CN107836756B - Power supply device, aerosol generating device and identification control method thereof - Google Patents

Abstract

The invention provides an identification control method of an aerosol generating device, which comprises an atomizing device and a power supply device, wherein the power supply device comprises an information acquisition unit, an information processing unit and a control unit, and the identification control method comprises the following steps: the information acquisition unit acquires information of the identification unit and feeds the information back to the information processing unit; the information processing unit decodes the identification information, converts the identification information into machine-readable data information of the control unit and transmits the machine-readable data information to the control unit; the control unit judges whether standard identification information matched with the machine-readable data information exists or not; and when the matched standard identification information exists, the control unit outputs a control signal according to the working mode of the atomization device corresponding to the group of standard identification information, and when the matched standard identification information does not exist, the control unit prompts a user that the atomization device is not matched with the power supply device. The invention also provides an aerosol generating device used for executing the identification control method.

Description

Power supply device, aerosol generating device and identification control method thereof

Technical Field

The invention relates to the technical field of electronic cigarettes, in particular to a power supply device, an aerosol generating device and an identification control method thereof.

Background

Currently, aerosol generating devices on the market generally comprise an atomizing device and a power supply device which are connected to each other. When the aerosol generating device works, the power supply device supplies electric energy to the atomizing device, so that the atomizing device can heat the aerosol forming substrate, and therefore smoke is generated, and a user can obtain smoking experience. However, the operating mode of the atomizing device may also vary due to the different types and/or models of the atomizing device. The user needs to know the performance of atomizing device earlier, if, whether have the temperature control function, realize the means of accuse temperature, behind information such as kind and/or the model of heating element in the atomizing device, can confirm the mode of operation of atomizing device, and this operation process is very loaded down with trivial details for the user experiences not well when using aerosol generating device.

Disclosure of Invention

In view of the above-mentioned problems, an object of the present invention is to provide a power supply device, an aerosol generating device, and a recognition control method thereof.

The technical scheme for realizing the purpose of the invention is as follows:

a power supply device, the power supply device comprising:

the information acquisition unit is used for acquiring information of the identification unit under the control of the control unit;

and the control unit is used for judging whether standard identification information matched with the identification information acquired by the information acquisition unit exists or not, and outputting a control signal according to the working mode of the atomization device corresponding to the group of standard identification information when the matched standard identification information exists.

Furthermore, the power supply device also comprises a storage unit electrically connected with the control unit, and the storage unit is used for storing data information comprising at least one group of standard identification information and software comprising at least one working mode of the atomization device corresponding to the group of standard identification information.

Furthermore, the power supply device also comprises a display unit electrically connected with the control unit, and the display unit is used for displaying one or more of menus, operation prompts and/or warnings, working modes, working parameters and the like of the aerosol generation device so that a user can know the using state of the aerosol generation device.

Furthermore, the power supply device also comprises a user input unit electrically connected with the control unit, wherein the user input unit is used for responding to the operation of a user on the display content of the display unit, generating an input signal and feeding back the input signal to the control unit.

Further, the power supply device further comprises a transmission interface unit, wherein the transmission interface unit is used for connecting other equipment in a wired/wireless mode, importing data information and/or software in the other equipment into the storage unit to update and/or enrich the storage unit, or importing the data information and/or software in the storage unit into the other equipment to be used and/or analyzed by the other equipment, and/or is used for connecting the other equipment in a wired/wireless mode, so that the control unit can acquire at least one set of standard identification information and at least one working mode of the atomization device corresponding to the set of standard identification information from the other equipment in real time.

Further, the identification unit is configured to express identification information, the identification information expressed by the identification unit comprising one or more of a code of an operating mode of the nebulizing device, a type and/or model of the nebulizing device, a manufacturer and/or distributor, a batch number, a production date, a service life, a type and/or model of an aerosol-forming substrate nebulizable by the nebulizing device, a type and/or model of a heat generating element in the nebulizing device, and a type and/or model of a temperature sensing element in the nebulizing device.

Further, the identification unit is provided on the atomising device, or on the packaging/instructions for the atomising device/aerosol generating device/aerosol-forming substrate, or on a card/sales website/electronic document corresponding to the atomising device/aerosol generating device/aerosol-forming substrate, etc.

Further, the identification unit is a combination of one or more of patterns, letters, numbers, characters, one-dimensional bar codes, two-dimensional codes, three-dimensional codes, magnetic stripe labels and electronic labels.

Further, the identification unit is formed by one or more of printing, surface processing, pasting, inlaying, editing and the like.

An aerosol generating device comprising an atomising device for atomising an aerosol-forming substrate and any one of the above mentioned power supply means.

An identification control method of an aerosol generating device comprises an atomizing device and a power supply device, wherein the power supply device comprises an information acquisition unit, an information processing unit and a control unit;

the identification control method comprises the following steps:

the information acquisition unit acquires information from the identification unit under the control of the control unit;

the control unit judges whether standard identification information matched with the identification information acquired by the information acquisition unit exists or not; and

and when the standard identification information matched with the machine-readable data information exists, the control unit outputs a control signal according to the working mode of the atomization device corresponding to the set of standard identification information.

Further, the step of outputting a control signal by the control unit according to the working mode of the atomization device corresponding to the set of standard identification information further includes:

when the working mode of the corresponding atomization device is only one, the control unit controls the aerosol generation device to work in the working mode of the corresponding atomization device;

when the working modes of the corresponding atomization devices are two or more, the control unit controls the aerosol generation device to work in the working mode of the atomization device set by a user.

Further, the step of controlling the aerosol generating device to operate in the operating mode of the atomizing device set by the user further includes:

judging whether default setting for the working mode exists or not;

when the default setting of the working mode exists, determining whether to execute the default setting of the working mode according to user selection;

and when the default setting of the working mode does not exist, receiving a signal of the working mode selected by the user, and controlling the aerosol generating device to work in the working mode selected by the user by the control unit.

Further, the step of determining whether to perform a default setting for the operation mode according to the user selection further includes:

when a signal for executing default setting of the working mode is received, the control unit controls the aerosol generating device to work in the default working mode;

when receiving the signal of the user-selected working mode, the control unit controls the aerosol generating device to work in the user-selected working mode.

Further, the step of operating the aerosol generating device in the corresponding operating mode further includes:

when the working parameters are fixed values in the corresponding working modes, the control unit controls the aerosol generating device to work in the corresponding working modes, and the working parameters are fixed values;

further, when at least one user in the working parameters can set in the corresponding working mode, the control unit determines whether default setting for the working parameters exists.

When the default setting of the working parameters exists, determining whether to execute the default setting of the working parameters according to user selection;

and when the default setting of the working parameters does not exist, the user sets the working parameters, the control unit controls the aerosol generating device to work in a corresponding working mode, and the working parameters are set values by the user.

Further, the step of selecting by the user whether to execute the default setting of the working parameter further includes:

when the default setting of the working parameters is executed, the control unit controls the aerosol generating device to work in a corresponding working mode, and the working parameters are default values;

when the default setting of the working parameters is not executed, the signal of the working parameters set by the user is received, the control unit controls the aerosol generating device to work in the corresponding or default or user-selected working mode, and the working parameters are set values by the user.

An aerosol generating device for performing any of the above identification control methods.

The invention has the following beneficial effects:

(1) the power supply device can acquire identification information by identifying the identification unit and can quickly call the working mode of the atomization device according to the identification information. This just makes the user need not through knowing atomizing device's specific information, for example, whether atomizing device has the information such as means, the kind of heating element in the atomizing device that accuse temperature function, atomizing device realized the accuse temperature, can confirm atomizing device's mode, has made things convenient for user operation. In addition, the user can be prevented from calling an improper working mode under the condition that the information of the atomization device is wrongly and/or incompletely known, so that the user and/or the aerosol generating device are/is damaged, and the safety is improved.

(2) The power supply device only supplies electric energy to the matched atomization device, so that the operation safety is improved, the matched atomization device and the power supply device are matched with each other to work, the working efficiency is higher, and the service lives of the atomization device and the power supply device are longer.

(3) The user preference of the user on the atomization device can be defined as that the default setting is stored in the storage unit, and when the user uses the atomization device again or uses an atomization device with the same model as the atomization device, the default setting can be directly called from the storage unit, so that the user experience is improved.

(4) The transmission interface unit can be used for connecting other equipment in a wired/wireless mode, and guiding data information and/or software in the other equipment into the storage unit to update and/or enrich the storage unit, which is beneficial to upgrading of the power supply device.

(5) The transmission interface unit can be used for connecting other equipment in a wired/wireless mode, and data information and/or software in the storage unit are led into the other equipment to be used and/or analyzed by the other equipment, so that the atomization device and/or the power supply device are/is convenient for a user to replace, and a manufacturer can conveniently arrange and analyze the use preference of the user and check counterfeit atomization devices.

(6) The transmission interface unit can be used for being connected with other equipment in a wired/wireless mode, so that the control unit can acquire at least one group of standard identification information and at least one working mode of the atomization device corresponding to the group of standard identification information from other equipment in real time, and therefore the aerosol generation device can be simplified in structure and saves space without a storage unit.

Drawings

FIG. 1 is a schematic view of an aerosol generating device of the present invention.

Fig. 2 is a flow chart of a first identification control method of the aerosol generation device according to the present invention.

Fig. 3 is a flow chart of a second identification control method of the aerosol generation device according to the present invention.

Fig. 4 is a flowchart of a third identification control method of the aerosol generation device according to the present invention.

Fig. 5 is a flowchart of a fourth identification control method for an aerosol generation device according to the present invention.

Aerosol generating device 100 control unit: 133, placing:

an atomization device: 110 storage unit: 134

An identification unit: 120, a power supply module: 135

A power supply device: 130 display unit: 136

An information acquisition unit: 131 user input unit: 137

An information processing unit: 132 transmission interface unit: 138

Detailed Description

For a more clear understanding of the technical differences, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, belong to the scope of the present invention.

Referring to fig. 1, the present invention provides an aerosol generating device 100, in particular, the elements of the aerosol generating device 100 are not drawn to scale and elements not relevant to an understanding of the present invention have been omitted to simplify fig. 1.

Specifically, the aerosol generating device 100 includes an atomizing device 110 and a power supply device 130. The atomizing device 110 is used to atomize the aerosol-forming substrate. The power supply device 130 is electrically connected to the atomization device 110 and supplies power to the atomization device 110, and the power supply device 130 is further configured to collect, convert, analyze, process, and store the identification information expressed by the identification unit 120, and control normal operation of the aerosol generating device 100.

Specifically, the identification unit 120 is used for expressing identification information.

The identification information expressed by the identification unit 120 comprises one or more of a code of an operating mode of the atomizing device 110, a type and/or model of the atomizing device 110, a manufacturer and/or wholesaler, a batch number, a production date, a service life, a type and/or model of an aerosol-forming substrate that the atomizing device 110 can atomize, a type and/or model of a heat generating element in the atomizing device 110, and a type and/or model of a temperature sensing element in the atomizing device 110. Wherein, the code of the operation mode of the atomization device 110 is one or more combinations of patterns, letters, numbers and characters. One set of codes represents one mode of operation of the aerosolization apparatus 110. The identification unit 120 is provided on the nebulizing device 110, or on a package/description of the nebulizing device 110/aerosol generating device 100/aerosol-forming substrate, or on a card/sales website/electronic document corresponding to the nebulizing device 110/aerosol generating device 100/aerosol-forming substrate, etc.

The identification unit 120 is one or more of a pattern, a letter, a number, a character, a one-dimensional barcode, a two-dimensional code, a three-dimensional code, a magnetic stripe tag, and an electronic tag.

The identification unit 120 is formed by one or more of printing, surface processing, pasting, inlaying, editing, and the like. Wherein the printing is printing using ink and/or toner. The surface treatment is a treatment of the surface of the atomising device 110, or the surface of the packaging of the atomising device 110/aerosol generating device 100/aerosol-forming substrate/one or more pages in the specification, or the surface of a card corresponding to the atomising device 110/aerosol generating device 100/aerosol-forming substrate to form depressions, protrusions and/or hollows or the like.

Specifically, the power supply device 130 includes an information acquisition unit 131, an information processing unit 132, a control unit 133, a storage unit 134, and a power module 135. The information processing unit 132, the storage unit 134 and the power module 135 are electrically connected to the control unit 133, the information processing unit 132 is further electrically connected to the information collecting unit 131, and the control unit 133 is further electrically connected to the atomizing device 110.

The information collecting unit 131 is configured to collect information of the identification unit 120 under the control of the control unit 133, and feed back the collected identification information to the information processing unit 132. The information collection can be realized by scanning, wired/wireless transmission or editing input and the like.

The information processing unit 132 is configured to decode the identification information obtained by the information acquisition unit 131, convert the identification information into machine-readable data information for the control unit 133, and transmit the machine-readable data information to the control unit 133.

The control unit 133 is used to control and coordinate operations among the units in the power supply device 130, and to control normal operation of the entire aerosol generating device 100. The control unit 133 is further configured to determine whether there is standard identification information matching the machine-readable data information, and output a control signal according to the operating mode of the atomizing device corresponding to the set of standard identification information when there is matching standard identification information. The storage unit 134 is used for storing data information and/or software. The data information may be machine-readable data information converted by the information processing unit 132, or may be standard identification information of the atomizing device 110. The software is the operating mode of the atomizing device corresponding to the standard identification information. In this embodiment, the storage unit 134 stores at least one set of standard identification information and at least one operating mode of the atomizing device corresponding to the set of standard identification information in advance. Wherein the working mode comprises a temperature control mode and a pressure/power control mode. The temperature control modes can be divided into four types according to different implementation modes: the first is a temperature control mode which calculates the temperature of the heating element by detecting the related physical quantity of the temperature sensing element and correspondingly adjusts the output voltage/power according to the temperature of the heating element so as to realize temperature control; the second is a temperature control mode for realizing temperature control by connecting/disconnecting a circuit between the power supply device and the atomization device under the temperature action through a temperature control switch; the third is a temperature control mode which judges the temperature of the heating element by detecting the action of the temperature control switch and correspondingly adjusts the output voltage/power according to the temperature of the heating element so as to realize temperature control; and the fourth is a temperature control mode for calculating the temperature of the heating element by detecting the resistance value of the heating element with the characteristic of resistance temperature coefficient and correspondingly adjusting the output voltage/power according to the temperature of the heating element so as to realize temperature control. The four methods for realizing temperature control are described in chinese patent applications CN201510054274.3, CN201520072802.3, CN201510059426.9, CN201520072776.4, CN201510059433.9, CN201520073371.2 and CN201510054625.0, and are not described herein again. It is understood that the temperature control mode can be other temperature control modes different from the above four implementations.

Optionally, the above is only to take an example that after the information acquisition unit acquires the identification information, the identification information is converted into the machine-readable data information by the information processing unit, and then the comparison is performed by the control unit, during actual implementation, if the information acquired by the information acquisition unit can be directly identified by the control unit, the control unit may directly compare the identification information acquired by the information acquisition unit with the standard identification information without conversion, which is not limited, and the following embodiments are all exemplified by the above scheme.

The power module 135 is used to supply power to the atomizer 110.

Further, the power supply device 130 further includes a display unit 136 electrically connected to the control unit 133. The display unit 136 is used for displaying one or more of menus, operation prompts and/or warnings, operation modes, operation parameters and the like of the aerosol generating device 100, so that a user can know the use state of the aerosol generating device 100.

It will be appreciated that in other embodiments, the display unit 136 may be replaced by one or more indicator lights which may represent one or more of menus, operation prompts and/or warnings, operating modes and operating parameters, etc. of the aerosol generating device 100 by one or more of the patterns, numbers, letters or words they constitute, by different colors thereof, by the number of on/off thereof, etc. so as to enable the user to understand the usage status of the aerosol generating device 100.

It will be appreciated that in other embodiments, the display unit 136 may be replaced by a voice unit that can provide voice announcements to the user for feedback of one or more of menus, operating prompts and/or warnings, operating modes and operating parameters, etc. of the aerosol generating device 100 to enable the user to learn about the usage status of the aerosol generating device 100.

Further, the power supply device 130 further includes a user input unit 137 electrically connected to the control unit 133. The user input unit 137 is configured to generate an input signal in response to a user's operation on the display content of the display unit 136, and feed back the input signal to the control unit 133. In this embodiment, the user input unit 137 is used for a user to select a working mode, switch the working mode, set a working parameter, and confirm an execution command. The operating parameters include one or more of the output voltage/power of the power module 135, the operating temperature of the atomizing device 110, the operating time of the atomizing device 110, and the number of suction openings of the aerosol generating device 100. Further, when the standard identification information matched with the identification information of the atomizing device 110 corresponds to two or more operation modes, and/or when at least one of the operation parameters is user-settable in an operation mode corresponding to the standard identification information matched with the identification information of the atomizing device 110, the user may have a preference for the operation mode and/or the operation parameter, may select and/or set the operation mode and/or the operation parameter through the user input unit 137 according to the preference for use, and may define as a default setting to be stored in the storage unit 134, and when the user reuses the atomizing device 110 or one atomizing device of the same model as the atomizing device 110, may directly call the default setting from the storage unit 134. For example, for the atomizing device 110, in the selectable operating mode and the settable operating parameters, the user sets the temperature control mode and the operating temperature of 300 ℃ in the temperature control mode as default settings to be stored in the storage unit 134, and when the user uses the atomizing device 110 again or an atomizing device of the same type as the atomizing device 110, if the user selects the default settings, the user can directly make the atomizing device 110 or an atomizing device of the same type as the atomizing device 110 operate in the temperature control mode at the operating temperature of 300 ℃, thereby saving the operating time of the user and improving the user experience.

It will be appreciated that in other embodiments, the default settings may be provided by the vendor and pre-stored in the memory unit 134. The user may make personalized modifications to the default settings provided by the vendor.

Further, the power supply device 130 further includes a transmission interface unit 138 electrically connected to the storage unit 134. The transmission interface unit 138 is used to connect other devices in a wired/wireless manner, import data information and/or software in other devices into the storage unit 134 to update and/or enrich the storage unit 134, or import data information and/or software in the storage unit 134 into other devices for use and/or analysis by other devices. Wherein the other equipment comprises one or more of another power supply device, a computer, special data analysis and processing equipment and a service system provided by a manufacturer.

It is understood that, in other embodiments, the power supply device 130 may not be provided with the storage unit 134, the transmission interface unit 138 is electrically connected to the control unit 133, and the at least one set of standard identification information and the at least one operation mode corresponding to the set of standard identification information are stored in other devices. The transmission interface unit 138 is connected to other devices in a wired/wireless manner, and the control unit 133 can obtain at least one set of standard identification information and at least one operation mode corresponding to the set of standard identification information from the other devices in real time. Referring to fig. 2, when one or more sets of standard identification information are stored in the storage unit 134 or other devices, each set of standard identification information only corresponds to one working mode, and the working parameters in each working mode are fixed values, which cannot be set by a user, the identification control method for the aerosol generating device 100 includes the following steps: step S101, the information acquisition unit 131 performs information acquisition on the identification unit 120 under the control of the control unit 133, and feeds back the acquired identification information to the information processing unit 132, and then, step S102 is performed;

step S102, the information processing unit 132 decodes the identification information obtained by the information acquisition unit 131, converts the identification information into machine-readable data information of the control unit 133, transmits the machine-readable data information to the control unit 133, and then, step S103 is performed;

step S103, the control unit 133 determines whether there is standard identification information matching the machine-readable data information, and if the determination result is yes, the process proceeds to step S104, and if the determination result is no, the process proceeds to step S105;

step S104, the control unit 133 controls the aerosol generating device 100 to operate in the operating mode corresponding to the standard identification information matched with the machine-readable data information, and the operating parameter is a fixed value;

step S105, prompting the user that the atomization device 110 connected to the power supply device 130 is not matched with the power supply device 130.

Referring to fig. 3, when one or more sets of standard identification information are stored in the storage unit 134 or other devices, and each set of standard identification information only corresponds to one working mode, and at least one user can set working parameters in each working mode, the identification control method of the aerosol generating device 100 includes the following steps:

step S201, the information acquisition unit 131 performs information acquisition on the identification unit 120 under the control of the control unit 133, feeds back the acquired identification information to the information processing unit 132, and then, proceeds to step S202;

step S202, the information processing unit 132 decodes the identification information obtained by the information acquisition unit 131, converts the identification information into machine-readable data information of the control unit 133, transmits the machine-readable data information to the control unit 133, and then, step S203 is performed;

in step S203, the control unit 133 determines whether there is standard identification information matching the machine-readable data information, and if the determination result is yes, the process proceeds to step S204, and if the determination result is no, the process proceeds to step S207;

in step S204, the control unit 133 determines whether there is a default setting for the operating parameter, and if the determination result is yes, the process proceeds to step S205, and if the determination result is no, the process proceeds to step S208;

step S205, the user selects whether to execute the default setting of the working parameters, if the selection is that the electronic cigarette receives the default setting of the working parameters, the step S206 is entered, and if the selection is not that the default setting of the working parameters is not received, the step S208 is entered;

step S206, the control unit 133 controls the aerosol generating device 100 to operate in the operating mode corresponding to the standard identification information matched with the machine-readable data information, and the operating parameter is a default value;

step S207, prompting the user that the atomization device 110 connected to the power supply device 130 is not matched with the power supply device 130;

step S208, the user sets the working parameters, namely receives the signals of the working parameters set by the user, and then, the step S209 is entered;

in step S209, the control unit 133 controls the aerosol generating device 100 to operate in the operating mode corresponding to the standard identification information matched with the machine-readable data information, where the operating parameter is a user setting value.

Referring to fig. 4, when one or more sets of standard identification information are stored in the storage unit 134 or other devices, and each set of standard identification information corresponds to two or more working modes, the device can work in the working mode set by the user. The identification control method of the aerosol generating device 100 includes the following steps that when the working parameters in each working mode are fixed values and cannot be set by a user:

step S301, the information acquisition unit 131 performs information acquisition on the identification unit 120 under the control of the control unit 133, feeds back the acquired identification information to the information processing unit 132, and then, proceeds to step S302;

step S302, the information processing unit 132 decodes the identification information obtained by the information acquisition unit 131, converts the identification information into machine-readable data information of the control unit 133, transmits the machine-readable data information to the control unit 133, and then, step S303 is performed;

in step S303, the control unit 133 determines whether there is standard identification information matching the machine-readable data information, and if the determination result is yes, the process proceeds to step S304, and if the determination result is no, the process proceeds to step S307;

in step S304, the control unit 133 determines whether there is a default setting for the operation mode, and if the determination result is yes, it proceeds to step S305, and if the determination result is no, it proceeds to step S308;

step S305, the user selects whether to execute the default setting of the working mode, if the selection is that the signal for executing the default setting of the working mode is received, the step S306 is entered, and if the selection is not that the signal for executing the default setting of the working mode is not received, the step S308 is entered;

step S306, the control unit 133 controls the aerosol generating device 100 to operate in a default operating mode, where the operating parameter is a fixed value;

step S307, prompting the user that the atomization device 110 connected to the power supply device 130 is not matched with the power supply device 130;

step S308, the electronic cigarette corresponding to the working mode selected by the user correspondingly receives the signal of the working mode selected by the user, and then the step S309 is executed;

in step S309, the control unit 133 controls the aerosol generating device 100 to operate in the operating mode selected by the user, where the operating parameter is a fixed value.

Referring to fig. 5, when one or more sets of standard identification information are stored in the storage unit 134 or other devices, and each set of standard identification information corresponds to two or more working modes, the device works in the working mode set by the user. When at least one user can set the working parameters in each working mode, the identification control method of the aerosol generating device 100 comprises the following steps:

step S401, the information acquisition unit 131 performs information acquisition on the identification unit 120 under the control of the control unit 133, and feeds back the acquired identification information to the information processing unit 132, and then, step S402 is performed;

step S402, the information processing unit 132 decodes the identification information obtained by the information acquisition unit 131, converts the identification information into machine-readable data information of the control unit 133, transmits the machine-readable data information to the control unit 133, and then, proceeds to step S403;

in step S403, the control unit 133 determines whether there is standard identification information matching the machine-readable data information, and if the determination result is yes, the process proceeds to step S404, and if the determination result is no, the process proceeds to step S409;

step S404, the control unit 133 determines whether there is a default setting for the operation mode, and if the determination result is yes, it proceeds to step S405, and if the determination result is no, it proceeds to step S410;

step S405, the user selects whether to execute the default setting of the working mode, if the selection is that the signal for executing the default setting of the working mode is received, the step S406 is entered, and if the selection is not that the signal for executing the default setting of the working mode is not received, the step S410 is entered;

in step S406, the control unit 133 determines whether there is a default setting for the operating parameter in the default operating mode, and if the determination result is yes, the process proceeds to step S407, and if the determination result is no, the process proceeds to step S411;

step S407, the user selects whether to execute the default setting of the working parameters in the default working mode, if the selection is that the signal for executing the default setting of the working parameters in the default working mode is received, the step S408 is entered, and if the selection is not that the signal for executing the default setting of the working parameters in the default working mode is not received, the step S411 is entered;

step S408, the control unit 133 controls the aerosol generating device 100 to operate in a default operating mode, where the operating parameter is a default value;

step S409, prompting the user that the atomization device 110 connected to the power supply device 130 is not matched with the power supply device 130;

step S410, the electronic cigarette corresponding to the working mode selected by the user receives the signal of the working mode set by the user, and then the step S413 is executed;

step S411, a user sets working parameters in a default working mode, namely receives a signal for setting the working parameters in the default working mode, and then step S412 is executed;

step S412, the control unit 133 controls the aerosol generating device 100 to operate in a default operating mode, where the operating parameter is a user setting value;

in step S413, the control unit 133 determines whether there is a default setting for the operating parameter in the operating mode selected by the user, and if the determination result is yes, the process proceeds to step S414, and if the determination result is no, the process proceeds to step S416;

step S414, the user selects whether to execute the default setting of the working parameters in the working mode selected by the user, if the selection is that the signal for executing the default setting of the working parameters in the working mode selected by the user is received, step S415 is entered, if the selection is not, that is, the electronic cigarette does not receive the signal for executing the default setting of the working parameters in the working mode selected by the user, step S416 is entered;

step S415, the control unit 133 controls the aerosol generating device 100 to operate in the operating mode selected by the user, where the operating parameter is a default value;

step S416, the user sets working parameters in the working mode selected by the user, and then, the step S417 is executed;

in step S417, the control unit 133 controls the aerosol generating device 100 to operate in the operating mode selected by the user, where the operating parameter is a user setting value.

It can be understood that, in other embodiments, when one or more sets of standard identification information are stored in the storage unit 134 or other devices, and each set of standard identification information corresponds to one or more operating modes, and the operating parameters in a part of the operating modes are fixed values and cannot be set by a user, and at least one user in the operating parameters in another part of the operating modes can be set by the user, the identification control method of the aerosol generation apparatus 100 is a reasonable combination and/or modification of the identification control methods, which is not described herein again.

The aerosol hair-generating device 100 has the following advantages:

(1) the power supply device 130 can obtain the identification information by identifying the identification unit 120, and can quickly invoke the operating mode of the atomizing device 110 according to the identification information. This makes it unnecessary for the user to know the specific information of the atomizer 110, for example, whether the atomizer 110 has the temperature control function, the means for controlling the temperature of the atomizer 110, the type of the heating element in the atomizer 110, and the like, and then determine the operating mode of the atomizer 110, which is convenient for the user to operate. In addition, it is possible to prevent the user from calling an inappropriate operation mode to damage the user and/or the aerosol generation device 100 when the information of the atomization device 110 is erroneously and/or incompletely known, thereby improving safety.

(2) The power supply device 130 only supplies electric energy to the matched atomization device 110, so that the operation safety is improved, and the matched atomization device 110 and the power supply device 130 are matched with each other, so that the working efficiency is higher, and the service lives of the atomization device and the power supply device are longer.

(3) The user's preference for use of the nebulizing device 110 may be defined as a default setting stored in the storage unit 134, which may be invoked directly from the storage unit 134 when the user uses the nebulizing device 110 again or one of the same models as the nebulizing device 110, improving the user experience.

(4) The transmission interface unit 138 may be used to connect other devices in a wired/wireless manner, and to import data information and/or software in other devices into the storage unit 134 to update and/or enrich the storage unit 134, which is advantageous for upgrading the power supply apparatus 130.

(5) The transmission interface unit 138 may be used to connect other devices in a wired/wireless manner, and to guide the data information and/or software in the storage unit 134 to other devices for use and/or analysis by other devices, which is advantageous for users to replace the atomizing device 110 and/or the power supply 130, and is also advantageous for manufacturers to organize and analyze the user's usage preferences and to check counterfeit atomizing devices 110.

(6) The transmission interface unit 138 may be used to connect other devices in a wired/wireless manner, so that the control unit 133 may obtain at least one set of standard identification information and at least one operation mode of the atomization device 110 corresponding to the set of standard identification information from other devices in real time, and thus, the aerosol generating device 100 may not be provided with the storage unit 134, which simplifies the structure and saves space.

Claims (9)

1. An identification control method of an aerosol generating device comprises an atomizing device and a power supply device, wherein the power supply device comprises an information acquisition unit and a control unit;

the identification control method comprises the following steps:

the information acquisition unit acquires information from the identification unit under the control of the control unit;

the control unit judges whether standard identification information matched with the identification information acquired by the information acquisition unit exists or not; and

and when the standard identification information matched with the acquired identification information exists, the control unit outputs a control signal according to the working mode of the atomization device corresponding to the group of standard identification information, wherein the working mode comprises a temperature control mode and a pressure/power control mode.

2. The recognition control method according to claim 1, characterized in that: the step of the control unit outputting the control signal according to the working mode of the atomizing device corresponding to the set of standard identification information further includes:

when the working mode of the corresponding atomization device is only one, the control unit controls the aerosol generation device to work in the working mode of the corresponding atomization device;

when the working modes of the corresponding atomization devices are two or more, the control unit controls the aerosol generation device to work in the working mode of the atomization device set by a user.

3. The recognition control method according to claim 2, characterized in that: the step of the control unit controlling the aerosol generating device to work in the working mode of the atomizing device set by the user further comprises:

judging whether default setting for the working mode exists or not;

when the default setting of the working mode exists, determining whether to execute the default setting of the working mode according to user selection;

and when the default setting of the working mode does not exist, receiving a signal of the working mode selected by the user, and controlling the aerosol generating device to work in the working mode selected by the user by the control unit.

4. The recognition control method according to claim 3, characterized in that: the step of determining whether to perform a default setting for the operation mode according to the user selection further includes:

when a signal for executing default setting of the working mode is received, the control unit controls the aerosol generating device to work in the default working mode;

when a signal of a user-selected working mode is received, the control unit controls the aerosol generating device to work in the user-selected working mode.

5. The recognition control method according to claim 2, 3 or 4, characterized in that: the step of operating the aerosol generating device in the corresponding operating mode further comprises:

and when the working parameters are fixed values in the corresponding working modes, the control unit controls the aerosol generating device to work in the corresponding working modes, and the working parameters are fixed values.

6. The recognition control method according to claim 2, 3 or 4, characterized in that: the step of operating the aerosol generating device in the corresponding operating mode further comprises:

when at least one user in the working parameters can set in the corresponding working mode, the control unit judges whether default setting for the working parameters exists or not;

when there is a default setting for the operating parameter, it is determined whether to perform the default setting for the operating parameter according to a user selection.

7. The recognition control method according to claim 6, characterized in that:

and when the default setting of the working parameters does not exist, receiving a signal for setting the working parameters by a user, and controlling the aerosol generating device to work in a corresponding working mode by the control unit, wherein the working parameters are set values by the user.

8. The recognition control method according to claim 6, characterized in that: the step of determining whether to perform a default setting of the operating parameter according to the user selection further comprises:

when a signal for executing default setting of working parameters is received, the control unit controls the aerosol generating device to work in a corresponding working mode, and the working parameters are default values;

when a signal of setting working parameters by a user is received, the control unit controls the aerosol generating device to work in a corresponding working mode, and the working parameters are set values by the user.

9. An aerosol generating device for performing the identification control method of any one of claims 1-8.

Images