WO2022121488A1

WO2022121488A1 - Fingerprint input method for atomization device and atomization device

Info

Publication number: WO2022121488A1
Application number: PCT/CN2021/122826
Authority: WO
Inventors: 林光榕; 郑贤彬; 张夕勇
Original assignee: 惠州市新泓威科技有限公司
Priority date: 2020-12-07
Filing date: 2021-10-09
Publication date: 2022-06-16
Also published as: CN112369704B; CN112369704A

Abstract

A fingerprint input method for an atomization device and an atomization device, the method comprising: a charger is used to charge an atomization device, in a charging state, a finger is pressed on a fingerprint sensor (4) and continued for a set first duration, and a microcontroller (1) is enabled to control the atomization device to enter a fingerprint input mode; in the fingerprint input mode, the finger is pressed on the fingerprint sensor (4), the fingerprint sensor (4) reads local information of a fingerprint, and it is determined by means of a fingerprint information microprocessor (5) whether the local information is successfully read; if successfully read once, then same is inputted into a fingerprint information memory (6), and then the local information of the fingerprint is repeatedly read; and if the local information of the fingerprint may be successfully read multiple times within a set second duration, then the fingerprint information microprocessor (5) of the atomization device combines the local information of the fingerprint read multiple times into complete fingerprint information and same is inputted into the fingerprint information memory (6)。 In the fingerprint input method, fingerprints may be input in an atomization device without the help of an intelligent terminal, which is convenient for users to use.

Description

Fingerprint entry method of atomizing device and atomizing device

technical field

The present invention relates to the technical field of atomizing devices, and more particularly, the present invention relates to a fingerprint recording method of an atomizing device and an atomizing device.

Background technique

Atomization devices usually heat and atomize liquid substances such as drugs and smoke liquids to evaporate vapors, aerosols or smog for use by smokers. As people pay more attention to their health, people are aware of excessive smoking May cause adverse effects on the body.

When using the existing atomizing device, it can usually be turned on and used without restriction without distinguishing the user, that is, children or minors can use it without the permission of adults, which makes atomization. Devices cannot be properly controlled and are usually left to the user to switch on without restriction. In order to avoid and control the inadvertent use by minors, a fingerprint sensor can be added to the atomizing device, and the method of unlocking the fingerprint is used to restrict the use of abnormal users, so as to avoid the use of minors.

The existing fingerprint sensor generally needs to be connected to the fingerprint sensor by means of a smart terminal of a computer or a smart phone before use, and the user's fingerprint is authorized to be entered on the smart terminal and transferred to the atomizing device, so the fingerprint entry method is relatively inconvenient, especially It is for users who do not know or are inconvenient to use computers and smartphones.

technical problem

The purpose of the present invention is to provide a fingerprint entry method and an atomization device for an atomizing device in order to overcome the shortcomings of the above-mentioned technologies.

technical solutions

The technical solution of the present invention is achieved as follows: a fingerprint recording method for an atomizing device, comprising: using a charger to charge the atomizing device, and in the charging state, pressing a finger on the fingerprint sensor of the atomizing device and continuously reaching The set first time duration enables the microcontroller to control the atomizing device to enter the fingerprint entry mode; in the fingerprint entry mode, press the finger on the fingerprint sensor, the fingerprint sensor reads the partial information of the fingerprint and processes the fingerprint information through microprocessing. If the fingerprint sensor successfully reads the partial information of the fingerprint once, it will be recorded in the fingerprint information memory of the atomizing device, and then read the partial information of the fingerprint repeatedly. If the fingerprint can be successfully read within the set second time period If the partial information of the fingerprints is obtained several times, the fingerprint information microprocessor of the atomizing device combines the partial information of the fingerprints several times into complete fingerprint information and records it into the fingerprint information memory.

Preferably, the fingerprint information microprocessor is set inside the microcontroller, or the function of the fingerprint information microprocessor is completed by the microcontroller.

Preferably, the method further includes: unplugging the charging power before the atomizing device enters the fingerprint recording mode, so that the atomizing device exits the charging state.

Preferably, the method further includes: when new fingerprint information needs to be entered, first press the fingerprint sensor to activate the atomizing device with the finger whose fingerprint information has been entered, and then enter the charging state to start entering new fingerprint information.

Preferably, it also includes: the fingerprint information memory has been set to store several pieces of fingerprint information, and when new fingerprint information needs to be entered again after the fingerprint information memory has been filled with the several pieces of fingerprint information, the fingerprint information The microprocessor will clear the fingerprint information memory before entering it.

Preferably, the number of storable fingerprint information is set to 1-10.

Preferably, the first duration is set to 2-8 seconds, the second duration is set to 0.5-3 minutes, and the number of times the partial information of the fingerprint is successfully read is set to 2-10 times .

Preferably, the first duration is set to 5 seconds, the second duration is set to 1 minute, and the number of times of successfully reading the partial information of the fingerprint is set to 6 times.

Another technical solution of the present invention is achieved in this way: a fingerprint recording method for an atomizing device, characterized in that it includes the following operation steps:

(1), use the charger to charge the atomizing device, so that the atomizing device enters the charging state;

(2), press the finger on the fingerprint sensor of the atomizing device, and the fingerprint sensor detects the fingerprint information;

(3), the microcontroller of the atomizing device judges whether the charging control unit is in the charging state, and whether the fingerprint sensor continues to detect the fingerprint information and reaches the set first duration, if so, then go to the next step, if not, then Enter step (13);

(4), the prompting unit of the atomizing device sends a signal to prompt the atomizing device to enter the fingerprint entry mode;

(5), the microcontroller judges whether the time that the atomizing device has carried out the fingerprint input mode exceeds the second time length of the setting, if so, enter step (12); if not, enter the next step;

(6), press the finger on the fingerprint sensor, the fingerprint sensor reads the local information of the fingerprint and transmits it to the fingerprint information microprocessor;

(7), the fingerprint information microprocessor judges whether the local information of the read fingerprint meets the set requirement, if yes, then enters the next step, if not, then the prompting unit sends out a signal prompt to return to the previous step;

(8), the fingerprint information microprocessor temporarily stores the partial information of the fingerprint in the fingerprint information memory, and records the number of times of successful reading;

(9), the microcontroller judges whether the number of times of successful reading reaches the set number of times, if not, then return to step (5); if so, enter the next step;

(10), the fingerprint information microprocessor combines the temporarily stored fingerprint local information into complete fingerprint information and records it into the fingerprint information memory;

(11), the microcontroller controls the atomization device to end the fingerprint entry mode, and simultaneously the prompting unit sends a signal to prompt that the fingerprint entry is successful, and enters step (13);

(12), the microcontroller controls the atomization device to end the fingerprint entry mode, and the prompt unit sends a signal to prompt that the fingerprint entry is unsuccessful;

(13), the atomizing device enters the standby mode.

Preferably, between the steps (3) and (4), the steps are as follows:

(3.1) The prompting unit of the atomizing device sends a signal to prompt to remove the charger;

(3.2) Remove the charger.

Preferably, the first duration is set to 2-8 seconds, the second duration is set to 0.5-3 minutes, and the number of times of successfully reading the partial information of the fingerprint is set to 2-10 times.

Preferably, when new fingerprint information needs to be entered, the method further includes: pressing the fingerprint sensor with a finger that has entered fingerprint information before step (1) to activate the atomizing device.

Another technical solution of the present invention is realized as follows: an atomizing device, which can realize the above-mentioned fingerprint input method during operation, including a microcontroller, a charging control unit, a prompt unit, a fingerprint sensor, and fingerprint information microprocessing The micro-controller is electrically connected to the charging control unit and the indicating unit respectively, the micro-controller is connected to the fingerprint information microprocessor through a serial communication interface, and the fingerprint information is processed by the micro-processor. The device is electrically connected with the fingerprint sensor and the fingerprint information storage, respectively.

Preferably, the fingerprint information microprocessor is set inside the microcontroller, and the function of the fingerprint information microprocessor is completed by the microcontroller.

beneficial effect

By adding a fingerprint sensor to the atomizing device, the method of unlocking the fingerprint is used to prevent the use of abnormal users, so that the use of minors can be avoided. The fingerprint input method of the atomizing device of the present invention can perform fingerprint input in the atomizing device by itself without the aid of a smart terminal, which is convenient for users to use, especially, it is greatly convenient or inconvenient to use notebook computers, smart phones, etc. users of smart terminals.

Description of drawings

Fig. 1 is the flow chart of the fingerprint input method of atomizing device of the present invention;

FIG. 2 is a functional structural block diagram of the atomizing device of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

Example 1:

The present invention provides a fingerprint recording method for an atomizing device, comprising: using a charger to charge the atomizing device, and in the charging state of the atomizing device, pressing a finger on the fingerprint sensor of the atomizing device and continuously reaching a set number of times. For a period of time, when the above two conditions of charging and pressing for a certain period of time are met at the same time, the microcontroller of the atomizing device judges that the two conditions are met at the same time, so that the atomizing device enters the fingerprint entry mode; in the fingerprint entry mode, press the finger on the On the fingerprint sensor, the fingerprint sensor reads the partial information of the fingerprint and judges whether the reading is successful through the fingerprint information microprocessor. If the fingerprint sensor successfully reads the partial information of the fingerprint once, it is entered into the fingerprint information memory of the atomizing device, and then the reading is repeated. Take the partial information of the fingerprint. If the partial information of the fingerprint can be successfully read several times within the set second time period, the fingerprint information microprocessor will combine the partial information of the fingerprints for several times into complete fingerprint information and record the fingerprint information. memory. The first duration is set to 2-8 seconds, the second duration is set to 0.5-3 minutes, and the number of times the partial information of the fingerprint is successfully read is set to 2-10 times.

In another embodiment, on the basis of Embodiment 1, the most optimal is to set the first duration to 5 seconds, the second duration to 1 minute, and the number of times the partial information of the fingerprint is successfully read as 6 times.

In another embodiment, on the basis of the first embodiment, the charging power supply can also be unplugged before the atomizing device enters the fingerprint recording mode, so that the atomizing device exits the charging state. This method actually adds a manual action condition before entering the fingerprint mode to prevent accidental touch of the fingerprint sensor under charging conditions and mistakenly enter the fingerprint entry mode.

In another embodiment, on the basis of Embodiment 1, it further includes: when new fingerprint information needs to be entered, first press the fingerprint sensor with the finger that has entered the fingerprint information to activate the atomizing device, and then enter the charging state to start. Steps for entering new fingerprint information.

In another embodiment, on the basis of the first embodiment, the method further includes: the fingerprint information memory has been set to store 1-10 fingerprint information, so as to facilitate the user to unlock using different fingerprints. When the fingerprint information memory has been filled with 1-10 fingerprint information and new fingerprint information needs to be entered again, the fingerprint information microprocessor will clear the fingerprint information memory before entering it.

In another embodiment, on the basis of the above-mentioned embodiment, the fingerprint information memory is set to store 5 pieces of fingerprint information.

Embodiments of the present invention

Embodiment 2

As shown in Figure 1, a fingerprint input method of an atomizing device includes the following steps:

(13), the atomizing device enters the standby mode.

In this embodiment, the first duration is set to 2-8 seconds, the second duration is set to 0.5-3 minutes, and the number of times the partial information of the fingerprint is successfully read is set to 2-10 times.

In another embodiment, the first duration is set to 5 seconds, the second duration is set to 1 minute, and the number of times of successfully reading the partial information of the fingerprint is set to 6 times.

In another embodiment, on the basis of Embodiment 2, the steps between steps (3) and (4) are as follows: (3.1) the prompting unit of the atomizing device sends a signal to prompt to remove the charger;

(3.2) Remove the charger.

In another embodiment, on the basis of the second embodiment, when new fingerprint information needs to be entered, before step (1), use the finger with the entered fingerprint information to press the fingerprint sensor to activate the atomizing device.

Embodiment 3

As shown in FIG. 2, an atomizing device, which can realize the fingerprint input method of any of the above-mentioned embodiments during operation, includes a microcontroller 1, a charging control unit 2, an indicating unit 3, a fingerprint sensor 4, a fingerprint information micro-controller The processor 5 and the fingerprint information memory 6, the microcontroller 1 is electrically connected with the charging control unit 2 and the indicating unit 3 respectively, the microcontroller 1 is connected with the fingerprint information microprocessor 5 through the serial port communication interface, and the fingerprint information microprocessor 5 They are electrically connected to the fingerprint sensor 3 and the fingerprint information storage 6 respectively. The charging control unit 2 is used for charging control when charging the atomizing device, and the indicating unit 3 includes an LED indicator or a vibration prompting motor. When the atomizing device enters a certain state or reaches a certain condition, the LED indicator sends out a light signal or The vibration prompts the motor to vibrate for prompting the user. The fingerprint sensor 4 is used to read the fingerprint information and transmit the fingerprint information to the fingerprint information microprocessor 5 for operation processing. The fingerprint information memory 6 is used to store the fingerprint information after operation processing. Read, arithmetic and stored procedures.

In another embodiment, on the basis of the third embodiment, the fingerprint information microprocessor 4 is set inside the microcontroller 1, or the fingerprint information microprocessor 4 is cancelled, and the function of the fingerprint information microprocessor 4 is controlled by the microcontroller Device 1 is complete.

In the above embodiments, after the fingerprint information is entered, the following applications can be performed: in the sleep state of the atomizing device, press the finger on the fingerprint sensor, the fingerprint sensor reads the fingerprint information and transmits it to the microcontroller, and the microcontroller will read the fingerprint information. The obtained fingerprint information is analyzed and compared with the fingerprint information recorded in the fingerprint information memory, and if the comparison is the same, the atomizing device is activated to enter the standby mode.

Industrial Applicability

The above descriptions are only preferred embodiments of the present invention, and all equivalent changes and modifications made according to the scope of the claims of the present invention shall fall within the scope of the claims of the present invention.

Claims

A fingerprint recording method for an atomizing device, comprising: using a charger to charge the atomizing device, and in the charging state, pressing a finger on the fingerprint sensor of the atomizing device for a set first time period , make the microcontroller control the atomizing device to enter the fingerprint entry mode; in the fingerprint entry mode, press the finger on the fingerprint sensor, the fingerprint sensor reads the partial information of the fingerprint and judges whether the reading is successful through the fingerprint information microprocessor , if the fingerprint sensor successfully reads the partial information of the fingerprint once, it will be recorded in the fingerprint information memory of the atomizing device, and then the partial information of the fingerprint will be read repeatedly. If the partial information of the fingerprint can be successfully read several times within the set second time period , then the fingerprint information microprocessor of the atomizing device combines the partial information of several times of fingerprints into complete fingerprint information and records it into the fingerprint information memory.
The fingerprint input method of an atomizing device according to claim 1, wherein the fingerprint information microprocessor is set inside the microcontroller, or the function of the fingerprint information microprocessor is controlled by the microcontroller the device is complete.
The fingerprint recording method of an atomizing device according to claim 1, further comprising: unplugging the charging power before the atomizing device enters the fingerprint recording mode, so that the atomizing device exits the charging state.
The fingerprint recording method of an atomizing device according to claim 1, further comprising: when new fingerprint information needs to be entered, firstly use the finger with the fingerprint information entered to press the fingerprint sensor to activate the atomizing device, and then Then enter the charging state and start the steps of entering new fingerprint information.
The fingerprint recording method of an atomizing device according to claim 4, further comprising: the fingerprint information memory has been set to store several pieces of fingerprint information, and when the fingerprint information memory is full of the several pieces of fingerprint information When new fingerprint information needs to be entered again after the fingerprint information, the fingerprint information microprocessor will clear the fingerprint information memory before entering it.
The fingerprint input method of an atomizing device according to claim 5, wherein the number of storable fingerprint information is set to 1-10.
The fingerprint recording method of an atomizing device according to claim 1, wherein the first duration is set to 2-8 seconds, the second duration is set to 0.5-3 minutes, and the The number of times of successfully reading the partial information of the fingerprint is set to 2-10 times.
The fingerprint recording method of an atomizing device according to claim 7, wherein the first duration is set to 5 seconds, the second duration is set to 1 minute, and the part of the fingerprint that is successfully read is set. The number of times of information is set to 6 times.
A fingerprint entry method for an atomizing device, characterized in that, the steps include the following steps:

(1), use the charger to charge the atomizing device, so that the atomizing device enters the charging state;

(2), press the finger on the fingerprint sensor of the atomizing device, and the fingerprint sensor detects the fingerprint information;

(3), the microcontroller of the atomizing device judges whether the charging control unit is in the charging state, and whether the fingerprint sensor continues to detect the fingerprint information and reaches the set first duration, if so, then go to the next step, if not, then Enter step (13);

(4), the prompting unit of the atomizing device sends a signal to prompt the atomizing device to enter the fingerprint entry mode;

(5), the microcontroller judges whether the time that the atomizing device has carried out the fingerprint input mode exceeds the second time length of the setting, if so, enter step (12); if not, enter the next step;

(6), press the finger on the fingerprint sensor, the fingerprint sensor reads the local information of the fingerprint and transmits it to the fingerprint information microprocessor;

(7), the fingerprint information microprocessor judges whether the local information of the read fingerprint meets the set requirement, if yes, then enters the next step, if not, then the prompting unit sends out a signal prompt to return to the previous step;

(8), the fingerprint information microprocessor temporarily stores the partial information of the fingerprint in the fingerprint information memory, and records the number of times of successful reading;

(9), the microcontroller judges whether the number of times of successful reading reaches the set number of times, if not, then return to step (5); if so, enter the next step;

(10), the fingerprint information microprocessor combines the temporarily stored fingerprint local information into complete fingerprint information and records it into the fingerprint information memory;

(11), the microcontroller controls the atomization device to end the fingerprint entry mode, and simultaneously the prompting unit sends a signal to prompt that the fingerprint entry is successful, and enters step (13);

(12), the microcontroller controls the atomization device to end the fingerprint entry mode, and the prompt unit sends a signal to prompt that the fingerprint entry is unsuccessful;

(13), the atomizing device enters the standby mode.
The fingerprint input method of atomizing device according to claim 9, is characterized in that, between described steps (3) and (4) also comprises steps as follows:

(3.1) The prompting unit of the atomizing device sends a signal to prompt to remove the charger;

(3.2) Remove the charger.
The fingerprint recording method of an atomizing device according to claim 9, wherein the first duration is set to 2-8 seconds, the second duration is set to 0.5-3 minutes, and the successful reading The number of times of taking the local information of the fingerprint is set to 2-10 times.
The fingerprint recording method of an atomizing device according to claim 9, wherein the first duration is set to 5 seconds, the second duration is set to 1 minute, and the part of the fingerprint that is successfully read is set. The number of times of information is set to 6 times.
The fingerprint input method of an atomizing device according to claim 9, characterized in that, when new fingerprint information needs to be entered, the method further comprises: pressing the fingerprint sensor with a finger whose fingerprint information has been entered before step (1), Activate the nebulizer.
An atomizing device, characterized in that, during operation, the fingerprint entry method according to any one of claims 1 to 13 can be realized, comprising a microcontroller, a charging control unit, a prompting unit, a fingerprint sensor, and a fingerprint information microprocessing The micro-controller is electrically connected to the charging control unit and the indicating unit respectively, the micro-controller is connected to the fingerprint information microprocessor through a serial communication interface, and the fingerprint information is processed by the micro-processor. The device is electrically connected with the fingerprint sensor and the fingerprint information storage, respectively.
The atomizing device according to claim 14, wherein the fingerprint information microprocessor is arranged inside the microcontroller, and the function of the fingerprint information microprocessor is completed by the microcontroller.