CN112545061A - Temperature control method, electronic cigarette and atomization heating device - Google Patents

Abstract

The invention discloses a temperature control method, an electronic cigarette and an atomization heating device, wherein the control method comprises the following steps: s101: the host computer calculates a target resistance value of the heating wire at a target temperature according to the reference resistance value stored in the storage chip, the reference temperature corresponding to the reference resistance value and the resistance temperature coefficient; s102: and heating the heating wire according to the target resistance value, detecting the resistance value of the heating wire in real time, and adjusting the heating output according to the resistance value to enable the resistance value of the heating wire to reach the target resistance value. The invention can heat the temperature to the target temperature required by the user, improves the heating flexibility of the heating wire, meets the requirement of the user on temperature setting, heats the heating wire according to the resistance value of the heating wire, can ensure that the heating wire accurately reaches the target temperature, eliminates the error of temperature measurement, eliminates the influence of the external temperature, further can meet the requirement of the atomization effect of the user, and enhances the use experience.

Description

Temperature control method, electronic cigarette and atomization heating device

Technical Field

The invention relates to the technical field of atomization heating, in particular to a temperature control method, an electronic cigarette and an atomization heating device.

Background

The inhalation type aerial fog generating device used at present is a device which uses electric heating to atomize special liquid, can be used for the fields of inhalation type treatment and the like, often sets up a heating wire in the inhalation type aerial fog generating device, and the consumable material to be heated is heated through the heating wire so as to generate required aerial fog.

That is, for the inhalation type aerosol generating device, the control of the corresponding heating temperature is very important, because different heating temperatures heat the smokable materials (such as tobacco shreds and liquid medicine) to different degrees, thereby corresponding to different smoking tastes or treatment effects. Therefore, the corresponding heating temperature is required to be set according to the characteristics of the smokeable material so as to achieve the required smoking taste or treatment effect and atomization effect, and in a general inhalation type aerosol generating device, the temperature required to be increased is often set only, and the temperature required to be increased cannot be adjusted according to the actual temperature, so that the influence difficulty of the frequent external temperature is caused to achieve the optimal heating temperature, and the optimal atomization effect cannot be obtained.

That is to say, in the relevant technical scheme, to the heating temperature of inhalation-type aerial fog generating device, adopt unified predetermined temperature to heat more, this kind of temperature control's scheme has the not enough problem of flexibility of heating temperature control for user's use experience is not good.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a temperature control method, an electronic cigarette and an atomization heating device, wherein the reference resistance value and the resistance temperature coefficient of a heating wire are used for heating the heating wire, so that the temperature can be heated to the target temperature required by a user, the heating flexibility of the heating wire is improved, the requirement of the user on temperature setting is met, the heating wire is heated according to the resistance value of the heating wire, the heating wire can be ensured to accurately reach the target temperature, the error of temperature measurement is eliminated, the influence of the external temperature is eliminated, the atomization effect requirement of the user can be met, and the use experience is enhanced.

The invention provides a temperature control method, which is applied to a host, a heating wire and a storage chip for storing heating data of the heating wire, wherein the storage chip is arranged in the host, the heating data comprises a reference resistance value, a reference temperature corresponding to the reference resistance value and a resistance temperature coefficient, and the control method comprises the following steps:

s101: the host computer calculates a target resistance value of the heating wire at a target temperature according to the reference resistance value stored by the storage chip, the reference temperature corresponding to the reference resistance value and the resistance temperature coefficient;

s102: and heating the heating wire according to the target resistance value, detecting the resistance value of the heating wire in real time, and adjusting the heating output according to the resistance value to enable the resistance value of the heating wire to reach the target resistance value.

Further, the reference resistance value is a resistance value of the heater at a normal ambient temperature when the heating data is written in the memory chip, and the reference temperature is the normal ambient temperature.

Further, the step of calculating the target resistance value of the heating wire at the target temperature according to the reference resistance value stored in the memory chip, the reference temperature corresponding to the reference resistance value, and the resistance temperature coefficient specifically includes:

and acquiring a difference value between the target temperature and the reference temperature, acquiring a resistance value difference between the target resistance value and the reference resistance value according to the difference value and the resistance temperature coefficient, and acquiring the target resistance value according to the reference resistance value and the resistance value difference.

Further, the step of heating the heating wire according to the target resistance value specifically includes:

and acquiring an actual resistance value of the heating wire, and controlling a heating circuit to heat the heating wire according to the difference between the actual resistance value and the target resistance value.

Further, a heating circuit is controlled by a PID algorithm to heat the heating wire.

Further, the step of detecting the resistance value of the heating wire in real time and adjusting the heating output according to the resistance value to make the resistance value of the heating wire reach the target resistance value specifically comprises the following steps:

and adjusting the voltage of the heating circuit according to the difference between the resistance value and the target resistance value to enable the resistance value of the power generation wire to reach the target resistance value.

Further, the step of detecting the resistance value of the heating wire in real time further comprises the following steps:

and acquiring the temperature of the heating wire according to the resistance value and the resistance temperature coefficient, and sending the temperature to an intelligent terminal associated with the electronic cigarette.

Further, the host encrypts and stores heating information of the heating wire in the storage chip, wherein the heating information comprises at least one of heating time and heating temperature of the heating wire.

Based on the same inventive concept, the invention further provides an electronic cigarette, which comprises a host and a heating wire, wherein the host comprises a storage chip for storing heating data of the heating wire, the heating data comprises a reference resistance value, a reference temperature corresponding to the reference resistance value and a resistance temperature coefficient, and the electronic cigarette realizes the temperature control method through the host, the heating wire and the storage chip for storing the heating data of the heating wire.

Based on the same inventive concept, the invention further provides an atomizing and heating device, which comprises a host and a heating wire, wherein the host comprises a storage chip for storing heating data of the heating wire, the heating data comprises a reference resistance value, a reference temperature corresponding to the reference resistance value and a resistance temperature coefficient, and the atomizing and heating device realizes the temperature control method through the host, the heating wire and the storage chip for storing the heating data of the heating wire.

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

utilize the benchmark resistance value and the resistance temperature coefficient of heater to heat the heater, can heat the temperature to the target temperature that the user needs, improved the flexibility that the heater heated, satisfied the user to the requirement of temperature setting, and heat the heater according to the resistance value of heater, can ensure that the heater accurately reaches the target temperature, eliminated temperature measurement's error, eliminated ambient temperature's influence to can satisfy atomization effect requirement, strengthened the use and experience.

Drawings

FIG. 1 is a flow chart of an embodiment of a method for controlling temperature according to the present invention;

FIG. 2 is a flow chart of another embodiment of the temperature control method of the present invention;

figure 3 is a block diagram of an embodiment of the electronic cigarette of the present invention;

fig. 4 is a structural diagram of an atomizing heating device according to an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Referring to fig. 1-2, fig. 1 is a flow chart illustrating a temperature control method according to an embodiment of the present invention; FIG. 2 is a flow chart of another embodiment of the temperature control method of the present invention. The temperature control method of the present invention will be specifically described with reference to FIGS. 1-2.

In this embodiment, the temperature control method is applied to a host, a heater, and a memory chip storing heating data of the heater, where the heating data includes a reference resistance value, a reference temperature corresponding to the reference resistance value, and a resistance temperature coefficient, and the temperature control method includes:

s101: the host computer calculates a target resistance value of the heating wire at a target temperature according to the reference resistance value stored in the memory chip, the reference temperature corresponding to the reference resistance value and the resistance temperature coefficient.

In this embodiment, the device for executing the temperature control method may be an electronic cigarette, an aerosol therapy apparatus, and a device for heating by atomization through a heating wire.

The method for controlling the temperature of the present invention will be specifically described below using the apparatus as an electronic cigarette.

In this embodiment, the heater setting is in the cigarette bullet of electron cigarette, and the host computer is provided with control chip, and control chip produces the flue gas through heater heating cigarette bullet.

In this embodiment, the control chip may be mcu, SOC, or other chip capable of detecting the resistance of the heater and controlling the heating circuit to heat the heater according to the resistance.

Wherein, the control chip controls the heat that the heater produced, and then the temperature that the control cigarette bullet was heated and the size and the production rate of flue gas to make the user obtain the suction taste that satisfies self demand.

In this embodiment, the control chip can be arranged in the smoke cartridge, or can be separately arranged from the smoke cartridge, and the control chip and the smoke cartridge can be detachably connected, so that only the control chip can acquire the information stored in the storage chip and control the heating of the heating wire.

In the present embodiment, the control chip detects the resistance value of the heater, and obtains the current temperature (normal ambient temperature) of the heater based on the resistance value, the reference resistance value, and the resistance temperature coefficient.

In the present embodiment, the reference resistance value is a resistance value of the heater at a normal ambient temperature when the heating data is written into the memory chip, and the reference temperature is the normal ambient temperature.

In a specific embodiment, the reference resistance value, the reference temperature, and the temperature coefficient of resistance are written into the memory chip by the writing means.

In this embodiment, the resistance temperature coefficient and the reference resistance value of the heater are stored in the memory chip, in other embodiments, the resistance temperature coefficient and the reference resistance value may also be stored in the memory chip or the cloud end connected to the control chip or the control chip, after the control chip is connected to the smoke bomb, the serial number, the device code, the model number or other identification information of the smoke bomb is acquired, and the corresponding resistance temperature coefficient and the reference resistance value are acquired according to the identification information.

In other embodiments, the control chip may also be connected to an intelligent terminal such as a mobile phone or a tablet computer of a user, and receive the resistance temperature coefficient and the reference resistance value input by the user through the intelligent terminal. The heating wire is heated according to the resistance temperature coefficient and the reference resistance value.

In this embodiment, the reference resistance value in the cartridge and the reference temperature corresponding to the reference resistance value are written into the cartridge before shipment. And calculating the target resistance value of the heating wire at the target temperature by taking the reference resistance value as a reference point during use.

In the embodiment, the resistance temperature coefficient is determined by the material of the heating wire, and the resistance temperature coefficient is fixed and does not change along with the temperature, thereby ensuring the heating stability.

In this embodiment, the target temperature can be prestored in the control chip, also can be prestored in the cigarette bullet, can also save in the high in the clouds, and the control chip downloads target temperature data from the high in the clouds according to the identification information of cigarette bullet.

In other embodiments, the user can input the target temperature through the intelligent terminal connected with the electronic cigarette, so that the smoking mouthfeel meeting the self requirement is obtained.

In this embodiment, in order to further enable the heating wire to accurately reach the target temperature, a plurality of reference resistance values may be set, each reference resistance value corresponds to a different reference temperature, after the current normal ambient temperature is acquired, the reference temperature closest to the normal ambient temperature is selected, and the normal ambient temperature and the target temperature are calculated according to the reference resistance value corresponding to the closest reference temperature.

In this embodiment, the step of calculating the target resistance value of the heating wire at the target temperature according to the reference resistance value stored in the memory chip, the reference temperature corresponding to the reference resistance value, and the resistance temperature coefficient specifically includes: and acquiring a difference value between the target temperature and the reference temperature, acquiring a resistance value difference between the target resistance value and the reference resistance value according to the difference value and the resistance temperature coefficient, and acquiring the target resistance value according to the reference resistance value and the resistance value difference.

In other embodiments, the resistance-temperature comparison table of the heating wire may also be stored in the smoke cartridge, the control chip, or the cloud, the control chip obtains the target temperature, and obtains the target resistance value of the heating wire at the target temperature according to the resistance-temperature comparison table.

S102: and heating the heating wire according to the target resistance value, detecting the resistance value of the heating wire in real time, and adjusting the heating output according to the resistance value to enable the resistance value of the heating wire to reach the target resistance value.

In this embodiment, the step of heating the heating wire according to the target resistance value specifically includes: and acquiring the actual resistance value of the heating wire, and controlling the heating circuit to heat the heating wire according to the difference between the actual resistance value and the target resistance value.

In this embodiment, the heating circuit is controlled to heat the heating wire by a PID algorithm, wherein the control chip processes the difference between the actual resistance value and the target resistance value by the PID algorithm to obtain heating data such as heating voltage of the heating circuit, heating time for heating to the target temperature, and the like, and then controls the heating circuit to heat the heating wire according to the heating data.

In this embodiment, the control chip may control the heating circuit to heat the heating wire by a constant heating voltage, or may obtain the temperature of the heating wire in real time, and adjust the voltage of the heating circuit according to the temperature, so as to make the heating wire reach the target temperature.

In this embodiment, the voltage of the heating voltage received by the heating circuit is set according to the battery voltage of the electronic cigarette.

In a specific embodiment, the heating voltage is in the range of 3.7V to 4.2V.

In a specific embodiment, the control chip outputs pwm signal to the heating circuit to control the heating circuit to heat the heating wire.

In this embodiment, to further control the temperature of the heating wire and detect the resistance value of the heating wire in real time, the step of adjusting the heating output according to the resistance value to make the resistance value of the heating wire reach the target resistance value specifically includes: the voltage of the heating circuit is adjusted according to the difference between the resistance value and the target resistance value so that the resistance value of the power generating wire reaches the target resistance value.

In this embodiment, the control chip may obtain the resistance value of the heating wire by detecting the voltage of the heating wire or by a current lamp method passing through the heating wire.

In this embodiment, in order to enable a user to intuitively know the heating condition of the heating wire, the step of detecting the resistance value of the heating wire in real time further includes: the temperature of the heating wire is obtained according to the resistance value and the resistance temperature coefficient, and the temperature is sent to the intelligent terminal associated with the electronic cigarette, so that a user can know the heating condition of the heating wire.

In this embodiment, the control chip can be connected with the intelligent terminal of the user through the high in the clouds, and can also send the detected heating wire temperature information to the intelligent terminal through wired or wireless data transmission modes such as data line, bluetooth, WiFi, etc.

In this embodiment, in order to protect the privacy of the user, the host encrypts and stores heating information of the heating wire in the storage chip, where the heating information includes at least one of heating time and heating temperature of the heating wire. The heating data of the heating wire can be stored in the storage chip after being encrypted, the host decrypts the encrypted information to obtain the heating data and the heating information, and the encryption and decryption of the heating data and the heating information both adopt UUID of the storage chip as KEY.

In a specific embodiment, the control chip of the host computer obtains the reference temperature, the reference resistance value and the resistance temperature coefficient of the heating wire from the memory chip, obtains the target temperature stored in the memory chip, and calculates the target resistance value when the heating wire reaches the target temperature according to the difference between the target temperature and the reference temperature and the resistance temperature coefficient. The control chip detects the resistance value of the heating wire again, inputs the resistance value and the target resistance value into a PID temperature control algorithm, calculates the voltage of the heating circuit for heating the heating wire through the PID temperature control algorithm, and supplies power to the heating circuit according to the voltage to realize heating of the heating wire. And detecting the actual resistance of the heating wire in real time, and adjusting the voltage of the heating circuit according to the actual resistance so as to enable the temperature of the heating wire to reach and be kept at the target temperature.

Has the advantages that: the temperature control method of the invention heats the heating wire by utilizing the reference resistance value and the resistance temperature coefficient of the heating wire, can heat the temperature to the target temperature required by a user, improves the heating flexibility of the heating wire, meets the requirement of the user on temperature setting, heats the heating wire according to the resistance value of the heating wire, can ensure that the heating wire accurately reaches the target temperature, eliminates the error of temperature measurement, eliminates the influence of the external temperature, thereby meeting the requirement of atomization effect and enhancing the use experience.

Based on the same inventive concept, the present invention further provides an electronic cigarette, please refer to the drawings, and fig. 3 is a structural diagram of an embodiment of the electronic cigarette according to the present invention. The electronic cigarette of the present invention is specifically described with reference to fig. 3.

In this embodiment, the electronic cigarette includes a host and a heater, the host includes a memory chip for storing heating data of the heater, the heating data includes a reference resistance value, a reference temperature corresponding to the reference resistance value, and a resistance temperature coefficient, and the electronic cigarette implements the temperature control method according to the above embodiment through the host, the heater, and the memory chip for storing the heating data of the heater.

Has the advantages that: the electronic cigarette heats the heating wire by utilizing the reference resistance value and the resistance temperature coefficient of the heating wire, can heat the temperature to the target temperature required by a user, improves the heating flexibility of the heating wire, meets the requirement of the user on temperature setting, can ensure that the heating wire accurately reaches the target temperature, eliminates the error of temperature measurement, eliminates the influence of external temperature, can meet the requirement of the user on atomization effect, and enhances the use experience.

Based on the same inventive concept, the present invention further provides an atomizing and heating device, please refer to fig. 4, fig. 4 is a structural diagram of an embodiment of the atomizing and heating device of the present invention, and the atomizing and heating device of the present invention is specifically described with reference to fig. 4.

In this embodiment, the atomizing heating device includes a host and a heater, the host includes a memory chip for storing heating data of the heater, the heating data includes a reference resistance value, a reference temperature corresponding to the reference resistance value, and a resistance temperature coefficient, and the atomizing heating device implements the temperature control method according to the above embodiment through the host, the heater, and the memory chip for storing the heating data of the heater.

Has the advantages that: the atomization heating device provided by the invention heats the heating wire by utilizing the reference resistance value and the resistance temperature coefficient of the heating wire, can heat the temperature to the target temperature required by a user, improves the heating flexibility of the heating wire, meets the requirement of the user on temperature setting, heats the heating wire according to the resistance value of the heating wire, can ensure that the heating wire accurately reaches the target temperature, eliminates the error of temperature measurement, eliminates the influence of external temperature, can meet the requirement of the atomization effect of the user, and enhances the use experience.

In the embodiments provided in the present invention, it should be understood that the disclosed devices and structures may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the structural component division of the electronic cigarette is only a logical functional division, and there may be other divisions when actually implemented, for example, a plurality of modules or modules may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be through some interfaces, devices or indirect coupling or communication connection, and may be in an electrical, mechanical or other form.

The components described as separate parts may or may not be physically separate, and the components shown may or may not be physically separate, may be located in one place, or may be distributed in a plurality of places. Some or all of them can be selected according to actual needs to achieve the purpose of the embodiment.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. A temperature control method applied to a host, a heater, and a memory chip storing heating data of the heater, the memory chip being provided in the host, the heating data including a reference resistance value, a reference temperature corresponding to the reference resistance value, and a resistance temperature coefficient, the control method comprising:

s101: the host computer calculates a target resistance value of the heating wire at a target temperature according to the reference resistance value stored by the storage chip, the reference temperature corresponding to the reference resistance value and the resistance temperature coefficient;

s102: and heating the heating wire according to the target resistance value, detecting the resistance value of the heating wire in real time, and adjusting the heating output according to the resistance value to enable the resistance value of the heating wire to reach the target resistance value.

2. The temperature control method according to claim 1, wherein the reference resistance value is a resistance value of the heater at a normal ambient temperature when the heating data is written to the memory chip, and the reference temperature is the normal ambient temperature.

3. The method according to claim 1, wherein the step of calculating the target resistance value of the heater at the target temperature based on the reference resistance value stored in the memory chip, the reference temperature corresponding to the reference resistance value, and the resistance temperature coefficient includes:

and acquiring a difference value between the target temperature and the reference temperature, acquiring a resistance value difference between the target resistance value and the reference resistance value according to the difference value and the resistance temperature coefficient, and acquiring the target resistance value according to the reference resistance value and the resistance value difference.

4. The method according to claim 1, wherein the step of heating the heater according to the target resistance value specifically includes:

and acquiring an actual resistance value of the heating wire, and controlling a heating circuit to heat the heating wire according to the difference between the actual resistance value and the target resistance value.

5. The method of claim 4, wherein the heating wire is heated by controlling a heating circuit through a PID algorithm.

6. The method according to claim 5, wherein the step of detecting the resistance value of the heater in real time and adjusting the heating output according to the resistance value to make the resistance value of the heater reach the target resistance value comprises:

and adjusting the voltage of the heating circuit according to the difference between the resistance value and the target resistance value to enable the resistance value of the power generation wire to reach the target resistance value.

7. The method for controlling temperature according to claim 1, wherein the step of detecting the resistance value of the heating wire in real time further comprises:

and acquiring the temperature of the heating wire according to the resistance value and the resistance temperature coefficient, and sending the temperature to an intelligent terminal associated with the electronic cigarette.

8. The method according to claim 1, wherein the host encrypts and stores heating information of the heater in the memory chip, wherein the heating information includes at least one of heating time and heating temperature of the heater.

9. An electronic cigarette, characterized in that, the electronic cigarette includes a host computer, a heater, the host computer includes a memory chip for storing the heating data of the heater, the heating data includes a reference resistance value, a reference temperature corresponding to the reference resistance value and a resistance temperature coefficient, the electronic cigarette realizes the temperature control method according to any one of claims 1 to 8 through the host computer, the heater and the memory chip for storing the heating data of the heater.

10. An atomizing heating device, characterized in that, atomizing heating device includes host computer, heater, the host computer includes the memory chip of the heating data of storage heater, heating data includes reference resistance value, the reference temperature and the resistance temperature coefficient that correspond with reference resistance value, atomizing heating device passes through host computer, heater and the memory chip of the heating data of storage heater realizes the control method of temperature of any one of claims 1-8.

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