CN112245733A

CN112245733A - Intelligent self-adaptive adjustment breathing machine

Info

Publication number: CN112245733A
Application number: CN202011130181.1A
Authority: CN
Inventors: 袁再鑫; 郑其昌; 唐聪能; 周磊
Original assignee: Hunan Ventmed Medical Technology Co Ltd
Current assignee: Hunan Ventmed Medical Technology Co Ltd
Priority date: 2020-10-21
Filing date: 2020-10-21
Publication date: 2021-01-22
Anticipated expiration: 2040-10-21
Also published as: CN112245733B

Abstract

The invention provides an intelligent self-adaptive adjusting respirator, which comprises a supporting base, a moving wheel, a supporting upright post, a measurable breathing pressure mask assembly, a breathing pipeline restraint frame assembly, an automatic control board assembly, a humidifying bottle adjusting cover assembly, an adjusting slide rail, a supporting plate, a humidifier, a slide block plate, a first air guide pipe, a second air guide pipe, an air-oxygen mixer, an air source connecting pipe, a touch control operation screen and a power switch. The brake block is fixed on the moving wheel, so that the stability of operation is ensured, and the brake block is simple in structure and convenient to use; the setting of humidifying monitoring sensor and baroceptor to breathe in the gas pressure and humidity to the mouth nose and monitor, and show on touch-control operation screen through central processing unit's processing, thereby control the air oxygen blender according to the difference of the state of an illness after the illness, the operating condition of humidifier and solenoid valve, thereby reach intelligent control's purpose, further work reaches automatically regulated's effect.

Description

Intelligent self-adaptive adjustment breathing machine

Technical Field

The invention belongs to the technical field of medical equipment, and particularly relates to an intelligent self-adaptive adjusting breathing machine.

Background

In modern clinical medicine, a ventilator has been widely used in respiratory failure due to various reasons, anesthesia and breathing management during major surgery, respiratory support therapy and emergency resuscitation as an effective means for manually replacing the function of spontaneous ventilation, and has a very important position in the modern medical field. The breathing machine is a vital medical device which can prevent and treat respiratory failure, reduce complications and save and prolong the life of a patient.

When a user breathes, the breathing machine can distinguish the inspiration action or the expiration action of the user according to a certain method, if the inspiration action is the inspiration action, the breathing machine provides a higher IPAP pressure to flow gas into the body of the user, and if the expiration action is the expiration action, the breathing machine reduces the pressure from the IPAP to the EPAP, so that the user can breathe the gas smoothly. But present breathing machine still has the pressure change condition that can not exhale to the patient and inhale and carry out intelligent automatically regulated, and the fixed hanging mode of air inlet pipeline restraint connected with the patient mouth is comparatively single leads to using inconveniently, meanwhile can not be to getting into the humidity change condition core monitoring of the internal gas of patient.

The invention with patent publication number CN105833403A provides a breathing machine capable of automatically adjusting breathing frequency, which comprises a main body, a chassis arranged below the main body, an air purification mechanism arranged at one side of the main body and a breathing mechanism arranged at the other side of the main body, wherein the main body is provided with a display screen, a switch and an operation panel; although the improvement of automatic adjustment is performed, the adjustment is only limited to the adjustment of the breathing frequency, and the function of automatic adjustment according to the change situation of the air pressure is lacked. The invention with patent publication number CN204709574U provides a respirator support, which is characterized in that: the breathing machine fixing device comprises a fixing seat and a pipe clamp, wherein the fixing seat is used for fixing the whole support on the breathing machine in an inserting manner, the pipe clamp is connected with the fixing seat through a rotary fixing device, the rotary fixing device comprises a supporting arm and a rotary fixing joint, and one end of the supporting arm is rotatably connected to the fixing seat through the rotary fixing joint; although a bracket for suspending the pipeline is provided, only one end is suspended, which results in instability of the outlet pipeline and inconvenient adjustment.

Therefore, it is very necessary to invent an intelligent adaptive adjustment ventilator.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent self-adaptive adjusting respirator which can intelligently adjust the air outlet pressure and frequency according to the breathing condition of a patient and monitor and adjust the air humidity entering the patient body, so that the patient has good comfort; and then, the supporting bracket structure is combined to solve the problems in the background technology.

An intelligent self-adaptive adjustment respirator comprises a supporting base, moving wheels, supporting stand columns, a measurable breathing pressure mask assembly, a breathing pipeline restraint frame assembly, an automatic control board assembly, a humidification bottle adjustment cover assembly, an adjustment slide rail, a supporting plate, a humidifier, a slide plate, a first air guide pipe, a second air guide pipe, an air-oxygen mixer, an air source connecting pipe, a touch control operation screen and a power switch;

the movable wheels are respectively bolted at the four corners of the lower part of the support base; one end of the support upright post is bolted at the middle position of the upper part of the support base, and the other end of the support upright post is bolted at the middle position of the lower part of the air-oxygen mixer; the mask assembly capable of measuring the breathing pressure is in threaded connection with the top end of the first air duct; the breathing pipeline restraint frame component is connected to the left side of the air-oxygen mixer through bolts;

the automatic control plate assembly is connected to the upper part of the air-oxygen mixer through screws; the humidifying bottle adjusting cover component is buckled on the upper part of the humidifying bottle; the humidifier is clamped on the upper part of the supporting plate; the adjusting slide rail is connected to the middle position of the front part of the supporting upright post through a screw; the sliding block plate is slidably clamped in the adjusting slide rail and is connected to the left side of the lower part of the supporting plate through bolts.

Preferably, the mask assembly capable of measuring respiratory pressure comprises a respiratory mask, a skin-contacting rubber pad, a connecting hole, a connecting ring, an air pressure sensor and a restraint belt; the skin-sticking rubber pad is integrally glued at the front part of the breathing mask; the connecting hole is formed in the middle of the rear part of the breathing mask; the air pressure sensor is arranged at the lower part of the connecting hole and is connected with the breathing mask through a screw; the connecting rings are respectively glued at the middle positions of the left side and the right side of the breathing mask; two ends of the restraint strap are respectively sleeved with the connecting ring.

Preferably, the respiratory tract restriction frame assembly comprises a connecting ear plate, a first screw, a connecting plate, a second screw and a boom plate; the connecting plate is connected to the left side of the rear part of the connecting lug plate through a first screw; the suspension arm plate is connected to the left side of the rear part of the connecting plate through a second screw.

Preferably, the automatic control board assembly comprises a control circuit shell, a central processing unit, a wireless transmitter and an alarm; the central processor is welded in the middle of the circuit main board in the control circuit shell; the wireless transmitter is welded on the right upper side of the circuit main board in the control circuit shell; the alarm is riveted at the left lower side of the circuit main board in the control circuit shell.

Preferably, the humidifying bottle adjusting cover assembly comprises a protective cover, an air inlet pipe, a humidifying monitoring sensor, an air outlet connecting pipe and an electromagnetic valve; the air inlet pipe is embedded in the middle position of the right side inside the protective cover; the humidifying monitoring sensor is connected to the middle position of the lower side in the protective cover through a screw; the air outlet connecting pipe is embedded in the middle position of the left side inside the protective cover; the electromagnetic valve is connected with the lower side of the inside of the air outlet connecting pipe through a screw.

Preferably, the first gas-guide tube is sleeved at the upper end of the gas outlet connecting tube; one end of the second air duct is sleeved at the air outlet end of the air-oxygen mixer, and the other end of the second air duct is sleeved at the upper part of the air inlet pipe.

Preferably, the air source connecting pipe is in threaded connection with the right side position of the rear part of the air-oxygen mixer.

Preferably, the touch control operation screen is embedded in the middle of the front part of the control circuit shell; the power switch is embedded on the right lower side of the front surface of the control circuit shell.

Preferably, a first sliding hole is formed in the middle of the inner part of the connecting plate; a hanging rod is connected in the first sliding hole in a sliding and clamping manner; the lower end of the suspender is coupled with a restraining slot piece.

Preferably, the restriction card slot sheet is a PVC plastic plate with a semicircular cross section; the first air duct is clamped in the constraint clamping groove sheet.

Preferably, a second sliding hole is formed in the middle position inside the suspension arm plate; the top end of the boom plate is connected with a pendant plate in a shaft way; the lower end of the pendant plate is in threaded connection with a restraint hook.

Preferably, the movable wheel is a silent rubber universal wheel with a brake pad.

Preferably, the central processing unit is internally provided with an information processing module, a humidity monitoring module, an expiratory frequency and air pressure monitoring module, an early warning reminding module, an adjusting processing module, an air outlet valve module and a gas mixing processing module; the humidity monitoring module, the expiration frequency and air pressure monitoring module, the early warning reminding module, the adjusting and processing module, the air outlet valve module and the air mixing processing module are respectively in communication connection with the information processing module.

Preferably, the humidity monitoring module is electrically connected with the humidity monitoring sensor; the expiration frequency and air pressure monitoring module is electrically connected with the air pressure sensor; the air mixing treatment module is respectively and electrically connected with the air-oxygen mixer and the humidifier; the early warning reminding module is electrically connected with the alarm; the adjusting and processing modules are respectively and electrically connected with the touch operation screen; the air outlet valve module is electrically connected with the electromagnetic valve.

Preferably, the wireless transmitter is connected with a remote terminal device (a computer or a mobile phone) through WIFI or wireless communication.

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

1. the breathing machine is pushed to move to a use position under the action of the moving wheel, the brake pad on the moving wheel is fixed, the operation stability is ensured, the air source pipeline is connected to the air source connecting pipe, and the external power supply is connected, so that the breathing machine is simple in structure and convenient to use;

2. adjusting the inclination angles of the connecting plate and the suspension arm plate, fixing a first screw and a second screw for qualitative determination, adjusting the position of the suspension rod in the first slide hole and the second slide hole, clamping the first air duct in the constraint clamping groove sheet, hanging the first air duct on the constraint hook, and constraining the first air duct to keep stable and ensure the efficiency and quality of air transmission;

3. the breathing mask is buckled on the mouth and the nose and is restrained by the restraining belt, so that the air pressure sensor is positioned at the upper part of the upper lip, the breathing air pressure of the mouth and the nose is monitored and is displayed on the touch control operation screen after being processed by the central processing unit, and the working states of the air-oxygen mixer and the electromagnetic valve are controlled according to different illness states after illness, so that the purpose of intelligent control is achieved; in the process, the humidity condition of the gas entering the first gas-guide tube is monitored by the humidity monitoring sensor, so that the control of the humidifier is controlled to achieve the purpose of automatic adjustment;

4. wireless transmitter can carry out the transmission connection of data with remote terminal to be convenient for collect patient's state of an illness situation of changing, carry out the alarm early warning to the condition that takes place under exceeding the settlement standard under the effect of siren, avoid patient to produce dangerously.

Drawings

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

Fig. 2 is a schematic diagram of the construction of a measurable respiratory pressure mask assembly of the present invention.

Fig. 3 is a schematic structural view of a breathing circuit restraint frame assembly of the present invention.

Fig. 4 is a schematic structural view of an automatic control board assembly of the present invention.

Fig. 5 is a schematic diagram of the structure of the humidifying bottle regulating cover assembly of the present invention.

FIG. 6 is a schematic diagram of the autoregulation control state framework of the present invention.

In the figure:

1. a support base; 2. a moving wheel; 3. supporting the upright post; 4. a mask assembly capable of measuring respiratory pressure; 41. a respiratory mask; 42. sticking a skin rubber pad; 43. connecting holes; 44. a connecting ring; 45. an air pressure sensor; 46. a restraint band; 5. a breathing circuit restraint frame assembly; 51. connecting the ear plates; 52. a first screw; 53. a connecting plate; 531. a first slide hole; 532. a boom; 533. restraining the slot clamping sheet; 54. a second screw; 55. a boom plate; 551. a second slide hole; 552. a pendant board; 553. a restraining hook; 6. an automatic control panel assembly; 61. a control circuit housing; 62. a central processing unit; 63. a wireless transmitter; 64. an alarm; 7. a humidifying bottle adjusting cover component; 71. a protective cover; 72. an air inlet pipe; 73. a humidification monitoring sensor; 74. an air outlet connecting pipe; 75. an electromagnetic valve; 8. adjusting the slide rail; 9. a support pallet; 10. a humidifier; 11. a slider plate; 12. a first air duct; 13. a second air duct; 14. an air-oxygen mixer; 15. a gas source connecting pipe; 16. a touch control operation screen; 17. and a power switch.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in the attached figure 1, the invention provides an intelligent self-adaptive adjusting respirator, which comprises a supporting base 1, a moving wheel 2, a supporting upright post 3, a measurable breathing pressure mask component 4, a breathing pipeline restraining frame component 5, an automatic control panel component 6, a humidifying bottle adjusting cover component 7, an adjusting slide rail 8, a supporting plate 9, a humidifying device 10, a slide block plate 11, a first air duct 12, a second air duct 13, an air-oxygen mixer 14, an air source connecting pipe 15, a touch control operation screen 16 and a power switch 17, wherein the air source connecting pipe is connected with the supporting base through the air duct 12; the moving wheels 2 are respectively bolted at the four corners of the lower part of the supporting base 1; one end of the support upright post 3 is bolted at the middle position of the upper part of the support base 1, and the other end is bolted at the middle position of the lower part of the air-oxygen mixer 14; the mask assembly 4 capable of measuring the breathing pressure is in threaded connection with the top end of the first air duct 12; the breathing pipeline restraint frame assembly 5 is connected to the left side of the air-oxygen mixer 14 through bolts; the automatic control plate assembly 6 is in screw connection with the upper part of the air-oxygen mixer 14; the humidifying bottle adjusting cover assembly 7 is buckled at the upper part of the humidifying device 10; the humidifier 10 is clamped at the upper part of the supporting plate 9; the adjusting slide rail 8 is connected with the middle position of the front part of the supporting upright post 3 through a screw; the slide block plate 11 is slidably clamped in the adjusting slide rail 8 and is connected to the left side of the lower part of the supporting plate 9 through a bolt; the air source connecting pipe 15 is in threaded connection with the right side position of the rear part of the air-oxygen mixer 14.

In the above embodiment, as shown in fig. 2, specifically, the measurable respiratory pressure mask assembly 4 includes a respiratory mask 41, a skin-contacting rubber pad 42, a connecting hole 43, a connecting ring 44, a pressure sensor 45 and a restraint band 46; the skin-sticking rubber pad 42 is integrally glued on the front part of the breathing mask 41; the connecting hole 43 is arranged at the middle position of the rear part of the breathing mask 41; the air pressure sensor 45 is arranged at the lower part of the connecting hole 43 and is in screw connection with the breathing mask 41; the connecting rings 44 are respectively glued at the middle positions of the left side and the right side of the breathing mask 41; the two ends of the restraining belt 46 are respectively sleeved with the connecting ring 44.

In the above embodiment, as shown in fig. 3, in particular, the breathing circuit restriction frame assembly 5 comprises a connection lug plate 51, a first screw 52, a connection plate 53, a second screw 54 and a boom plate 55; the connecting plate 53 is connected to the left position of the rear part of the connecting lug plate 51 through a first screw 52; the suspension arm plate 55 is connected to the left position of the rear part of the connecting plate 53 through a second screw 54; a first sliding hole 531 is formed in the middle of the inner part of the connecting plate 53; a hanging rod 532 is slidably clamped in the first sliding hole 531; the lower end of the suspender 532 is coupled with a restraining slot 533; a second slide hole 551 is arranged in the middle of the interior of the suspension arm plate 55; the top end of the suspension arm plate 55 is coupled with a pendant plate 552; the lower end of the pendant plate 552 is in threaded connection with a constraint hook 553; the constraining slot 533 is made of a PVC plastic plate with a semicircular cross section; the first air duct 12 is clamped in the constraint clamping groove sheet 533.

As shown in fig. 4, in the above embodiment, in particular, the automatic control board assembly 6 includes a control circuit casing 61, a central processing unit 62, a wireless transmitter 63 and an alarm 64; the central processor 62 is welded in the middle of the circuit main board inside the control circuit shell 61; the wireless transmitter 63 is welded at the upper right side of the circuit main board in the control circuit shell 61; the alarm 64 is riveted to the left lower side of the circuit board inside the control circuit case 61.

As shown in fig. 5, in the above embodiment, specifically, the humidification bottle adjusting cover assembly 7 includes a protective cover 71, an air inlet pipe 72, a humidification monitoring sensor 73, an air outlet connecting pipe 74 and a solenoid valve 75; the air inlet pipe 72 is embedded in the middle position of the right side inside the protective cover 71; the humidification monitoring sensor 73 is connected to the middle position of the lower side in the protective cover 71 through a screw; the air outlet connecting pipe 74 is embedded in the middle position of the left side inside the protective cover 71; the solenoid valve 75 is screwed to the inner lower side of the air outlet connection pipe 74.

In the above embodiment, specifically, the first airway tube 12 is sleeved on the upper end of the air outlet connection tube 74; one end of the second air duct 13 is sleeved at the air outlet end of the air-oxygen mixer 14, and the other end is sleeved at the upper part of the air inlet pipe 72.

In the above embodiment, specifically, the touch control operation screen 16 is embedded in the middle position of the front part of the control circuit shell 61; the power switch 17 is embedded at the right lower side of the front surface of the control circuit shell 61.

In the above embodiment, specifically, the moving wheel 2 is a silent rubber universal wheel with a brake pad.

As shown in fig. 6, in the above embodiment, specifically, an information processing module, a humidity monitoring module, an expiratory frequency and air pressure monitoring module, an early warning reminding module, an adjusting processing module, an air outlet valve module and a gas mixing processing module are arranged in the central processing unit 62; the humidity monitoring module, the expiration frequency and air pressure monitoring module, the early warning reminding module, the adjusting and processing module, the air outlet valve module and the air mixing processing module are respectively in communication connection with the information processing module.

In the above embodiment, specifically, the humidity monitoring module is electrically connected to the humidification monitoring sensor 73; the expiration frequency and air pressure monitoring module is electrically connected with the air pressure sensor 45; the gas mixing treatment module is respectively and electrically connected with an air-oxygen mixer 14 and a humidifier 10; the early warning reminding module is electrically connected with the alarm 64; the adjusting and processing modules are respectively and electrically connected with the touch operation screen 16; the air outlet valve module is electrically connected with the electromagnetic valve 75.

In the above embodiment, specifically, the wireless transmitter 63 is connected to a remote terminal device (a computer or a mobile phone) through WIFI or wireless communication.

In the above embodiment, specifically, the central processing unit 62, the wireless transmitter 63, the alarm 64, the touch control operation screen 16, the power switch 17, the air pressure sensor 45, the humidification monitoring sensor 73, the humidifier 10 and the air-oxygen mixer 14 adopt common technical means in the technical fields of mechanical medical treatment and communication; the air pressure sensor 45 is a sensor with the model of Merrill E5; the humidification monitoring sensor 73 is specifically an SHT20 sensor; the touch control operation screen 16, the power switch 17, the air pressure sensor 45, the humidification monitoring sensor 73, the humidifier 10 and the air-oxygen mixer 14 work by adopting a common method in the prior art.

Principle of operation

When the respirator is used, the respirator is pushed to move to a using position under the action of the moving wheel 2, the brake pad on the moving wheel 2 is fixed, the operation stability is ensured, the air source pipeline is connected to the air source connecting pipe 15, and an external power supply is connected, so that the respirator is simple in structure and convenient to use; the inclination angles of the connecting plate 53 and the suspension arm plate 55 are adjusted, the first screw 52 and the second screw 54 are fixed for qualitative determination, the position of the suspension rod 532 is adjusted in the first sliding hole 531 and the second sliding hole 551, the first air duct 12 is clamped in the constraint clamping groove sheet 533 and hung on the constraint hook 553, the first air duct 12 is constrained, and the stability is kept so as to ensure the efficiency and the quality of air transmission; the breathing mask 41 is buckled on the mouth and the nose and is restrained by the restraining belt 46, so that the air pressure sensor 45 is positioned at the upper part of the upper lip, the breathing air pressure of the mouth and the nose is monitored and is displayed on the touch control operation screen 16 after being processed by the central processing unit 62, and the working states of the air-oxygen mixer 14 and the electromagnetic valve 75 are controlled according to different illness states after illness, so that the purpose of intelligent control is achieved; in the process, the humidity monitoring sensor 73 monitors the humidity of the gas entering the first gas-guide tube 12, so that the control of the humidifier 10 is controlled to achieve the purpose of automatic adjustment; wireless transmitter 63 can carry out the transmission connection of data with remote terminal to be convenient for collect patient's state of an illness change condition, carry out the alarm early warning to the condition that takes place under exceeding the settlement standard under the effect of siren 64, avoid patient to produce dangerously.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An intelligent adaptive adjustment respirator is characterized by comprising a supporting base (1), a moving wheel (2), a supporting upright post (3), a measurable breathing pressure mask assembly (4), a breathing pipeline restraint frame assembly (5), an automatic control board assembly (6), a humidification bottle adjustment cover assembly (7), an adjustment sliding rail (8), a supporting plate (9), a humidifier (10), a sliding block plate (11), a first air duct (12), a second air duct (13), an air-oxygen mixer (14), an air source connecting pipe (15), a touch control operation screen (16) and a power switch (17);

the movable wheels (2) are respectively connected to the four corners of the lower part of the supporting base (1) through bolts; one end of the support upright post (3) is in bolted connection with the middle position of the upper part of the support base (1), and the other end of the support upright post is in bolted connection with the middle position of the lower part of the air-oxygen mixer (14); the mask assembly (4) capable of measuring the breathing pressure is in threaded connection with the top end of the first air duct (12); the breathing pipeline restraint frame component (5) is connected to the left side of the air-oxygen mixer (14) through bolts;

the automatic control plate assembly (6) is in screw connection with the upper part of the air-oxygen mixer (14); the humidifying bottle adjusting cover assembly (7) is buckled at the upper part of the humidifying device (10); the humidifier (10) is clamped at the upper part of the supporting plate (9); the adjusting slide rail (8) is connected with the middle position of the front part of the supporting upright post (3) through a screw; the sliding block plate (11) is clamped in the adjusting sliding rail (8) in a sliding mode and is connected to the left side of the lower portion of the supporting plate (9) through bolts.

2. The intelligent adaptive breathing machine according to claim 1, wherein the measurable breathing pressure mask assembly (4) comprises a breathing mask (41), a skin-contact rubber pad (42), a connecting hole (43), a connecting ring (44), an air pressure sensor (45) and a restraint strap (46); the skin-sticking rubber cushion (42) is integrally glued on the front part of the breathing mask (41); the connecting hole (43) is formed in the middle of the rear part of the breathing mask (41); the air pressure sensor (45) is arranged at the lower part of the connecting hole (43) and is in screw connection with the breathing mask (41); the connecting rings (44) are respectively glued at the middle positions of the left side and the right side of the breathing mask (41); two ends of the restraint strap (46) are respectively sleeved with the connecting ring (44).

3. The smart adaptive ventilator of claim 1 wherein said breathing circuit restraint frame assembly (5) comprises a connecting ear plate (51), a first screw (52), a connecting plate (53), a second screw (54), and a boom plate (55); the connecting plate (53) is connected to the left side of the rear part of the connecting lug plate (51) through a first screw (52); the boom plate (55) is connected to the left side of the rear part of the connecting plate (53) through a second screw (54).

4. The intelligent adaptive ventilator of claim 1, wherein said automatic control board assembly (6) comprises a control circuit housing (61), a central processor (62), a wireless transmitter (63) and an alarm (64); the central processor (62) is welded in the middle of the circuit main board in the control circuit shell (61); the wireless transmitter (63) is welded at the right upper side of the circuit main board in the control circuit shell (61); the alarm (64) is riveted at the left lower side of the circuit main board in the control circuit shell (61).

5. The intelligent adaptive adjustment respirator of claim 1, wherein the humidification bottle adjusting cover assembly (7) comprises a protective cover (71), an air inlet pipe (72), a humidification monitoring sensor (73), an air outlet connecting pipe (74) and a solenoid valve (75); the air inlet pipe (72) is embedded in the middle position of the right side in the protective cover (71); the humidifying monitoring sensor (73) is connected to the middle position of the lower side in the protective cover (71) through a screw; the air outlet connecting pipe (74) is embedded in the middle position of the left side inside the protective cover (71); the electromagnetic valve (75) is connected to the lower side of the inside of the air outlet connecting pipe (74) through a screw.

6. The intelligent adaptive control ventilator of claim 5, wherein the first airway tube (12) is sleeved on the upper end of the air outlet connecting tube (74); one end of the second air duct (13) is sleeved at the air outlet end of the air-oxygen mixer (14), and the other end is sleeved at the upper part of the air inlet pipe (72).

7. The intelligent adaptive control ventilator according to claim 4, wherein the touch control operation screen (16) is embedded in the middle of the front part of the control circuit shell (61); the power switch (17) is embedded at the right lower side of the front surface of the control circuit shell (61).

8. The intelligent adaptive control respirator of claim 3, wherein a first slide hole (531) is formed in the middle of the inner part of the connecting plate (53); a hanging rod (532) is connected to the inner part of the first sliding hole (531) in a sliding and clamping manner; the lower end of the suspender (532) is coupled with a restraining clamping groove sheet (533); the constraint slot clamping sheet (533) is a PVC plastic plate with a semicircular cross section; the first air duct (12) is clamped in the constraint clamping groove sheet (533).

9. The intelligent adaptive adjustment respirator of claim 4, wherein the central processing unit (62) is internally provided with an information processing module, a humidity monitoring module, an expiration frequency and air pressure monitoring module, an early warning reminding module, an adjustment processing module, an air outlet valve module and a mixed air processing module; the humidity monitoring module, the expiration frequency and air pressure monitoring module, the early warning reminding module, the adjusting and processing module, the air outlet valve module and the air mixing processing module are respectively in communication connection with the information processing module.

10. The intelligent adaptive control respirator of claim 1, wherein the moving wheel (2) is a silent rubber universal wheel with a brake pad.