CN104824851A - Electronic atomizer, atomization control method and physical sign data monitoring system - Google Patents

Abstract

The invention provides an electronic atomizer, an atomization control method and a physical sign data monitoring system, which belongs to the field of electronic products. The electronic atomizer comprises a suction pipe, an atomization studio and a vent pipe; the atomization studio comprises a liquid storage cavity and an atomization cavity; an isolation piece is arranged between the atomization cavity and the liquid storage cavity; the atomization cavity is internally provided with a heating piece and a heating piece driving circuit; the suction pipe is respectively connected with the atomization cavity and the vent pipe; the vent pipe is internally provided with a flow sensor and a microcontroller; and the microcontroller is respectively electrically connected with the flow sensor and the heating piece driving circuit. the electronic atomizer of the invention can control the atomization power of the heating piece according to suction strength of a user, the problem that as the atomization power of the prior electronic atomizer is constant, inconvenience is brought to the user during the use process of the prior electronic atomizer is improved, and use feeling of the user is greatly improved.

Description

Atomizer for electric and atomization control method and sign data monitoring system

Technical field

The present invention relates to electronics field, in particular to a kind of atomizer for electric and atomization control method and sign data monitoring system.

Background technology

Atomizer for electric or electronic cigarette are by heating, make the liquid atomization and allow user suck a kind of electronic product of aerosol.The novel product be situated between electronic devices and components and food.The difference that it is maximum with conventional cigarette, is exactly without burning, does not have the noxious materials such as tar, carbon monoxide, nitrous acid.Do not have simultaneously and very large second-hand-cigarette is affected on surrounding population yet.But the atomization power of existing atomizer for electric is constant, causes existing atomizer for electric to bring inconvenience in use procedure to user.

Summary of the invention

The object of the present invention is to provide a kind of atomizer for electric and be atomized control method and sign data monitoring system, be constant to improve the atomization power of existing atomizer for electric, cause existing atomizer for electric to bring the problem of inconvenience in use procedure to user.

The present invention is achieved in that

First aspect, embodiments provides a kind of atomizer for electric, comprises suction line, atomization operating room and breather pipe; Described atomization operating room comprises liquid storage cavity and atomization chamber, being provided with the separator for isolating described atomization chamber and described liquid storage cavity between described atomization chamber and described liquid storage cavity, in described atomization chamber, being provided with heating member and heating member drive circuit; Described suction line is connected with described atomization chamber and described breather pipe respectively;

Be provided with flow sensor and microcontroller in described breather pipe, described microcontroller is electrically connected with described flow sensor and described heating member drive circuit respectively;

Described flow sensor is for gathering the influx of gas in described breather pipe, described microcontroller is for monitoring the situation of change of the influx of the gas of described flow sensor collection, when described microcontroller judges that the described inflow quantitative change that described flow sensor gathers is large, described heating member drive circuit is indicated to strengthen the atomization power of described heating member, when described microcontroller judges that the described influx of described flow sensor collection diminishes, described heating member drive circuit is indicated to reduce the atomization power of described heating member.

In conjunction with first aspect, embodiments provide the first possible embodiment of first aspect, wherein, described separator is electric control valve, and described electric control valve is electrically connected with valve driving circuit, and described valve driving circuit is electrically connected with described microcontroller.

In conjunction with first aspect, embodiments provide the embodiment that the second of first aspect is possible, wherein, described suction line is truncated cone-shaped, and described suction line is greater than the opening of the one end near described atomization chamber away from the opening diameter of one end of described atomization chamber.

In conjunction with first aspect or the first possible embodiment of first aspect or the possible embodiment of the second of first aspect, embodiments provide the third possible embodiment of first aspect, wherein, described breather pipe is also provided with trigger sensor, described trigger sensor is electrically connected with described flow sensor, when described trigger sensor is greater than default threshold value for the gas flow detecting in breather pipe, wakes up and be in dormant described flow sensor.

In conjunction with the third possible embodiment of first aspect, embodiments provide the 4th kind of possible embodiment of first aspect, wherein, described breather pipe is also provided with gas concentration sensor, described gas concentration sensor is electrically connected with described microcontroller, and described microcontroller is electrically connected with wireless communication unit.

In conjunction with the 4th kind of possible embodiment of first aspect, embodiments provide the 5th kind of possible embodiment of first aspect, wherein, the outer wall of described breather pipe is provided with cavity, and described cavity is communicated with described breather pipe, described gas concentration sensor is arranged in described cavity.

Second aspect, embodiments provide a kind of atomization control method, be applied to above-mentioned atomizer for electric, described method comprises:

Described flow sensor detects the flow direction of the gas in described breather pipe, and when described flow direction is externally to described ventilation Bottomhole pressure, described flow sensor starts the influx of the gas gathered in described breather pipe;

When described inflow quantitative change is large, described flow sensor indicates described heating member drive circuit to strengthen the atomization power of described heating member;

When described influx diminishes, described flow sensor indicates described heating member drive circuit to reduce the atomization power of described heating member.

In conjunction with second aspect, embodiments provide the first possible embodiment of second aspect, wherein, detect the flow direction of the gas in described breather pipe at described flow sensor before, also comprise:

Described trigger sensor monitors the initial influx of the gas in described breather pipe, and when described initial influx is greater than startup threshold value, described trigger sensor triggers described flow sensor and starts working.

In conjunction with the first possible embodiment of second aspect or second aspect, embodiments provide the embodiment that the second of second aspect is possible, wherein, described method, also comprises:

When described flow direction is from described suction line to described breather pipe, described gas concentration sensor starts to detect the concentration value of carbon dioxide in gas in described breather pipe and oxygen, and the concentration value of described carbon dioxide and oxygen is passed to described microcontroller; Described flow sensor then detects the discharge of the gas in described breather pipe, and described discharge is passed to described microcontroller;

Described microcontroller is delivered to far-end the concentration value of described carbon dioxide and oxygen and described discharge by described wireless communication unit.

The third aspect, embodiments provides a kind of sign data monitoring system, comprises atomizer for electric, described atomizer for electric, comprises suction line, atomization operating room and breather pipe; Described atomization operating room comprises liquid storage cavity and atomization chamber, being provided with the separator for isolating described atomization chamber and described liquid storage cavity between described atomization chamber and described liquid storage cavity, in described atomization chamber, being provided with heating member and heating member drive circuit; Described suction line is connected with described atomization chamber and described breather pipe respectively; Be provided with flow sensor and microcontroller in described breather pipe, described microcontroller is electrically connected with described flow sensor and described heating member drive circuit respectively; Described breather pipe is also provided with gas concentration sensor, and described gas concentration sensor is electrically connected with described microcontroller, and described microcontroller is electrically connected with wireless communication unit;

Described system also comprises server and information receiving terminal, and described atomizer for electric passes through described wireless communication unit and described server communication, described information receiving terminal and described server network communication;

Described atomizer for electric is for gathering sign data, described sign data comprises the concentration value of the carbon dioxide and oxygen in the gas flowing into described breather pipe from described suction line of described gas concentration sensor collection, the gas influx in the breather pipe that described flow sensor gathers and discharge; Also for described sign data is delivered to described server;

Described server is used for the described sign data received and the normal sign data preset to compare, and comparison result is pushed to information receiving terminal;

Described information receiving terminal is for receiving the data of described server push.

The atomizer for electric that the embodiment of the present invention provides and atomization control method and sign data monitoring system, by arranging flow sensor on the breather pipe passed in and out for gas, and the microcontroller being used in data processing is electrically connected respectively with flow sensor with for the heating member drive circuit of the heating member be atomized respectively, make described flow sensor for gathering the influx of gas in described breather pipe, described microcontroller is for monitoring the situation of change of the influx of the gas of described flow sensor collection, when described microcontroller judges that the described inflow quantitative change that described flow sensor gathers is large, described heating member drive circuit is indicated to strengthen the atomization power of described heating member, when described microcontroller judges that the described influx of described flow sensor collection diminishes, described heating member drive circuit is indicated to reduce the atomization power of described heating member, thus the atomizer for electric making the embodiment of the present invention provide can control the atomization power of heating member according to the dynamics of user's air-breathing, the atomization power improving existing atomizer for electric is constant, existing atomizer for electric is caused to bring the problem of inconvenience in use procedure to user, greatly improve user simultaneously and use susceptibility.

Accompanying drawing explanation

Fig. 1 shows the structural representation of the atomizer for electric that the embodiment of the present invention provides;

Fig. 2 shows a kind of structural representation of the middle suction line of the atomizer for electric that the embodiment of the present invention provides;

Fig. 3 shows the flow chart of the atomization control method that the embodiment of the present invention provides;

Fig. 4 shows the structured flowchart of the sign data monitoring system that the embodiment of the present invention provides;

Fig. 5 shows a kind of structured flowchart being atomized control device that the embodiment of the present invention provides.

Reference numeral:

Suction line 101, breather pipe 102, liquid storage cavity 103, atomization chamber 104, separator 105, heating member 106, aerosol exit 107;

Flow sensor 201, gas concentration sensor 202, cavity 203;

Power supply 301.

Detailed description of the invention

Below in conjunction with accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.The assembly of the embodiment of the present invention describing and illustrate in usual accompanying drawing herein can be arranged with various different configuration and design.Therefore, below to the detailed description of the embodiments of the invention provided in the accompanying drawings and the claimed scope of the present invention of not intended to be limiting, but selected embodiment of the present invention is only represented.Based on embodiments of the invention, the every other embodiment that those skilled in the art obtain under the prerequisite not making creative work, all belongs to the scope of protection of the invention.

Consult Fig. 1, a kind of atomizer for electric that the embodiment of the present invention provides, comprise suction line 101, atomization operating room and breather pipe 102, described suction line 101 is connected with described atomization chamber 104 and described breather pipe 102 respectively; Described atomization operating room is for generation of aerosol, and after described suction line 101 is connected with described atomization operating room, so that user is drawn into the aerosol that described atomization operating room produces in oral cavity by suction line 101, breather pipe 102 then sucks for user and the gas of exhalation passes through.

And in practice process, suction line 101, atomization operating room and the shape of breather pipe 102 can have numerous embodiments, producing the shape that atomization operating room can be set to the rule such as spheroid or cuboid in batches for the ease of carrying out, certainly, also can be set to other irregular shapes.Described suction line 101 then can be set to cylindric, preferably, as shown in Figure 2, described suction line 101 can be greater than the opening of the one end near described atomization chamber 104 away from the opening diameter of one end of described atomization chamber 104, be beneficial to strengthen the gas flow capability in suction line.And also can adopt above-mentioned design for breather pipe 102, described breather pipe is set to the internal diameter of the opening being greater than the other end near the internal diameter of the opening of the outside one end of atomizer for electric, thus increases the gas fluidity in breather pipe.

The atomizer for electric that the embodiment of the present invention provides produces aerosol by the mode heating liquid, then described atomization operating room then comprises the liquid storage cavity 103 for storing liquid, and specifically for being atomized the atomization chamber 104 of work.Heating member 106 and heating member drive circuit is provided with in described atomization chamber.And flow in atomization chamber 104 in order to avoid the liquid in liquid storage cavity 103 does not use during atomizer for electric user, be provided with the separator 105 for isolating described atomization chamber 104 and described liquid storage cavity 103 between described atomization chamber 104 and described liquid storage cavity 103.

And in practice process, the embodiment of separator 105 has multiple, such as, unidirectional screen pack can be used.And in the present embodiment, for the ease of controlling opening and closedown of separator 105, as one preferred embodiment, described separator 105 can be electric control valve, and described electric control valve is electrically connected with valve driving circuit.

In order to the atomization power realizing the atomizer for electric that the embodiment of the present invention provides can change according to the dynamics of user's air-breathing, be provided with flow sensor 201 and microcontroller in described breather pipe 102, described microcontroller is electrically connected with described flow sensor 201 and described heating member drive circuit respectively.

Described flow sensor 201 is for gathering the influx of gas in described breather pipe 102, described microcontroller is for monitoring the situation of change of the influx of the gas of described flow sensor 201 collection, when described microcontroller judges that the described inflow quantitative change that described flow sensor 201 gathers is large, described heating member drive circuit is indicated to strengthen the atomization power of described heating member 106, when described microcontroller judges that the described influx that described flow sensor 201 gathers diminishes, described heating member drive circuit is indicated to reduce the atomization power of described heating member 106.Make heating member 106 can under control of the microprocessor, regulate atomization power according to the influx of gas in described breather pipe 102.

The atomizer for electric that the embodiment of the present invention provides in the course of the work, the electricity needing electric consumption 301 to provide is to make heating member work, then before the described atomizer for electric of use, need first to switch on power 301, in order to avoid user switches on and off power supply 301 frequently, as the preferred mode of one, described breather pipe 102 is also provided with trigger sensor, and described trigger sensor is electrically connected with described flow sensor 201.When described atomizer for electric does not work in the threshold time preset, then atomizer for electric enters sleep state, is beneficial to save electricity.And described trigger sensor is when being greater than default threshold value for the gas flow detecting in breather pipe, wakes up and be in dormant described flow sensor 201.And in practice process, the embodiment of described trigger sensor has multiple, such as, can adopt hot coupling.

When user is in the process using described atomizer for electric, in the gas of breathing out to user for the ease of described atomizer, the concentration of oxygen and carbon dioxide detects, as one preferred embodiment, described breather pipe is also provided with gas concentration sensor 202, and described gas concentration sensor 202 is electrically connected with described microcontroller.Thus make described gas concentration sensor 202 when user's breath, the concentration value of oxygen in described user institute breath and carbon dioxide can be gathered.

It should be noted that, preferably, the outer wall of described breather pipe 102 is provided with cavity 203, and described cavity 203 is communicated with described breather pipe 102, described gas concentration sensor 202 to be arranged in described cavity 203, gas then in breather pipe 102 can stop in described cavity 203, thus the concentration value of the oxygen that described gas concentration sensor 202 is gathered and carbon dioxide can be more accurate.

It should be noted that, in practice process, as one preferred embodiment, described flow sensor 201 is MEMS (Microelectro Mechanical Systems, MEMS) flow sensor.MEMS flow sensor has the advantage that volume is little, lightweight, cost is low, can reduce volume and the weight of described atomizer for electric.Corresponding described gas concentration sensor 202 also can adopt MEMS (MicroelectroMechanical Systems, MEMS) gas concentration sensor.

And the data analysis for the ease of gathering described gas concentration sensor 202, described microcontroller is electrically connected with wireless communication unit, then described atomizer for electric can be transferred to by described wireless communication unit the data that described gas concentration sensor 202 gathers the server of far-end, so that the server of far-end is to described data analysis, and be pushed to the information receiving terminal that user specifies, so that user checks analyzing the structure that obtains.

The atomizer for electric that the embodiment of the present invention provides, by arranging flow sensor 201 on the breather pipe 102 passed in and out for gas, and the microcontroller being used in data processing is electrically connected respectively with flow sensor 201 with for the heating member drive circuit of the heating member 106 be atomized respectively, make described flow sensor 201 for gathering the influx of gas in described breather pipe 102, described microcontroller is for monitoring the situation of change of the influx of the gas of described flow sensor 201 collection, when described microcontroller judges that the described inflow quantitative change that described flow sensor 201 gathers is large, described heating member drive circuit is indicated to strengthen the atomization power of described heating member 106, when described microcontroller judges that the described influx that described flow sensor 201 gathers diminishes, described heating member drive circuit is indicated to reduce the atomization power of described heating member 106, thus the atomizer for electric making the embodiment of the present invention provide can control the atomization power of heating member 106 according to the dynamics of user's air-breathing, the atomization power improving existing atomizer for electric is constant, existing atomizer for electric is caused to bring the problem of inconvenience in use procedure to user, greatly improve user simultaneously and use susceptibility.

Refer to Fig. 3, the one atomization control method that the embodiment of the present invention provides, is applied to above-mentioned atomizer for electric.The atomization control method that the embodiment of the present invention provides, its technique effect realizing principle and generation is identical with aforementioned electronic atomizer, and the not mentioned part of the present embodiment part can with reference to aforementioned corresponding contents.

Described method comprises:

Step S301: described flow sensor detects the flow direction of the gas in described breather pipe, when described flow direction is externally to described ventilation Bottomhole pressure, described flow sensor starts the influx of the gas gathered in described breather pipe.

Step S302: when described inflow quantitative change is large, described flow sensor indicates described heating member drive circuit to strengthen the atomization power of described heating member.

Step S303: when described influx diminishes, described flow sensor indicates described heating member drive circuit to reduce the atomization power of described heating member.

Preferably, detect the flow direction of the gas in described breather pipe at described flow sensor before, also comprise:

Described trigger sensor monitors the initial influx of the gas in described breather pipe, and when described initial influx is greater than startup threshold value, described trigger sensor triggers described flow sensor and starts working.

In practice process, described method also comprises:

When described flow direction is from described suction line to described breather pipe, described gas concentration sensor starts to detect the concentration value of carbon dioxide in gas in described breather pipe and oxygen, and the concentration value of described carbon dioxide and oxygen is passed to described microcontroller; Described flow sensor then detects the discharge of the gas in described breather pipe, and described discharge is passed to described microcontroller;

Described microcontroller is delivered to far-end the concentration value of described carbon dioxide and oxygen and described discharge by described wireless communication unit.

The atomization control method that the embodiment of the present invention provides, by arranging flow sensor on the breather pipe passed in and out for gas, and the microcontroller being used in data processing is electrically connected respectively with flow sensor with for the heating member drive circuit of the heating member be atomized respectively, make described flow sensor for gathering the influx of gas in described breather pipe, described microcontroller is for monitoring the situation of change of the influx of the gas of described flow sensor collection, when described microcontroller judges that the described inflow quantitative change that described flow sensor gathers is large, described heating member drive circuit is indicated to strengthen the atomization power of described heating member, when described microcontroller judges that the described influx of described flow sensor collection diminishes, described heating member drive circuit is indicated to reduce the atomization power of described heating member, thus the atomizer for electric making the embodiment of the present invention provide can control the atomization power of heating member according to the dynamics of user's air-breathing, the atomization power improving existing atomizer for electric is constant, existing atomizer for electric is caused to bring the problem of inconvenience in use procedure to user, greatly improve user simultaneously and use susceptibility.

Refer to Fig. 4, a kind of sign data monitoring system that the embodiment of the present invention provides, comprise atomizer for electric 401, described atomizer for electric 401, comprise suction line, atomization operating room and breather pipe; Described atomization operating room comprises liquid storage cavity and atomization chamber, being provided with the separator for isolating described atomization chamber and described liquid storage cavity between described atomization chamber and described liquid storage cavity, in described atomization chamber, being provided with heating member and heating member drive circuit; Described suction line is connected with described atomization chamber and described breather pipe respectively; Be provided with flow sensor and microcontroller in described breather pipe, described microcontroller is electrically connected with described flow sensor and described heating member drive circuit respectively; Described breather pipe is also provided with gas concentration sensor, and described gas concentration sensor is electrically connected with described microcontroller, and described microcontroller is electrically connected with wireless communication unit;

Described system also comprises server 402 and information receiving terminal 403, and described atomizer for electric 401 is communicated with described server 402 by described wireless communication unit, described information receiving terminal 403 and the network service of described server 402;

Described atomizer for electric 401 is for gathering sign data, described sign data comprises the concentration value of the carbon dioxide and oxygen in the gas flowing into described breather pipe from described suction line of described gas concentration sensor collection, the gas influx in the breather pipe that described flow sensor gathers and discharge; Also for described sign data is delivered to described server;

Described server 402 for the described sign data received and the normal sign data preset are compared, and is pushed to information receiving terminal comparison result;

Described information receiving terminal 403 is for receiving the data of described server push.

The sign data monitoring system that the embodiment of the present invention provides, the data of the user's breath described atomizer for electric 401 gathered by the atomizer for electric 401 in system are transferred to the server 402 of far-end by wireless communication unit, described server 402 can be contrasted described data analysis, and final comparison structure is pushed to information receiving terminal, so that user checks.

Refer to ginseng Fig. 5, the embodiment of the present invention additionally provides another kind of atomization control device 500, and comprising: processor 501, memory 502, bus 503 and communication interface 504, described processor 501, communication interface 504 are connected by bus 503 with memory 502; The executable module of processor 501 for storing in execute store 502, such as server program.

Wherein, memory 502 may comprise high-speed random access memory (RAM:Random Access Memory), also non-labile memory (non-volatile memory) may also be comprised, such as at least one magnetic disc store.Realize the communication connection between this system network element and at least one other network element by least one communication interface 504 (can be wired or wireless), can internet be used, wide area network, LAN, Metropolitan Area Network (MAN) etc.

Bus 503 can be isa bus, pci bus or eisa bus etc.Described bus can be divided into address bus, data/address bus, control bus etc.For ease of representing, only representing with a four-headed arrow in Fig. 5, but not representing the bus only having a bus or a type.

Wherein, memory 502 is for storage program, and described processor 501, after receiving execution instruction, performs described program, the method performed by device of the stream procedure definition that aforementioned embodiment of the present invention any embodiment discloses can be applied in processor 501, or is realized by processor 501.

Processor 501 may be a kind of IC chip, has the disposal ability of signal.In implementation procedure, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 501 or software form.Above-mentioned processor 501 can be general processor, comprises central processing unit (Central Processing Unit is called for short CPU), network processing unit (Network Processor is called for short NP) etc.; Can also be digital signal processor (DSP), special IC (ASIC), ready-made programmable gate array (FPGA) or other PLDs, discrete gate or transistor logic, discrete hardware components.Can realize or perform disclosed each method, step and the logic diagram in the embodiment of the present invention.The processor etc. of general processor can be microprocessor or this processor also can be any routine.Step in conjunction with the method disclosed in the embodiment of the present invention directly can be presented as that hardware decoding processor is complete, or combines complete by the hardware in decoding processor and software module.Software module can be positioned at random access memory, flash memory, read-only storage, in the storage medium of this area maturations such as programmable read only memory or electrically erasable programmable memory, register.This storage medium is positioned at memory 502, and processor 501 reads the information in memory 502, completes the step of said method in conjunction with its hardware.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. an atomizer for electric, is characterized in that, comprises suction line, atomization operating room and breather pipe; Described atomization operating room comprises liquid storage cavity and atomization chamber, being provided with the separator for isolating described atomization chamber and described liquid storage cavity between described atomization chamber and described liquid storage cavity, in described atomization chamber, being provided with heating member and heating member drive circuit; Described suction line is connected with described atomization chamber and described breather pipe respectively;

Be provided with flow sensor and microcontroller in described breather pipe, described microcontroller is electrically connected with described flow sensor and described heating member drive circuit respectively;

Described flow sensor is for gathering the influx of gas in described breather pipe, described microcontroller is for monitoring the situation of change of the influx of the gas of described flow sensor collection, when described microcontroller judges that the described inflow quantitative change that described flow sensor gathers is large, described heating member drive circuit is indicated to strengthen the atomization power of described heating member, when described microcontroller judges that the described influx of described flow sensor collection diminishes, described heating member drive circuit is indicated to reduce the atomization power of described heating member.

2. atomizer for electric according to claim 1, is characterized in that, described separator is electric control valve, and described electric control valve is electrically connected with valve driving circuit, and described valve driving circuit is electrically connected with described microcontroller.

3. atomizer for electric according to claim 1, is characterized in that, described suction line is truncated cone-shaped, and described suction line is greater than the opening of the one end near described atomization chamber away from the opening diameter of one end of described atomization chamber.

4. according to the arbitrary described atomizer for electric of claim 1-3, it is characterized in that, described breather pipe is also provided with trigger sensor, described trigger sensor is electrically connected with described flow sensor, when described trigger sensor is greater than default threshold value for the gas flow detecting in breather pipe, wakes up and be in dormant described flow sensor.

5. atomizer for electric according to claim 4, is characterized in that, described breather pipe is also provided with gas concentration sensor, and described gas concentration sensor is electrically connected with described microcontroller, and described microcontroller is electrically connected with wireless communication unit.

6. atomizer for electric according to claim 5, is characterized in that, the outer wall of described breather pipe is provided with cavity, and described cavity is communicated with described breather pipe, and described gas concentration sensor is arranged in described cavity.

7. be atomized a control method, it is characterized in that, be applied to atomizer for electric according to claim 1, described method comprises:

Described flow sensor detects the flow direction of the gas in described breather pipe, and when described flow direction is externally to described ventilation Bottomhole pressure, described flow sensor starts the influx of the gas gathered in described breather pipe;

When described inflow quantitative change is large, described flow sensor indicates described heating member drive circuit to strengthen the atomization power of described heating member;

When described influx diminishes, described flow sensor indicates described heating member drive circuit to reduce the atomization power of described heating member.

8. atomization control method according to claim 7, is characterized in that, before detecting the flow direction of the gas in described breather pipe, also comprises at described flow sensor:

Described trigger sensor monitors the initial influx of the gas in described breather pipe, and when described initial influx is greater than startup threshold value, described trigger sensor triggers described flow sensor and starts working.

9. the atomization control method according to claim 7 or 8, is characterized in that, described method, also comprises:

When described flow direction is from described suction line to described breather pipe, described gas concentration sensor starts to detect the concentration value of carbon dioxide in gas in described breather pipe and oxygen, and the concentration value of described carbon dioxide and oxygen is passed to described microcontroller; Described flow sensor then detects the discharge of the gas in described breather pipe, and described discharge is passed to described microcontroller;

Described microcontroller is delivered to far-end the concentration value of described carbon dioxide and oxygen and described discharge by described wireless communication unit.

10. a sign data monitoring system, is characterized in that, comprises atomizer for electric, described atomizer for electric, comprises suction line, atomization operating room and breather pipe; Described atomization operating room comprises liquid storage cavity and atomization chamber, being provided with the separator for isolating described atomization chamber and described liquid storage cavity between described atomization chamber and described liquid storage cavity, in described atomization chamber, being provided with heating member and heating member drive circuit; Described suction line is connected with described atomization chamber and described breather pipe respectively; Be provided with flow sensor and microcontroller in described breather pipe, described microcontroller is electrically connected with described flow sensor and described heating member drive circuit respectively; Described breather pipe is also provided with gas concentration sensor, and described gas concentration sensor is electrically connected with described microcontroller, and described microcontroller is electrically connected with wireless communication unit;

Described system also comprises server and information receiving terminal, and described atomizer for electric passes through described wireless communication unit and described server communication, described information receiving terminal and described server network communication;

Described atomizer for electric is for gathering sign data, described sign data comprises the concentration value of the carbon dioxide and oxygen in the gas flowing into described breather pipe from described suction line of described gas concentration sensor collection, the gas influx in the breather pipe that described flow sensor gathers and discharge; Also for described sign data is delivered to described server;

Described server is used for the described sign data received and the normal sign data preset to compare, and comparison result is pushed to information receiving terminal;

Described information receiving terminal is for receiving the data of described server push.