CN110942561B

CN110942561B - Atomizing sharing platform

Info

Publication number: CN110942561B
Application number: CN201910290164.5A
Authority: CN
Inventors: 冉斯元
Original assignee: Chongqing Kesite Medical Technology Co ltd
Current assignee: Chongqing Kesite Medical Technology Co ltd
Priority date: 2019-04-11
Filing date: 2019-04-11
Publication date: 2021-08-06
Anticipated expiration: 2039-04-11
Also published as: CN110942561A

Abstract

The invention provides an atomization sharing platform, which comprises: the air supply device comprises a mounting frame, a mounting box, a monitoring system, an external air pressure supply system, an internal air pressure supply system, a first valve, a second valve, a first three-way pipe and an air supply nozzle, wherein the mounting frame is erected on the ground; the monitoring system includes: first detection module, second detection module, control module, first communication module, second communication module, cloud ware, third communication module and nurse management platform, first detection module installs at external atmospheric pressure feed system input, installs second detection module at inside atmospheric pressure feed system output. The atomization sharing platform solves the problem that in the prior art, a private compressor and a hospital share a common compressed air source.

Description

Atomizing sharing platform

Technical Field

The invention relates to atomization equipment, in particular to an atomization sharing platform.

Background

The Chinese patent discloses a Chinese patent with the application number as follows: CN201621426985.5 adjustable compression formula atomizer, the atomizer includes shell, compressor, intake pipe, air inlet filter core, admission valve, outlet duct, atomizing cup, power cord, switch, pilot lamp and control circuit, the atomizing cup is through outlet duct and compressor port intercommunication of giving vent to anger, be provided with louvre, switch, pilot lamp and atomizing cup support on the shell, the air feed pipe can send the compressed air that the compressor outputs into the atomizing cup and atomize, the air inlet filter core is connected to the inlet port of compressor through the intake pipe after establishing ties the intake valve, the power cord establishes ties with the parallel circuit of compressor and pilot lamp after establishing ties the switch, the shell is used for the structural connection between each subassembly; although the technical scheme controls the flow of the air inlet valve in a circuit control mode, the atomizer still has the following problems:

the atomizer can work only by a fixed compressor, in the hospital environment, a large number of shared compressors are needed, the compressors cannot be shared, so that the use is troublesome, sometimes, the common compressed air source of the hospital is limited, the phenomenon that the common compressed air source of the hospital cannot normally supply air pressure when the common compressed air source of the hospital cannot work, and the phenomenon that the private compressor and the common compressed air source of the hospital cannot be shared cannot be realized.

Disclosure of Invention

The invention provides an atomization sharing platform, which solves the problem that in the prior art, a private compressor and a hospital shared compressed air source are shared.

In order to achieve the purpose, the invention adopts the following technical scheme:

this embodiment provides an atomizing sharing platform, includes: the air compressor comprises a mounting frame, a mounting box, a monitoring system, an external air pressure supply system, an internal air pressure supply system, a first valve, a second valve, a first three-way pipe and an air supply nozzle, wherein the mounting frame is erected on the ground;

the input end of the external air pressure supply system is communicated with an external air pressure source (equivalent to a common compressed air source of a hospital), the output end of the external air pressure supply system is connected to the first input end of the first three-way pipe through a first valve, the second input end of the first three-way pipe is communicated to the output end of the internal air pressure supply system through a second valve, the input end of the internal air pressure supply system is communicated to the external atmospheric pressure, the internal air pressure supply system is used for providing compressed air for an air supply nozzle, the output end of the first three-way valve is communicated to the air supply nozzle, and the air supply nozzle is used for being communicated with an atomizer;

the monitoring system includes: the system comprises a first detection module, a second detection module, a control module, a first communication module, a second communication module, a cloud server, a third communication module and a nurse management table, wherein the first detection module is installed at the input end of an external air pressure supply system and used for detecting whether an external air pressure source provides compressed gas or not, the second detection module is installed at the output end of an internal air pressure supply system and used for detecting whether the internal air pressure supply system provides the compressed gas or not, the first detection module and the second detection module are both electrically connected to the control module, the control module is connected to a first valve, a second valve and driving equipment in the internal air pressure supply system, the control module is connected to the first communication module, the first communication module is in communication connection with the second communication module, the second communication module is connected to the cloud server, and the cloud server is connected to a mobile phone, the nurse management station is connected to the cloud server through the third communication module and the second communication module, and the nurse management station is connected with the control module through the third communication module and the first communication module.

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

realized sweeping the sign indicating number through the cell-phone and paying to shared platform, pay back through regulation and control external atmospheric pressure feed system, inside atmospheric pressure feed system supplies with atmospheric pressure, for the hospital has practiced thrift the cost, the condition is provided for the healthy orderly development of hospital, and the supply condition of real time monitoring external atmospheric pressure feed system and inside atmospheric pressure feed system, then the function of regulation and control external atmospheric pressure feed system and inside atmospheric pressure feed system, guaranteed to have continuously the atmospheric pressure to supply with, also can indicate which has the bad condition after the control simultaneously, avoided appearing the atmospheric pressure and had the condition that the time period can not supply with appearing and appeared, the competitiveness is improved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a perspective view of an atomization sharing platform;

FIG. 2 is an exploded view of the atomization sharing platform;

FIG. 3 is a cross-sectional view at the first through-hole of FIG. 2;

fig. 4 is a sectional view of the air supply nozzle of fig. 2.

Reference numerals: mounting bracket 1, mounting box 2, control module 30, power supply module 31, display screen 32, horn 33, external air pressure supply system 4, second three-way pipe 41, first main pipe 42, first branch pipe 43, second branch pipe 44, second main pipe 45, first electromagnetic valve 46, second electromagnetic valve 47, third three-way valve 48, internal air pressure supply system 5, compression housing 50, compression fan 51, compression motor 52, filter screen 53, protective cover 54, ring body 531, first screw 532, ring 533, connecting rod 534, step 535, connecting arm 536, first spring 537, limit pin 538, first valve 6, second valve 7, first three-way pipe 8, air supply nozzle 9, pipe 91, mounting ring 92, opening and closing piece 93, sealing ring 94, second spring 95, guide rod 96, first mounting bracket 97, communication head 10, second mounting bracket 100, push rod 101, limit head 102, positive plate 102, Negative plate 103, conducting plate 104, pin 105, second screw 106.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the functions of the invention clearer and easier to understand, the invention is further explained by combining the drawings and the detailed implementation mode:

as shown in fig. 1 to 4, the present embodiment provides an atomization sharing platform, including: the air pressure monitoring device comprises a mounting frame 1, a mounting box 2, a monitoring system, an external air pressure supply system 4, an internal air pressure supply system 5, a first valve 6, a second valve 7, a first three-way pipe 8 and an air supply nozzle 9, wherein the mounting frame 1 is erected on the ground, the mounting box 2 is mounted in the middle of the mounting frame 1, and the control system, the external air pressure supply system 4, the internal air pressure supply system 5, the first valve 6, the second valve 7 and the first three-way pipe 8 are all mounted in the mounting box 2;

the input end of an external air pressure supply system 4 is communicated with an external air pressure source, the output end of the external air pressure supply system 4 is connected to the first input end of a first three-way pipe 8 through a first valve 6, the second input end of the first three-way pipe 8 is communicated to the output end of an internal air pressure supply system 5 through a second valve 7, the input end of the internal air pressure supply system 5 is communicated to the external atmospheric pressure, the internal air pressure supply system 5 is used for providing compressed air for an air supply nozzle 9, the output end of the first three-way valve is communicated to the air supply nozzle 9, and the air supply nozzle 9 is used for being communicated with an atomizer;

the monitoring system includes: a first detection module (which can be a flow meter), a second detection module (which can be a flow meter), a control module 30, a first communication module, a second communication module, a cloud server, a third communication module and a nurse management desk, wherein the first detection module is installed at the input end of the external air pressure supply system 4, the first detection module is used for detecting whether the external air pressure source provides compressed gas, the second detection module is installed at the output end of the internal air pressure supply system 5, the second detection module is used for detecting whether the internal air pressure supply system 5 provides compressed gas, the first detection module and the second detection module are both electrically connected to the control module 30, the control module 30 is connected to the first valve 6, the second valve 7 and driving equipment in the internal air pressure supply system 5, the control module 30 is connected to the first communication module, and the first communication module is in communication connection with the second communication module, the second communication module is connected to the cloud server, the cloud server is used for being connected to the mobile phone, the nurse management station is connected to the cloud server through the third communication module and the second communication module, and the nurse management station is connected with the control module through the third communication module and the first communication module. The two-dimensional code is provided on the mounting frame 1, the mobile phone scans the code and then realizes payment to the cloud server, the cloud server informs the control module 30 of the fact that air pressure needs to be provided within five minutes after payment is completed, the control module 30 knows which of the external air pressure supply system 4 and the internal air pressure supply system 5 is in a normal working state through the first detection module and the second detection module, the control module 30 prefers the external air pressure supply system to provide air pressure due to partial noise of the internal air pressure supply system 5, when the internal air pressure supply system 5 needs to be used, the second valve 7 is opened, the first valve 6 is closed, and the internal air pressure supply system 5 is controlled to operate, so that air supply is realized; when the external air pressure supply system is required to be used, the first valve 6 is opened, and the second valve 7 is closed, so that air supply is realized. Control module 30 is connected to the control end of power module 31, the control end of display screen 32 and the base of switch triode, and switch triode emitter ground, the collecting electrode of switch triode are connected to loudspeaker 33 negative pole, and loudspeaker 33 anodal is connected to the power output of power module 31, and the mains supply is inserted to the power input of power module 31, and the power output of power module 31 is connected to the display screen 32 anodal. Nurse management platform and terminal pass through wifi, and nurse management platform main function is the information of collection, inputs information, and the terminal equipment of control network version, many equipment simultaneous management, and the terminal divide into network version and stand-alone version, and the effect is many equipment simultaneous use, and the simultaneous treatment plays propaganda animation, and the stand-alone version is single equipment independent use independent treatment, plays the propaganda piece, and the stand-alone version can not dispose nurse management platform. The nurse management desk and the cloud server are transmitted through a wired network or 4g, and the cloud server is mainly used for collecting nurse station information, checking the working state of each piece of equipment and sharing data to each nurse management desk.

In order to realize the adjustment of the amount of air supplied per unit time when the atmospheric pressure supply system 4 is used and to realize the use of the second solenoid valve 47 after the first solenoid valve 46 is damaged, and to avoid the problem that the adjustment function of the amount of air supplied per unit time cannot be realized due to the damage of one of the first solenoid valve 46 and the second solenoid valve 47, the atmospheric pressure supply system 4 includes: the air pressure control device comprises a second three-way pipe 41, a first main pipe 42, a first branch pipe 43, a second branch pipe 44, a second main pipe 45, a first electromagnetic valve 46, a second electromagnetic valve 47 and a third three-way valve 48, wherein one end of the first main pipe 42 is an input end of an external air pressure supply system 4, the other end of the first main pipe 42 is communicated to an input end of the second three-way pipe 41, a first output end of the second three-way pipe 41 is communicated to an input end of the first branch pipe 43, a second output end of the second three-way pipe 41 is communicated to an input end of the second branch pipe 44, the input end of the first branch pipe 43 is connected to a first input end of the third three-way valve 48 through the first electromagnetic valve 46, the input end of the second branch pipe 44 is connected to a second input end of the third three-way valve 48 through the second electromagnetic valve 47, the output end of the third three-way valve 48 is connected to the input end of the second main pipe 45, and the output end of the second main pipe 45 is an output end of the external air pressure supply system 4.

In order to design the internal air pressure supply system 5 which is simple in structure and convenient to use, the internal air pressure supply system 5 includes: compression casing 50, compressor fan 51 and compression motor 52, compression casing 50 installs in mounting box 2, compression chamber has been seted up to compression casing 50, input channel and output channel, install revolvable compressor fan 51 in the compression chamber, install compression motor 52 outside compression casing 50, compression motor 52's pivot is connected to compressor fan 51, the input department of compression chamber communicates to input channel one end, the input channel other end is used for communicating external atmospheric pressure, the output of compression chamber communicates to output channel one end, the output channel other end is the output of inside atmospheric pressure feed system 5.

In order to improve the quality of the gas provided by the atomizing shared platform and improve the market competitiveness, the internal gas pressure supply system 5 further comprises: PM2.5 filter (be used for filtering PM2.5) (not shown), filter screen 53 (be used for filtering the dust) and protection casing 54 (avoid the large particulate matter to get into and block up filter screen 53), install the PM2.5 filter that is arranged in filtered air PM2.5 in the output channel, first through-hole has been seted up on mounting box 2, the inner one end intercommunication that deviates from the compression chamber with the output channel of first through-hole, install the filter screen 53 that is arranged in filtered air dust in the first through-hole, first through-hole outer end is by the protection casing 54 that only supplies the air to pass through.

In order to provide a mounting base for the subsequent filter screen 53 and the protective cover 54 to be mounted together, the first through hole includes: first section portion, second section portion and third section portion, first section portion one end and 2 inner chambers of mounting box intercommunication, the first section portion other end and second section portion one end intercommunication, first section portion and third section portion are the cylinder body type, the second section portion is the cuboid form, the diameter of first section portion is greater than the width of second section portion bottom surface, first section portion and second section portion junction form step 535, the second section portion other end and third section portion intercommunication.

In order to realize that the filter screen 53 and the protective cover 54 can be separated from each other and that the filter screen 53 and the protective cover 54 can be installed together, the filter screen 53 is of a sheet structure, one surface of the filter screen 53 is tightly attached to the step 535, the other surface of the filter screen 53 is fixed with a ring body 531 extending towards the third section, one end of the third section departing from the second section is buckled by the protective cover 54, the protective cover 54 is connected with the installation box 2 through a first screw 532, a ring 533 is fixed on the side surface of the protective cover 54 close to the ring body 531, the ring 533 can rotate in the third section, the side surface of the protective cover 54 close to the ring body 531 is connected to one end of a connecting rod 534, the connecting rod 534 is positioned on the parallel center lines of the first section and the second section, the other end of the connecting rod 534 tightly presses the filter screen 53 on the step 535, a connecting arm 536 is fixed on the end part of the ring body of the connecting rod 534, one side of the ring 531 close to the ring 533 is sunken to form a jack, the receptacle is adapted to receive the connecting arm 536 from a direction parallel to the connecting bar 534, and the inner wall of the receptacle is recessed to form a first arcuate slot into which the connecting arm 536 is threaded.

In order to avoid the limiting pin 538 to rotate at will in the first arc-shaped groove and lead to the installation time filter screen 53 to break away from with the protection casing 54 easily, avoided the easy protection casing 54 of filter screen 53 to break away from and lead to bringing the trouble for the installation of filter screen 53 and protection casing 54, the sunken flexible hole that forms of first arc-shaped groove inner wall, flexible downthehole wall is connected to first spring 537 one end, the first spring 537 other end is fixed to limiting pin 538, the connecting arm 536 keeps away from the sunken spacing hole that supplies limiting pin 538 male of forming in the side of connecting rod 534, the tip that limiting pin 538 inserted to spacing downthehole is the hemisphere type. When mounting, first, the connecting arm 536 is inserted into the socket; then, the ring 533 and the connecting arm 536 are rotated, the connecting arm 536 rotates around the connecting rod 534, the connecting arm 536 starts to extrude the limit pin 538, the limit pin 538 is extruded in the telescopic hole, and after the limit pin 538 is aligned with the limit hole, the limit pin 538 extends into the limit hole under the elastic force of the first spring 537, so that the filter screen 53 is connected with the protective cover 54; then, the filter screen 53 and the protective cover 54 are inserted into the first through hole together, the protective cover 54 is extruded, the filter screen 53 is pressed on the step 535 by the connecting rod 534 and the connecting arm 536, and the step 535 does not block the ventilation of the filter screen 53; finally, the shield 54 is mounted using the first screws 532. When the mounting is realized, the filter screen 53 and the protective cover 54 are mounted together, when the dismounting is realized, the filter screen 53 and the protective cover 54 are separated from the mounting box 2 together, the dismounting of the filter screen 53 and the protective cover 54 is facilitated, meanwhile, the filter screen 53 can be dismounted relative to the protective cover 54, and the cleaning of the filter screen 53 is facilitated.

In order to design the air supply nozzle 9 with a simple structure, the air supply nozzle 9 includes: the atomizer comprises a pipe body 91, a mounting ring 92, an opening and closing sheet 93, a sealing ring 94, a second spring 95, a guide rod 96 and a first mounting frame 971, wherein the mounting ring 92 is mounted on the inner wall of the pipe body 91, the opening and closing sheet 93 is mounted on one side, away from the atomizer, of the mounting ring 92, the opening and closing sheet 93 is used for opening and closing an inner hole of the mounting ring 92, the sealing ring 94 pressed on the mounting ring 92 is arranged on the opening and closing sheet 93, the first mounting frame 971 fixed with the inner wall of the pipe body 91 is arranged on one side, away from the mounting ring 92, of the opening and closing sheet 93, the first mounting frame 971 can be used for gas to pass through, the first mounting frame 971 is penetrated by the guide rod 96, the guide rod 96 is connected to the opening and closing sheet 93, the guide rod 96 is movable in the radial direction of the tube body 91 under the guidance of the first mounting bracket 971, the shutter 93 is connected to one end of the second spring 95, the other end of the second spring 95 is fixed to the first mounting bracket 971, the opening and closing sheet 93 can be kept to press the sealing ring 94 on the mounting ring 92 under the elastic force of the second spring 95; input intercommunication of atomizer has the intercommunication head 10, installs second mounting bracket 1001 on the intercommunication head 10 inner wall, and second mounting bracket 1001 can pass for the gas, and push rod 101 is installed to second mounting bracket 1001, and push rod 101 is used for promoting switching piece 93 to the position of keeping away from collar 92, and intercommunication head 10 can dismantle with body 91 and be connected. The air can be sprayed out only after the communicating head 10 is inserted into the pipe body 91, so that the phenomenon that air is suddenly emitted to scare atomizing children due to the fact that the communicating head 10 is suddenly separated from the annular groove is avoided, the phenomenon that the children are not willing to atomize any more due to the fact that the air is suddenly emitted is avoided, fear of a user to the equipment is increased, and safety is improved.

In order to realize the detachable connection of the communicating head 10 and the pipe body 91, the limiting head 102 protrudes out of the outer wall of the communicating head 10, the communicating head 10 is of a hollow cylinder structure, the side surface of the pipe body 91, which is close to the atomizer, is sunken to form an annular groove, the annular groove is used for inserting the communicating head 10, the side surface of the pipe body 91, which is close to the atomizer, is sunken to form a guide hole communicated with the annular groove, the inner wall of the guide hole is sunken to form a second arc-shaped groove, and the second arc-shaped groove is used for screwing the limiting head 102 in. After screwing in, the limiting head 102 has a tendency of moving away from the pipe body 91 under the elastic force of the second spring 95, so that the limiting head 102 cannot rotate in the second arc-shaped groove at will, the limiting head 102 cannot be separated from the second arc-shaped groove easily, and connection is realized.

In order to achieve that the first valve 6 and the second valve 7 can only be opened after the connecting head 10 has been inserted into the annular groove. After the shutter 93 closes the mounting ring 92, if the air is still supplied, the internal air pressure is easily over-high to cause an explosion phenomenon, and in order to avoid the phenomenon: limiting heads 102 have two, it all has two to correspond limiting head 102 guiding hole and second arc wall, install positive plate 102 on the second arc wall inner wall, positive plate 102 is connected to the 5v power, install negative pole piece 103 on another arc wall inner wall, negative pole piece 103 is connected to control module 30, two limiting heads 102 all adopt conducting material to make, the sunken mounting groove that forms of intercommunication head 10 outer wall, install annular conducting strip 104 in the mounting groove, limiting head 102 installs on intercommunication head 10, and each limiting head 102 all is connected with conducting strip 104 electricity.

A pin 105 for insertion into the communication head 10 is connected to each stopper 102, the pin 105 is threadedly connected to the communication head 10 by a second screw 106, and the second screw 106 does not prevent the communication head 10 from rotating in the mounting groove.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims

1. An atomization sharing platform, comprising: the air supply device comprises a mounting frame, a mounting box, a monitoring system, an external air pressure supply system, an internal air pressure supply system, a first valve, a second valve, a first three-way pipe and an air supply nozzle, wherein the mounting frame is erected on the ground;

the input end of the external air pressure supply system is communicated with an external air pressure source, the output end of the external air pressure supply system is connected to the first input end of the first three-way pipe through a first valve, the second input end of the first three-way pipe is communicated to the output end of the internal air pressure supply system through a second valve, the input end of the internal air pressure supply system is communicated to the external air pressure, the internal air pressure supply system is used for providing compressed air for an air supply nozzle, the output end of the first three-way valve is communicated to the air supply nozzle, and the air supply nozzle is used for being communicated with an atomizer;

2. The aerosol sharing platform of claim 1, wherein the ambient air pressure supply system comprises: the second three-way pipe, the first main pipe, the first branch pipe, the second main pipe, the first electromagnetic valve, the second electromagnetic valve and the third three-way valve, one end of the first main pipe is an external air pressure supply system input end, the other end of the first main pipe is communicated to the second three-way pipe input end, the first output end of the second three-way pipe is communicated to the first branch pipe input end, the second output end of the second three-way pipe is communicated to the second branch pipe input end, the first branch pipe input end is connected to the first input end of the third three-way valve through the first electromagnetic valve, the second branch pipe input end is connected to the second input end of the third three-way valve through the second electromagnetic valve, the output end of the third three-way valve is connected to the second main pipe input end, and the output end of the second main pipe is an external air pressure supply system output end.

3. The aerosol sharing platform of claim 2, wherein the internal air pressure supply system comprises: compression casing, compressor motor and compression motor, compression casing installs in the mounting box, compression chamber has been seted up to compression casing, input channel and output channel, install revolvable compressor fan in the compression chamber, install compression motor outside compression casing, compressor motor's pivot is connected to compressor fan, the input department of compression chamber communicates to input channel one end, the input channel other end is used for communicateing external atmospheric pressure, the output intercommunication of compression chamber communicates to output channel one end, the output channel other end is the output of inside atmospheric pressure feed system.

4. The aerosol sharing platform of claim 3, wherein the internal air pressure supply system further comprises: PM2.5 filter, filter screen and protection casing, install the PM2.5 filter that is arranged in filtered air PM2.5 in the delivery channel, seted up first through-hole on the mounting box, the one end intercommunication that deviates from the compression chamber with the delivery channel in first through-hole inner, install the filter screen that is arranged in filtered air dust in the first through-hole, first through-hole outer end is by the protection casing that only supplies the air to pass through.

5. The atomization sharing platform of claim 4, wherein the first through hole comprises: first section portion, second section portion and third section portion, first section portion one end and mounting box inner chamber intercommunication, the first section portion other end and second section portion one end intercommunication, first section portion and third section portion are the cylinder body type, second section portion is the rectangular bodily form, the diameter of first section portion is greater than the width of second section portion bottom surface, first section portion and second section portion junction form the step, the second section portion other end and third section portion intercommunication.

6. The atomization sharing platform according to claim 5, wherein the filter screen is of a sheet structure, one side of the filter screen is tightly attached to the step, a ring body extending towards the third section is fixed to the other side of the filter screen, one end, away from the second section, of the third section is buckled by the protective cover, the protective cover is connected with the mounting box through a first screw, a ring is fixed to the side, close to the ring body, of the protective cover, the ring can rotate in the third section, the side, close to the ring body, of the protective cover is connected to one end of a connecting rod, the connecting rod is located on the parallel center lines of the first section and the second section, the filter screen is tightly pressed on the step by the other end of the connecting rod, a connecting arm is fixed to the end, close to the filter screen, one side, close to the ring, of the ring body is recessed to form a jack, the jack is used for inserting the connecting arm in the direction parallel to the connecting rod, and the inner wall of the jack is recessed to form a first arc-shaped groove for screwing the connecting arm.

7. The atomization sharing platform of claim 6, wherein the inner wall of the first arc-shaped groove is recessed to form a telescopic hole, the inner wall of the telescopic hole is connected to one end of a first spring, the other end of the first spring is fixed to a limit pin, the side surface of the connecting arm away from the connecting rod is recessed to form a limit hole for the limit pin to insert into, and the end of the limit pin inserted into the limit hole is hemispherical.

8. The aerosol sharing platform of claim 7, wherein the gas delivery nozzle comprises: the pipe body, the mounting ring, the opening and closing piece, the sealing ring, the second spring, the guide rod and the first mounting frame, the mounting ring is mounted on the inner wall of the pipe body, the opening and closing piece is mounted on one side, away from the atomizer, of the mounting ring and used for opening and closing an inner hole of the mounting ring, the sealing ring pressed on the mounting ring is arranged on the opening and closing piece, a first mounting frame fixed with the inner wall of the pipe body is arranged on one side, away from the mounting ring, of the opening and closing piece, the first mounting frame can allow gas to pass through, the first mounting frame is penetrated by the guide rod, the guide rod is connected to the opening and closing piece, the guide rod can move in the radial direction of the pipe body under the guide of the first mounting frame, the opening and closing piece is connected to one end of the second spring, the other end of the second spring is fixed to the first mounting frame, and the opening and closing piece can be kept to press the sealing ring on the mounting ring under the elasticity of the second spring;

the input intercommunication of atomizer has the intercommunication head, installs the second mounting bracket on the intercommunication head inner wall, and the second mounting bracket can pass for the gas, and the push rod is installed to the second mounting bracket, and the push rod is used for promoting the switching piece to the position of keeping away from the collar, and the intercommunication head can be dismantled with the body and be connected.

9. The atomization sharing platform of claim 8, wherein a limiting head protrudes from an outer wall of the communicating head, the communicating head is of a hollow cylindrical structure, a side surface of the tube body close to the atomizer is recessed to form an annular groove, the annular groove is used for the communicating head to insert, a side surface of the tube body close to the atomizer is recessed to form a guide hole communicated with the annular groove, an inner wall of the guide hole is recessed to form a second arc-shaped groove, and the limiting head is screwed in the second arc-shaped groove.

10. The atomization sharing platform according to claim 9, wherein there are two limiting heads, there are two corresponding limiting head guide holes and two corresponding second arc-shaped grooves, a positive plate is installed on the inner wall of the second arc-shaped groove, the positive plate is connected to a 5v power supply, a negative plate is installed on the inner wall of the other arc-shaped groove, the negative plate is connected to the control module, the two limiting heads are both made of conductive materials, the outer wall of the communicating head is recessed to form an installation groove, an annular conductive plate is installed in the installation groove, the limiting heads are installed on the communicating head, and each limiting head is electrically connected with the conductive plate.