CN212235875U - Intelligent mobile breathing rehabilitation device capable of achieving biphase sputum excretion, exercise and assessment - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, a but intelligent movement of biphase sputum discharging, exercise and aassessment breathes recovered device is disclosed, this intelligent movement breathes recovered device includes first pipeline, second pipeline and elastic resistance device, the head end of second pipeline is cup jointed on the end of first pipeline, elastic resistance device installs first pipeline with inside the second pipe connection department. The utility model discloses a set up elastic resistance device and temper the purpose of breathing in muscle or exhale muscle, the shock wave that produces by elastic resistance device simultaneously is spread to around, propagates to patient's air flue along the pipeline, arouses the vibrations of air flue secretion, is favorable to the patient to cough, clears away the air flue secretion.

Description

Intelligent mobile breathing rehabilitation device capable of achieving biphase sputum excretion, exercise and assessment

Technical Field

The utility model relates to the technical field of medical equipment, especially indicate an auxiliary device for respiratory system rehabilitation.

Background

Common symptoms of respiratory diseases are cough, expectoration, dyspnea, and respiratory rehabilitation is beneficial to recovery of respiratory diseases. Respiratory rehabilitation comprises: the expiratory muscles and the inspiratory muscles which improve the cough capability are exercised, the atomization inhalation and the expiratory positive pressure which improve the fluidity of the airway secretion and the shock wave which induces the common frequency oscillation of the airway secretion are improved, and the oxygen inhalation is beneficial to improving the rehabilitation exercise intensity of patients and improving the respiratory rehabilitation effect.

Like patent literature (1) CN201420266534.4 discloses a respiratory muscle training and vibration sputum excretion integrator, it includes integrated body, vibration sputum excretion part, respiratory muscle training part and mouthpiece, integrated body is equipped with and separates and each other not communicating vibration sputum excretion gas receiver and respiratory muscle training gas receiver, vibration sputum excretion gas receiver one end intercommunication vibration sputum excretion air flue, the vibration sputum excretion part is connected to the other end, respiratory muscle training gas receiver one end intercommunication respiratory muscle training air flue, the respiratory muscle training part is connected to the other end, the mouthpiece cover is located vibration sputum excretion air flue or the respiratory muscle training air flue outside.

The CN204910005U patent document (2) discloses an expiratory vibration sputum aspirator, which comprises a shell, a mouthpiece, a sphere frame, a sphere protection cover and a floating ball, wherein the shell is provided with an airflow channel, the mouthpiece is arranged at the top of the shell and communicated with the airflow channel, the sphere frame is provided with a through hole and is arranged at the bottom of the shell, the through hole is communicated with the airflow channel, the floating ball is arranged in the sphere frame, the surface of the sphere protection cover is provided with an exhaust port communicated with the airflow channel, and the sphere protection cover is movably connected with the bottom of the shell.

For example, patent document (3) CN203154726U discloses a vibrating sputum aspirator, which comprises a main body, a suction port, a suction; the gas inlet at the rear end of the body is provided with a mouthpiece, the gas outlet at the front end of the body is provided with a conical support bowl protruding towards the gas storage chamber, the bottom of the conical support bowl is provided with an airflow through hole, the conical support bowl is internally provided with a vibration ball, the gas outlet of the body is provided with a cover cap covering the vibration ball, and the cover cap is provided with a gas outlet.

The respiratory rehabilitation devices disclosed in the above patent documents (1), (2) and (3) have the following problems:

1. the function is single, functional structures such as expiratory muscle and inspiratory muscle exercise, common-frequency oscillation sputum excretion and oxygen inhalation are independent, the vibration sputum excretion function and the respiratory muscle training function cannot be used simultaneously in patent document (1), the single common-frequency oscillation sputum excretion function is only shown in patent document (2), the single common-frequency oscillation sputum excretion function is only shown in patent document (3), and the common-frequency oscillation sputum excretion cannot be realized simultaneously while the respiratory muscle is exercised;

2. all products related to positive expiratory pressure and concussion sputum excretion are affected by body positions, body position requirements exist during treatment operation, if the patient is seriously ill and can not operate according to the required body positions, the sputum excretion effect can not be achieved, and the products are not suitable for patients with serious illness lying positions;

3. there is no respiratory rehabilitation product suitable for tracheotomy or tracheal intubation.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a but biphase sputum excretion, exercise and the intelligent movement who assesses breathe rehabilitation device, its main objective is through setting up one kind can have the vibrations sputum excretion function simultaneously and breathe flesh and temper the breathing rehabilitation device of function.

Another object of the utility model is to provide a but intelligent movement of diphase sputum discharging, exercise and aassessment breathes rehabilitation device, the device add the compensation air inlet and connect external atomizing device, can atomizing medicine or normal saline, help synchronous medication of patient and humidifying air flue.

Another objective of the utility model is to provide a but intelligent movement of diphase sputum discharging, exercise and aassessment breathes rehabilitation device, the device add pressure sensor on pipeline and shock piece, obtain pressure value by pressure sensor, transmit to mobile phone terminal, form pressure sensor's inspiratory muscle power-time curve, expiratory muscle power-time curve, air flue oscillation frequency-time curve, be convenient for further guide patient's treatment process.

In order to achieve the above object, the utility model adopts the following technical scheme:

an intelligent mobile breathing rehabilitation device capable of discharging phlegm, exercising and evaluating in two phases comprises a first pipeline, a second pipeline and an elastic resistance device, wherein the head end of the second pipeline is sleeved on the tail end of the first pipeline, and the elastic resistance device is installed inside the joint of the first pipeline and the second pipeline; a first inlet and outlet port is arranged at the head end of the first pipeline, an oxygen supply connector is arranged on the pipe wall of the first pipeline, an oxygen supply connector joint one-way valve is mounted on the oxygen supply connector, and a protruding baffle is arranged inside the right side of the oxygen supply connector of the first pipeline; a second inlet and outlet port is arranged at the tail end of the second pipeline, an exhalation port is arranged on the pipe wall of the second pipeline, a one-way exhaust valve is arranged on the exhalation port, a fixed plate is arranged on the inner wall of the second pipeline at the left side position of the exhalation port, and a flow limiting hole is arranged on the fixed plate; the elastic resistance device is arranged at a spatial position formed between the fixed plate and the baffle plate, and when the first inlet and outlet interface exhales, the elastic resistance device is compressed to drive the exhaled air to enter the second pipeline and be exhausted through the exhalation port; when air is sucked from the second inlet and outlet interface, the elastic resistance device is compressed to drive oxygen gas to enter the second pipeline.

The resistance that is provided at the patient at the inspiration or expiration by elastic resistance device tempers patient's breathing muscle, and the repeated compression of elastic resistance device and the in-process that resets simultaneously produce the phase of exhaling in the pipeline and vibrate the ripples, and this vibrates the ripples and spreads to around, spreads to patient's air flue along the pipeline, arouses the vibrations of air flue secretion, is favorable to the patient to cough, clears away air flue secretion.

Furthermore, the elastic resistance device comprises a vibration plate and a resistance spring, one end of the resistance spring is fixedly arranged on the fixing plate, the other end of the resistance spring is arranged on the vibration plate, and the vibration plate is stopped on the baffle plate.

The oscillating piece is repeatedly compressed and reset and generates expiratory phase oscillating waves in the pipeline, the oscillating waves are spread to the periphery and are transmitted to the airway of a patient along the pipeline, so that the vibration of airway secretions is caused, and the patient can cough and clear the airway secretions.

Further, still be equipped with the compensation air inlet on the first pipeline, install one-way admission valve on the compensation air inlet, the outside of compensation air inlet still is connected with the atomizer that can be used to external atomizing device and connects.

Further, install first pipeline pressure sensor on the inner wall of first pipeline, install second pipeline pressure sensor on the inner wall of second pipeline, it vibrates a pressure sensor to install on the piece to vibrate, still install on the outer wall of second pipeline and be used for receiving and sending first pipeline pressure sensor second pipeline pressure sensor and vibrate the pressure signal collection transmitter of the data signal that a pressure sensor collected.

The pressure sensors respectively record pressure value changes of all nodes, the pressure signal collecting and transmitting device is responsible for collecting relevant value signals, the signals are sent to equipment, pressure values are analyzed, and the condition of a patient is conveniently analyzed in real time.

Further, this recovered device is breathed to intelligent movement still includes mobile phone terminal, still be equipped with wireless communication module on the pressure signal collection transmitter, mobile phone terminal is last install with the corresponding APP software of wireless communication module, APP software with wireless communication module realizes wireless connection, the pressure signal collection transmitter will collect data signal transmission extremely mobile phone terminal.

Further, the first pipeline pressure sensor is mounted near the first access port, and the second pipeline pressure sensor is mounted near the second access port.

Furthermore, an internal thread is arranged on the inner wall of the head end position of the second pipeline, an external thread is arranged on the outer wall of the tail end position of the first pipeline, and the second pipeline is fixedly connected with the first pipeline in a screwing mode through the thread.

According to the maximum expiratory resistance that the patient can overcome, the resistance of the resistance spring is adjusted through screwing the threads of the first pipeline and the second pipeline, and the purpose of helping the patient to exercise the respiratory muscle is achieved.

The utility model relates to an elastic resistance device is as the resistance parts of patient in the respiratory process, can effectively temper patient's breathing muscle, it vibrates piece and resistance spring to have contained in the elastic resistance device simultaneously, along with vibrate the piece at resistance spring's constantly by the compression and the in-process that resets, it vibrates the piece and produces expiration looks shock wave in the pipeline to vibrate, this shock wave is broadcast around to, propagate to patient's air flue along the pipeline, arouse the vibrations of air flue secretion frequently altogether, be favorable to the patient to cough, clear away air flue secretion, thereby realized having simultaneously and vibrate the wave function of discharging phlegm and temper the breathing muscle function frequently altogether, more help improving patient's treatment.

Meanwhile, the utility model is also provided with a compensation air inlet which is used for connecting an external atomization device, such as a device for providing drug atomization or normal saline atomization, and can help the patient to obtain drug treatment and a humidification air passage simultaneously; in addition, the utility model is provided with pressure sensors on the first pipeline, the second pipeline and the oscillating piece, the pressure sensors send the pressure value signals collected on each node to the pressure signal collecting transmitter, the collected pressure values are sent to APP software of a mobile phone terminal through a pressure signal collecting and transmitting device, and are stored in a cloud end through a mobile phone, inhalation muscle force-time curves, exhalation muscle force-time curves and airway oscillation frequency-time curves of the three pressure sensors are automatically formed, and based on the inhalation muscle force-time curves, the exhalation muscle force-time curves and the airway oscillation frequency-time curves of the three pressure sensors, through automatic intelligent analysis, the evaluation and judgment of inspiratory muscle strength, expiratory muscle strength, lung function and airway secretion are obtained, and synchronous information for guiding the patient to continue rehabilitation treatment is directly presented at the mobile phone end.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

The reference numbers illustrate:

1. a first conduit; 11. a first access port; 12. an oxygen supply connector; 13. the oxygen supply device is connected with a one-way valve; 14. a baffle plate; 15. a compensating air inlet; 16. a one-way intake valve; 17. an atomizer connector; 18. a first pipeline pressure sensor;

2. a second conduit; 21. a second access port; 22. an exhalation port; 23. a one-way exhaust valve; 24. a fixing plate; 25. a flow restriction orifice; 26. a second line pressure sensor;

3. an elastic resistance device; 31. vibrating sheets; 32. a resistance spring; 311. a vibrating plate pressure sensor;

4. and a pressure signal collection emitter.

Detailed Description

Please refer to fig. 1, which is 1. an intelligent mobile respiratory rehabilitation device capable of dual-phase sputum excretion, exercise and assessment according to the present invention, the intelligent mobile respiratory rehabilitation device includes a first pipeline 1, a second pipeline 2 and an elastic resistance device 3, the head end of the second pipeline 2 is sleeved on the tail end of the first pipeline 1, the elastic resistance device 3 is installed inside the connection part of the first pipeline 1 and the second pipeline 2; a first inlet and outlet port 11 is arranged at the head end of the first pipeline 1, an oxygen supply connector 12 is arranged on the pipe wall of the first pipeline 1, an oxygen supply connector one-way valve 13 is arranged on the oxygen supply connector 12, and a protruding baffle 14 is arranged on the inner part of the first pipeline 1 on the right side of the oxygen supply connector 12; a second inlet and outlet port 21 is arranged at the tail end of the second pipeline 2, an exhalation port 22 is arranged on the pipe wall of the second pipeline 2, a one-way exhaust valve 23 is arranged on the exhalation port 22, a fixing plate 24 is arranged on the inner wall of the second pipeline 2 at the left side position of the exhalation port 22, and a flow limiting hole 25 is arranged on the fixing plate 24; the elastic resistance device 3 is installed at a space position formed between the fixing plate 24 and the baffle plate 14, when the air is exhaled from the first access port 11, the elastic resistance device 3 is compressed, and the exhaled air is driven to enter the second pipeline 2 and is exhausted through the exhalation port 22; on inhalation from the second access port 21, the elastic resistance means 3 compresses, driving oxygen gas into the second conduit 2.

The utility model discloses a use: when a patient inhales through the first inlet/outlet interface 11, the oxygen supply connector 12 on the tube wall of the first tube 1 is opened, (the oxygen supply connector 12 is used for connecting with an external oxygen supply device, which is the prior art and is not described in detail herein), and oxygen is inhaled into the lung; when the patient exhales, positive pressure is generated in the first pipeline 1, the oxygen supply connector 12 is closed, the oxygen supply connector one-way valve 13 prevents oxygen from being supplied to the first pipeline 1, the exhaled gas overcomes the elastic resistance device 3 and is discharged to the second pipeline 2 through the flow limiting hole 25, in the continuous exhalation process, the elastic resistance device generates expiratory phase oscillation waves in the repeated compression and resetting process in the pipeline, the oscillation waves are spread to the periphery and are transmitted to the airway of the patient along the pipeline to cause the vibration of airway secretions, and the later is favorable for the patient to cough and clear the airway secretions.

When a patient inhales through the second access port 21, the pressure in the second pipeline 2 decreases, when the pressure is low enough and can overcome the resistance of the elastic resistance device 3, the elastic resistance device 3 is compressed and is far away from the baffle plate 14, the passage of the first pipeline 1 into the second pipeline 2 is opened, the oxygen supply connector 12 in the first pipeline 1 is opened, oxygen enters the second pipeline 2 through the flow limiting hole 25, the pressure in the second pipeline 2 rises along with the entrance of the oxygen in the first pipeline 1, the elastic resistance device 3 restores the initial position and is attached to the baffle plate 14, when the patient exhales, positive pressure is generated in the second pipeline 2, the elastic resistance device 3 is attached to the baffle plate 14, the exhaled gas generated by exhalation is exhausted through the one-way exhaust valve 23 of the exhalation port 22 on the second pipeline 2, when the pressure in the second pipeline 2 repeatedly decreases due to continuous inhalation and can overcome the resistance of the elastic resistance device 3, the elastic resistance device 3 is repeatedly compressed and reset, generates an inspiratory phase oscillation wave in the pipeline, and the oscillation wave is spread to the periphery and is transmitted to the airway of the patient along the pipeline to cause the vibration of airway secretions, and the later is favorable for the patient to cough and remove the airway secretions.

Thereby the utility model discloses an use vibrations sputum discharging function and respiratory muscle to take exercise the function simultaneously, be favorable to improving the effect that the patient was recovered to take exercise, the effect of first pipeline 1 lies in taking exercise patient's expiration muscle, and the effect of second pipeline 2 lies in taking exercise patient's muscle of breathing in.

The utility model provides an elastic resistance device 3 is including shaking piece 31 and resistance spring 32, the one end installation of resistance spring 32 is fixed on the fixed plate 24, the other end installation of resistance spring 32 shake piece 31, shake piece 31 end in on the baffle 14. When the patient exhales through the first access port 11, the pressure in the first tube is higher than the resistance of the resistance spring 32, the oscillating piece 31 leaves the baffle 14, and the compression resistance spring 32 opens the passage of the first pipeline 1 into the second pipeline 2, the expired gas in the first pipeline 1 enters the second pipeline 2 through the flow limiting hole 25 and is discharged, the pressure in the first pipeline 1 is reduced, and after the pressure in the first pipeline 1 is released, the compressed resistance spring 32 pushes the oscillating plate 31 to return to the original position, clings to the baffle 14, when the pressure in the first pipeline 1 is repeatedly higher than the resistance of the resistance spring 32 due to continuous expiration, the oscillating sheet 31 is repeatedly opened and reset, and expiratory phase oscillating waves are generated in the pipeline, the shock wave spreads around and propagates along the conduit to the airway of the patient, causing vibrations of airway secretions, which will facilitate the patient to cough and remove the airway secretions.

When a patient inhales at the second pipeline 2, the pressure in the second pipeline 2 rises along with the entering of oxygen gas in the first pipeline 1, the oscillation sheet 31 is pushed by the compression resistance spring 32 to return to the initial position and is tightly attached to the baffle 14, when the patient exhales, positive pressure is generated in the second pipeline 2, the oscillation sheet 31 is attached to the baffle 14, the exhaled gas generated by the exhalation is exhausted through the one-way exhaust valve 23 of the exhalation port 22 on the second pipeline 2, when the pressure in the second pipeline 2 repeatedly falls due to continuous inhalation and can overcome the resistance of the resistance spring 32, the oscillation sheet 31 is repeatedly opened and reset, inhalation phase oscillation waves are generated in the pipeline, the oscillation waves are dispersed to the periphery and are transmitted to the airway of the patient along the pipeline to cause the vibration of airway secretions, and the latter is beneficial to the cough of the patient and the clearing of the airway secretions.

As shown in fig. 1, a compensation air inlet 15 is further arranged on the first pipeline 1, a one-way air inlet valve 16 is mounted on the compensation air inlet 15, and an atomizer connector 17 which can be used for an external atomization device is further connected to the outer side of the compensation air inlet 15. When a patient inhales through the first inlet and outlet interface 11 or the second inlet and outlet interface 21, and the atomizer joint 17 of the one-way compensation air inlet 15 on the wall of the first pipeline 1 is externally connected with an atomization device such as atomized medicine or atomized normal saline, the patient can obtain medicine treatment and humidify the airway by inhaling the atomized medicine or the atomized normal saline.

A first pipeline pressure sensor 18 is installed on the inner wall of the first pipeline 1, a second pipeline pressure sensor 26 is installed on the inner wall of the second pipeline 2, a vibration plate pressure sensor 311 is installed on the vibration plate 31, a pressure signal collecting and transmitting device 4 for receiving and transmitting data signals collected by the first pipeline pressure sensor 18, the second pipeline pressure sensor 26 and the vibration plate pressure sensor 311 is also installed on the outer wall of the second pipeline 2, the pressure signal collecting and transmitting device 18, the second pipeline pressure sensor 26 and the vibration plate pressure sensor 311 on the vibration plate 31 simultaneously record pressure changes of three positions in real time, the recorded values are transmitted to the pressure signal collecting and transmitting device 4, the pressure signal collecting and transmitting device 4 transmits the pressure changes of the values to a pressure analyzing device, and the pressure analyzing device can analyze the pressure values and construct inspiratory muscle strength and other muscle strength in the prior art The time curve, the expiratory muscle force-time curve and the airway oscillation frequency-time curve are convenient for knowing the treatment condition of the patient at any time, and have a guiding effect on subsequent treatment based on the real-time data change condition.

This recovered device is breathed to intelligent movement still includes mobile phone terminal, 4 still are equipped with wireless communication module on the pressure signal collects the transmitter, mobile phone terminal go up install with the corresponding APP software of wireless communication module, APP software with wireless communication module realizes wireless connection, pressure signal collects transmitter 4 with the data signal transmission who collects extremely mobile phone terminal, for the collection and the sending of data, through 4 setting up wireless communication module (for example bluetooth module commonly used among the prior art) on pressure signal collects transmitter, through installing the APP software corresponding with this wireless communication module on mobile phone terminal, through the mode of wireless transmission, pressure signal collects transmitter 4 and sends the data of collecting to mobile phone terminal, the inspiratory muscle power-time curve that generates three pressure sensor by mobile phone APP software, The expiratory muscle strength-time curve and the airway oscillation frequency-time curve are automatically and intelligently analyzed to obtain the evaluation and judgment of the inspiratory muscle strength, the expiratory muscle strength, the lung function and airway secretion, and synchronous information for guiding the patient to continue rehabilitation treatment is directly presented at the mobile phone end.

First pipeline pressure sensor 18 installs in being close to near first business turn over interface 11, second pipeline pressure sensor 26 installs in being close to near second business turn over interface 21 to and vibrate piece pressure sensor 311 and install on resistance spring 32, collect the pressure variation at the head end, the middle-end and the end of whole respiratory process respectively, be more favorable to the condition of the state of an illness respiratory muscle power of analysis patient and trachea secretion.

The inner wall of the head end position of the second pipeline 2 is provided with an internal thread, the outer wall of the tail end position of the first pipeline 1 is provided with an external thread, the second pipeline 2 is connected with the first pipeline 1 through thread screwing fixation, the maximum breathing resistance which can be overcome by a patient can be better facilitated through the screwing fixation mode of the first pipeline 1 and the second pipeline 2, adjustment can be made at any time, the distance between the first pipeline 1 and the second pipeline 2 is reduced through thread fit in the face of the flow limiting hole 25, the vertical distance between the flow limiting hole 25 and the baffle plate 14 is reduced in the face of the flow limiting hole 25, the resistance spring 32 is compressed, the force for pushing the oscillating plate 31 to leave the baffle plate 14 is increased, the resistance is increased, after the resistance spring 32 is completely compressed and the oscillating plate 31 is pushed open, airflow passes through the flow limiting hole 25, the larger the flow passing through the flow limiting hole 25 is, the larger the resistance, the resistance of the resisting spring 32 is overcome by pushing, and the resistance is determined by adjusting the vertical distance between the flow limiting hole 25 and the baffle plate 14 through the threaded matching of the first pipeline 1 and the second pipeline, and the resistance of the airflow passing through the flow limiting hole is related to the airflow of the patient.

Simultaneously the utility model provides a first business turn over interface 11 and second business turn over interface 21 can connect in trachea cannula or trachea incision sleeve pipe opening, and not influenced by the position, as long as the patient can actively pass through the utility model discloses breathe in and exhale, just can realize breathing muscle's exercise purpose, the patient uses the utility model discloses breathe recovered the influence of taking exercise not influenced by position and the state of an illness severity, also be suitable for the seriously ill patient in bed, need consider the position problem when using with the respiratory device among the prior art and compare, the utility model discloses more have application scope wider.

The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by the technical solution of the present invention by those skilled in the art are all within the scope of the present invention as defined by the claims.

Claims (7)

1. The utility model provides a but two-phase sputum discharging, exercise and intelligent movement of aassessment breathe rehabilitation device which characterized in that: the intelligent mobile breathing rehabilitation device comprises a first pipeline, a second pipeline and an elastic resistance device, wherein the head end of the second pipeline is sleeved on the tail end of the first pipeline, and the elastic resistance device is arranged inside the joint of the first pipeline and the second pipeline;

a first inlet and outlet port is arranged at the head end of the first pipeline, an oxygen supply connector is arranged on the pipe wall of the first pipeline, an oxygen supply connector joint one-way valve is mounted on the oxygen supply connector, and a protruding baffle is arranged inside the right side of the oxygen supply connector of the first pipeline;

a second inlet and outlet port is arranged at the tail end of the second pipeline, an exhalation port is arranged on the pipe wall of the second pipeline, a one-way exhaust valve is arranged on the exhalation port, a fixed plate is arranged on the inner wall of the second pipeline at the left side position of the exhalation port, and a flow limiting hole is arranged on the fixed plate;

the elastic resistance device is arranged at a space position formed between the fixing plate and the baffle plate, and when the first inlet and outlet interface exhales, the elastic resistance device is compressed to drive the exhaled air to enter the second pipeline and be exhausted through the exhalation port; when air is sucked from the second inlet and outlet interface, the elastic resistance device is compressed to drive oxygen gas to enter the second pipeline.

2. The bi-phasic sputum ejection, exercise and assessment smart mobile respiratory rehabilitation device of claim 1, wherein: elastic resistance device is including shaking piece and resistance spring, resistance spring's one end installation is fixed on the fixed plate, resistance spring's the other end installation shake the piece, it ends to shake the piece on the baffle.

3. The bi-phasic sputum ejection, exercise and assessment smart mobile respiratory rehabilitation device of claim 2, wherein: still be equipped with the compensation air inlet on the first pipeline, install one-way admission valve on the compensation air inlet, the atomizer connector that can be used to external atomizing device is still connected in the outside of compensation air inlet.

4. The bi-phasic sputum ejection, exercise and assessment smart mobile respiratory rehabilitation device of claim 3, wherein: install first pipeline pressure sensor on the inner wall of first pipeline, install second pipeline pressure sensor on the inner wall of second pipeline, it vibrates piece pressure sensor to install on the vibration piece, still install on the outer wall of second pipeline and be used for receiving and sending first pipeline pressure sensor second pipeline pressure sensor and vibrate the pressure signal collection transmitter of the data signal that piece pressure sensor collected.

5. The bi-phasic sputum ejection, exercise and assessment smart mobile respiratory rehabilitation device of claim 4, wherein: this recovered device is breathed to intelligent movement still includes mobile phone terminal, still be equipped with wireless communication module on the pressure signal collects the transmitter, mobile phone terminal on install with the corresponding APP software of wireless communication module, APP software with wireless communication module realizes wireless connection, the pressure signal collects the data signal transmission that the transmitter will collect extremely mobile phone terminal.

6. The bi-phasic sputum ejection, exercise and assessment smart mobile respiratory rehabilitation device of claim 4, wherein: the first pipeline pressure sensor is installed near the first access port, and the second pipeline pressure sensor is installed near the second access port.

7. A bi-phasic sputum ejection, exercise and assessment smart mobile respiratory rehabilitation device according to any one of claims 1-6, wherein: the inner wall of the head end position of the second pipeline is provided with an internal thread, the outer wall of the tail end position of the first pipeline is provided with an external thread, and the second pipeline is screwed and fixed with the first pipeline through the thread.

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