CN113243571A - Atomization device and gesture sound starting password generation method thereof - Google Patents

Abstract

The application provides an atomization device and a gesture sound starting password generation method thereof. The method comprises the steps of obtaining attitude and sound state parameters of the atomization device within preset time; carrying out transcoding operation on the gesture sound state parameters to obtain gesture sound verification passwords; and adjusting the starting password of the atomization device according to the gesture sound verification password. The gesture state of the atomizing device is acquired to obtain the corresponding gesture sound verification password, and the starting password is set through the gesture sound verification password, so that the starting password is formed based on the change sequence condition of the gesture, the forming mode of the starting password is not easy to crack, and the confidentiality of the atomizing device is improved.

Description

Atomization device and gesture sound starting password generation method thereof

Technical Field

The invention relates to the technical field of electronic atomization, in particular to an atomization device and a gesture sound starting password generation method thereof.

Background

Along with the popularization of the electronic cigarette, the sales volume of the electronic cigarette in society is also increased year by year. The electronic cigarette with good quality and brand is popular with consumers and occupies a large market share. For juveniles, the traditional electronic cigarette is prevented from being used by juveniles by adding an encryption system as a forbidden product, and the traditional electronic cigarette is mainly encrypted in a key switch mode, namely, a corresponding starting password is input through keys, so that the juveniles can be effectively prevented from being used.

However, the security of the key authentication method is weak, the numbers of the starting password can be easily known through the abrasion degree of the keys, and the electronic cigarette can be opened through limited permutation and combination, so that minors can use the electronic cigarette very easily.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an atomization device for improving the security performance and a gesture sound starting password generation method thereof.

The purpose of the invention is realized by the following technical scheme:

a gesture sound start password generation method of a nebulizing device, the method comprising: acquiring attitude and sound state parameters of the atomization device within preset time; carrying out transcoding operation on the gesture sound state parameters to obtain gesture sound verification passwords; and adjusting the starting password of the atomization device according to the gesture sound verification password.

In one embodiment, the acquiring the gesture sound state parameter of the atomization device includes: and acquiring the three-axis deflection state parameters and the corresponding three-axis deflection time of the attitude sensor of the atomization device.

In one embodiment, the acquiring the gesture sound state parameter of the atomization device further includes: and acquiring each attitude voice state parameter and corresponding attitude voice time of a voice converter of the atomization device.

In one embodiment, the transcoding the gesture sound state parameter to obtain a gesture sound verification password includes: detecting whether the triaxial deflection state parameters are matched with the attitude voice state parameters; when the triaxial deflection state parameters are matched with the attitude voice state parameters, arranging the triaxial deflection state parameters according to a first preset sequence according to the triaxial deflection time so as to obtain a triaxial verification password; and setting the triaxial verification password as the gesture sound verification password.

In one embodiment, the adjusting the power-on password of the atomization device according to the gesture sound verification password comprises: detecting whether the three-axis verification password is matched with a primary verification password; and when the three-axis verification password is matched with the primary verification password, sending a starting password updating signal to the atomization device.

In one embodiment, the detecting whether the three-axis verification password and the one-time verification password match further includes: acquiring gesture verification times according to the gesture sound state parameters; detecting whether the gesture verification times are larger than preset verification times or not; and when the gesture verification times are greater than the preset verification times, sending a verification prohibition signal to the atomization device.

In one embodiment, the transcoding the gesture sound state parameter to obtain a gesture sound verification password includes: arranging the three-axis deflection state parameters according to a second preset sequence according to the three-axis deflection time to obtain a first gesture sound verification password; arranging the attitude voice state parameters according to a third preset sequence according to the attitude voice time to obtain a second attitude voice verification password; and acquiring the gesture sound verification password according to the first gesture sound verification password and the second gesture sound verification password.

In one embodiment, the adjusting the power-on password of the nebulizer device according to the gesture sound verification password includes: detecting whether the first gesture verification password is matched with a first power-on password; when the first gesture sound verification password is matched with the first power-on password, detecting whether the second gesture sound verification password is matched with the second power-on password; when the second gesture sound verification password is matched with the second starting password, the secondary gesture sound verification password of the atomization device is obtained again; and replacing the secondary gesture sound verification password with a starting password of the atomization device.

In one embodiment, the detecting whether the first gesture verification password and the first power-on password match further includes: and when the first gesture sound verification password is not matched with the first starting password, sending an alarm signal to the atomization device.

An atomization device which can realize the gesture sound starting password generation method of any one of the embodiments comprises an atomizer, a gesture sensor, a voice converter and a control panel; the atomizer respectively with attitude sensor and voice converter connects, attitude sensor and voice converter still all with the control panel electricity is connected, the control panel is used for being connected with the battery pole.

Compared with the prior art, the invention has at least the following advantages:

the gesture state of the atomizing device is acquired to obtain the corresponding gesture sound verification password, and the starting password is set through the gesture sound verification password, so that the starting password is formed based on the change sequence condition of the gesture, the forming mode of the starting password is not easy to crack, and the confidentiality of the atomizing device is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart of an gesture-sound power-on password generation method in an embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a gesture sound power-on password generation method. In one embodiment, the gesture sound starting password generation method comprises the steps of obtaining gesture sound state parameters of an atomization device within preset time; carrying out transcoding operation on the gesture sound state parameters to obtain gesture sound verification passwords; and adjusting the starting password of the atomization device according to the gesture sound verification password. The gesture state of the atomizing device is acquired to obtain the corresponding gesture sound verification password, and the starting password is set through the gesture sound verification password, so that the starting password is formed based on the change sequence condition of the gesture, the forming mode of the starting password is not easy to crack, and the confidentiality of the atomizing device is improved.

Please refer to fig. 1, which is a flowchart illustrating a gesture sound power-on password generating method according to an embodiment of the present invention. The gesture sound starting password generation method comprises part or all of the following steps.

S100: and acquiring attitude and sound state parameters of the atomization device within preset time.

In this embodiment, the attitude sound state parameter is right the embodiment of the attitude change condition of the atomizing device, the attitude sound state parameter is right the conversion of the attitude deflection state of the atomizing device, that is to say, it is right to convert the attitude change condition of the atomizing device into corresponding parameters, for example, it is right that the attitude deflection state of the atomizing device is converted into corresponding high and low levels, which is convenient for converting the physical state quantity of the attitude change of the atomizing device into electrical quantity, thereby being convenient for right the collection of various attitude states of the atomizing device, and then being convenient for the subsequent password conversion of the attitude state of the atomizing device. And the time for acquiring the attitude sound state parameters is within the preset time, so that the attitude state of the atomization device can be conveniently acquired within the specified time range, and the condition that the acquisition time of the attitude sound state parameters of the atomization device is too long or too short is avoided.

S200: and carrying out transcoding operation on the gesture sound state parameters to obtain a gesture sound verification password.

In this embodiment, the gesture sound state parameter may correspond to different levels, that is, levels corresponding to gesture deflection states of the atomization device, and the transcoding operation converts the different level changes into corresponding codes, that is, the gesture sound verification password, which may also be regarded as a sequence corresponding to the levels of the gesture deflection states of the atomization device. Therefore, the attitude sound state parameters are converted between the level and the password, the current attitude state of the atomization device is converted into the password, the digital conversion of the attitude state of the atomization device is realized, the data storage convenience of the attitude state of the atomization device is improved, and the subsequent state of the atomization device is compared with the starting password of the atomization device, so that the starting password can be conveniently adjusted subsequently, and the subsequent generation of the starting password of the atomization device is facilitated.

S300: and adjusting the starting password of the atomization device according to the gesture sound verification password.

In this embodiment, the gesture sound verification password corresponds to a current gesture state of the atomization device, and is used as a password for judging the startup of the atomization device, where the gesture sound verification password is a basis for adjusting the startup password of the atomization device, for example, in a password reset initialization process, when the gesture sound verification password is a password for starting a reset mode of the atomization device, the gesture sound verification password is used to start password reset, so as to facilitate resetting the startup password of the atomization device; for another example, in the process of changing the password, when the gesture sound verification password is the previous boot password of the atomization device, the password change is started through the gesture sound verification password, so that a new boot password is conveniently changed into the current boot password, and the replacement of the new boot password and the old boot password is realized.

In one embodiment, the acquiring the gesture sound state parameter of the atomization device includes: and acquiring the three-axis deflection state parameters and the corresponding three-axis deflection time of the attitude sensor of the atomization device. In this embodiment, the attitude sound state parameters include three-axis deflection state parameters of the attitude sensor, the three-axis deflection state parameters are deflection angles of three axial directions of the attitude sensor, and three axes corresponding to the three-axis deflection state parameters are a heading axis, a pitch axis and a roll axis respectively, so that the three-axis deflection state parameters correspond to deflection angles of a plurality of axes. The specific used axes may be determined according to actual conditions, but the three-axis yaw state parameters at least include two-axis yaw states, for example, the three-axis yaw state parameters include a heading axis yaw state parameter and a pitch axis yaw state parameter, and the corresponding yaw states in the three-axis yaw state parameters are four states of left-yaw, right-yaw, upward-pitch, and downward-pitch. And according to different deflection states and corresponding time, the gesture sound verification password is convenient to form. In this way, the gesture sound verification password is formed by combining a plurality of different-axis piece deflection states, and the plurality of different-axis piece deflection states are further formed based on the three-axis deflection time combination, for example, under the preset time sequence, the axis deflection state parameters at different times are sequenced to form the gesture sound verification password. In this embodiment, the deflection state of each time in the three-axis deflection state parameters corresponds to one parameter, for example, a four-bit code, and the four states of left-hand deflection, right-hand deflection, upward deflection and downward deflection correspond to one bit code, that is, when the left-hand deflection occurs, the three-axis deflection state parameter at this time corresponds to "1000"; when right deviation occurs, the triaxial deflection state parameter at the moment is correspondingly 0100; when the rising occurs, the triaxial deflection state parameter at the moment is corresponding to '0010'; when the dive occurs, the triaxial deflection state parameter at this time corresponds to "0001". That is, the gesture sound verification password is formed based on the parameters of the three-axis deflection state at multiple times, that is, the gesture sound verification password is formed based on the three-axis deflection state at multiple times and is not the three-axis deflection state at a single time.

Further, the acquiring of the attitude and sound state parameter of the atomization device further includes: and acquiring each attitude voice state parameter and corresponding attitude voice time of a voice converter of the atomization device. In this embodiment, the gesture speech state parameter corresponds to a digital signal of a speech signal conversion, and converts a speech described by a user for a deflection situation of each axis into a corresponding code, and the gesture speech state parameter corresponds to the gesture speech time, which is convenient for sequentially transcoding the speech signal of the user, for example, the speech converter sequentially obtains a description of a deflection state therein by parsing an audio signal of the user, specifically, a code of a "left bias" occurring in the audio signal corresponds to "1000", a code of a "right bias" occurring in the audio signal corresponds to "0100", a code of an "up bias" occurring in the audio signal corresponds to "0010", and a code of a "down bias" occurring in the audio signal corresponds to "0001". Therefore, the gesture voice state parameters are acquired, so that the triaxial deflection state parameters can be conveniently matched, and whether the gesture deflection description of the voice of a user is consistent with the actual gesture deflection of the atomization device or not is determined. In another embodiment, the gesture speech state parameter may be completely opposite to the actual gesture deflection of the atomizer, for example, at a certain time, the actual gesture deflection is a left deflection, but the user speech at this time is described as a right deflection, and through the opposite speech description, the adjusted accurate gesture deflection state can be obtained through the subsequent opposite conversion operation. Thus, even if someone hears the sound of the posture description, the atomizing device cannot be rotated accurately, further improving the confidentiality of the atomizing device.

Further, the transcoding the gesture sound state parameter to obtain a gesture sound verification password includes: detecting whether the triaxial deflection state parameters are matched with the attitude voice state parameters; when the triaxial deflection state parameters are matched with the attitude voice state parameters, arranging the triaxial deflection state parameters according to a first preset sequence according to the triaxial deflection time so as to obtain a triaxial verification password; and setting the triaxial verification password as the gesture sound verification password. In this embodiment, the three-axis deflection state parameters and the gesture voice state parameters are matched and detected by using two different input modes of the gesture parameters, the three-axis deflection state parameters are obtained through a gesture sensor, the three-axis deflection state parameters are parameters corresponding to actual gesture deflection of the atomization device, for example, the gesture sensor is a gyroscope, the gesture voice state parameters are obtained through a voice converter, the gesture voice state parameters are parameters corresponding to gesture deflection description of the atomization device by a user, for example, the voice converter is an audio digital converter. In this way, by comparing the gesture deflection condition of the voice with the actual gesture deflection condition, after the two gesture sound state parameters are matched, the three-axis deflection state parameter is convenient to be determined to be equal to the gesture sound state parameter, namely, the descriptive voice of the user for gesture deflection is matched with the actual gesture deflection, so that the three-axis verification password is convenient to be set as the gesture sound verification password, and the atomizing device starting password is convenient to be subsequently set.

Still further, the adjusting the power-on password of the atomization device according to the gesture sound verification password comprises: detecting whether the three-axis verification password is matched with a primary verification password; and when the three-axis verification password is matched with the primary verification password, sending a starting password updating signal to the atomization device. In this embodiment, in order to facilitate the opening of the power-on password resetting mode, the triaxial verification password after the triaxial deflection state parameter and the posture voice state parameter are successfully matched is checked, that is, the triaxial verification password is compared with the one-time verification password, the one-time verification password is used as the starting password of the power-on password resetting mode, and the power-on password resetting mode can be correspondingly opened only after the triaxial verification password is matched with the one-time verification password, so that the corresponding password is required for resetting the power-on password, and the one-time verification password and the power-on password are generally set to be two different passwords, so as to reduce the probability that the power-on password is illegally tampered, and further improve the confidentiality of the atomization device.

Still further, the detecting whether the three-axis verification password is matched with the one-time verification password further includes: acquiring gesture verification times according to the gesture sound state parameters; detecting whether the gesture verification times are larger than preset verification times or not; and when the gesture verification times are greater than the preset verification times, sending a verification prohibition signal to the atomization device. In this embodiment, the gesture verification times are current password verification times of the atomization device, the gesture verification times are also current gesture sound state parameters of the atomization device, the preset verification times are built-in verification times of the atomization device, that is, the preset verification times are password verification allowable times of the atomization device, and the preset verification times can effectively reduce the password verification frequency of the atomization device and reduce the power consumption of the atomization device. The gesture verification times are larger than the preset verification times, which indicates that the current password verification times of the atomization device reach a preset value, namely that the password verification mode of the atomization device is opened for too many times, and the atomization device is possibly used by a person who is not the user. At this time, in order to ensure that the atomization device is not tried to input the password continuously, the module corresponding to the gesture sound state parameter is closed by sending a verification prohibiting signal to the control system of the atomization device, so that the password verification mode in the control system of the atomization device is closed, the continuous trial input or the change of the starting password is prohibited, and the situation that a minor tries to start the atomization device is effectively avoided. In addition, in this embodiment, the determination of the number of times of posture verification of the posture-sound state parameter is applied to the execution phase of the password reset mode, that is, the process of replacing the old boot password with the new boot password, in addition to the start phase of the password reset mode.

In one embodiment, the transcoding the gesture sound state parameter to obtain a gesture sound verification password includes: arranging the three-axis deflection state parameters according to a second preset sequence according to the three-axis deflection time to obtain a first gesture sound verification password; arranging the attitude voice state parameters according to a third preset sequence according to the attitude voice time to obtain a second attitude voice verification password; and acquiring the gesture sound verification password according to the first gesture sound verification password and the second gesture sound verification password. In this embodiment, the second preset order is to sort the three-axis deflection state parameters based on the three-axis deflection time, so that the three-axis deflection state parameters are correspondingly converted into a verification code, i.e. the first gesture sound verification password, which is a part of the gesture sound verification password and is used for being combined with the second gesture sound verification password; and the third preset sequence is to sort the gesture voice state parameters based on the gesture voice time, so that the gesture voice state parameters are correspondingly converted into another verification code, namely the second gesture sound verification password, and the second gesture sound verification password is also used as a part of the gesture sound verification password. Therefore, the gesture sound verification password comprises the first gesture sound verification password and the second gesture sound verification password, the subsequent setting of the starting password is facilitated, and the combination of the multiple gesture sound verification passwords enables the complexity of the generation structure of the starting password to be improved, so that the confidentiality of the starting password is improved.

Further, the adjusting the power-on password of the atomization device according to the gesture sound verification password includes: detecting whether the first gesture verification password is matched with a first power-on password; when the first gesture sound verification password is matched with the first power-on password, detecting whether the second gesture sound verification password is matched with the second power-on password; when the second gesture sound verification password is matched with the second starting password, the secondary gesture sound verification password of the atomization device is obtained again; and replacing the secondary gesture sound verification password with a starting password of the atomization device. In this embodiment, the first boot password is used to detect the first gesture sound verification password, so as to determine whether the three-axis deflection state parameter meets the requirement, and the second boot password is used to detect the second gesture sound verification password, so as to determine whether the gesture sound state parameter meets the requirement. After the password corresponding to the triaxial deflection state parameter passes, the gesture voice state parameter needs to be detected, and gesture voice identification is realized. Therefore, only after the first gesture sound verification password and the second gesture sound verification password pass, the current gesture sound verification password can be determined to be the starting password, and therefore the atomization device is convenient to start. In this embodiment, the first power-on password may be different from the second power-on password, for example, the first power-on password is a password corresponding to the actual posture deviation of the atomizing device, and the second power-on password is a password corresponding to a segment of audio recorded in advance by the user, that is, two different passwords are formed with the first power-on password. And after the boot password is replaced by the secondary gesture sound verification password, the boot password can be used as an old boot password for next password resetting, and the secondary gesture sound verification password is converted from a new boot password to the boot password to be reset in the next password resetting process.

Further, the detecting whether the first gesture verification password and the first power-on password match further includes: and when the first gesture sound verification password is not matched with the first starting password, sending an alarm signal to the atomization device. In this embodiment, when the first gesture sound verification password fails, it is indicated that the password corresponding to the current triaxial deflection state parameter is different from the power-on password, that is, it is indicated that the triaxial attitude deflection condition of the atomization device is different from the correct attitude deflection, that is, the current attitude deflection condition of the atomization device is wrong, and at this time, an alarm signal is sent to the atomization device to prompt that the power-on password input by the user is wrong.

In the above embodiments, the transcoding operation is to convert the high and low levels corresponding to each gesture sound state in the gesture sound state parameters into codes of 0 and 1, and then sort the codes according to a certain rule, so as to form the gesture sound verification password, where in the sorting rule for password generation, besides the sorting of codes according to the time sequence, there may be other password generation manners, for example, performing partial or total inverse code calculation on each code; as another example, each code is shifted. In summary, the transcoding operation is applicable in a manner that adjusts the encoding to form the authentication password.

It can be understood that, the acquisition of the attitude sound state parameters of the atomization device is realized through a signal acquisition module, and the signal acquisition module acquires the attitude sound states of each attitude sensor and the voice converter of the atomization device according to the own adopted frequency, so that the acquisition of the attitude sound state parameters is completed under a fixed sampling frequency, that is, the time interval between any two adjacent sampling of the attitude sound state parameters is fixed, and the attitude sound states here include a three-axis deflection state and an attitude sound state.

However, in the actual use process, the speed of the three-axis rotation of the atomization device by the user is different, that is, the three-axis rotation of some users is faster, and the three-axis rotation of other users is slower, and in different use environments, the speed of the three-axis rotation implemented by the users is different, which causes that the three-axis rotation of the user is faster, the gesture sound state parameters collected by the signal collection module with fixed sampling frequency may be missed, that is, part of the gesture sound state parameters are missed, and the gesture sound state parameters cannot be completely collected. When the three-axis rotation of the user is slow, the signal acquisition module may acquire the state parameters twice or more before one motion is finished, so that the gesture sound state parameters are repeated. Both of the above two cases will cause errors in the gesture sound verification password and the power-on password, thereby causing a decrease in the accuracy of generating the power-on password of the atomizer.

In order to improve the acquisition accuracy of the attitude sound state parameters, the method for acquiring the attitude sound state parameters of the atomization device further comprises the following steps:

acquiring working state parameters of the attitude sensor;

carrying out difference operation on the working state parameter and a preset reset state parameter to obtain a reset difference value;

detecting whether the reset differential value is matched with a preset differential value;

when the reset differential value is matched with the preset differential value, acquiring the reset time corresponding to the working state parameter;

and carrying out single acquisition operation on the working state parameters between any two adjacent reset times to obtain the attitude sound state parameters.

In this embodiment, the attitude sensors are three axial yaw angle sensors, for example, the attitude sensors include at least two of a heading axis yaw sensor, a pitch axis yaw sensor, and a roll axis yaw sensor, for example, when the heading axis yaw sensor is deflected to the left, corresponding attitude sound state parameters are all 1000. When the heading axis deflection sensor deflects to the right, the corresponding attitude sound state parameters are all 0100. When the pitch axis yaw sensor is raised, the corresponding attitude sound state parameter is 0010. When the pitch axis yaw sensor is bent downwards, the corresponding attitude sound state parameter is 0001. When the atomization device rotates and changes every time, a three-axis balance state is needed, namely the deflection angles detected by the course axis deflection sensor and the pitching axis deflection sensor are both 0, the corresponding attitude sound state parameter is 0000, and the preset reset state parameter is the attitude sound state parameter when the atomization device is in three-axis balance. Because the preset reset state parameter is greatly different from the state parameter in the gesture sound state, the working state parameter and the preset reset state parameter are subjected to differential operation, namely the current working state of the atomization device is compared with the reset state, and the obtained reset differential value is the difference change of the current working state of the atomization device. And then, matching the reset differential value with the preset differential value, wherein the preset differential value is a built-in working state differential value, and the comparison result between the preset differential value and the preset differential value determines whether the working state parameter corresponds to the reset working state. After the reset time corresponding to each reset state is determined, the working state parameters between two adjacent reset times can be collected, not only is multiple times of collection not needed, but also the attitude sound state parameters collected in the mode are more accurate, and the collection accuracy of the attitude sound state parameters is improved.

Further, when the attitude sensor is in a reset state, the problem that the duration of the reset state is too long exists, and once the duration of the reset state is too long, the change of the attitude sound state cannot be completed within a specified time, the atomization device is also in a working state for a long time, and the consumption of the electric energy of the battery is aggravated. In order to avoid the above situation, the single acquisition operation is performed on the working state parameters between any two adjacent reset times to obtain the attitude sound state parameters, and then the method further includes the following steps:

acquiring the duration of the reset state according to the reset time;

detecting whether the duration of the reset state is greater than or equal to a first preset duration;

and when the duration of the reset state is greater than or equal to the first preset duration, sending a password timeout signal to the atomization device to clear the acquired working state parameters.

In this embodiment, the first preset time period is set based on the first preset time, for example, a ratio of the first preset time period to the first preset time is 4/5 to 5/6, that is, the first preset time period is still within the first preset time. The reset state duration corresponds to a duration of the reset state within the first preset time, and whether the reset state is too long is determined by comparing the reset state duration with the first preset time. The duration of the reset state is longer than the first preset duration, which indicates that the time length of the current reset state of the atomization device is too long, and the time length is not enough to support the complete gesture sound state to be input, so that the accuracy of the acquired gesture sound state parameters is reduced. For the situation that the final gesture sound state parameters are incomplete, a specified password structure cannot be formed even if the gesture sound state parameters are used for transcoding operation, namely, the gesture sound verification password cannot be generated, in order to reduce the subsequent transcoding operation needlessness, namely, the power consumption of the atomization device, a password overtime signal is sent to the atomization device, so that the user can be informed that the gesture sound action is too slow, and the three-axis rotation action needs to be carried out again so as to generate the corresponding password.

Furthermore, in order to facilitate reminding a user of accelerating the three-axis rotation to complete the acquisition of the gesture sound state parameters within a first preset time, the method for detecting whether the duration of the reset state is greater than or equal to a first preset duration further comprises the following steps:

when the reset state duration is less than the first preset duration, detecting whether the reset state duration is greater than or equal to a second preset duration;

and when the duration of the reset state is greater than or equal to the second preset duration, sending an input acceleration signal to the atomization device.

In this embodiment, the second preset duration is less than the first preset duration, and the second preset duration is a minimum standard for the duration of the reset state, for example, when the duration of the reset state is less than the second preset duration, the number of times of change of the three-axis rotation of the user meets the requirement, that is, the three-axis rotation of the specified number of times can be completed within the first preset time; for another example, when the duration of the reset state is longer than the second preset duration, the number of times of change of the three-axis rotation motion of the user is small, and there is a case that the three-axis rotation motion of the designated number of times cannot be completed within the first preset duration, and at this time, the change of the three-axis rotation motion needs to be accelerated. Like this, to atomizing device sends and accelerates input signal for the user can directly know that current triaxial rotates the action comparatively slowly, informs the user through the mode such as vibration or digital display, thereby is convenient for accomplish the collection to gesture sound state parameter in the appointed time.

The application also provides an atomization device which is realized by adopting the gesture sound starting password generation method in any embodiment. In one embodiment, the atomization device is provided with a functional module corresponding to each step for realizing the gesture sound starting password generation method. The gesture sound starting password generation method of any one of the embodiments can be realized when the atomization device works, and comprises an atomizer, a gesture sensor, a voice converter and a control panel; the atomizer respectively with attitude sensor and voice converter connects, attitude sensor and voice converter still all with the control panel electricity is connected, the control panel is used for being connected with the battery pole. In this embodiment, the attitude sensor and the voice converter are configured to obtain attitude sound state parameters, the control board is configured to perform transcoding operation on the attitude sound state parameters to obtain an attitude sound verification password, and the control board is further configured to adjust a power-on password of the atomization device according to the attitude sound verification password. The gesture state of the atomizing device is acquired to obtain the corresponding gesture sound verification password, and the starting password is set through the gesture sound verification password, so that the starting password is formed based on the change sequence condition of the gesture, the forming mode of the starting password is not easy to crack, and the confidentiality of the atomizing device is improved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A gesture sound starting password generation method of an atomization device is characterized by comprising the following steps:

acquiring attitude and sound state parameters of the atomization device within preset time;

carrying out transcoding operation on the gesture sound state parameters to obtain gesture sound verification passwords;

and adjusting the starting password of the atomization device according to the gesture sound verification password.

2. The gesture sound starting password generation method according to claim 1, wherein the obtaining gesture sound state parameters of the atomization device includes:

and acquiring the three-axis deflection state parameters and the corresponding three-axis deflection time of the attitude sensor of the atomization device.

3. The gesture sound starting password generation method according to claim 2, wherein the obtaining gesture sound state parameters of the atomization device further includes:

and acquiring each attitude voice state parameter and corresponding attitude voice time of a voice converter of the atomization device.

4. The gesture sound startup password generation method according to claim 3, wherein the transcoding the gesture sound state parameter to obtain a gesture sound verification password comprises:

detecting whether the triaxial deflection state parameters are matched with the attitude voice state parameters;

when the triaxial deflection state parameters are matched with the attitude voice state parameters, arranging the triaxial deflection state parameters according to a first preset sequence according to the triaxial deflection time so as to obtain a triaxial verification password;

and setting the triaxial verification password as the gesture sound verification password.

5. The gesture sound power-on password generation method according to claim 4, wherein the adjusting the power-on password of the atomization device according to the gesture sound verification password comprises:

detecting whether the three-axis verification password is matched with a primary verification password;

and when the three-axis verification password is matched with the primary verification password, sending a starting password updating signal to the atomization device.

6. The gesture sound starting password generation method according to claim 5, wherein the detecting whether the three-axis verification password and the one-time verification password are matched further comprises:

acquiring gesture verification times according to the gesture sound state parameters;

detecting whether the gesture verification times are larger than preset verification times or not;

and when the gesture verification times are greater than the preset verification times, sending a verification prohibition signal to the atomization device.

7. The gesture sound startup password generation method according to claim 3, wherein the transcoding the gesture sound state parameter to obtain a gesture sound verification password comprises:

arranging the three-axis deflection state parameters according to a second preset sequence according to the three-axis deflection time to obtain a first gesture sound verification password;

arranging the attitude voice state parameters according to a third preset sequence according to the attitude voice time to obtain a second attitude voice verification password;

and acquiring the gesture sound verification password according to the first gesture sound verification password and the second gesture sound verification password.

8. The gesture sound boot password generation method according to claim 7, wherein the boot password comprises a first boot password and a second boot password, and the adjusting the boot password of the atomization device according to the gesture sound verification password comprises:

detecting whether the first gesture verification password is matched with a first power-on password;

when the first gesture sound verification password is matched with the first power-on password, detecting whether the second gesture sound verification password is matched with the second power-on password;

when the second gesture sound verification password is matched with the second starting password, the secondary gesture sound verification password of the atomization device is obtained again;

and replacing the secondary gesture sound verification password with a starting password of the atomization device.

9. The gesture sound boot password generation method according to claim 8, wherein the detecting whether the first gesture sound verification password and the first boot password match further comprises:

and when the first gesture sound verification password is not matched with the first starting password, sending an alarm signal to the atomization device.

10. An atomizer, which is characterized in that when in operation, the gesture sound starting password generation method according to any one of claims 1 to 9 can be realized, the atomizer comprises an atomizer, a gesture sensor, a voice converter and a control panel; the atomizer respectively with attitude sensor and voice converter connects, attitude sensor and voice converter still all with the control panel electricity is connected, the control panel is used for being connected with the battery pole.

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