CN107404938A - Battery component, atomizing component, electronic cigarette and the method for preventing oil-free smoking - Google Patents

Abstract

A kind of battery component (1), atomizing component (2), electronic cigarette and a kind of method for preventing oil-free smoking, battery component (1) is used to form electronic cigarette with carrying identification code including atomizer (21) atomizing component (2), and battery component (1) includes smoking detection module (11), control module (12), identification code identification module (13) and battery (14)；Smoking detection module (11) is used to detect smoking signal and detect to use duration and/or access times after atomizer (21) starts；Identification code identification module (13) is used to identification code be identified when detecting smoking signal；Control module (12) is used to obtain the use total duration of atomizer (21) and/or using total degree according to the identification code recognized；It is additionally operable to when the use total duration and atomizer (21) for detecting atomizer (21) using the difference of duration accumulated number when being not more than the first default value, and/or the difference of the access times accumulated number using total degree and atomizer (21) of atomizer (21), when be not more than the second default value, it is atomizer (21) power supply control battery (14) stopping.The electronic cigarette can avoid burning cotton phenomenon.

Description

Battery component, atomizing component, electronic cigarette and the method for preventing oil-free smoking Technical field

The present invention relates to electronic cigarette technical fields, in particular to battery component, atomizing component, electronic cigarette and the method for preventing oil-free smoking.

Background technique

Electronic cigarette is a kind of novel electronic product, has similar appearance, and a taste similar with cigarette with common cigarette, but health and environmental protection of the electronic cigarette relative to traditional cigarette more.

Tobacco tar is stored in a kind of existing electronic cigarette using oil storage cotton, while being equipped with the heating wire component contacted with the oil storage cotton, the tobacco tar in oil storage cotton is atomized by smog by the heating wire component.However, in this electronic cigarette, whether user is difficult to judge the tobacco juice in oil storage cotton using finishing, therefore the tobacco juice appeared in oil storage cotton is continued to after use using the electronic cigarette, cause heating wire component to continue to work, causes to burn cotton phenomenon, reduce the user experience of electronic cigarette.

Summary of the invention

The present invention provides a kind of battery component, atomizing component, electronic cigarette and a kind of method for preventing oil-free smoking, it can be avoided and burn cotton phenomenon.

The present invention provides a kind of battery components, electronic cigarette is formed for combining with the atomizing component for carrying identification code, the atomizing component includes the atomizer for being atomized tobacco juice, and the battery component includes smoking detection module, control module, identification code identification module and battery；

The smoking detection module is for detection smoking signal, and detects the use duration after the atomizer starts each time and/or access times；

The identification code identification module is used to identify the identification code when the smoking detection module detects smoking signal；

The control module is used to obtain the use total duration of the atomizer according to the identification code that the identification code identification module recognizes and/or uses total degree；Be also used to when detect the atomizer using total duration and the difference of the use duration accumulated number of the atomizer no more than the first default value when, and/or when being not more than the second default value using the difference of total degree and the access times accumulated number of the atomizer of the atomizer, it controls the battery and stops being that the atomizer is powered, wherein, first default value and second default value are respectively greater than or are equal to zero.

The battery component, wherein the battery component further includes first memory, has multiple identification codes and the corresponding use total duration of each identification code in the first memory and/or uses total degree；

The control module is specifically used for searching identification code identical with the identification code that the identification code identification module recognizes in the first memory, when the identical identification code of the identification code found in the first memory with the identification code identification module recognizes, the corresponding use total duration of the identification code is obtained in the first memory and/or uses total degree.

The battery component, wherein the control module is also used to when searching identification code identical less than the identification code that recognizes with the identification code identification module in the first memory, and not controlling the battery is that the atomizer is powered.

The battery component, wherein the identification code identification module is specifically used for obtaining the use total duration of the atomizer from the identification code and/or uses total degree；

The battery component further includes first memory, and the use total duration and/or use total degree for the atomizer that the control module is also used to get the identification code identification module are stored into the first memory.

The battery component, wherein the battery component further includes first memory, and the identification code identification module is specifically used for obtaining the use total duration of the atomizer from the identification code and/or uses total degree；

Whether what the control module was also used to detect the atomizer that the identification code identification module is recognized meets preset format using total duration and/or using the format of total degree, if meeting, store by the use total duration of the atomizer and/or using total degree into the first memory.

The battery component, wherein, the control module is also used to control the battery when detecting when not meeting preset format using total duration and/or using the format of total degree of the atomizer that the identification code identification module is recognized and stop being that the atomizer is powered.

The battery component, wherein cue module is additionally provided on the battery component, for issuing standby signal when it is atomizer power supply that the control module, which controls the battery to stop,.

The battery component, wherein the battery component also carries battery identification code；

The control module is also used to detect whether have battery identification code in the atomizing component,

If not having, the battery identification code of the battery component is stored into the atomizing component；

If having, whether the control module is also used to detect the battery identification code in the atomizing component consistent with the battery identification code of the battery component, if unanimously, controlling the battery as atomizer power supply, if inconsistent, control the battery and stop being that the atomizer is powered.

The battery component, wherein the identification code identification module includes imaging sensor and image analysis processor；

Described image sensor for the identification code on atomizing component to be imaged, analyzed and identified to the picture for reading described image sensor imaging by described image analysis processor.

The battery component, wherein, described image sensor is imaged especially by scanning imagery, in the way of photosensitive camera shooting, the identification code on the atomizing component is imaged in ultrasonic imaging, radiant image, magnetic induction image or conductor sensor imaging mode.

The present invention also provides a kind of atomizing components, for combining to form electronic cigarette with battery component, the atomizing component includes the atomizer for being atomized tobacco juice, wherein, the atomizing component carries identification code, the identification code be the battery component obtain the atomizer using total duration and/or using information needed for total degree.

The atomizing component, wherein the atomizing component further includes second memory, for storing the use duration and/or access times accumulated number of the atomizer.

The atomizing component, wherein the atomizing component further includes second memory, and the identification code is stored in the second memory；

Alternatively, the identification code is the image being attached to outside the atomizing component.

The atomizing component, wherein the atomizing component further includes processing unit, whether has battery identification code in the second memory for detecting,

If not having, the processing unit is to obtain the battery identification code of the battery component when atomizer is powered and store in the battery component；

If having, then the processing unit obtains the battery identification code of the battery component when being electrically connected with the battery component, and detect the battery identification code and whether the battery identification code in the second memory is consistent, if, then keep the electrical connection of the atomizer and the battery component, if it is not, then disconnecting the electrical connection of the atomizer and the battery component.

The atomizing component, wherein the second memory is plug-in memory；Alternatively,

The atomizing component includes the single-chip microcontroller for carrying nonvolatile memory, and the second memory is institute State the nonvolatile memory in single-chip microcontroller.

The present invention also provides a kind of electronic cigarettes, comprising:

Above-mentioned any one battery component and above-mentioned any one atomizing component, the battery component and atomizing component electrical connection.

The present invention also provides a kind of methods for preventing oil-free smoking, comprising:

When the battery component in electronic cigarette detects smoking signal, the battery component identifies the identification code carried on the atomization component of the electronic cigarette, wherein the atomizing component includes the atomizer for atomization smoke oil；

The battery component obtains the use total duration of the atomizer according to the identification code recognized and/or uses total degree；

The battery component obtain the atomizer using duration and/or the accumulated number of access times, when detect the atomizer using total duration and the difference of the use duration accumulated number of the atomizer no more than the first default value when, and/or when being not more than the second default value using the difference of total degree and the access times accumulated number of the atomizer of the atomizer, the battery component stops powering to the atomizer, wherein, first default value and second default value are respectively greater than or are equal to zero.

The method for preventing oil-free smoking, wherein the battery component further includes first memory and identification code identification module, has multiple identification codes and the corresponding use total duration of each identification code in the first memory and/or uses total degree；

The battery component is obtained the use total duration of the atomizer according to the identification code recognized or is specifically included using total degree:

Identification code identical with the identification code that the identification code identification module recognizes is searched in the first memory, when the identical identification code of the identification code found in the first memory with the identification code identification module recognizes, the corresponding use total duration of the identification code is obtained in the first memory and/or uses total degree.

The method for preventing oil-free smoking, wherein the method also includes:

When searching identification code identical less than the identification code that recognizes with the identification code identification module in the first memory, the battery component stops being that the atomizer is powered.

The method for preventing oil-free smoking, wherein the battery component further includes first memory；

The battery component according to the identification code recognized obtain the atomizer use total duration or It is specifically included using total degree:

The battery component obtains the use total duration of the atomizer from the identification code and/or uses total degree；

The use total duration and/or use total degree for the atomizer that the battery component will acquire are stored into the first memory.

The method for preventing oil-free smoking, wherein the battery component also carries battery identification code；

After the battery component identifies the identification code carried on the atomization component of the electronic cigarette further include:

The battery component detects in the atomizing component whether have battery identification code；

If not having, the battery component stores the battery identification code of the battery component into the atomizing component；

If having, then it is whether consistent with the battery identification code of the battery component to detect the battery identification code in the atomizing component for the battery component, if unanimously, controlling the battery as atomizer power supply, if inconsistent, control the battery and stop being that the atomizer is powered.

As can be seen from the above technical solutions, the invention has the following advantages that

In the present invention, due to carrying identification code on atomizing component, and when battery component and atomizing component electrical connection, the battery component can obtain the use total duration of the atomizer according to the identification code that the identification code identification module in battery component recognizes and/or using total degree, and detect the use duration after atomizer starts each time and/or access times by smoking detection module；In this way, control module in battery component can have reached in the access times using total duration and/or the atomizer for having reached the atomizer using duration for detecting the atomizer or close to the atomizer when using total degree, it controls the battery and stops being that the atomizer is powered, the case where tobacco tar in atomizer continues to work after use is avoided, the usage experience of user is improved.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of one embodiment of electronic cigarette of the invention；

Fig. 2 is the structural schematic diagram of battery component in electronic cigarette shown in Fig. 1；

Fig. 3 is the structural schematic diagram of another embodiment of battery component in electronic cigarette of the invention；

Fig. 4 is the electrical block diagram of one embodiment of electronic cigarette of the invention；

Fig. 5 is the electrical block diagram of one embodiment of electronic cigarette of the invention；

Fig. 6 is the electrical block diagram of one embodiment of electronic cigarette of the invention；

Fig. 7 is the flow chart of one embodiment of the method for preventing oil-free smoking of the invention.

Specific embodiment

The embodiment of the present invention provides a kind of battery component, atomizing component, electronic cigarette and a kind of method for preventing oil-free smoking, can be avoided and burns cotton phenomenon.

Following will be combined with the drawings in the embodiments of the present invention, and technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those skilled in the art's every other embodiment obtained without creative efforts, shall fall within the protection scope of the present invention.

Referring to Fig. 1, Fig. 1 is the structural schematic diagram of one embodiment of electronic cigarette of the invention.In the present embodiment, electronic cigarette includes battery component 1 and atomizing component 2.

Atomizing component 2 includes the atomizer 21 for being atomized tobacco juice, and the atomizing component 2 carries identification code, the identification code be the battery component 1 obtain the atomizer 21 using total duration and/or using information needed for total degree.The battery component 1 is used to power for the atomizer 21, so that the atomizer 21 can be atomized tobacco juice to generate smog.

Referring to Fig. 2, Fig. 2 is the structural schematic diagram of battery component in electronic cigarette shown in Fig. 1.Battery component 1 includes smoking detection module 11, control module 12, identification code identification module 13 and battery 14.

The smoking detection module 11 is for detecting smoking signal.In the present embodiment, when the smoking detection module 11 detects smoking signal, the control module 12 controls the battery 14 as the atomizer 21 power supply, to start the atomizer 21, the atomizer 21 is enabled to be atomized tobacco juice to generate smog.In practical application, the control module 12 can also be, and just control battery 14 is that the atomizer 21 is powered when also detecting other conditions, and this is not restricted.

After the atomizer 21 starting, the smoking detection module 11 is also used to detect use duration and/or access times after the atomizer 21 starts each time, wherein the access times of the atomizer refer to the mouth number of user's smoking.

The identification code identification module 13 is used to identify identification code entrained by atomizing component 2 when the smoking detection module 11 detects smoking signal.

The identification code that the control module 12 is used to be recognized according to the identification code identification module 13 obtains institute It states the use total duration of atomizer 21 and/or uses total degree.For convenience of description, the identification code that the identification code identification module recognizes hereinafter is referred to as the first identification code.

The control module 12 be also used to when detect the atomizer 21 using total duration and the difference of the use duration accumulated number of the atomizer 21 no more than the first default value when, and/or when being not more than the second default value using the difference of total degree and the access times accumulated number of the atomizer 21 of the atomizer 21, it controls the battery 14 and stops being that the atomizer is powered.Wherein, the first default value and the second default value are respectively greater than or are equal to zero.

For concrete example, the control module 12 is 100 minutes according to the use total duration that the first identification code gets atomizer 21, and when the use duration of atomizer 21 is accumulated to 95 minutes, control module 12 controls battery 14 and stops being that the atomizer 21 is powered.

In the present embodiment, control module 12 obtain atomizer 21 using the accumulated number of duration and/or access times there are many method.For example, the electronic cigarette in be equipped with counter (not shown), for it is described smoking detection module detected by the atomizer start each time after use duration and/or access times add up；The control module 12 obtains the use duration and/or access times accumulated number of the atomizer 21 from the counter.Certainly, it above are only citing, and with no restriction.

It is noted that control module control battery described herein stops being the atomizer 21 power supply, including two kinds of meanings:

The first is when detection module 11 of smoking detects smoking signal, control module 12 is before atomizer 21 is powered in control battery 14, first determine whether the atomizer 21 using total duration and the atomizer 21 using the difference of duration accumulated number and/or the difference using total degree and the access times accumulated number of the atomizer 21 of the atomizer 21, when the former is not more than the second default value no more than the first default value and/or the latter, control module 12 controls battery 14 and does not power for atomizer 21, namely do not restart atomizer 21, it controls battery 14 and stops being that the atomizer 21 is powered.

Second is after the starting of atomizer 21, whether the difference using duration accumulated number using total duration and the atomizer 21 of atomizer 21 described in 12 real-time detection of control module is not more than the first default value and/or whether the difference using total degree and the access times accumulated number of the atomizer 21 of the atomizer 21 is not more than the second default value, if, then control module 12 controls battery 14 and stops being that atomizer 21 is powered, namely closes atomizer 21.

In the present embodiment, due to carrying identification code on atomizing component, and battery component and atomizing component are electrically connected When connecing, the battery component can obtain the use total duration of the atomizer according to the identification code that the identification code identification module in battery component recognizes and/or using total degree, and detect the use duration after atomizer starts each time and/or access times by smoking detection module；In this way, control module in battery component can have reached in the access times using total duration and/or the atomizer for having reached the atomizer using duration for detecting the atomizer or close to the atomizer when using total degree, it controls the battery and stops being that the atomizer is powered, the case where tobacco tar in atomizer continues to work after use is avoided, the usage experience of user is improved.

In the present embodiment, atomizing component 2 is carried there are many modes of identification code.Such as, the identification code is attached on the region opposite with the battery component 1 on atomizing component 2 by stickup, printing or other modes, and place opposite with the region is arranged in battery component in the identification code identification module in battery component 1, and identification code identification module 13 identifies the identification code.In another example being additionally provided with second memory (not shown) in atomizer 21, which is stored in the second memory, and the identification code identification module in battery component reads identification code from the second memory, to identify to the identification code.

In the present embodiment, there are many identification codes and identification code identification module.For concrete example, identification code is the image being attached on atomizing component.Corresponding, identification code identification module includes imaging sensor and image analysis processor；For the identification code on atomizing component to be imaged, which is analyzed and is identified to the imaging for reading imaging sensor imaging the imaging sensor.Wherein, there are many ways to identification code is imaged in imaging sensor, such as scanning imagery, be imaged in the way of photosensitive camera shooting, (i.e. imaging sensor passes through ultrasonic irradiation identification code to ultrasonic imaging, the ultrasonic wave reflected enters imaging sensor imaging), radiant image, magnetic induction image perhaps conductor sensor imaging (i.e. imaging sensor is that the capacitance sensor capacitance sensor by contact or close to identification code causes the capacitance variations of capacitance sensor to be imaged).

Concrete example explanation is carried out to one of scanning imagery below.The coating to infrared ray responsive is coated on identification code on atomizing component, when imaging sensor issues Infrared irradiation identification code, the coating on identification code can reflect infrared light, and image analysis processor detects reflected light, to realize the identification to identification code.

In the present embodiment, there are many modes of the smoking detection smoking signal of detection module 11.For concrete example, smoking detection module 11 specifically includes switch key (not shown), and when detecting that the switch key is pressed, the smoking detection module 11 confirmly detects smoking signal.In another example smoking detection module 11 specifically includes microphone (also referred to as air flow sensor).When user sucks electronic cigarette, the smog in electronic cigarette is logical Road has air-flow to flow through.The microphone is used to detect the air pressure of the smoke path in electronic cigarette.When detecting that air pressure is less than default value, smoking detection module 11 confirmly detects smoking signal.

Certainly, smoking detection module 11 can also detect smoking signal by other means, and this is not restricted.

In the present embodiment, mode that there are many control modules 12 obtains the use total duration of the atomizer according to the first identification code and/or uses total degree.For concrete example, as shown in figure 3, Fig. 3 is the structural schematic diagram of another embodiment of battery component in electronic cigarette of the invention.Battery component 1 further includes first memory 15, wherein has multiple identification codes and the corresponding use total duration of each identification code in the first memory 15 and/or uses total degree.

When control module 12 gets the first identification code, identification code identical with first identification code is searched in first memory 15.When control module 12 finds identification code identical with first identification code in first memory 15, control module 12 obtains use total duration corresponding to the identification code in first memory 15 and/or uses total degree.What control module 12 will acquire, which be compared using total duration with the use duration accumulated number of the atomizer 21, perhaps subtracts each other and/or what be will acquire is compared or is subtracted each other with the access times accumulated number of the atomizer 21 using total degree.

When control module 12 is searched in first memory 15 less than identification code identical with first identification code, control module 12 can control battery 14 for the power supply of atomizer 21, so that atomizer 21 starts to be atomized tobacco juice to generate smog.Or, it is preferred that when control module 12 is searched in first memory 15 less than identification code identical with first identification code, control module does not control battery 14 for the power supply of atomizer 21, so that atomizer 21 is not atomized tobacco juice.In this way, battery component 1 can be made only can be combined into electronic cigarette with specific atomizing component.

Preferably, in the present embodiment, the use total duration and/or use total degree for the atomizer that the control module is also used to get the identification code identification module are stored into the first memory, so that control module is in the use duration accumulated number and/or access times accumulated number for getting atomizer 21, control module takes out being compared or subtract each other with the use duration accumulated number of the atomizer 21 and/or access times accumulated number using total duration and/or using total degree for the atomizer from the first memory.

Preferably, in the present embodiment, in control module by identification code identification module from the use total duration that obtains the atomizer in the identification code and/or using total degree storage to the first memory before, the control module be also used to detect the atomizer that the identification code identification module is recognized using it is total when It grows and/or whether meets preset format using the format of total degree, if meeting, store by the use total duration of the atomizer and/or using total degree into the first memory.If not meeting, this will not be stored using total duration and/or using total degree, and do not start atomizer, namely think that the atomizing component is illegal.

Referring to Fig. 4, Fig. 4 is the electrical block diagram of one embodiment of electronic cigarette of the invention.As shown in figure 4, the circuit structure of electronic cigarette shown in the present embodiment includes the circuit structure of battery component and the circuit structure of atomizing component.

The circuit structure of battery component specifically includes: battery B1, microprocessor U1, key switch S1, the first field-effect tube Q1, first capacitor C1, first diode D1, the first Light-emitting diode LED 1 (Light Emitting Diode, light emitting diode), the second Light-emitting diode LED 2, first resistor R1, second resistance R2,3rd resistor R3, the 4th resistance R4, the 5th resistance R5, the 6th resistance R6, memory E1, first interface J1 and second interface J2 for being connected with atomizing component.Specifically, the microprocessor U1 in the present embodiment can be realized that memory E1 can be connected by chip DS2431 by chip MC32P7010A0I, certainly, other chips are also can be used in microprocessor and memory, are specifically not construed as limiting in the present embodiment.

First Light-emitting diode LED 1 is connected with first resistor R1, second Light-emitting diode LED 2 is connected with second resistance R2, and concatenated first Light-emitting diode LED 1 and first resistor and concatenated second Light-emitting diode LED 2 and second resistance are parallel with one another, wherein, one end that first Light-emitting diode LED 1 and the second Light-emitting diode LED 2 are connected is connected with the anode of battery B1, and one end that first resistor and second resistance are connected is connected with " 4 " pin of microprocessor U1.

The anode of first diode D1 is connected with the anode of battery B1, and cathode is connected with " 1 " pin of first capacitor C1, microprocessor U1 simultaneously, the other end ground connection of first capacitor C1.The anode of battery B1 is also connected with first interface J1.

One end of 3rd resistor R3 is connected with the anode of battery B1, and the other end is connected with " 9 " pin of one end of the 4th resistance R4, microprocessor U1 simultaneously, the other end ground connection of the 4th resistance R4.

The cathode of battery B1 is grounded, and one end of key switch S1 is connected with the cathode of battery B1, and the other end is connected with " 2 " pin of microprocessor U1." 6 " pin of microprocessor is connected with the grid of one end of the 5th resistance R5, the first field-effect tube Q1 simultaneously, and the source electrode of the other end of the 5th resistance R5 and the first field-effect tube Q1 are connected with the cathode of battery B1 simultaneously.

" 7 " pin of microprocessor U1 passes through the drain electrode of the 6th resistance R6 and the first field-effect tube Q1 It is connected.The drain electrode of first field-effect tube Q1 is also connected with second interface J2." 5 " pin of microprocessor U1 is connected with " 1 " pin of memory E1, and " 2 " pin of memory E1 is connected with the cathode of battery B1.

The circuit structure of atomizing component specifically includes: the 7th resistance R7, memory E2, the interface J3 including four pins, and wherein interface J3 is the interface being connected with battery component.Specifically, the memory E2 in the present embodiment can be connected by chip DS2431, certainly, other chips are also can be used in memory E2, are specifically not construed as limiting in the present embodiment；The 7th resistance R7 is the heating element for atomization smoke oil of atomizer, is specifically as follows resistance wire or electric heating piece etc..

" 1 " pin of interface J3 is grounded, and " 2 " pin is connected with " 8 " pin of the microprocessor U1 in battery component, and " 3 " pin is connected with the second interface J2 of battery component, and " 4 " pin is connected with the first interface J1 of battery component.The both ends of 7th resistance R7 are connected with " 3 " pin of interface J3 and " 4 " pin respectively.

The specific workflow of electronic cigarette shown in Fig. 4 is described in detail below:

Memory E1 in battery component is stored with multiple identification codes and the corresponding use total duration of each identification code and/or uses total degree.The identification code of atomizer is stored in the memory E2 of atomizing component.Meanwhile the atomizer is stored in memory E1 using the accumulated number of duration and/or access times.

It when the key switch S1 in battery component is pressed, namely detects that microprocessor U1 reads the identification code in the memory E2 in atomizing component when smoking signal, has then searched whether identification code identical with the identification code in the memory E1 in battery component.If finding identical identification code, microprocessor U1 obtains use total duration corresponding to the identification code in memory E1 and/or uses total degree, and calculate the difference using total degree and the access times accumulated number of the atomizer of the difference and/or the atomizer using total duration and the use duration accumulated number of the atomizer of the atomizer.

When detecting when being greater than the first default value using total duration and the difference of the use duration accumulated number of the atomizer of the atomizer, and/or when being greater than the second default value using the difference of total degree and the access times accumulated number of the atomizer of the atomizer, microprocessor U1 controls the first field-effect tube Q1 conducting, and then the 7th resistance R7 in atomizing component is connected, namely starting atomizer, so that atomizer starts to be atomized tobacco juice to generate smog.The first LED and the 2nd LED is lighted simultaneously.

When the key switch S1 in battery component is released, the first field-effect tube Q1 is not turned on, so that The 7th resistance R7 in atomizing component is not turned on namely atomizer stops working.The first LED and the 2nd LED extinguishes simultaneously.

In the present embodiment, memory E1 in battery component is plug-in memory, and in practical application, the combination of microprocessor U1 and memory E1 can also be replaced using the self-contained single-chip microcontroller for having nonvolatile memory.

In above example, battery component detects smoking signal using key switch S1, when key switch S1 is pressed, detects smoking signal.In practical application, battery component can also detect smoking signal using microphone.Referring to Fig. 5, Fig. 5 is the electrical block diagram of one embodiment of electronic cigarette of the invention.

As shown in Figure 5, the circuit structure of electronic cigarette shown in the present embodiment includes the circuit structure of battery component and the circuit structure of atomizing component, wherein the circuit structure of atomizing component is identical with the circuit structure of atomizing component shown in Fig. 4, the circuit structure of battery component is similar with the circuit structure of battery component shown in Fig. 4, unlike, the key switch S1 in Fig. 4 is replaced with into microphone.Wherein, the power input of microphone is connected with the anode of battery B1, and power output end is connected with " 2 " pin of microprocessor U1, and ground terminal is connected with the cathode of battery B1.When microphone detects smoking signal, it is connected to " 2 " pin of microprocessor U1 and the cathode of battery B1.

Being described using total duration and/or using another embodiment of total degree for the atomizer is obtained according to the first identification code to control module below.Unlike embodiment described above, in the present embodiment, it include use the total duration of atomizer 21 and/or using total degree in the identification code that atomizing component 2 carries, the identification code identification module 13 is specifically used for obtaining the use total duration of the atomizer 21 from the identification code and/or uses total degree.

For example, the identification code that atomizing component 2 carries is two dimensional code, the identification code identification module 13 specifically includes two dimensional code identification module, by obtaining the use total duration of the atomizer 21 to the two dimensional code identification on atomizing component 2 and/or using total degree.Alternatively, the identification code that atomizing component 2 carries includes memory bank integrated circuit or wireless module, which has the use total duration of atomizer and/or uses total degree；And identification code identification module 13 can specially obtain the use total duration of atomizer with the memory bank integrated circuit module that perhaps wireless module the communicates identification code identification module 13 by communicating with the memory bank integrated circuit or wireless module and/or use total degree.Certainly, the identification code that atomizing component 2 carries can also be other identification codes, and identification code identification module 13 can also be other identification moulds Block, this is not restricted.

In the present invention, it is preferred that cue module is additionally provided on the battery component, for issuing standby signal when it is atomizer power supply that the control module, which controls the battery to stop,.Tobacco juice in user's atomizer can be prompted to use up in this way, rather than battery component goes wrong, so that user replaces atomizer, improves the usage experience of user.Specifically, the cue module can be the light emitting diode being arranged in surfaces of cell, which issues standby signal by bright light.Alternatively, the cue module can be voice module, standby signal is issued by casting voice.Certainly, it above are only citing, and with no restriction.

In the present invention, it is preferred that the battery component also carries battery identification code, which is used for the unique identification battery component.When the smoking detection module detects smoking signal, the control module is also used to detect whether have battery identification code in the atomizing component, if not having, the battery identification code of the battery component is stored into the second memory of the atomizing component.In this way, the battery identification code of the battery assembly can store in the second memory in atomizing component when the battery component is atomizing component power supply for the first time after atomizing component and battery assembly composition electronic cigarette.

If having, then it is whether consistent with the battery identification code of the battery component to be also used to detect the battery identification code in the second memory of the atomizing component for the control module, if consistent, control the battery then as atomizer power supply, if inconsistent, control the battery and stop being that the atomizer is powered.In this way, different battery components can be prevented for the power supply of the same atomizing component.Since the use duration and/or access times accumulated number of atomizer are stored in battery component, avoiding different battery components is that atomizing component power supply can be different from actual numerical value to avoid the use duration and/or access times accumulated number of atomizer.

In above example, whether the battery identification code that the control module detection in battery component is stored in atomizing component is consistent with the battery identification code of the battery component.In practical application, can also be by atomizing component whether the battery identification code for detecting and being stored in battery component consistent with the battery identification code of the battery component.

Specifically, the atomizing component further includes processing unit in the present embodiment, whether there is battery identification code in the second memory for detecting,

If not having, the processing unit is to obtain the battery identification code of the battery component when atomizer is powered and store in the battery component；

If having, the processing unit obtains the battery identification code of the battery component when being electrically connected with the battery component, and detect the battery identification code in the battery identification code and the second memory whether one It causes, if so, the electrical connection of the atomizer and the battery component is kept, if it is not, then disconnecting the electrical connection of the atomizer and the battery component.

In the present embodiment, second memory in atomizing component is plug-in memory, and in practical application, the combination of processing unit and second memory can also be replaced using the self-contained single-chip microcontroller for having nonvolatile memory.

Referring to Fig. 6, Fig. 6 is the electrical block diagram of one embodiment of electronic cigarette of the invention.As shown in fig. 6, the circuit structure of electronic cigarette shown in the present embodiment includes the circuit structure of battery component and the circuit structure of atomizing component.Wherein, the circuit structure of battery component is identical with the circuit structure of battery component shown in Fig. 4, unlike, the circuit structure of the atomizing component in the present embodiment specifically includes: single-chip microcontroller U3, the second capacitor C2, the 8th resistance R8, the 9th resistance R9, the second field-effect tube Q2, the second diode D2.Wherein, the 9th resistance R9 is the resistance wire in atomizer.

Single-chip microcontroller U3 is the single-chip microcontroller with EEPROM nonvolatile memory in the present embodiment, such as is realized by chip PIC12F519.Certainly, other chips also can be used in single-chip microcontroller, are specifically not construed as limiting in the present embodiment.

" 1 " pin of single-chip microcontroller U3 is connected with the cathode of the second diode D2, and the anode of the second diode D2 is connected with the first interface J1 of battery component.

" 8 " pin of single-chip microcontroller U3 is grounded, and is connected by the second capacitor C2 with " 1 " pin.

" 2 " pin of single-chip microcontroller U3 is connected with " 8 " pin of microprocessor U1 in battery component, " 5 " pin is connected with the grid of one end of the 8th resistance R8 and the second field-effect tube Q2 simultaneously, and the source electrode of the other end of the 8th resistance R8 and the second field-effect tube Q2 are connected and are grounded with the second interface J2 of battery component simultaneously.The drain electrode of second field-effect tube Q2 is connected with one end of the 9th resistance R9, and the other end of the 9th resistance R9 is connected with the anode of the second diode D2.

In the present embodiment, it is stored with identification code in single-chip microcontroller U3, single-chip microcontroller U3 is also used to storage battery identification code.When atomizing component is not previously used, the battery identification code stored in single-chip microcontroller U3 is sky.When battery component starts atomizer, single-chip microcontroller U3 obtains electricity and starts to work.When single-chip microcontroller U3 detects that its internal battery identification code is empty, " 5 " pin exports low level, and the second field-effect tube Q2 is disconnected, so that the 9th resistance R9 can not be connected, and then can not be atomized tobacco juice.Meanwhile single-chip microcontroller U3 reads battery identification code from the memory E1 in battery component, when detecting that the battery identification code symbol closes preset format, by battery identification code storage into single-chip microcontroller U3, and " 5 " pin is made to export high level, The second field-effect tube Q2 is connected, and then the 9th resistance R9 is connected, atomizer is enabled to be atomized tobacco juice.

If the battery identification code that single-chip microcontroller U3 is read does not meet preset format, then it represents that the battery component is that illegally, then single-chip microcontroller U3 exports low level still at " 5 " pin, so that the 9th resistance R9 can not be connected, and then can not be atomized tobacco juice.

Battery identification code has been stored in single-chip microcontroller U3 at this time.Battery component starts atomizer each time below, when so that single-chip microcontroller U3 obtaining electricity start-up operation, single-chip microcontroller U3 reads battery identification code from the memory E1 in battery component, and whether detect the battery identification code stored in the battery identification code and single-chip microcontroller U3 consistent, if they are the same, high level is then exported at " 5 " pin, the second field-effect tube Q2 is connected, if not identical, low level is exported at " 5 " pin, so that the 9th resistance R9 can not be connected, and then tobacco juice can not be atomized.

Since the use duration and/or access times accumulated number of atomizing component are stored in battery component, atomizing component only can be with a battery component electrical connection composition electronic cigarette in the present embodiment, avoid atomizing component use duration and/or access times cumulative error caused by battery component judge incorrectly, cause burn cotton phenomenon.

In the present embodiment, in electronic cigarette production process, when if desired testing different atomizing components, a general identifications code can be provided in atomizing component, when the battery identification code in battery component is the general identifications code, atomizing component can export high level directly at " 5 " pin, the second field-effect tube Q2 is connected.

In practical application, it can also be being stored in the memory of atomizing component using duration and/or access times accumulated number by atomizer, control module in battery component need to read the accumulated number out of atomizing component memory only to be calculated, in this way, different battery components can be used for the power supply of the same atomizing component, avoid the case where atomizing component cannot be combined into electronic cigarette with other battery components when battery component breaks down in electronic cigarette.

Explanation is explained to the electronic cigarette in the present invention above, the method for preventing oil-free smoking of the invention is described below.

As shown in fig. 7, Fig. 7 is the flow chart of one embodiment of the method for preventing oil-free smoking of the invention.The present embodiment includes:

101, when the battery component in electronic cigarette detects smoking signal, the battery component identifies the identification code carried on the atomization component of the electronic cigarette.

In the present embodiment, electronic cigarette includes battery component and atomizing component, identification code is wherein carried on atomizing component, and the atomizing component includes the atomizer for atomization smoke oil.The battery component is used to power to the atomizer, sucks so that the atomizer atomization smoke oil generates smog for user.

There are many modes of detection module detection smoking signal of smoking.For concrete example, smoking detection module specifically includes switch key (not shown), and when detecting that the switch key is pressed, the smoking detection module confirmly detects smoking signal.In another example smoking detection module specifically includes microphone.When user sucks electronic cigarette, the smoke path in electronic cigarette has air-flow to flow through.The microphone is used to detect the air pressure of the smoke path in electronic cigarette.When detecting that air pressure is less than default value, smoking detection module confirmly detects smoking signal.

Certainly, smoking detection module can also detect smoking signal by other means, and this is not restricted.

In the present embodiment, atomizing component is carried there are many modes of identification code.Such as, the identification code is attached on the region opposite with the battery component on atomizing component by stickup, printing or other modes, and place opposite with the region is arranged in battery component in the identification code identification module in battery component, and identification code identification module identifies the identification code.In another example being additionally provided with memory in atomizer, which is stored in the memory, and the identification code identification module in battery component reads identification code from the memory, to identify to the identification code.

There are many ways to battery component identifies the identification code carried on atomizing component.For example, the battery component includes identification code identification module, and the identification code on atomizing component is identified by the identification code identification module.Wherein, there are many identification code and identification code identification modules.For concrete example, identification code is the image being attached on atomizing component.Corresponding, identification code identification module includes imaging sensor and image analysis processor；For the identification code on atomizing component to be imaged, which is analyzed and is identified to the imaging for reading imaging sensor imaging the imaging sensor.Wherein, there are many ways to identification code is imaged in imaging sensor, such as scanning imagery, be imaged in the way of photosensitive camera shooting, (i.e. imaging sensor passes through ultrasonic irradiation identification code to ultrasonic imaging, the ultrasonic wave reflected enters imaging sensor imaging), radiant image, magnetic induction image perhaps conductor sensor imaging (i.e. imaging sensor is that the capacitance sensor capacitance sensor by contact or close to identification code causes the capacitance variations of capacitance sensor to be imaged).

Concrete example explanation is carried out to one of scanning imagery below.It is coated on identification code on atomizing component To the coating of infrared ray responsive, when imaging sensor issues Infrared irradiation identification code, the coating on identification code can reflect infrared light, and image analysis processor detects reflected light, to realize the identification to identification code.

102, the battery component obtains the use total duration of the atomizer according to the identification code recognized and/or uses total degree.

In the present embodiment, there are many modes according to the use total duration of identification code (hereinafter simply referred to as the first identification code) the acquisition atomizer recognized and/or to use total degree for battery component.

For concrete example, it is equipped with first memory in battery component, have multiple identification codes and the corresponding use total duration of each identification code in the first memory and/or uses total degree.

When battery component gets the first identification code, identification code identical with first identification code is searched in first memory.When battery component finds identification code identical with first identification code in first memory, battery component obtains use total duration corresponding to the identification code in first memory and/or uses total degree.When battery component is searched in first memory less than identification code identical with first identification code, battery component can power for atomizer, so that atomizer starts to be atomized tobacco juice to generate smog.Or, it is preferred that when battery component is searched in first memory less than identification code identical with first identification code, battery component is not atomizer power supply, so that atomizer is not atomized tobacco juice.In this way, battery component can be made only can be combined into electronic cigarette with specific atomizing component.

Alternatively, including use the total duration of atomizer and/or using total degree in the identification code that atomizing component carries, battery component is specifically used for obtaining the use total duration of the atomizer from the identification code and/or uses total degree.

For example, the identification code that atomizing component carries is two dimensional code, the battery component specifically includes two dimensional code identification module, by obtaining the use total duration of the atomizer to the two dimensional code identification on atomizing component and/or using total degree.Alternatively, the identification code that atomizing component carries includes memory bank integrated circuit or wireless module, which has the use total duration of atomizer and/or uses total degree；And battery component is specifically included can obtain the use total duration of atomizer by communicating with the memory bank integrated circuit or wireless module with the memory bank integrated circuit module that perhaps wireless module communicates and/or using total degree.Certainly, the identification code that atomizing component carries can also be other identification codes, and battery component can also obtain the use total duration of the atomizer from identification code and/or by other means using total degree, and this is not restricted.

103, the battery component obtain the atomizer using duration and/or the accumulative total of access times Value, when detect the atomizer using total duration and the difference of the use duration accumulated number of the atomizer no more than the first default value when, and/or when being not more than the second default value using the difference of total degree and the access times accumulated number of the atomizer of the atomizer, the battery component stop powering to the atomizer.

In the present embodiment, battery component obtain atomizer using the accumulated number of duration and/or access times there are many method.For example, the electronic cigarette in be equipped with counter (not shown), for it is described smoking detection module detected by the atomizer start each time after use duration and/or access times add up；The battery component obtains the use duration and/or access times accumulated number of the atomizer from the counter.Certainly, it above are only citing, and with no restriction.

It is noted that control module control battery described herein stops being the atomizer 21 power supply, including two kinds of meanings:

The first is when detection module 11 of smoking detects smoking signal, control module is before control battery is atomizer power supply, first determine whether the atomizer using total duration and the atomizer using the difference of duration accumulated number and/or the difference using total degree and the access times accumulated number of the atomizer of the atomizer, when the former is not more than the second default value no more than the first default value and/or the latter, control module control battery is not atomizer power supply, namely do not restart atomizer, control battery 14 stops being that the atomizer 21 is powered.

Second is after atomizer starting, whether the difference using duration accumulated number using total duration and the atomizer of atomizer described in control module real-time detection is not more than the first default value and/or whether the difference using total degree and the access times accumulated number of the atomizer of the atomizer is not more than the second default value, if, then control module control battery stops being that atomizer is powered, namely closes atomizer.

In the present embodiment, due to carrying identification code on atomizing component, and when battery component and atomizing component electrical connection, the battery component can obtain the use total duration of the atomizer according to the identification code that the identification code identification module in battery component recognizes and/or using total degree, and detect the use duration after atomizer starts each time and/or access times by smoking detection module；In this way, control module in battery component can have reached in the access times using total duration and/or the atomizer for having reached the atomizer using duration for detecting the atomizer or close to the atomizer when using total degree, it controls the battery and stops being that the atomizer is powered, the case where tobacco tar in atomizer continues to work after use is avoided, the usage experience of user is improved.

Preferably, in the present embodiment, the method for preventing oil-free smoking further include: when the battery component stops powering to the atomizer, the battery assembly issues standby signal.Tobacco juice in user's atomizer can be prompted to use up in this way, rather than battery component goes wrong, so that user replaces atomizer, improves the usage experience of user.There are many ways to issuing standby signal.Specifically, being provided with light emitting diode in surfaces of cell, battery component issues standby signal by bright light.Alternatively, battery component issues standby signal by casting voice.Certainly, it above are only citing, and with no restriction.

Preferably, in the present embodiment, the battery component also carries battery identification code, which is used for the unique identification battery component.After the battery component identifies the identification code carried on the atomization component of the electronic cigarette further include: the battery component detects in the atomizing component whether have battery identification code；If not having, the battery component stores the battery identification code of the battery component into the atomizing component.In this way, the battery identification code of the battery assembly can store in the second memory in atomizing component when the battery component is atomizing component power supply for the first time after atomizing component and battery assembly composition electronic cigarette.

If having, then it is whether consistent with the battery identification code of the battery component to detect the battery identification code in the atomizing component for the battery component, if unanimously, controlling the battery as atomizer power supply, if inconsistent, control the battery and stop being that the atomizer is powered.In this way, different battery components can be prevented for the power supply of the same atomizing component.Since the use duration and/or access times accumulated number of atomizer are stored in battery component, avoiding different battery components is that atomizing component power supply can be different from actual numerical value to avoid the use duration and/or access times accumulated number of atomizer.

In several embodiments provided herein, it should be understood that disclosed system, device and method may be implemented in other ways.Such as, the apparatus embodiments described above are merely exemplary, such as, the division of the unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed mutual coupling, direct-coupling or communication connection can be through some interfaces, the indirect coupling or communication connection of device or unit, can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, and component shown as a unit may or may not be physical unit, it can and it is in one place, or may be distributed over multiple network units.It can select according to the actual needs therein some or all of Unit achieves the purpose of the solution of this embodiment.

In addition, the functional units in various embodiments of the present invention may be integrated into one processing unit, it is also possible to each unit and physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated unit both can take the form of hardware realization, can also realize in the form of software functional units.

The above, the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although the present invention is described in detail referring to the foregoing embodiments, those skilled in the art should understand that: it is still possible to modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features；And these are modified or replaceed, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims (21)

1. A kind of battery component, electronic cigarette is formed for combining with the atomizing component for carrying identification code, the atomizing component includes the atomizer for being atomized tobacco juice, which is characterized in that the battery component includes smoking detection module, control module, identification code identification module and battery；

   The smoking detection module is for detection smoking signal, and detects the use duration after the atomizer starts each time and/or access times；

   The identification code identification module is used to identify the identification code when the smoking detection module detects smoking signal；

   The control module is used to obtain the use total duration of the atomizer according to the identification code that the identification code identification module recognizes and/or uses total degree；Be also used to when detect the atomizer using total duration and the difference of the use duration accumulated number of the atomizer no more than the first default value when, and/or when being not more than the second default value using the difference of total degree and the access times accumulated number of the atomizer of the atomizer, it controls the battery and stops being that the atomizer is powered, wherein, first default value and second default value are respectively greater than or are equal to zero.
2. Battery component according to claim 1, which is characterized in that

   The battery component further includes first memory, has multiple identification codes and the corresponding use total duration of each identification code in the first memory and/or uses total degree；

   The control module is specifically used for searching identification code identical with the identification code that the identification code identification module recognizes in the first memory, when the identical identification code of the identification code found in the first memory with the identification code identification module recognizes, the corresponding use total duration of the identification code is obtained in the first memory and/or uses total degree.
3. Battery component according to claim 2, it is characterized in that, the control module is also used to when searching identification code identical less than the identification code that recognizes with the identification code identification module in the first memory, and not controlling the battery is that the atomizer is powered.
4. Battery component according to claim 1, which is characterized in that the identification code identification module is specifically used for obtaining the use total duration of the atomizer from the identification code and/or uses total degree；

   The battery component further includes first memory, and the use total duration and/or use total degree for the atomizer that the control module is also used to get the identification code identification module are stored into the first memory.
5. Battery component according to claim 1, which is characterized in that the battery component further includes first memory, and the identification code identification module is specifically used for obtaining the use total duration of the atomizer from the identification code and/or uses total degree；

   Whether what the control module was also used to detect the atomizer that the identification code identification module is recognized meets preset format using total duration and/or using the format of total degree, if meeting, store by the use total duration of the atomizer and/or using total degree into the first memory.
6. Battery component according to claim 5, it is characterized in that, the control module is also used to control the battery when detecting when not meeting preset format using total duration and/or using the format of total degree of the atomizer that the identification code identification module is recognized and stop being that the atomizer is powered.
7. Battery component according to claim 1, which is characterized in that cue module is additionally provided on the battery component, for issuing standby signal when it is atomizer power supply that the control module, which controls the battery to stop,.
8. Battery component according to claim 1, which is characterized in that the battery component also carries battery identification code；

   The control module is also used to detect whether have battery identification code in the atomizing component,

   If not having, the battery identification code of the battery component is stored into the atomizing component；

   If having, whether the control module is also used to detect the battery identification code in the atomizing component consistent with the battery identification code of the battery component, if unanimously, controlling the battery as atomizer power supply, if inconsistent, control the battery and stop being that the atomizer is powered.
9. Battery component according to claim 1, which is characterized in that the identification code identification module includes imaging sensor and image analysis processor；

   Described image sensor for the identification code on atomizing component to be imaged, analyzed and identified to the picture for reading described image sensor imaging by described image analysis processor.
10. Battery component according to claim 9, it is characterized in that, described image sensor is imaged especially by scanning imagery, in the way of photosensitive camera shooting, the identification code on the atomizing component is imaged in ultrasonic imaging, radiant image, magnetic induction image or conductor sensor imaging mode.
11. A kind of atomizing component, for combining to form electronic cigarette with battery component, the atomizing component includes the atomizer for being atomized tobacco juice, it is characterized in that, the atomizing component carries identification code, the identification code be the battery component obtain the atomizer using total duration and/or using letter needed for total degree Breath.
12. Atomizing component according to claim 11, which is characterized in that the atomizing component further includes second memory, for storing the use duration and/or access times accumulated number of the atomizer.
13. Atomizing component according to claim 11, which is characterized in that the atomizing component further includes second memory, and the identification code is stored in the second memory；

    Alternatively, the identification code is the image being attached to outside the atomizing component.
14. Atomizing component according to claim 13, which is characterized in that the atomizing component further includes processing unit, whether has battery identification code in the second memory for detecting,

    If not having, the processing unit is to obtain the battery identification code of the battery component when atomizer is powered and store in the battery component；

    If having, then the processing unit obtains the battery identification code of the battery component when being electrically connected with the battery component, and detect the battery identification code and whether the battery identification code in the second memory is consistent, if, then keep the electrical connection of the atomizer and the battery component, if it is not, then disconnecting the electrical connection of the atomizer and the battery component.
15. Atomizing component according to claim 13, which is characterized in that the second memory is plug-in memory；Alternatively,

    The atomizing component includes the single-chip microcontroller for carrying nonvolatile memory, and the second memory is the nonvolatile memory in the single-chip microcontroller.
16. A kind of electronic cigarette characterized by comprising

    The described in any item battery components of claims 1 to 10 and the described in any item atomizing components of claim 11 to 15, the battery component and atomizing component electrical connection.
17. A method of preventing oil-free smoking characterized by comprising

    When the battery component in electronic cigarette detects smoking signal, the battery component identifies the identification code carried on the atomization component of the electronic cigarette, wherein the atomizing component includes the atomizer for atomization smoke oil；

    The battery component obtains the use total duration of the atomizer according to the identification code recognized and/or uses total degree；

    The battery component obtain the atomizer using duration and/or the accumulated number of access times, when the difference using total duration and the use duration accumulated number of the atomizer for detecting the atomizer is little When the first default value, and/or when being not more than the second default value using the difference of total degree and the access times accumulated number of the atomizer of the atomizer, the battery component stops powering to the atomizer, wherein, first default value and second default value are respectively greater than or are equal to zero.
18. The method according to claim 17 for preventing oil-free smoking, it is characterized in that, the battery component further includes first memory and identification code identification module, has multiple identification codes and the corresponding use total duration of each identification code in the first memory and/or uses total degree；

    The battery component is obtained the use total duration of the atomizer according to the identification code recognized or is specifically included using total degree:

    Identification code identical with the identification code that the identification code identification module recognizes is searched in the first memory, when the identical identification code of the identification code found in the first memory with the identification code identification module recognizes, the corresponding use total duration of the identification code is obtained in the first memory and/or uses total degree.
19. The method according to claim 18 for preventing oil-free smoking, which is characterized in that the method also includes:

    When searching identification code identical less than the identification code that recognizes with the identification code identification module in the first memory, the battery component stops being that the atomizer is powered.
20. The method according to claim 17 for preventing oil-free smoking, which is characterized in that the battery component further includes first memory；

    The battery component is obtained the use total duration of the atomizer according to the identification code recognized or is specifically included using total degree:

    The battery component obtains the use total duration of the atomizer from the identification code and/or uses total degree；

    The use total duration and/or use total degree for the atomizer that the battery component will acquire are stored into the first memory.
21. The method according to claim 17 for preventing oil-free smoking, which is characterized in that the battery component also carries battery identification code；

    After the battery component identifies the identification code carried on the atomization component of the electronic cigarette further include:

    The battery component detects in the atomizing component whether have battery identification code；

    If not having, the battery component stores the battery identification code of the battery component into the atomizing component；

    If having, then it is whether consistent with the battery identification code of the battery component to detect the battery identification code in the atomizing component for the battery component, if unanimously, controlling the battery as atomizer power supply, if inconsistent, control the battery and stop being that the atomizer is powered.