CN109730360A - The control method of electronic atomization device and its heating element - Google Patents

The control method of electronic atomization device and its heating element Download PDF

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Publication number
CN109730360A
CN109730360A CN201910054025.2A CN201910054025A CN109730360A CN 109730360 A CN109730360 A CN 109730360A CN 201910054025 A CN201910054025 A CN 201910054025A CN 109730360 A CN109730360 A CN 109730360A
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China
Prior art keywords
parameter value
heating element
period
atomization device
value
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CN201910054025.2A
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Chinese (zh)
Inventor
梅佳刚
赖宝生
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Shenzhen Smoore Technology Ltd
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Shenzhen Smoore Technology Ltd
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Priority to CN201910054025.2A priority Critical patent/CN109730360A/en
Publication of CN109730360A publication Critical patent/CN109730360A/en
Priority to EP20151384.3A priority patent/EP3682750A1/en
Pending legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/57Temperature control

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  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
  • Control Of Resistance Heating (AREA)

Abstract

The invention discloses the control methods of a kind of electronic atomization device and its heating element, the electronic atomization device includes heating element, power module and control module, heating element generates matrix for heating aerosol, power module is used to provide electric power to heating element, and control module is used to control heating element in first time period and be worked with the first parameter value;In second time period, controls heating element and worked with the second parameter value lower than the first parameter value;Within the third period, the second parameter value that heating element works is reduced to third parameter value and is worked within the 4th period with third parameter value.Through the above way, it can accelerate heating efficiency, so that heating element is brought rapidly up, and it can prevent the cumulative performance of the heat of heating element from causing heating element temperature within third period and the 4th period excessively high, so that the mouthfeel of electronic atomization device aerosol caused by each heating period is uniform, the suction experience of user is improved.

Description

The control method of electronic atomization device and its heating element
Technical field
The present invention relates to electronic atomized technical fields, and in particular to the control of a kind of electronic atomization device and its heating element Method.
Background technique
Pursuit with scientific and technological progress and people to healthy living occurs on the market to such as tobacco tar, cigarette or tobacco The aerosol of product etc. generates matrix and is toasted or heated to generate the electronic cigarette of the aerosol of such as smog.
The heating element in electronic atomization device is usually worked with constant parameter at present, is heated in the initial time of suction The temperature of element is lower, due to the cumulative performance of the heat of heating element, with the extension of heating element working time, heating element Temperature gradually rise, so will lead to heating atomization since the temperature of heating element is inconsistent in entire aspiration procedure The mouthfeel of aerosol afterwards is different, and then influences usage experience.
Summary of the invention
The present invention provides the control method of a kind of electronic atomization device and its heating element, to solve electronics in the prior art The technical issues of atomising device is different in each stage mouthfeel of suction, influences usage experience.
In order to solve the above technical problems, one technical scheme adopted by the invention is that: a kind of electronic atomization device, institute are provided Stating electronic atomization device includes: heating element, generates matrix for heating aerosol;Power module is used for the heating unit Part provides electric power;Control module is connected between the power module and the heating element, and the starting for receiving user refers to It enables, and the power module is controlled according to enabled instruction and provides electric power to the heating element;Wherein, in first time period, The control module is worked for controlling the heating element with the first parameter value;In second time period, the control module It is worked for controlling the heating element with the second parameter value, second parameter value is lower than first parameter value;In third In period, second parameter value that the control module is used to work the heating element is reduced to third parameter value; And within the 4th period, the control module is worked for controlling the heating element with the third parameter value.
Optionally, first parameter value, second parameter value and the third parameter value are performance number, voltage value One of with temperature value.
Optionally, second parameter value is the default output valve of the control module.
Optionally, first parameter value, second parameter value and the third parameter value are temperature value, the control Molding block is also used to control the heating element and is increased to first parameter value from environment temperature in the first time period.
Optionally, the ratio of first parameter value and second parameter value is more than or equal to 1.1, the third parameter value It is less than or equal to 0.9 with the ratio of second parameter value.
Optionally, the duration of the first time period is more than or equal to 5ms, and the duration of the second time period is big In being equal to 100ms, the duration of the third period is more than or equal to 10ms.
In order to solve the above technical problems, another technical solution used in the present invention is: providing a kind of electronic atomization device Heating element control method, the control method include: in first time period, control the heating element with first ginseng Numerical value work;It in second time period, controls the heating element and is worked with the second parameter value, second parameter value is lower than institute State the first parameter value;Within the third period, second parameter value that the heating element is worked is reduced to third parameter Value;And within the 4th period, controls the heating element and worked with the third parameter value.
Optionally, first parameter value, second parameter value and the third parameter value are performance number, voltage value One of with temperature value.
Optionally, second parameter value is default output valve.
Optionally, first parameter value, second parameter value and the third parameter value are temperature value;The control Method processed further include: when first time period starts, control the heating element from environment temperature and be increased to first parameter Value.
Optionally, the heating element is less than 1ms from the time that the environment temperature is increased to first parameter value.
Optionally, the first time period, the second time period, the third period and the 4th period are Period continuous in time.
Optionally, the ratio of first parameter value and second parameter value is more than or equal to 1.1, the third parameter value It is less than or equal to 0.9 with the ratio of second parameter value.
Optionally, the duration of the first time period is more than or equal to 5ms, and the duration of the second time period is big In being equal to 100ms, the duration of the third period is more than or equal to 10ms.
In order to solve the above technical problems, another technical solution that the present invention uses is: a kind of electronic atomization device is provided, The electronic atomization device includes: at least one processor;And the memory being connect at least one described processor communication; Wherein, the memory be stored with can by least one described processor execute instruction, described instruction by it is described at least one Processor executes, so that at least one described processor is able to carry out control method as previously described.
The beneficial effects of the present invention are: being in contrast to the prior art, the present invention is by control heating element first It is worked in period with the first parameter value for being higher than the second parameter value, the heating efficiency of heating element can be accelerated, so that heating Element is brought rapidly up, with the work of medium sized second parameter value in second time period, in third period and the 4th time In section, the second parameter value of diminution to third parameter value, and continued working with third parameter value, the heat of heating element can be prevented Cumulative performance causes heating element temperature within third period and the 4th period excessively high.To the electronic fog in the present embodiment The mouthfeel that the aerosol being atomized in each heating period is set in makeup is uniform, so as to improve the suction experience of user.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing, in which:
Fig. 1 is the structural schematic diagram of electronic atomization device in one embodiment of the invention;
Fig. 2 is the structural schematic diagram of the temperature control circuit in one embodiment of the invention;
Fig. 3 is the relational graph of the power of heating element and time in one embodiment of the invention;
Fig. 4 is the relational graph of the voltage of heating element and time in one embodiment of the invention;
Fig. 5 is the relational graph of the temperature and time of heating element in one embodiment of the invention;
Fig. 6 is the flow diagram of the control method of the heating element of electronic atomization device in one embodiment of the invention;
Fig. 7 is the hardware structural diagram of the electronic atomization device in one embodiment of the invention.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that the described embodiments are merely a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other Embodiment shall fall within the protection scope of the present invention.
Referring to Fig. 1, Fig. 1 is the structural schematic diagram of electronic atomization device in one embodiment of the invention.Electronic fog makeup Setting 100 includes: power module 10, heating element 20 and control module 30.Wherein, power module 10 and heating element 20 connect It connects, for providing electric power to heating element 20.Control module 30 is connected between power module 10 and heating element 20, for connecing The enabled instruction of user is received, and power module 10 is controlled according to enabled instruction and provides electric power to heating element 20.Heating element 20 Matrix, such as tobacco or tobacco tar are generated for heating the aerosol being placed in electronic atomization device 100.That is, in this implementation In example, power module 10 is controlled by control module 30, so that power module 10 is powered to heating element 20, and makes heating element 20 are heated aerosol and are generated matrix with certain parameter work.
Wherein, power module 10 can be set in the inside of electronic atomization device 100.Be specifically as follows rechargeable battery or Person is battery pack.Power module 10 or the external powering device being connect with electronic atomization device 100 by power interface.
Heating element 20 can be made of temp controlled heating material, can also be made of non-temp controlled heating material.Wherein, temperature control Exothermic material is TCR (temperature coefficient of resistance, temperature-coefficient of electrical resistance) biggish material of value Material, rather than temp controlled heating material is the lesser material of TCR value.
When heating element 20 is made of temp controlled heating material, since the TCR value of temp controlled heating material is larger, so can To detect its resistance value by a circuit system.It, can be in the load circuit of heating element 20 when electronic atomization device 100 works It connects a temperature detecting resistance, and the temperature detecting resistance is arranged near heating element 20, thermometric electricity is detected by circuit system It hinders the voltage at both ends and flows through the electric current of the temperature detecting resistance, to calculate the resistance sizes of the temperature detecting resistance.And by searching for the survey The resistance of warm resistance and the corresponding relationship of temperature obtain the temperature of temperature detecting resistance, the i.e. temperature of heating element 20.Then will The temperature value is fed back in control module 30, so that temperature value of the control module 30 according to heating element 20, controls heating element 20 running parameter, when so that heating element 20 heating aerosol generation matrix, the mouthfeel of aerosol caused by each stage Unanimously, to improve user experience.
When heating element 20 is made of non-temp controlled heating material, since the TCR value of non-temp controlled heating material is smaller, therefore And above system circuit cannot detect its resistance value.So in embodiments of the present invention, provide it is a kind of both can be to temp controlled heating The temperature control circuit that the TCR value of material is detected, and can be to the temperature control electricity that the TCR value of non-temp controlled heating material is detected Road.
Referring to Fig. 2, Fig. 2 is the structural schematic diagram of the temperature control circuit in one embodiment of the invention.In the present embodiment, it surveys Warm resistance R1 is arranged near heating element, and is connected in the load circuit of heating element.Wherein, VIN+ and VIN- difference It can connect, can also be connected by the output end of step-up/step-down circuit and power supply device with the output end of power supply device.VO+ and VO- is connect with the load circuit of heating element respectively.
In the present embodiment, right simultaneously using the difference amplifier U2 of the difference amplifier U1 of low magnification and high-amplification-factor The voltage at the both ends temperature detecting resistance R1 is sampled.If temperature detecting resistance R1 is temp controlled heating material, resistance value can be by low The difference amplifier U1 measurement of amplification factor obtains.If temperature detecting resistance R1 is non-temp controlled heating material, resistance value can pass through The difference amplifier U2 measurement of high-amplification-factor obtains.That is, being also non-temp controlled heating regardless of temperature detecting resistance R1 is temp controlled heating material Material can measure the resistance value size of temperature detecting resistance R1 by this temperature control circuit.
Specifically, as shown in Fig. 2, the same phase of the difference amplifier U2 of the difference amplifier U1 of low magnification and high-amplification-factor Input terminal IN+ is connect with the first end of the input terminal VIN+ of power supply device and temperature detecting resistance R1 respectively, the difference of low magnification The inverting input terminal IN- of the difference amplifier U2 of amplifier U1 and high-amplification-factor respectively with the input terminal VO+ and thermometric of load circuit The second end of resistance R1 connects.The benchmark input end of the difference amplifier U2 of the difference amplifier U1 and high-amplification-factor of low magnification REF is connect with the input terminal VIN- of power supply device respectively.
It, can be low by reading if the material of heating element is temp controlled heating material in electronic atomization device work The difference amplifier U1 of amplification factor is sampled and the value of amplified output AD-R1, to obtain the sampling electricity at the both ends temperature detecting resistance R1 Pressure.If the material of heating element is non-temp controlled heating material, can be sampled by reading the difference amplifier U2 of high-amplification-factor And the value of amplified output AD-R2, to obtain the sampled voltage at the both ends temperature detecting resistance R1.
In the present embodiment, control module 30 is used to receive the difference amplifier U1 of low magnification or the difference of high-amplification-factor Partite transport puts the sampled voltage at the both ends temperature detecting resistance R1 that U2 is measured, and is mentioned according to the sampled voltage with executing embodiment of the present invention A kind of control method of the heating element 20 of electronic atomization device 100 out.That is, control module 30 is according to the heating element 20 Control method controls power module 10 and exports to heating element 20, so that heating element 20 works under certain running parameter, from And the mouthfeel in aspiration procedure of the aerosol after electronic atomization device 100 is atomized is uniform, to improve user experience.
Specifically, after the connection of power module 10, heating element 20 and control module 30 is completed, control module 30 exists In first time period, heating element 20 is controlled with the work of the first parameter value;In second time period, heating element 20 is controlled with the The work of two parameter values, the second parameter value are lower than the first parameter value;Within the third period, second that heating element 20 is worked is joined Numerical value is reduced to third parameter value;Within the 4th period, heating element 20 is controlled with the work of third parameter value.
To sum up, in the present embodiment, heating element 20 is higher than the first parameter of the second parameter value in first time period It is worth work, the heating efficiency of heating element 20 can be accelerated, so that heating element 20 is brought rapidly up.In second time period in Etc. sizes the second parameter value work.Within third period and the 4th period, the second parameter value of diminution to third parameter value, And continued working with third parameter value, it can prevent the cumulative performance of the heat of heating element 20 from causing heating element 20 in third Between section and temperature is excessively high in the 4th period.By the above-mentioned means, the electronic atomization device 100 in the present embodiment is in each heating The mouthfeel of aerosol caused by stage is uniform, so as to improve the suction experience of user.
Optionally, in one embodiment, the first parameter value, the second parameter value and third parameter value be constant value, i.e., plus Thermal element 20 is worked in first time period with the first constant parameter value, with the second constant parameter value in second time period Work is worked within the 4th period with constant third parameter value.Within the third period, is reduced to by the second parameter value Three parameter values gradually decrease.For example, can be for by the second parameter value linear reduction to third parameter value.
Wherein, the second parameter value is the default output valve of control module 30.In one embodiment, which can be with For factory setting value.The fixed value being stored in front of the factory of electronic atomization device 100 inside control module 30.
In another embodiment, which can also be set when using electronic atomization device 100 for user Value.For example, the value that can be set in control module 30 for user when using electronic atomization device 100 for the first time.Alternatively, can also Control module 30 is thought when receiving enabled instruction, the value set by user for including in enabled instruction.
When electronic atomization device 100 works, control module 30 receives enabled instruction, inside electronic atomization device 100 When being stored with the setting value of the second parameter value, what heating element 20 was directly worked using second parameter value conversion heating element 20 First parameter value and third parameter value, and worked with first parameter value, the second parameter value and third parameter value.
When further including having the value of the second parameter value in the enabled instruction, electronic atomization device 100 is with the of the input The value of two parameter values as the second parameter value, and according to the second parameter value convert heating element 20 work the first parameter value and Third parameter value, and with the work of first parameter value, the second parameter value and third parameter value.
Wherein, in one embodiment, the ratio for setting the first parameter value and the second parameter value is more than or equal to 1.1, and can Less than or equal to 2.For example, the ratio of first parameter value and the second parameter value can be 1.1,1.15,1.2,1.3,1.5 and 2 etc..? In one embodiment, the ratio that can set third parameter value and the second parameter value is less than or equal to 0.9, and can be more than or equal to 0.5.Example Such as, the ratio of the third parameter value and the second parameter value can be 0.9,0.85,0.8,0.6 and 0.5 etc..It is thus possible to pass through the Two the first parameter values of parameter value calculation and third parameter value.
Optionally, first time period, second time period, third period and the 4th period are the time continuous in time Section.That is, at the beginning of the finish time of first time period is second time period, when the finish time of second time period is third Between at the beginning of section, at the beginning of the finish time of third period was the 4th period.
Optionally, the duration of first time period is more than or equal to 5ms and is smaller than equal to 15ms, second time period Duration is more than or equal to 100ms and is smaller than equal to 300ms, the duration of third period be more than or equal to 10ms and It is smaller than and is equal to 30ms, the duration of the 4th period can then be determined by the specific suction time of user.
Specifically, in first time period, heating element is at least worked 5ms with the first parameter value, such as 5ms, 6ms, 7ms, 10ms, 15ms etc.;In second time period, heating element is at least worked 100ms with the second parameter value, such as 100ms, 110ms, 130ms, 180ms, 200ms, 300ms etc.;The second parameter value is reduced within the third period to third parameter value, makes to add Thermal element at least works 10ms, such as 10ms, 12ms, 15ms, 20ms, 30ms etc..
Wherein, the first parameter value, the second parameter value and third parameter value can be in performance number, voltage value and temperature values One kind.That is, control module can control one of modes such as operating power, operating voltage and the operating temperature of heating element So that heating element works.
For example, in one embodiment, control module is by the operating power of control heating element, so that heating element is the With the work of the first performance number in one period;It is worked in second time period with the second performance number lower than the first performance number;? In the third period, the second performance number is reduced to third performance number;Within the 4th period, with the work of third performance number.
Specifically, as shown in figure 3, it is the relational graph of the power W and time T of heating element in the embodiment of the present invention.? In the present embodiment, heating element is first within the Ta period with power Wa work.In the end time of Ta period, by power Wa It is reduced to Wset, and with power Wset work within the Tb period, wherein Wa is greater than Wset, to accelerate under the state of cooling The heating rate of heating element.Power Wset is gradually decreased at the beginning of the Tbc period, in the termination of Tbc period Power is reduced to Wc by the moment, is then continued working within the Tc period with power Wc until terminating, to offset heating element Heating element temperature within Tbc period and Tc period caused by the cumulative performance of heat is excessively high.
In another embodiment, as shown in figure 4, it is the pass of the voltage V and time T of heating element in the embodiment of the present invention System's figure.Control module is used to control the operating voltage of heating element.Heating element is first within the Ta period with voltage Va work. In the end time of Ta period, voltage Va is reduced to Vset, and with voltage Vset work within the Tb period, wherein Va Greater than Vset, to accelerate the heating rate of the heating element under the state of cooling.It is gradually decreased at the beginning of the Tbc period Voltage Vset, in the end time of Tbc period by voltage drop down to Vc, work is then continued with voltage Vc within the Tc period Make until terminating, heating element caused by the cumulative performance of the heat to offset heating element is in Tbc period and Tc period Interior temperature is excessively high.
In another embodiment, as shown in figure 5, it is the temperature TEMP and time T of heating element in the embodiment of the present invention Relational graph.Control module is used to control the operating temperature of heating element.At the beginning of the Ta period, control module is used for Heating element is controlled, so that the temperature of heating element is increased to temperature TEMPa from environment temperature.And in the major part of Ta period With temperature TEMPa work in time.In the end time of Ta period, the temperature TEMPa of heating element is reduced to TEMPset, and with temperature TEMPset work within the Tb period, wherein TEMPa is greater than TEMPset, to accelerate in cooling shape The heating rate of heating element under state.Temperature TEMPset is gradually decreased at the beginning of the Tbc period, in the Tbc time Section end time temperature is reduced to TEMPc, then within the Tc period with temperature TEMPc continue working until terminate, with It is excessively high to offset heating element temperature within Tbc period and Tc period caused by the cumulative performance of heat of heating element.
In the present embodiment, control heating element is less than 1ms from the time that environment temperature is increased to temperature TEMPa, with contracting The preheating time of short heating element, so that heating element is brought rapidly up to normal heating temperature.
Referring to Fig. 6, Fig. 6 is the control method of the heating element of the electronic atomization device in another embodiment of the present invention Flow diagram.Electronic atomization device 100 is electronic atomization device 100 described in above-described embodiment, and present embodiment provides Control method by above-described embodiment control module execute, with control heating element work.Wherein, which includes Following steps:
S10: in first time period, control heating element is worked with the first parameter value.
S20: in second time period, control heating element is worked with the second parameter value, and the second parameter value is lower than the first ginseng Numerical value.
S30: within the third period, the second parameter value that heating element works is reduced to third parameter value.
S40: within the 4th period, heating element is controlled with the work of third parameter value.
Wherein, the first parameter value, the second parameter value and third parameter value are one in performance number, voltage value and temperature value Kind.I.e., it is possible to control one of three kinds of modes such as the operating power of heating element, operating voltage or operating temperature so that plus Thermal element works.
Optionally, first time period, second time period, third period and the 4th period are the time continuous in time Section, so that heating element is continued working to generate aerosol.
Optionally, the duration of first time period is more than or equal to 5ms, and the duration of second time period is more than or equal to The duration of 100ms, third period are more than or equal to 10ms.
When controlling heating element work by the way of the operating temperature by controlling heating element, step S10 includes: Control heating element is increased to the first parameter value from environment temperature, and with the work of the first parameter value.
Specifically, at the beginning of first time period, i.e., before control heating element is with the work of the first temperature value, also It needs to control heating element and is increased to the first temperature value from environment temperature, so that heating element can be in the big portion of first time period It is worked in timesharing with the first constant temperature value.
Wherein, in the present embodiment, control heating element is less than from the time that environment temperature is increased to the first temperature value 1ms, to shorten the preheating time of heating element, so that heating element is brought rapidly up to normal heating temperature.
Wherein, the second parameter value can be default output valve.For example, the default output valve can be factory setting value, It can be user when starting electronic atomization device 100, the value inputted by input module to electronic atomization device 100.When When two parameter values are value set by user, matrix can be generated according to different types of aerosol, to the size of the second parameter value It is adjusted flexibly, so that different types of tobacco or tobacco tar can produce the better aerosol of mouthfeel.
Further, the ratio of the first parameter value and the second parameter value is more than or equal to 1.1, and is smaller than equal to 2.Example Such as, the ratio of first parameter value and the second parameter value can be 1.1,1.15,1.2,1.3,1.5 and 2 etc..Third parameter value and The ratio of two parameter values is less than or equal to 0.9, and can be more than or equal to 0.5.For example, the ratio of the third parameter value and the second parameter value Value can be 0.9,0.85,0.8,0.6 and 0.5 etc..To pass through second the first parameter value of parameter value calculation and third parameter value.
The present invention also provides a kind of electronic atomization device, the electronic atomization device include at least one processor and with this extremely The memory of few processor communication connection.Wherein, memory is stored with the instruction that can be executed by least one processor, refers to Order is executed by least one processor, so that at least one processor is able to carry out such as the control method in above-described embodiment.
As shown in fig. 7, in the present embodiment, the memory for being provided with a processor and being connect with the processor.Wherein, Processor can be connect by bus or other modes with memory.
Memory is a kind of non-volatile computer readable storage medium storing program for executing, can be used for storing non-volatile software program, non- Volatile computer executable program and module, the heating of one of such as above embodiment of the present invention electronic atomization device The corresponding program instruction of the control method of element.Processor by run non-volatile software program stored in memory, Instruction and module, thereby executing the various function application and number of a kind of control method of the heating element of electronic atomization device According to processing, the i.e. function of one of realization above method embodiment control method of the heating element of electronic atomization device.
The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills Art field, is included within the scope of the present invention.

Claims (15)

1. a kind of electronic atomization device, which is characterized in that the electronic atomization device includes:
Heating element generates matrix for heating aerosol;
Power module, for providing electric power to the heating element;With
Control module is connected between the power module and the heating element, for receiving the enabled instruction of user, and root The power module, which is controlled, according to enabled instruction provides electric power to the heating element;
Wherein, in first time period, the control module is worked for controlling the heating element with the first parameter value;? In two periods, the control module is worked for controlling the heating element with the second parameter value, and second parameter value is low In first parameter value;Within the third period, the control module be used for the heating element is worked described second Parameter value is reduced to third parameter value;And within the 4th period, the control module for control the heating element with The third parameter value work.
2. electronic atomization device according to claim 1, which is characterized in that first parameter value, second parameter Value and the third parameter value are one of performance number, voltage value and temperature value.
3. electronic atomization device according to claim 1, which is characterized in that second parameter value is the control module Default output valve.
4. electronic atomization device according to claim 1, which is characterized in that first parameter value, second parameter Value and the third parameter value are temperature value, and the control module is also used to control the heating element in the first time First parameter value is increased to from environment temperature in section.
5. electronic atomization device described in any one of -4 according to claim 1, which is characterized in that first parameter value and institute The ratio for stating the second parameter value is more than or equal to 1.1, and the ratio of the third parameter value and second parameter value is less than or equal to 0.9。
6. electronic atomization device described in any one of -4 according to claim 1, which is characterized in that the first time period is held The continuous time is more than or equal to 5ms, and the duration of the second time period is more than or equal to 100ms, and the third period continues Time is more than or equal to 10ms.
7. a kind of control method of the heating element of electronic atomization device, which is characterized in that the control method includes:
In first time period, controls the heating element and worked with the first parameter value;
It in second time period, controls the heating element and is worked with the second parameter value, second parameter value is lower than described the One parameter value;
Within the third period, second parameter value that the heating element is worked is reduced to third parameter value;And
Within the 4th period, controls the heating element and worked with the third parameter value.
8. control method according to claim 7, which is characterized in that first parameter value, second parameter value with And the third parameter value is one of performance number, voltage value and temperature value.
9. control method according to claim 7, which is characterized in that second parameter value is default output valve.
10. control method according to claim 7, which is characterized in that first parameter value, second parameter value with And the third parameter value is temperature value;The control method further include: when first time period starts, control the heating unit Part is increased to first parameter value from environment temperature.
11. control method according to claim 10, which is characterized in that the heating element is increased from the environment temperature Time to first parameter value is less than 1ms.
12. control method according to claim 7, which is characterized in that the first time period, the second time period, The third period and the 4th period are the period continuous in time.
13. the control method according to any one of claim 7-12, which is characterized in that first parameter value with it is described The ratio of second parameter value is more than or equal to 1.1, and the ratio of the third parameter value and second parameter value is less than or equal to 0.9.
14. the control method according to any one of claim 7-12, which is characterized in that the first time period continues Time is more than or equal to 5ms, and duration of the second time period is more than or equal to 100ms, the third period it is lasting when Between be more than or equal to 10ms.
15. a kind of electronic atomization device, which is characterized in that the electronic atomization device includes:
At least one processor;And
The memory being connect at least one described processor communication;
Wherein, the memory be stored with can by least one described processor execute instruction, described instruction by it is described at least One processor executes, so that at least one described processor is able to carry out the control as described in any one of claim 7-14 Method.
CN201910054025.2A 2019-01-21 2019-01-21 The control method of electronic atomization device and its heating element Pending CN109730360A (en)

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CN113142684A (en) * 2021-04-13 2021-07-23 深圳麦克韦尔科技有限公司 Heating control method and electronic atomization device
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