), a second gas cylinder (18), a second expiratory ball (16), a third connecting vertical pipe (19), a third gas cylinder (17), a third expiratory ball (15), a base (13), an inspiratory damper drive plate (14), a corrugated pipe joint (5), a corrugated pipe (6), a digital counter (7) and a horn-shaped respiratory opening (8), wherein the transition bottle (11) is communicated with the connecting transverse pipe (3) through the transition bottle connecting vertical pipe (9); the transition bottle (11) and the base (13) are screwed together through a suction damper driving plate (14); the primary gas bottle (10) is communicated with the connecting transverse pipe (3) through a primary connecting vertical pipe (4), and the primary breathing ball (12) is arranged in the primary gas bottle (10); the secondary gas bottle (18) is communicated with the connecting transverse pipe (3) through a secondary connecting vertical pipe (2), and the secondary breathing ball (16) is arranged in the secondary gas bottle (18); the three-stage gas cylinder (17) is communicated with the connecting transverse pipe (3) through a three-stage connecting vertical pipe (19), and the three-stage breathing ball (15) is arranged in the three-stage gas cylinder (17); the primary gas cylinder (10), the secondary gas cylinder (18), the tertiary gas cylinder (17) and the transition cylinder (11) are all arranged on the base (13); the drive plate (1) of the expiratory damper is screwed and fixed right above the connecting transverse pipe (3); one side of the connecting transverse pipe (3) is connected with one end of the corrugated pipe joint (5), one end of the corrugated pipe (6) is connected with the other end of the corrugated pipe joint (5) in an inserting mode, the other end of the corrugated pipe (6) is fixedly connected with one end of the digital counter (7), and the horn-shaped breathing port (8) is connected with the other end of the digital counter (7) in an inserting mode.

The working principle of the intelligent breathing training device is as follows: when the user breathes the training as required, with tubaeform breathing mouth grafting in digital counter's one end, the other end passes through the bellows and pegs graft on the bellows connector, adjusts the attenuator driver plate of breathing in and exhales the attenuator driver plate as required to breathe the training.

When the training is started, when the breathing training is needed, a user blows air forcibly, at the moment, the air can reach the interiors of the primary air bottle, the secondary air bottle and the tertiary air bottle from the horn-shaped breathing port through the corrugated pipe, and first a primary breathing ball in the primary air bottle shakes and floats; when the air blowing is larger, the secondary respiratory ball in the secondary air cylinder vibrates and floats, and if the air blowing is larger, the tertiary respiratory ball in the tertiary air cylinder vibrates and floats; therefore, the blowing strength can be judged according to the flying condition of the first-level breathing ball, the second-level breathing ball and the third-level breathing ball, and the air inlet and outlet amount can be adjusted by further adjusting the dial plate of the damper according to training requirements, so that the expected training effect is achieved. The principle of inspiration training is similar and will not be described in detail. The transition bottle can be filled with liquid medicine required for treating cardiopulmonary diseases, and volatile gas of the liquid medicine is brought to a focus part through respiratory training, so that a better treatment effect is achieved.

Besides adopting the adjustment of the sizes of air inlet and air outlet to carry out cardiopulmonary training, the effect of scientific training can be achieved by accurately counting the number of breaths and the number of groups. When a user carries out respiratory training, the contact at a specific position is touched through opening and closing of the bidirectional valve, so that a counting switch of the digital counter is switched on, a seven-segment digital display tube corresponding to the breath or inhalation on a screen displays the number of the breath or inhalation, and corresponding breath or inhalation indicator lamps are simultaneously lightened, thereby scientifically and accurately finishing a preset training plan. When the training is finished, resetting operation is carried out, at the moment, the display interface of the breathing or inhaling is cleared, and at the moment, the number of the training groups is accumulated upwards by one number. Thereby accurately recording the use times of the user and achieving the effect of scientific training.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an intelligence breathing training ware which characterized in that: the breathing device comprises a breathing damper drive plate (1), a connecting transverse pipe (3), a transition bottle connecting vertical pipe (9), a transition bottle (11), a first-stage connecting vertical pipe (4), a first-stage gas cylinder (10), a first-stage breathing ball (12), a second-stage connecting vertical pipe (2), a second-stage gas cylinder (18), a second-stage breathing ball (16), a third-stage connecting vertical pipe (19), a third-stage gas cylinder (17), a third-stage breathing ball (15), a base (13), a breathing damper drive plate (14), a corrugated pipe joint (5), a corrugated pipe (6), a digital counter (7) and a horn-shaped breathing opening (8), wherein the transition bottle (11) is communicated with the connecting transverse pipe (3) through the transition bottle connecting vertical pipe; the transition bottle (11) and the base (13) are screwed together through a suction damper driving plate (14); the primary gas bottle (10) is communicated with the connecting transverse pipe (3) through a primary connecting vertical pipe (4), and the primary breathing ball (12) is arranged in the primary gas bottle (10); the secondary gas bottle (18) is communicated with the connecting transverse pipe (3) through a secondary connecting vertical pipe (2), and the secondary breathing ball (16) is arranged in the secondary gas bottle (18); the three-stage gas cylinder (17) is communicated with the connecting transverse pipe (3) through a three-stage connecting vertical pipe (19), and the three-stage breathing ball (15) is arranged in the three-stage gas cylinder (17); the primary gas cylinder (10), the secondary gas cylinder (18), the tertiary gas cylinder (17) and the transition cylinder (11) are all arranged on the base (13); the drive plate (1) of the expiratory damper is screwed and fixed right above the connecting transverse pipe (3); one side of the connecting transverse pipe (3) is connected with one end of the corrugated pipe joint (5), one end of the corrugated pipe (6) is connected with the other end of the corrugated pipe joint (5) in an inserting mode, the other end of the corrugated pipe (6) is fixedly connected with one end of the digital counter (7), and the horn-shaped breathing port (8) is connected with the other end of the digital counter (7) in an inserting mode.

2. The intelligent respiration trainer as claimed in claim 1, wherein: set up digital display interface on a side of digital counter (7), including inhaling pilot lamp (29), the number of times of breathing in digital display tube (28), expiration pilot lamp (30), expiration number of times digital display tube (31), reset button (27), group number display tube (32) on the interface, inhale pilot lamp (29) and arrange in the top of the number of times of breathing in digital display tube (28), expiration pilot lamp (30) are arranged in the top of expiration number of times digital display tube (31), digital display tube's below sets up reset button (27) and group number display tube (32).

3. An intelligent breathing training device according to claim 2, wherein: a bidirectional valve damping sheet I (22) and a bidirectional valve damping sheet II (25) are arranged in the digital counter (7) in the direction vertical to the corrugated pipe (6), the two-way valve damping piece I (22) and the two-way valve damping piece II (25) can be spliced into a complete circle in a static state, the two-way valve damping piece I (22) and the two-way valve damping piece II (25) can respectively deflect up and down around two end points of the diameter vertical to the splicing seams of the two damping pieces, in the digital counter (7), four contacts are arranged on the upper side and the lower side of the two-way valve damping piece I (22) and the two-way valve damping piece II (25), namely a contact I (20), a contact II (21), a contact III (23) and a contact IV (24), and gaps exist between the contacts and the damping pieces in the static state of the damping pieces.

4. An intelligent breathing training device according to claim 2, wherein: and a battery bin (26) is arranged on one side surface of the digital counter (7) adjacent to the digital display interface.

5. The intelligent respiration trainer as claimed in claim 1, wherein: the edge of the expiration damper drive plate (1) is provided with a drive block I (33), a drive plate expiration hole (35) is formed in the expiration damper drive plate (1), an expiration damper fixed plate (34), an expiration damper damping plate I (41), an expiration damper damping plate II (42) and an expiration filter screen (43) are sequentially arranged and arranged in the expiration damper drive plate (1) from top to bottom, five oval air outlets with different sizes are sequentially arranged on the expiration damper fixed plate (34) along the circumferential direction, the first air outlet (36), the second air outlet (37), the third air outlet (38), the fourth air outlet (39) and the fifth air outlet (40) are respectively arranged from large to small, the first air outlet (41) and the second air outlet (42) are one-way motion valves, the exhalation valve damper I (41) and the exhalation valve damper II (42) can be deflected upwards to open around two end points of the diameter which is vertical to the splicing seam of the two dampers.

6. The intelligent respiration trainer as claimed in claim 1, wherein: inhale attenuator driver plate (14) and install when the training ware is breathed to intelligence, dial II (44) of piece are installed the lower surface edge of inhaling attenuator driver plate (14), the lower surface of inhaling attenuator driver plate (14) sets up driver plate suction hole (46), the inside of inhaling attenuator driver plate (14), from the bottom up installs in proper order and inhales attenuator fixed disk (52), inhales filter screen (45), inhales valve damping piece I (53), inhales valve damping piece II (54), inhale on attenuator fixed disk (52) and set gradually five oval ventholes of unequal size along the circumferencial direction, from big to small respectively for inhaling attenuator first grade venthole (47), inhaling attenuator second grade venthole (48), inhaling attenuator third grade venthole (49), inhale attenuator fourth grade venthole (50), inhale attenuator fifth grade venthole (51), the air suction valve damping pieces I (53) and the air suction valve damping pieces II (54) are one-way motion valves and can be spliced into a complete circle in a static state, and the air suction valve damping pieces I (53) and the air suction valve damping pieces II (54) can be opened by upward deflection around two end points perpendicular to the diameter of a splicing seam of the two damping pieces.

7. The respiratory training monitoring method of the intelligent respiratory training device as claimed in any one of claims 1-6, wherein when the user performs respiratory training as required, the breathing orifice is inserted into one end of the digital counter, the other end is inserted into the corrugated pipe connector through the corrugated pipe, and the breathing damper dial are adjusted as required to perform respiratory training.

8. The method as claimed in claim 7, wherein at the beginning of the training, when the breathing training is required, the user blows hard, and then the gas reaches the inside of the primary gas cylinder, the secondary gas cylinder and the tertiary gas cylinder from the horn-shaped breathing port through the corrugated pipe, and the primary breathing ball in the primary gas cylinder vibrates and floats; when the air blowing is larger, the secondary respiratory ball in the secondary air cylinder vibrates and floats, and if the air blowing is larger, the tertiary respiratory ball in the tertiary air cylinder vibrates and floats; therefore, the blowing strength can be judged according to the flying condition of the first-stage breathing ball, the second-stage breathing ball and the third-stage breathing ball, and the air inlet and outlet amount can be adjusted by further adjusting the driving plate of the damper according to the training requirement, so that the expected training effect is achieved; the same principle is used for inspiration training.

9. The method of claim 7, wherein the scientific training effect is achieved by accurately counting the number of breaths and the number of groups; when a user carries out respiratory training, the contact at a specific position is touched through opening and closing of the bidirectional valve, so that a counting switch of the digital counter is switched on, a seven-segment digital display tube corresponding to the breath or inhalation on a screen displays the number of the breath or inhalation, and corresponding breath or inhalation indicator lamps are simultaneously lightened, so that a preset training plan is scientifically and accurately finished; after training a group, carrying out reset operation, at the moment, resetting the breathing or inhaling display interface, and at the moment, accumulating a number upwards for the training group number; thereby accurately recording the number of uses of the user.

10. The method of claim 7, wherein the transition bottle is filled with a liquid medicine for treating cardiopulmonary disease, and the liquid medicine is used for carrying volatilized gas into a lesion site through respiratory training.