CN111789295B - Electronic cigarette equipment working mode switching method, electronic cigarette and storage medium - Google Patents

Abstract

The embodiment of the invention discloses a working mode switching method of electronic cigarette equipment, which comprises the following steps: receiving a first mode switching instruction and a first work starting instruction, wherein the first mode switching instruction is generated and sent by a terminal connected with electronic cigarette equipment according to detected information, and the first work instruction is input by a user; switching the working mode of the electronic cigarette equipment to a stop mode or a start mode according to the first mode switching instruction, and acquiring the current working mode of the electronic cigarette equipment and a preset second working start instruction; when the current working mode is a starting mode, judging whether the first working starting instruction is matched with the second working starting instruction; when the first work starting instruction is matched with the second work starting instruction, starting the atomizing device of the electronic cigarette equipment according to the first work starting instruction. The embodiment of the invention also discloses electronic cigarette equipment and a storage medium. The invention can meet the personalized requirements of users.

Description

Electronic cigarette equipment working mode switching method, electronic cigarette and storage medium

Technical Field

The invention relates to the technical field of electronic cigarettes, in particular to a working mode switching method of electronic cigarette equipment, an electronic cigarette and a storage medium.

Background

An electronic cigarette is an electronic product imitating a cigarette, and plant extract added with edible flavors is changed into steam for users to inhale through atomization and other means. With the continuous development of electronic technology, the functions of the electronic cigarette are gradually perfected, and a user can control the electronic cigarette to obtain different use experiences.

The working mode provided by each type of electronic cigarette in the current market is single, and the cigarette lighting mode is manual cigarette lighting or automatic cigarette lighting. The shell of the electronic cigarette needing manual cigarette lighting is usually provided with an entity switch key, and a user can enable an atomization device in the electronic cigarette to perform atomization work through controlling the switch key, so that manual cigarette lighting is realized. The shell of the electronic cigarette capable of automatically igniting the cigarette is not provided with a switch key generally, and a user can directly suck at the cigarette holder to trigger an atomization device in the electronic cigarette to atomize, so that the automatic cigarette igniting is realized.

As described above, the working mode provided by each type of electronic cigarette in the market is single, and the requirements of diversification and individuation of users cannot be met.

Disclosure of Invention

Based on this, it is necessary to address the above-described problems, and an operation mode switching method of an electronic cigarette device, an electronic cigarette, and a storage medium are proposed.

A working mode switching method of electronic cigarette equipment comprises the following steps: receiving a first mode switching instruction and a first work starting instruction, wherein the first mode switching instruction is generated and sent by a terminal connected with the electronic cigarette equipment according to the detected information, and the first work instruction is input by a user; switching the working mode of the electronic cigarette equipment to a stop mode or a start mode according to the first mode switching instruction, and acquiring the current working mode of the electronic cigarette equipment and a preset second working start instruction;

when the current working mode is the starting mode, judging whether the first working starting instruction is matched with the second working starting instruction; and when the first work starting instruction is matched with the second work starting instruction, starting the atomizing device of the electronic cigarette equipment according to the first work starting instruction.

The step of receiving a first mode switching instruction and a first work starting instruction comprises the following steps: and receiving the first work starting instruction input by a user, and acquiring the first mode switching instruction according to the first work starting instruction.

Wherein the starting mode comprises a sleep sub-mode and a standby sub-mode; before the step of receiving the first work starting instruction input by the user, the method comprises the following steps: and when the current working mode is the starting mode, receiving a second mode switching instruction, and switching the working mode of the electronic cigarette equipment to the sleep sub-mode or the standby sub-mode according to the second mode switching instruction.

Before the step of receiving the first work starting instruction, the method further comprises the following steps: receiving a starting selection instruction, and selecting the preset second work starting instruction according to the starting selection instruction, wherein the first work starting instruction comprises a key starting instruction or an air suction starting instruction, and the second work starting instruction comprises at least one of the key starting instruction and the air suction starting instruction; the step of judging whether the first work starting instruction is matched with the second work starting instruction comprises the following steps: and judging whether the second work starting instruction comprises the first work starting instruction or not.

Wherein, after the step of receiving the start selection instruction, the method comprises the following steps: judging whether the current working mode is a standby sub-mode or not; when the current working mode is the standby sub-mode, selecting the second working starting instruction according to the starting selection instruction; prompting a user to execute an activation operation when the current working mode is the sleep sub-mode; and after the activation operation is detected to be executed, switching the working mode into a standby sub-mode.

When the first work starting instruction is a key instruction, the step of receiving the first work starting instruction includes: when the current working mode is a standby sub-mode, judging whether the first working starting instruction is matched with the second working starting instruction; when the current working mode is a sleep sub-mode, prompting to execute an activating operation firstly; and after the activation operation is detected to be executed, switching the working mode into a standby sub-mode.

After the step of obtaining the current working mode of the electronic cigarette device and the preset second working starting instruction, the method further includes: and when the working mode is the stopping mode, prompting that the current working mode is the stopping mode.

The working mode switching method of the electronic cigarette equipment further comprises the following steps: and if the electronic cigarette equipment is in the standby sub-mode for more than a preset time period and the first work starting instruction is not received, switching the working mode of the electronic cigarette equipment into the sleep sub-mode.

An electronic cigarette device, comprising: the system comprises a man-machine interaction circuit, a communication circuit, a processor and a memory, wherein the processor is coupled with the memory, the man-machine interaction circuit and the communication circuit, a computer program is stored in the memory, and the processor executes the computer program to realize the method.

A storage medium storing a computer program executable by a processor to implement a method as described above.

The embodiment of the invention has the following beneficial effects:

according to the terminal, the electronic cigarette equipment is controlled to switch between the stop mode and the start mode according to the detected environment, so that the use safety and convenience of a user can be improved, when the electronic cigarette equipment is currently in the working mode, a first work start instruction input by the user is compared with a preset second work start instruction, and when the first work start instruction and the preset second work start instruction are matched with the first work start instruction, the atomizing device of the electronic cigarette equipment is started, and therefore the user can set the preset second work start instruction according to the self requirement, and personalized requirements of the user are met.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

fig. 1 is a schematic flow chart of a first embodiment of a method for switching a working mode of an electronic cigarette device provided by the invention;

fig. 2 is a flow chart of a second embodiment of a method for switching a working mode of an electronic cigarette device according to the present invention;

fig. 3 is a flow chart of a third embodiment of a method for switching a working mode of an electronic cigarette device according to the present invention;

fig. 4 is a flow chart of a fourth embodiment of a method for switching a working mode of an electronic cigarette device according to the present invention;

fig. 5 is a schematic structural diagram of an embodiment of an electronic cigarette device provided by the present invention;

fig. 6 is a schematic structural diagram of an embodiment of a storage medium according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The working mode provided by each type of electronic cigarette in the market is single, and the requirements of diversification and individuation of users cannot be met. In order to solve the problems, the invention provides a working mode switching method of electronic cigarette equipment, which can flexibly switch different working modes and meet the personalized requirements of users.

Referring to fig. 1, fig. 1 is a flowchart illustrating a first embodiment of a method for switching an operation mode of an electronic cigarette device according to the present invention. The working mode switching method of the electronic cigarette equipment provided by the invention comprises the following steps:

s101: and receiving a first mode switching instruction and a first work starting instruction, wherein the first mode switching instruction is generated and sent by a terminal connected with the electronic cigarette equipment according to the detected information, and the first work instruction is input by a user.

In a specific implementation scenario, the electronic cigarette device establishes a connection with the terminal, for example, the connection may be established through short-range wireless communication means such as bluetooth, infrared, zigBee, and the like. The terminal detects the surrounding environment and acquires the environment information. Further, the electronic cigarette device may acquire the environmental information and send the environmental information to the terminal, or the terminal may acquire the environmental information. And the terminal analyzes according to the acquired environmental information and sends a first mode switching instruction to the electronic cigarette equipment. The first mode switching instruction is used for indicating the working mode of the electronic cigarette equipment to be switched to a stop mode or a start mode. When the electronic cigarette is in a stop mode, a user presses a key or pumps the microphone, the electronic cigarette equipment cannot be started, and when the electronic cigarette equipment is in a start mode, the user presses the key or pumps the microphone, and the electronic cigarette equipment can be started. The terminal can also be built in or external to the electronic cigarette device. Further, after the electronic cigarette device obtains the environmental information, the environmental information can also be directly sent to the processor on the electronic cigarette device.

For example, if the terminal detects that the electronic cigarette device is in a knapsack or a pocket according to the environmental information, in order to avoid starting of the electronic cigarette device caused by false touch, a first mode switching instruction is sent, and the electronic cigarette device is switched to a stop mode according to the first mode switching instruction. At this time, if the user touches the key of the electronic cigarette device by mistake, the electronic cigarette device is not started, and the use safety of the electronic cigarette device is ensured. For another example, the terminal detects that the electronic cigarette is held by the user according to the environmental information, and in order to facilitate the use of the user, the electronic cigarette device is switched to the starting mode according to the first mode switching instruction, the user presses a key or pumps a microphone, and the electronic cigarette device can be started, so that the use of the user is facilitated.

In other implementation scenarios, the environmental information further includes a time interval between the current time and the last time of use, and if the time is greater than a preset threshold, the terminal sends a first mode switching instruction, and the electronic cigarette device switches to the stop mode according to the first mode switching instruction. If the duration exceeds the preset threshold, the electronic cigarette equipment is still not used, and the electronic cigarette equipment can be switched to a stop mode, so that the energy consumption of the electronic cigarette equipment is reduced, and the situation that the electric quantity is insufficient when a user uses the electronic cigarette equipment next time is prevented from causing the fact that the electronic cigarette equipment cannot be used.

In other implementation scenarios, the user may set the switching time according to own work and life requirements, the terminal determines whether the current time is the preset switching time, if yes, the terminal sends a first mode switching instruction, and the electronic cigarette device switches to the stop mode or the start mode according to the first mode switching instruction. For example, the user may set the working hours on duty as a stop mode, the rest time as a start mode, and after the working hours of the user are reached, the terminal sends a first mode switching instruction to the electronic cigarette device, and the electronic cigarette device is switched to the stop mode according to the first mode switching instruction, so that the user cannot use the electronic cigarette device during the working hours, and after the rest hours of the user are reached, the terminal sends a first mode switching instruction to the electronic cigarette device, and the electronic cigarette device is switched to the start mode according to the first mode switching instruction, so that the user can use the electronic cigarette device during the rest hours.

In other implementation scenarios, the terminal may further obtain current location information of the user, for example, when the user is in a place where the electronic cigarette device cannot be used, such as a warehouse or a gas station, the terminal sends a first mode switching instruction to the electronic cigarette device, and the electronic cigarette device is switched to a stop mode according to the first mode switching instruction, so that the user cannot use the electronic cigarette device in these areas.

In other implementation scenarios, the terminal may determine a current physical state of the user, for example, obtain a heart rate, a blood pressure, a blood oxygen content, a pulse, and the like of the user, determine whether the current physical state of the user can smoke, if the current physical state of the user does not allow smoking, send a first mode switching instruction, switch to a stop mode according to the first mode switching instruction, and the user cannot smoke under a condition that the physical state is bad. If the current physical state of the user can smoke, a first mode switching instruction is sent, the electronic cigarette equipment is switched to a starting mode according to the first mode switching instruction, and the user can smoke.

In other implementation scenarios, the terminal may further obtain a living habit of the user, and generate the first mode switching instruction according to the living habit of the user. For example, when the user falls asleep, the first mode switching instruction is sent, and the electronic cigarette equipment is switched to the stop mode according to the first mode switching instruction, so that the energy consumption of the electronic cigarette can be effectively reduced. The method comprises the steps that in a daily electronic cigarette using time period of a user, a first mode switching instruction is sent, electronic cigarette equipment is switched to a starting mode according to the first mode switching instruction, and the user can smoke.

In other implementation scenarios, the terminal may further obtain information of the electronic cigarette device, such as air pressure, temperature, resistance of components, residual amount of tobacco tar, etc., determine whether the current state of the electronic cigarette device can work, and if the obtained information indicates that the electronic cigarette device cannot work currently, for example, the residual amount of tobacco tar is insufficient, the air pressure is too high, the resistance of the components is abnormal, etc., for use safety of a user, send a first mode switching instruction, the electronic cigarette device is switched to a stop mode according to the first mode switching instruction, and the user cannot use the electronic cigarette device.

The first working instruction input by the user is received, and the first working instruction can be a key starting instruction input by the user pressing a key, or an air suction starting instruction input by the user sucking a microphone.

S102: and switching the working mode of the electronic cigarette equipment to a stop mode or a start mode according to the first mode switching instruction, and acquiring the current working mode of the electronic cigarette equipment and a preset second working start instruction.

In a specific implementation scenario, the working mode of the electronic cigarette device is switched to a stop mode or a start mode according to the first mode switching instruction, for example, the initial working mode is the start mode, the working mode is switched to the stop mode according to the first mode switching instruction, or the initial working mode is the stop mode, and the working mode is switched to the start mode according to the first mode switching instruction. Further, the initial operation mode is a start mode, or the start mode may be maintained according to the first mode switching instruction, or the initial operation mode is a stop mode, and the stop mode may be maintained according to the first mode switching instruction.

The user may define a second work initiation instruction. For example, the user may define the second work initiation command as an inhalation initiation command, or the second work initiation command includes an inhalation initiation command and a key actuation command.

The user can input the instruction to the electronic cigarette device to realize the operation of defining the second work starting instruction, and can also input the instruction to realize the operation of defining the second work starting instruction through the connected terminal.

S103: when the current working mode is the starting mode, judging whether the first working starting instruction is matched with the second working starting instruction. If yes, go to step S104.

In the implementation scenario, when the current working mode of the electronic cigarette device is a starting mode, whether a first working starting instruction input by a user is matched with a preset second working starting instruction is judged. For example, if the first work starting instruction input by the user is a key starting instruction and the preset second work starting instruction is an air suction starting instruction, the first work starting instruction and the second work starting instruction are not matched. For another example, the first work starting instruction input by the user is a key starting instruction, the preset second work starting instruction includes a key starting instruction and an air suction starting instruction, and then the first work starting instruction is matched with the second work starting instruction. For another example, the first work starting instruction input by the user is an air suction starting instruction, and the preset second work starting instruction is an air suction starting instruction, so that the first work starting instruction and the second work starting instruction are matched. For example, the first work starting instruction input by the user is an air suction starting instruction, the preset second work starting instruction comprises a key starting instruction and an air suction starting instruction, and then the first work starting instruction is matched with the second work starting instruction.

S104: and starting an atomization device of the electronic cigarette equipment according to the first work starting instruction.

In the implementation scenario, when the first work starting instruction is matched with the second work starting instruction, the atomization device of the electronic cigarette equipment is started according to the first work, so that a user can use the electronic cigarette equipment. Therefore, the user can set up the second work start instruction according to self user demand, if the user is in order to prevent oneself to electronic cigarette equipment mistake touch, lead to its atomizer to start, can set up the second work start instruction as the start instruction of breathing in to improve the security of using, if the user is in order to use under any circumstances, can set up the second work start instruction and include start instruction of breathing in and button start instruction, thereby promote the convenience of using.

S105: prompting the matched first work start instruction.

In this implementation scenario, the first work starting instruction and the second work starting instruction input by the user are not matched, for example, the user presses a key to input a key starting instruction, and the preset second work starting instruction is an air suction starting instruction, so that the first work starting instruction and the second work starting instruction are not matched. At this time, the user may be prompted by voice, light, sending a prompt message to the terminal, displaying a message, or other methods to match the first work start instruction of the second work start instruction, for example, the first work start instruction input by the user is a key start instruction, and the second work start instruction preset by the user is an air suction start instruction, where the user may be prompted to suck the microphone to input the air suction start instruction. The user can input a matched first work starting instruction according to the prompt, so that the electronic cigarette equipment is normally used.

S106: when the working mode is the stop mode, the current working mode is prompted to be the stop mode.

In this implementation scenario, when the working mode is the stop mode, the user is prompted that the current working mode is the stop mode, and the user cannot use the electronic cigarette device, for example, the user can be prompted through methods such as display screen display, vibration, light, sound and the like of the electronic cigarette device, and further, the user can be notified of reasons that the user cannot use the electronic cigarette device, for example, the user cannot use the electronic cigarette device when the user is currently working, or is currently located in a non-smoking area, and cannot use the electronic cigarette device. Still further, the user may be notified how to use the electronic cigarette device, for example, two hours later with a break time, at which time the electronic cigarette device may be used, or the user may be notified of the most recent location of the smokable location and given navigation to notify the user that the electronic cigarette device may be used after reaching the smokable location.

As can be seen from the above description, in this embodiment, the terminal controls the working mode of the electronic cigarette device to switch between the stop mode and the start mode according to the detected environment, so that the safety and convenience of use of a user can be improved, when the electronic cigarette device is currently in the working mode, a first working start instruction input by the user is compared with a preset second working start instruction, and when the first working start instruction and the preset second working start instruction are matched, the atomizing device of the electronic cigarette device is started, so that the user can set the preset second working start instruction according to the needs of the user, and the personalized needs of the user are met.

Referring to fig. 2, fig. 2 is a flowchart illustrating a second embodiment of a method for switching an operation mode of an electronic cigarette device according to the present invention. The working mode switching method of the electronic cigarette equipment provided by the invention comprises the following steps:

s201: and receiving a first mode switching instruction, and switching the working mode of the electronic cigarette equipment to a stop mode or a start mode according to the first mode switching instruction, wherein the first mode switching instruction is generated and sent by a terminal connected with the electronic cigarette equipment according to the detected environment information.

In a specific implementation scenario, step S201 is substantially identical to step S101 of the first embodiment of the method for switching a working mode of an electronic cigarette device provided by the present invention, which is not described herein.

S202: and when the current working mode is a starting mode, receiving a second mode switching instruction, and switching the working mode of the electronic cigarette equipment to a sleep sub-mode or a standby sub-mode according to the second mode switching instruction.

In this implementation scenario, the startup mode includes a sleep sub-mode and a standby sub-mode. And acquiring a current working mode of the electronic cigarette equipment, and receiving a second mode switching instruction input by a user when the current working mode is a starting mode, wherein the second mode switching instruction is used for indicating the working mode of the electronic cigarette equipment to be switched to a sleep sub-mode or a standby sub-mode. And the electronic cigarette equipment is switched to a sleep sub-mode and a standby sub-mode according to the second mode switching instruction.

The user can send the second mode switching instruction to the electronic cigarette equipment through the terminal, and can also input the second mode switching instruction by pressing a key of the electronic cigarette equipment, for example, the key is pressed three times continuously or the key is pressed more than 5S for a long time, and the like.

When the electronic cigarette equipment is in the sleep sub-mode, any instruction input by pressing the key is refused, so that the user can be effectively prevented from touching by mistake, and when the electronic cigarette equipment is in the sleep sub-mode, part of devices of the electronic cigarette equipment are in a state of suspending operation, so that the power consumption of the electronic cigarette equipment can be effectively reduced, and resources are saved. When the electronic cigarette equipment is in the standby sub-mode, any instruction input by a user is fed back and processed immediately, and all devices of the electronic cigarette equipment are in a working state.

Whether the electronic cigarette equipment is in the sleep sub-mode or the standby sub-mode, when a user draws a microphone to input an inhalation starting instruction, the electronic cigarette equipment responds to the inhalation starting instruction and starts an atomization device of the electronic cigarette equipment, so that the user can smoke by using the electronic cigarette equipment.

In other implementation scenarios, the second mode switching instruction may also be generated according to a time interval between the current time and the last time of use, and if the time interval is greater than a preset threshold, the second mode switching instruction is generated, and the electronic cigarette device switches to the sleep sub-mode according to the second mode switching instruction. And if the electronic cigarette equipment is not used for more than the preset time period and is not in the stop mode, the electronic cigarette equipment is switched to the sleep sub-mode.

In other implementation scenarios, if the electronic cigarette device is in the standby sub-mode for more than a preset period of time and the first work starting instruction is not received, the working mode of the electronic cigarette device is switched to the sleep sub-mode, so that the power consumption of the electronic cigarette device is reduced.

S203: and receiving a starting selection instruction, and selecting a preset second work starting instruction according to the starting selection instruction.

In this implementation scenario, the first work start instruction includes a key start instruction or an air suction start instruction, and the second work start instruction includes at least one of a key start instruction and an air suction start instruction. For example, the second operation start instruction includes a key start instruction and an inhalation start instruction.

If the electronic cigarette equipment is currently in the standby sub-mode, setting a second work starting instruction according to the received starting selection instruction, if the electronic cigarette equipment is currently in the sleep sub-mode, prompting a user to perform activating operation, switching the work mode into the standby sub-mode after detecting that the activating operation is executed, inputting the starting selection instruction again by the user, and setting the second work starting instruction according to the starting selection instruction input by the user. The activation operation may be set, for example, by pressing a key of the electronic cigarette device for a short time, or may be performed by prompting the user by the electronic cigarette device, for example, by prompting the user to press a key of the electronic cigarette device for a short time.

According to the above description, in this embodiment, the starting mode of the electronic cigarette device includes a standby sub-mode and a sleep sub-mode, and the working mode of the electronic cigarette device is switched to the standby sub-mode or the sleep sub-mode according to the second mode switching instruction, so that the use requirements of users at different times can be met, and the use safety and convenience are effectively improved.

Referring to fig. 3, fig. 3 is a flowchart illustrating a third embodiment of a method for switching an operation mode of an electronic cigarette device according to the present invention. The working mode switching method of the electronic cigarette equipment provided by the invention comprises the following steps:

s301: and receiving a first mode switching instruction, and switching the working mode of the electronic cigarette equipment to a stop mode or a start mode according to the first mode switching instruction, wherein the first mode switching instruction is generated and sent by a terminal connected with the electronic cigarette equipment according to the detected environment information.

S302: and when the current working mode is a starting mode, receiving a second mode switching instruction, and switching the working mode of the electronic cigarette equipment to a sleep sub-mode or a standby sub-mode according to the second mode switching instruction.

In a specific implementation scenario, steps S301 to S302 are substantially identical to steps S201 to S202 of the second embodiment of the method for switching a working mode of an electronic cigarette device provided by the present invention, which is not described herein.

S303: and receiving a first work starting instruction input by a user, and judging whether the current working mode is a standby sub-mode when the first work starting instruction is a key instruction. If not, step S304 is executed, and if yes, step S306 is executed.

In this implementation scenario, a first work initiation instruction input by a user is received. If the first work starting instruction is an inhalation starting instruction input by a user through a microphone of the electronic cigarette equipment, the atomizing device of the electronic cigarette equipment is started in response to the first work starting instruction when the current working mode is a sleep sub-mode or a standby sub-mode, so that the user can use the electronic cigarette equipment. Because the user may touch the key by mistake when he or she inputs the key start instruction, smoking is not required. The user can confirm that the user has the smoking requirement by sucking the microphone, so that the atomizing device of the electronic cigarette equipment is started in response to the first work starting instruction, and the user can use the electronic cigarette equipment.

When the first starting working instruction is a key instruction, judging whether the current working mode is a standby sub-mode or not. Further, when the first starting working instruction is obtained, the user is notified of the current working mode of the electronic cigarette device, for example, through a display screen of the electronic cigarette device or through methods such as sound, light, vibration and the like, so that after knowing the current working mode, the user can input a corresponding first working starting instruction, for example, the current sleep sub-mode, the user inputs a key starting instruction, the user is prompted to be in the sleep sub-mode at present, and the user can change to input an inhalation starting instruction, thereby using the electronic cigarette device.

S304: prompting a user to execute an activation operation, and switching the working mode to the standby sub-mode after the activation operation is detected to be executed.

In this implementation scenario, if the current working mode is the sleep sub-mode, the user is prompted to execute an activation operation. The activation operation may be set, for example, by pressing a key of the electronic cigarette device for a short time, or may be performed by prompting the user by the electronic cigarette device, for example, by prompting the user to press a key of the electronic cigarette device for a short time. After detecting that the activation operation is performed, the operation mode is switched to the standby sub-mode.

After the working mode is switched to the standby sub-mode, the user can input a first working starting instruction again, and the electronic cigarette equipment in the standby sub-mode can respond to the first working starting instruction input by the user.

S305: and acquiring a first work starting instruction input by the user again.

In this implementation scenario, the user inputs the first work start instruction again, and because the electronic cigarette device is in the standby sub-mode, then responds to the first work start instruction, determines whether the first work start instruction and the second work start instruction match, and when the first work start instruction matches with the second work start instruction, starts the atomizing device of the electronic cigarette device according to the first work start instruction.

It should be noted that the first work start instruction input by the user may be the same or different.

S306: and judging whether the first work starting instruction is matched with the second work starting instruction. If yes, go to step S307, if no, go to step S308.

In this implementation scenario, when the current working mode is the standby sub-mode, it is determined whether the first working start instruction and the second working start instruction are matched, specifically, whether the second working start instruction includes a key start instruction.

S307: and starting an atomization device of the electronic cigarette equipment according to the first work starting instruction.

S308: prompting the matched first work start instruction.

In this implementation scenario, steps S307 to S308 are substantially identical to steps S104 to S105 of the first embodiment of the method for switching a working mode of an electronic cigarette device provided by the present invention, and will not be described herein.

As can be seen from the above description, in this embodiment, when the active mode is currently used as the sleep sub-mode, the user is prompted to execute the activation operation, after the activation operation is detected to be executed, the working mode is switched to the standby sub-mode, when the active mode is the standby sub-mode, whether the first work starting instruction input by the user is matched with the preset second work starting instruction is judged, if not, the matched first work starting instruction is prompted, so that different use requirements of the user are met, and the use safety and convenience are effectively improved.

Referring to fig. 4, fig. 4 is a flowchart illustrating a fourth embodiment of a method for switching an operation mode of an electronic cigarette device according to the present invention. The working mode switching method of the electronic cigarette equipment provided by the invention comprises the following steps:

s401: and receiving a first work starting instruction input by a user, and acquiring a first mode switching instruction according to the first work starting instruction.

In a specific implementation scenario, after receiving a first working instruction input by a user, a first mode switching instruction sent by a terminal is obtained according to the first working instruction. Specifically, after receiving the first working instruction, the electronic cigarette device sends request information to the terminal, the terminal responds to the request information to detect environment information and/or the electronic cigarette device, judges whether the user can use the electronic cigarette device currently, generates a first mode switching instruction according to a judging result, and sends the first mode switching instruction to the electronic cigarette device.

By adopting the method for acquiring the first mode switching instruction according to the first work starting instruction, the terminal can be prevented from being in a state of acquiring information for a long time, the information is acquired only after the first work starting instruction is received, and the energy consumption is effectively reduced. In addition, if the electronic cigarette equipment is in a constantly changing environment and/or state, the method for acquiring the first mode switching instruction according to the first work starting instruction can better adapt to the environment and/or state of the current electronic cigarette equipment.

S402: and switching the working mode of the electronic cigarette equipment to a stop mode or a start mode according to the first mode switching instruction, and acquiring the current working mode of the electronic cigarette equipment and a preset second working start instruction.

S403: when the current working mode is the starting mode, judging whether the first working starting instruction is matched with the second working starting instruction. If yes, go to step S404, if no, go to step S405.

S404: and starting an atomization device of the electronic cigarette equipment according to the first work starting instruction.

S405: prompting the matched first work start instruction.

S406: when the working mode is the stop mode, the current working mode is prompted to be the stop mode.

In a specific implementation scenario, steps S402 to S306 are substantially identical to steps S102 to S106 of the first embodiment of the method for switching a working mode of an electronic cigarette device provided by the present invention, which is not described herein again.

As can be seen from the above description, in this embodiment, the method for acquiring the first mode switching instruction according to the first work start instruction can avoid the terminal from being in a state of acquiring information for a long time, and effectively reduce energy consumption. In addition, the method for acquiring the first mode switching instruction according to the first work starting instruction can better adapt to the environment and/or state of the current electronic cigarette equipment.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an embodiment of an electronic cigarette device provided by the present invention. The electronic cigarette device 10 comprises a human-machine interaction circuit 11, a communication circuit 12, a processor 13 and a memory 14. The processor 13 is coupled to the memory 14, the man-machine interaction circuit 11 and the communication circuit 12. The memory 14 has stored therein a computer program which is executed by the processor 13 in operation to implement the method as shown in fig. 1-4.

The communication circuit 12 receives the first mode switching instruction, and the processor 13 switches the working mode of the electronic cigarette device to the stop mode or the start mode according to the first mode switching instruction. The man-machine interaction circuit 11 receives a first work starting instruction input by a user, and the processor 13 acquires a current working mode of the electronic cigarette equipment and a preset second work starting instruction. When the current operation mode is the start mode, the processor 13 determines whether the first operation start instruction is matched with the second operation start instruction, and when the first operation start instruction is matched with the second operation start instruction, starts the atomizing device of the electronic cigarette apparatus 10 according to the first operation start instruction. When the operation mode is the stop mode, the man-machine interaction circuit 11 prompts the current operation mode to be the stop mode.

Wherein the start-up mode includes a sleep sub-mode and a standby sub-mode. When the current working mode is the starting mode, the man-machine interaction circuit 11 receives a second mode switching instruction, and the processor 13 switches the working mode of the electronic cigarette equipment to a sleep sub-mode or a standby sub-mode according to the second mode switching instruction.

The first work starting instruction comprises a key starting instruction or an air suction starting instruction, and the second work starting instruction comprises at least one of the key starting instruction and the air suction starting instruction. The man-machine interaction circuit 11 receives the starting selection instruction, and the processor 13 selects a preset second work starting instruction according to the starting selection instruction. Specifically, the processor 13 determines whether the second work start instruction includes the first work start instruction.

The processor 13 judges whether the current operation mode is a standby sub-mode; when the current working mode is a standby sub-mode, selecting a second working starting instruction according to the starting selection instruction; when the current working mode is the sleep sub-mode, the man-machine interaction circuit 11 prompts the user to execute the activation operation; after the processor 13 detects that the activation operation is performed, the operation mode is switched to the standby sub-mode.

When the current working mode is the standby sub-mode, the processor 13 judges whether the first working starting instruction is matched with the second working starting instruction; when the current working mode is the sleep sub-mode, the man-machine interaction circuit 11 prompts to execute the activation operation first; after the processor 13 detects that the activation operation is performed, the operation mode is switched to the standby sub-mode. When the first work order is not matched with the second work order, the man-machine interaction circuit 11 prompts the matched first work starting order.

If the electronic cigarette device 10 is in the standby sub-mode for more than a preset period of time and the first operation start instruction is not received, the processor 13 switches the operation mode of the electronic cigarette device 10 to the sleep sub-mode.

The detailed method can be referred to above, and will not be described here.

As can be seen from the foregoing description, in this embodiment, the electronic cigarette device switches the working mode to the stop mode or the start mode according to the detected environment by the terminal, switches the working mode of the electronic cigarette device to the standby sub-mode or the sleep sub-mode according to the second mode switching instruction, so that the safety and convenience of use of a user can be improved, the first working start instruction input by the user is compared with the preset second working start instruction, and the atomizing device of the electronic cigarette device is started when the first working start instruction and the preset second working start instruction are matched, so that the user can set the preset second working start instruction according to the needs of the user, and the personalized needs of the user are satisfied.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a storage medium according to an embodiment of the invention. The storage medium 20 stores at least one computer program 21, and the computer program 21 is configured to be executed by a processor to implement the method shown in fig. 1-4, and the detailed method is referred to above and will not be described herein. In one embodiment, the storage medium 20 may be a memory chip, a hard disk or a removable hard disk in the terminal, or other readable and writable storage means such as a flash disk, an optical disk, etc., and may also be a server, etc.

As can be seen from the foregoing description, in this embodiment, the computer program in the storage medium may be configured to switch the working mode to a stop mode or a start mode according to the detected environment by the terminal, switch the working mode of the electronic cigarette device to a standby sub-mode or a sleep sub-mode according to the second mode switching instruction, so that the safety and convenience of use of a user may be improved, the first working start instruction input by the user is compared with the preset second working start instruction, and when the two are matched, the atomizing device of the electronic cigarette device is started, so that the user may set the preset second working start instruction according to the needs of the user, thereby meeting the personalized needs of the user.

The foregoing is only the embodiments of the present invention, and therefore, the patent scope of the invention is not limited thereto, and all equivalent structures or equivalent processes using the descriptions of the present invention and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the scope of the invention.

Claims (3)

1. The working mode switching method of the electronic cigarette equipment is characterized by comprising the following steps of:

s301: receiving a first mode switching instruction, and switching the working mode of the electronic cigarette equipment to a stop mode or a start mode according to the first mode switching instruction, wherein the first mode switching instruction is generated and sent by a terminal connected with the electronic cigarette equipment according to the detected environmental information; the first mode switching instruction is used for indicating the working mode of the electronic cigarette equipment to be switched to a stop mode or a start mode; when the electronic cigarette is in a stop mode, a user presses a key or pumps a microphone, and the electronic cigarette equipment cannot be started;

s302: when the current working mode is a starting mode, a second mode switching instruction is received, and the working mode of the electronic cigarette equipment is switched to a sleep sub-mode or a standby sub-mode according to the second mode switching instruction;

the user sends a second mode switching instruction to the electronic cigarette equipment through the terminal, or inputs the second mode switching instruction by pressing a key of the electronic cigarette equipment;

s303: receiving a first work starting instruction input by a user;

if the first work starting instruction is an inhalation starting instruction input by a user through a microphone of the electronic cigarette equipment, starting an atomization device of the electronic cigarette equipment in response to the first work starting instruction when the current working mode is a sleep sub-mode or a standby sub-mode;

when the first work starting instruction is a key instruction, judging whether the current working mode is a standby sub-mode, if not, executing the step S304, and if so, executing the step S306;

s304: prompting a user to execute an activating operation, and switching the working mode into a standby sub-mode after detecting that the activating operation is executed;

after the working mode is switched to the standby sub-mode, the user inputs a first working starting instruction again, and the electronic cigarette equipment in the standby sub-mode responds to the first working starting instruction input by the user;

s305: acquiring a first work starting instruction input by a user again;

the first work starting instructions input by the user for two times are the same or different;

s306: judging whether the first work starting instruction is matched with a preset second work starting instruction or not; if yes, go to step S307, if no, go to step S308;

s307: starting an atomization device of the electronic cigarette equipment according to the first work starting instruction;

s308: prompting a matched first work starting instruction; when the first work starting instruction input by the user is a key starting instruction and the second work starting instruction preset by the user is an air suction starting instruction, the user is prompted to suck the microphone to input the air suction starting instruction.

2. An electronic cigarette device, comprising: -a human-machine interaction circuit, a communication circuit, a processor, a memory, the processor being coupled to the memory, the human-machine interaction circuit and the communication circuit, the memory having stored therein a computer program, the processor executing the computer program to implement the method of claim 1.

3. A storage medium storing a computer program executable by a processor to implement the method of claim 1.