CN111685393B - Electronic cigarette control method, electronic cigarette control device and electronic cigarette - Google Patents

Abstract

The embodiment of the application provides an electronic cigarette control method, an electronic cigarette control device and an electronic cigarette, wherein the electronic cigarette comprises a body and a pressure sensing module arranged in the body, and the electronic cigarette control method comprises the following steps: acquiring a pressure signal detected by a pressure sensing module; determining an operation gesture of a user according to the pressure signal; and executing the electronic cigarette control instruction corresponding to the operation gesture. The electronic cigarette control method, the electronic cigarette control device and the electronic cigarette provided by the embodiment of the application can realize the control operation of different functions of the electronic cigarette, and the whole interaction process is convenient and quick. In addition, the pressure sensing module is arranged in the body, so that the waterproof and dustproof effects can be achieved while the appearance consistency of the electronic cigarette is improved, and meanwhile, the cost can be effectively reduced.

Description

Electronic cigarette control method, electronic cigarette control device and electronic cigarette

Technical Field

The application relates to the technical field of electronic cigarettes, in particular to an electronic cigarette control method, an electronic cigarette control device and an electronic cigarette.

Background

The electronic cigarette is an electronic product imitating cigarettes, generates smoke for inhalation through atomizing tobacco juice, and can meet different requirements of smokers on tobacco tar with different concentrations and different tastes, so that the electronic product is widely popular with smokers. However, the electronic cigarettes on the market at present all adopt the interactive mode of entity keys, microphone or touch screen, the entity keys are started to heat by pressing the keys and are stopped to heat by loosening the keys, if the electronic cigarettes are provided with the display screen, parameters such as smoke quantity can be adjusted by the mode of key selection, however, the entity keys have the defects of poor experience effect, no dust and water prevention, interaction mode dead plates and the like. The miaow head sets up in the air current passageway of electron cigarette, opens the heating after the miaow head detects the air current, stops the heating after the air current stops, can simulate real cigarette's smoking action, however the miaow head only can open and close the heating, can't realize more interactions. However, the touch screen can realize checking or adjusting parameters such as smoke amount by clicking the screen, but has high cost, and has the problems of difficult touch operation, poor interaction experience and the like due to small touch screen area.

Disclosure of Invention

The embodiment of the application aims to provide an electronic cigarette control method, an electronic cigarette control device and an electronic cigarette, so as to solve the problems. The embodiment of the application realizes the aim through the following technical scheme.

In a first aspect, an embodiment of the present application provides an electronic cigarette control method, where the electronic cigarette includes a body and a pressure sensing module disposed in the body, and the electronic cigarette control method includes: acquiring a pressure signal detected by a pressure sensing module; determining an operation gesture of a user according to the pressure signal; and executing the electronic cigarette control instruction corresponding to the operation gesture.

In a second aspect, an embodiment of the present application provides an electronic cigarette control device, where the electronic cigarette includes a body and a pressure sensing module disposed on the body, and the electronic cigarette control device includes an acquisition module, a determination module and an execution module, where the acquisition module is configured to acquire a pressure signal detected by the pressure sensing module; the determining module is used for determining an operation gesture of a user according to the pressure signal; the execution module is used for executing the electronic cigarette control instruction corresponding to the operation gesture.

In a third aspect, an embodiment of the present application provides an electronic cigarette, where the electronic cigarette includes a body and a pressure sensing module disposed on the body, and the electronic cigarette further includes the electronic cigarette control device described above.

Compared with the prior art, the electronic cigarette control method provided by the embodiment of the application can determine the operation gesture of the user according to the pressure signal detected by the pressure sensing module, and control operation of different functions of the electronic cigarette can be realized by executing the electronic cigarette control instruction corresponding to the operation gesture, so that the whole interaction process is convenient and quick. In addition, the pressure sensing module is arranged in the body, so that the waterproof and dustproof effects can be achieved while the appearance consistency of the electronic cigarette is improved, and meanwhile, the cost can be effectively reduced.

Drawings

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

Fig. 1 shows a schematic structural diagram of an electronic cigarette provided by an embodiment of the present application.

Fig. 2 shows a schematic cross-sectional view of an electronic cigarette according to an embodiment of the present application.

Fig. 3 shows a schematic structural diagram of the electronic cigarette provided in the embodiment shown in fig. 2.

Fig. 4 is a schematic cross-sectional view of an electronic cigarette according to another embodiment of the present application.

Fig. 5 shows a flowchart of an electronic cigarette control method provided by an embodiment of the present application.

Fig. 6 shows a flowchart of step S20 in the electronic cigarette control method according to the embodiment of the present application.

Fig. 7 shows a flowchart of step S30 in the electronic cigarette control method according to the embodiment of the present application.

Fig. 8 is a flowchart illustrating step S312 in the electronic cigarette control method according to the embodiment of the present application.

Fig. 9 shows another flowchart of step S30 in the electronic cigarette control method according to the embodiment of the present application.

Fig. 10 is a flowchart illustrating step S322 in the electronic cigarette control method according to the embodiment of the present application.

Fig. 11 is another flowchart of step S322 in the electronic cigarette control method according to the embodiment of the present application.

Fig. 12 shows a schematic structural diagram of an electronic cigarette control device according to an embodiment of the present application.

Fig. 13 shows another schematic structural diagram of the electronic cigarette provided by the embodiment of the application.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present application and are not to be construed as limiting the present application.

In order to enable those skilled in the art to better understand the present application, a clear and complete description of the technical solution in the present embodiment will be provided below with reference to the accompanying drawings in the present embodiment. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In order to better understand the electronic cigarette control method, the electronic cigarette control device and the electronic cigarette provided by the embodiment of the application, the electronic cigarette provided by the embodiment of the application is described first, and the electronic cigarette control method and the electronic cigarette control device are applicable to the electronic cigarette.

Fig. 1 shows a schematic structural diagram of an electronic cigarette according to an embodiment of the present application, and as shown in fig. 1, an electronic cigarette 100 includes a body 10 and a pressure sensing module 20, where the pressure sensing module 20 is disposed in the body 10.

The pressure sensing module 20 is used to sense the pressure acting on the body 10, and the pressure sensing module 20 may employ a pressure sensor, such as a resistive pressure sensor, a capacitive pressure sensor, an inductive pressure sensor, or an ultrasonic pressure sensor. In other embodiments, the pressure sensing module 20 may also employ a push switch to sense the pressure applied to the body 10.

As an example, the pressure sensor is also called a force sensor, the pressure sensing module 20 may use a single force sensing resistor as the pressure sensing element, the resistance value of the force sensing resistor changes with the change of the applied pressure, and the measurement of the pressure may be achieved by detecting the resistance value of the force sensing resistor. The force-sensitive sensor can also adopt four force-sensitive resistors to form a pressure-sensitive element by means of bridge-assembling according to a Wheatstone full bridge, when the force-sensitive sensor is acted by pressure, the resistance values of the four force-sensitive resistors are changed, corresponding electric signal changes are generated at the output end of the Wheatstone bridge, and the measurement of pressure signals can be realized through subsequent circuit processing. The wheatstone full bridge is suitable for detecting small changes in resistance, and can improve the detection sensitivity of the pressure sensing module 20. The force sensor can also adopt two force sensitive resistors to form a pressure sensitive element by combining the bridge according to the mode of combining the wheatstone half bridge, and the measurement of pressure signals can be realized.

Fig. 2 shows a schematic cross-sectional view of an electronic cigarette according to an embodiment of the present application, as shown in fig. 2, the body 10 may include an outer surface 11 and an inner surface 12 opposite to each other, and the pressure sensing module 20 may be disposed on the inner surface 12, so as to improve the uniformity of the outer appearance of the electronic cigarette 100, and achieve the waterproof and dustproof effects.

Fig. 3 shows a schematic structural diagram of the electronic cigarette provided in the embodiment shown in fig. 2, and in combination with fig. 2 and 3, in this embodiment, the pressure sensing module 20 includes at least three circumferential force sensors 21 and at least one axial force sensor 22, where the at least three circumferential force sensors 21 are arranged at intervals along the circumference of the body 10, and the at least one axial force sensor 22 is arranged at intervals along the axis of the body 10 with any one of the circumferential force sensors 21. Various operation gestures of a user acting on the body, such as long press, short press, single-point press, multi-point press, single press, multiple presses and sliding, etc., can be determined according to the pressure signals detected by at least three circumferential force sensors 21 and one axial force sensor 22, and the detailed process is described in the related description of the electronic cigarette control method provided by the embodiment of the present application.

In the present embodiment, the cross section of the body 10 is circular, and at least three circumferential force sensors 21 may include a first force sensor 211, a second force sensor 212, and a third force sensor 213, the first force sensor 211, the second force sensor 212, and the third force sensor 213 being disposed at intervals along the circumference of the body 10. The at least one axial force sensor 22 may include a fourth force sensor 221, the fourth force sensor 221 being spaced apart from the second force sensor 212 along the axial direction of the body 10. The spacing between the at least three circumferential force sensors 21 may or may not be equal.

Fig. 4 is a schematic cross-sectional view of an electronic cigarette according to another embodiment of the present application, as shown in fig. 4, in some embodiments, a cross-section of a body 10 may be elliptical, the body 10 includes a face housing 13 and a bottom housing 14, a first force sensor 211, a second force sensor 212, and a third force sensor 213 may be disposed at intervals on the face housing 13, and a fourth force sensor 221 (shown with reference to fig. 3) may be disposed at intervals along an axial direction of the face housing 13 with the second force sensor 212. Thereby, the user can perform a touch operation on the face housing 13.

Of course, the body 10 may be of some other shape as long as it is ensured that the user can perform a sliding operation between at least three circumferential force sensors 21 in the circumferential direction of the body 10 and between the circumferential force sensors 21 and the axial force sensors 22 in the axial direction of the body 10.

Fig. 5 shows a flowchart of an electronic cigarette control method according to an embodiment of the present application, where the electronic cigarette control method may be applied to an electronic cigarette 100, and referring to fig. 1 to 5, the electronic cigarette control method may include steps S10 to S30.

Step S10, acquiring a pressure signal detected by the pressure sensing module 20.

In this embodiment, the pressure sensing module 20 is disposed in the body 10, and the pressure sensing module 20 may employ a force sensor, and the force sensor may detect the pressure of the user acting on the body 10 and generate a pressure signal when the user performs a touch operation. Wherein the pressure signal is in particular an electrical signal.

Step S20, determining an operation gesture of a user according to the pressure signal.

In general, when a user performs a long press or a short press operation, the duration of the electric signal output by the force-sensitive sensor is different, and the long duration may be determined as a long press gesture and the short duration may be determined as a short press gesture. When the user performs single-point pressing or multi-point pressing operation, the output pressure signals accord with different numbers of the force sensors of the preset effective threshold, and when only 1 pressure signal output by the force sensors accord with the preset effective threshold, the single-point pressing gesture can be determined; when the pressure signals output by more than 1 force-sensitive sensors accord with a preset effective threshold value, the multi-point pressing gesture can be determined. When a user performs single pressing or multiple pressing operations, the force-sensitive sensor outputs different numbers of electric signals in a preset time period, the single pressing gesture can be determined when the number of the electric signals is only one, and the multiple pressing gestures can be determined when the number of the electric signals is multiple. When the user performs the sliding operation, the pressing sequence of the force sensors is inconsistent, for example, the pressure signal output by the first force sensor 211 meets the requirement of being greater than the preset effective threshold, and the pressure signal output by the second force sensor 212 meets the requirement of being greater than the preset effective threshold, so that it can be determined that the user performs the sliding gesture of sliding from the first force sensor 211 to the second force sensor 212. Thus, from the pressure signal detected by the pressure sensing module 20, an operational gesture of the user may be determined, which may include one or more of a long press, a short press, a single point press, a multi-point press, a single press, multiple presses, and a swipe. Of course, other operation gestures may be identified according to the pressure signal, which is not particularly limited in the embodiment of the present application.

And step S30, executing an electronic cigarette control instruction corresponding to the operation gesture.

In this embodiment, the electronic cigarette control instruction is predefined, and may have multiple response mechanisms, so that multiple functions of the electronic cigarette 100 can be controlled in an operation manner, and step S30 may include:

according to the electronic cigarette control instruction, the electronic cigarette 100 is controlled to perform at least one operation of opening and closing of the atomizer, temperature control of the atomizer, atomization amount control of the atomizer, heating time length control of the atomizer, heating power control of the atomizer, connection of the electronic cigarette and the mobile terminal, switching of a display interface of the electronic cigarette and adjustment of page parameters of a current display interface of the electronic cigarette. Of course, other functions of the electronic cigarette 100 may also be implemented according to the electronic cigarette control instruction, which is not particularly limited in the embodiment of the present application.

The electronic cigarette control instructions and the operation gestures are in one-to-one correspondence, for example, long-press operation and short-press operation can be respectively associated with control instructions for controlling the on and off of the atomizer, and when the operation gesture of the user is recognized as the long-press gesture, the electronic cigarette 100 outputs the control instructions corresponding to the long-press gesture, and the atomizer can be started to heat. When the operation gesture is recognized as the short-press gesture, the electronic cigarette 100 outputs a control instruction corresponding to the short-press gesture, and the atomizer can be turned off.

According to the electronic cigarette control method provided by the embodiment of the application, the operation gesture of the user can be determined according to the pressure signal detected by the pressure sensing module 20, and the control operation of different functions of the electronic cigarette 100 can be realized by executing the electronic cigarette control instruction corresponding to the operation gesture, so that the whole interaction process is convenient and quick. In addition, the pressure sensing module 20 is disposed in the body 10, so as to improve the uniformity of the appearance of the electronic cigarette 100 and achieve the waterproof and dustproof effects.

Fig. 6 is a flowchart illustrating step S20 in the electronic cigarette control method according to the embodiment of the present application, and referring to fig. 1 to fig. 6, step S20 may include step S21 and step S22.

And S21, determining at least one compression information of a pressure value, a compression position, a compression duration, compression times in a preset time and time intervals of compression of two adjacent times according to the pressure signal.

Step S22, determining an operation gesture of a user according to at least one pressed information, wherein the operation gesture comprises at least one of long press, short press, single-point press, multi-point press, single press, multiple presses and sliding.

To facilitate the user in determining the touch location, in some embodiments, the electronic cigarette 100 may identify the first touch location, the second touch location, the third touch location, and the fourth touch location on the appearance surface 11 through graphics or symbols. The first touch position may be a set position of the first force sensor 211, the second touch position may be a set position of the second force sensor 212, the third touch position may be a set position of the third force sensor 213, and the fourth touch position may be a set position of the fourth force sensor 221.

In some embodiments, when the circumferential force sensor 21 includes four or more force sensors, the first touch position may be disposed between two force sensors, and an average value of the pressure values, the pressed time periods, and the like detected by the two force sensors may be used as the pressure value and the pressed time period of the first touch position.

When a user performs a touch operation, the corresponding pressure values, the pressure duration, the number of times of pressure in a preset time, the time interval between two adjacent pressures, and the like of the first touch position, the second touch position, the third touch position and the fourth touch position can be determined according to the pressure signals detected by the first force sensor 211, the second force sensor 212, the third force sensor 213 and the fourth force sensor 221.

For example, when the pressure values of the first touch position and the third touch position are greater than a preset effective threshold (e.g., 3N), and the pressure values of the second touch position and the fourth touch position are less than the preset effective threshold, it may be determined that the first touch position and the third touch position are pressed positions, and the operation gesture is a two-point press. When the pressure value of only one touch bit is larger than a preset effective threshold value, the operation gesture can be determined to be a single-point pressing gesture. The multi-point press gesture may also include a three-point press gesture, a four-point press gesture, and the like. The pressure value of the touch position can be identified as the pressed position when the pressure value of the touch position is larger than a preset effective threshold value, and the problem of false touch of a user can be effectively avoided.

And when the pressed time length of the pressed position is greater than or equal to the set time length, determining that the operation gesture is a long press gesture. And when the pressed duration of the pressed position is smaller than the set duration, determining that the operation gesture is a short press gesture. The long press gesture includes a single point long press and a multi-point long press gesture, and the short press gesture includes a single point short press and a multi-point short press gesture.

When the pressed position is pressed for a single number of times within the preset time, the operation gesture can be determined to be a single pressing gesture. When the number of times of pressing the pressed position is a plurality of times within the preset time, the operation gesture can be determined to be a plurality of pressing gestures, and the plurality of pressing gestures comprise two pressing gestures, three pressing gestures and the like.

In addition, whether the operation gesture slides or not can be judged according to the pressed sequence. For example, the pressure value of the first touch bit meets the requirement of being greater than the preset effective threshold value, and the pressure value of the second touch bit meets the requirement of being greater than the preset effective threshold value, so that the operation gesture can be determined to be a circumferential sliding gesture sliding from the first touch bit to the second touch bit.

According to the electronic cigarette control method provided by the embodiment of the application, the three circumferential force sensors 21 and one axial force sensor 22 are arranged in the electronic cigarette 100, so that various operation gestures such as long press, short press, single-point press, multi-point press, single press, multiple presses and sliding can be identified, the sliding operation also comprises rotary sliding and linear sliding, rich interaction modes can be provided for users, the volume of the force sensors is small, the internal space of the electronic cigarette 100 is not occupied excessively, and the electronic cigarette control method is easy to realize. Meanwhile, different operation gestures can be associated with different electronic cigarette control instructions, after the identifiable operation gestures are increased, the number of the electronic control instructions can be increased, more electronic cigarette 100 functions can be operated and controlled, and the using functions of the electronic cigarette 100 are greatly enriched. In addition, the user can perform sliding operation along the circumferential direction and the axial direction of the body 10, so that the touch area of the electronic cigarette 100 is increased, and the use of the electronic cigarette is convenient for the user.

Fig. 7 is a flowchart illustrating step S30 in the electronic cigarette control method according to the embodiment of the present application, and referring to fig. 1 to fig. 7, step S30 may further include step S311 and step S312.

And step 311, when the operation gesture is a multi-point pressing gesture, determining whether at least two pressed positions of the multi-point pressing gesture are symmetrical to each other. For example, it is determined whether or not the two pressed positions are axisymmetric about the axis of the body 10, or whether or not they are centrosymmetric about any point on the axis of the body 10, whether or not they are rotationally symmetric about any point on the axis of the body 10 by 120 °, or the like.

And step S312, if yes, executing an electronic cigarette control instruction corresponding to the multi-point pressing gesture.

As an example, when a user performs single-point pressing on the electronic cigarette 100, it is possible that one finger contacts the first touch location to hold the electronic cigarette 100, and another finger performs single-point pressing on the second touch location, and when the finger strength is large, the pressure values of the first touch location and the second touch location are both greater than a preset effective threshold, which results in that the electronic cigarette 100 erroneously recognizes that the single-point pressing of the user is erroneously recognized as multi-point pressing. The electronic cigarette control method executes the corresponding control instruction after judging that the pressed positions of the multi-point pressing gestures are symmetrical, so that the situation that the single-point pressing is mistakenly recognized as the multi-point pressing can be avoided, and the occurrence of false touch is reduced.

Fig. 8 is a flowchart illustrating step S312 in the electronic cigarette control method according to the embodiment of the present application, and in combination with fig. 1 to 8, step S312 may include steps S3121 to S3123.

Step S3121, determining pressure values of at least two pressed positions according to the pressure signal.

Step S3122, executing a first control instruction corresponding to the multi-point pressing gesture when the pressure values of the at least two pressed positions are both greater than the first threshold.

Step S3123, executing a second control instruction corresponding to the multi-point pressing gesture when the pressure values of the at least two pressed positions are both smaller than the second threshold. Wherein the first threshold is greater than or equal to the second threshold.

As an example, the multi-point press gesture is a two-point press, and the first control instruction is executed when the pressure values of both pressed positions are greater than a first threshold value (e.g., 7N). And executing the second control command when the pressure values of the two pressed positions are smaller than a second threshold value (such as 5N). Therefore, different control instructions can be output according to different pressure values of the pressed position, and the using functions of the electronic cigarette are enriched. It should be noted that, since the pressure value of the touch bit can be identified as the pressed position only when the pressure value is greater than the preset effective threshold, the second threshold needs to be greater than the preset effective threshold while being smaller than or equal to the first threshold.

Fig. 9 is another flowchart illustrating step S30 in the electronic cigarette control method according to the embodiment of the present application, and referring to fig. 1 to fig. 9, step S30 may further include step S321 and step S322.

In step S321, when the operation gesture is a sliding gesture, corresponding sliding parameters are obtained according to the pressure signal, where the sliding parameters include at least one of a sliding track, a sliding speed, a sliding direction and a sliding distance.

Taking the setting positions of the first touch sensor 211, the second touch sensor 212, the third touch sensor 213 and the fourth touch sensor 221 as examples, when the user slides from the second touch sensor 212 to the third touch sensor 213, if the pressure values output by the second touch sensor 212 and the third touch sensor 213 are both greater than the preset effective threshold, the second touch sensor is pressed first, the second touch sensor can be determined to be the first pressed position, the third touch sensor is determined to be the second pressed position, the sliding track can be determined to rotationally slide along the circumferential direction of the electronic cigarette 100, the sliding direction is from the second touch sensor 213 to the third touch sensor, the sliding distance is equal to the arc length between the second touch sensor and the third touch sensor, the sliding speed can be calculated according to the arc length between the second touch sensor 212 and the third touch sensor and the pressing time, the starting time point of the pressing is the effective threshold when the pressure value of the first pressing time point is the first pressure-receiving time-ending time, and the effective time length of the first pressing time point is the second pressure-ending time point of the increasing time is smaller than the preset pressure-ending time of the first pressure-receiving time.

When a user slides along the first touch control position, the second touch control position and the third touch control position in sequence, if the pressure values of the first touch control position, the second touch control position and the third touch control position are all larger than a preset effective threshold value, the first touch control position can be determined to be a first pressed position, the second touch control position is determined to be a second pressed position and the third touch control position is determined to be a third pressed position according to the pressed sequence, the sliding track can be determined to slide along the rotation of the electronic cigarette 100 in the circumferential direction, the sliding direction is from the first touch control position to the third touch control position, and the sliding distance is equal to the total arc length among the first touch control position, the second touch control position and the third touch control position. The sliding speed can be calculated according to the total arc length and the pressing time, the starting time point of the pressing time is the time when the pressure value of the first pressed position starts to be larger than the preset effective threshold value in the process of increasing and changing, and the ending time point is the time when the pressure value of the third pressed position starts to be smaller than the preset effective threshold value in the process of decreasing and changing. The rest of the rotation sliding along the circumferential direction of the electronic cigarette 100 may refer to the above process, and will not be described herein.

When the user slides from the second touch position to the fourth touch position, the second touch position is determined to be the first pressed position according to the pressed sequence, the fourth touch position is determined to be the second pressed position, the sliding track can be determined to slide linearly along the axial direction of the electronic cigarette 100, the sliding direction is from the second touch position to the fourth touch position, the sliding distance can be equal to the distance between the second touch position and the fourth touch position, the sliding speed can be calculated according to the distance between the second touch position and the fourth touch position and the pressing duration, the moment when the pressure value of the first pressed position starts to be larger than a preset effective threshold value in the initial time point of the pressing duration in the increasing process, the moment when the pressure value of the second pressed position starts to be smaller than the preset effective threshold value in the ending time point in the decreasing process of the second pressed position, and the rest of the linear sliding along the axial direction of the electronic cigarette 100 can refer to the above processes, and the rest of the processes are not repeated.

Step S322, executing the electronic cigarette control command corresponding to the sliding gesture and the sliding parameter.

For example, when the sliding speed of the rotational sliding along the circumferential direction of the electronic cigarette 100 meets the condition, the display interface of the screen, such as an electric quantity display interface, a smoking number display interface, a time display interface, a heating display interface, and the like, may be switched. In addition, the value of the current page display parameter can be adjusted according to the sliding direction of the linear sliding along the axial direction of the electronic cigarette 100, for example, the second touch position slides towards the fourth touch position, so as to increase the heating power of the atomizer, and the fourth touch position slides towards the second touch position, so as to reduce the heating power of the atomizer.

According to the electronic cigarette control method provided by the embodiment of the application, the sliding parameters of the sliding gesture can be obtained according to the pressure signal, so that the electronic cigarette control instruction corresponding to the sliding gesture and the sliding parameters is executed, rich interaction modes can be provided for users, more electronic cigarette functions can be operated and controlled after the identifiable interaction modes are added, and the using functions of the electronic cigarette 100 are enriched.

Fig. 10 is a flowchart illustrating step S322 in the electronic cigarette control method according to the embodiment of the present application, and referring to fig. 1 to fig. 10, step S322 may include step S3221 and step S3222.

In step S3221, the type of the sliding track is determined according to the pressure signal, where the type of the sliding track includes at least one of linear sliding along the axial direction of the electronic cigarette 100 and rotational sliding along the circumferential direction of the electronic cigarette 100.

Step S3222, execute the electronic cigarette control instruction corresponding to the type of the sliding track.

According to the electronic cigarette control method provided by the embodiment of the application, different control instructions can be executed according to different sliding tracks, different electronic cigarette functions can be operated and controlled, and the linear sliding along the axial direction of the electronic cigarette and the rotary sliding along the circumferential direction of the electronic cigarette are intuitively and conveniently operated, so that the electronic cigarette control method is convenient for users to use. The specific process of determining whether the sliding track is a linear sliding along the axial direction of the electronic cigarette 100 or a rotational sliding along the circumferential direction of the electronic cigarette 100 may refer to the relevant description of the foregoing embodiments, which is not repeated herein.

Fig. 11 is another flowchart illustrating step S322 in the electronic cigarette control method according to the embodiment of the present application, and referring to fig. 1 to 11, step S322 may further include steps S3223 to S3225.

Step S3223, judging whether the sliding speed is greater than the speed threshold.

The sliding speed may be calculated according to the distance between the two pressed positions or the arc length and the pressing duration, and the related description of the above embodiment is specifically referred to and will not be repeated herein.

Step S3224, when the sliding speed is greater than the speed threshold, the display interface of the electronic cigarette 100 is switched according to the sliding direction.

For example, when the sliding speed is greater than the speed threshold and the sliding direction is the second touch position toward the first touch position, the current page may be switched to the page that is the last page of the current page. When the sliding speed is greater than the speed threshold and the second touch position of the sliding direction faces the third touch position, the current page can be switched to the next page of the current page.

Step S3225, when the sliding speed is less than or equal to the speed threshold, switching the first parameter displayed on the current display interface of the electronic cigarette 100 to the second parameter corresponding to the current sliding distance according to the change of the sliding distance; the first parameter and the second parameter respectively comprise at least one of atomization amount, heating power, heating duration and heating temperature.

As an example, the first parameter may include an atomization amount, the second parameter may include heating power and heating duration, when the sliding distance is a first sliding distance from the first touch position to the second touch position, the atomization amount displayed on the current interface of the electronic cigarette 100 may be switched to the heating power corresponding to the first sliding distance, and the user may learn the magnitude of the heating power. When the sliding distance is a third sliding distance from the first touch position to the third touch position through the second touch position, the atomization amount displayed on the current interface of the electronic cigarette 100 can be switched to a heating duration corresponding to the second sliding distance, and the user can know the heating duration. Therefore, the first parameters of the current page display can be directly switched to the second parameters to be displayed through the difference of the sliding distances, multiple sliding operations are not needed, and the operation is convenient and quick.

According to the electronic cigarette control method provided by the embodiment of the application, the operation gesture of the user can be determined according to the pressure signal detected by the pressure sensing module 20, and the control operation of different functions of the electronic cigarette 100 can be realized by executing the electronic cigarette control instruction corresponding to the operation gesture, so that the whole interaction process is convenient and quick. In addition, the pressure sensing module 20 is disposed in the body 10, so as to improve the uniformity of the appearance of the electronic cigarette 100, achieve the waterproof and dustproof effects, and effectively reduce the cost.

Fig. 12 is a schematic structural diagram of an electronic cigarette control device according to an embodiment of the present application, and referring to fig. 1 and fig. 12, an electronic cigarette control device 200 includes an obtaining module 210, a determining module 220, and an executing module 230, and the electronic cigarette control device 200 may apply the electronic cigarette 100.

The acquiring module 210 is configured to detect a pressure signal by the pressure sensing module 20, the determining module 220 is configured to determine an operation gesture of a user according to the pressure signal, and the executing module 230 is configured to execute an electronic cigarette control instruction corresponding to the operation gesture.

In this embodiment, the execution module 230 is specifically configured to control the electronic cigarette to perform at least one of turning on and off the atomizer, controlling a temperature of the atomizer, controlling an atomization amount of the atomizer, controlling a heating time of the atomizer, controlling a heating power of the atomizer, establishing a connection between the electronic cigarette and the mobile terminal, switching a display interface of the electronic cigarette, and adjusting a page parameter of a current display interface of the electronic cigarette according to an electronic cigarette control instruction.

In this embodiment, the determining module 220 includes a calculating module and a result outputting module, where:

the calculation module is used for determining at least one compression information of a pressure value, a compression position, a compression duration, compression times in a preset time and time intervals of compression of two adjacent times according to the pressure signal;

and the result output module is used for determining an operation gesture of a user according to at least one pressed information, wherein the operation gesture comprises at least one of long press, short press, single-point press, multi-point press, single press, multiple presses and sliding.

In this embodiment, the execution module 230 includes a multi-point pressing execution module, where the multi-point pressing execution module is configured to determine whether at least two pressed positions of the multi-point pressing gesture are symmetrical to each other when the operation gesture is the multi-point pressing gesture; if yes, executing an electronic cigarette control instruction corresponding to the multi-point pressing gesture.

In this embodiment, the multi-point pressing execution module includes:

the multi-point pressing calculation module is used for determining pressure values of at least two pressed positions according to the pressure signals;

the first execution module is used for executing a first control instruction corresponding to the multi-point pressing gesture when the pressure values of at least two pressed positions are larger than a first threshold value;

the multi-point pressing second execution module is used for executing a second control instruction corresponding to the multi-point pressing gesture when the pressure values of at least two pressing positions are smaller than a second threshold value; wherein the first threshold is greater than or equal to the second threshold. In this embodiment, the execution module 230 further includes:

the sliding gesture calculation module is used for acquiring corresponding sliding parameters according to the pressure signal when the operation gesture is a sliding gesture, wherein the sliding parameters comprise at least one of a sliding track, a sliding speed, a sliding direction and a sliding distance;

and the sliding gesture execution module is used for executing the electronic cigarette control instruction corresponding to the sliding gesture and the sliding parameter.

In this embodiment, the sliding gesture execution module is further configured to determine a type of a sliding track according to the pressure signal, and execute an electronic cigarette control instruction corresponding to the type of the sliding track. The sliding track comprises at least one of linear sliding along the axial direction of the electronic cigarette and rotary sliding along the circumferential direction of the electronic cigarette.

In some embodiments, the swipe gesture execution module is further configured to determine whether the swipe speed is greater than a speed threshold; when the sliding speed is greater than the speed threshold, switching a display interface of the electronic cigarette according to the sliding direction; when the sliding speed is smaller than or equal to the speed threshold, switching a first parameter displayed on a current display interface of the electronic cigarette into a second parameter corresponding to the current sliding distance according to the change of the sliding distance; the first parameter and the second parameter respectively comprise at least one of atomization amount, heating power, heating duration and heating temperature.

It can be clearly understood by those skilled in the art that the electronic cigarette control device 200 provided in the embodiment of the present application can implement each process in the foregoing method embodiment, and for convenience and brevity of description, the specific working process of the foregoing description device and module may refer to the corresponding process in the foregoing method embodiment, which is not repeated herein.

According to the electronic cigarette control device 200 provided by the embodiment of the application, the operation gesture of the user can be determined according to the pressure signal detected by the pressure sensing module 20, and the control operation of different functions of the electronic cigarette 100 can be realized by executing the electronic cigarette control instruction corresponding to the operation gesture, so that the whole interaction process is convenient and quick. In addition, the pressure sensing module 20 is disposed in the body 10, so that the waterproof and dustproof effects can be achieved while the appearance consistency of the electronic cigarette 100 is improved, and meanwhile, the cost can be effectively reduced.

Referring to fig. 13, the electronic cigarette 100 according to the embodiment of the present application further includes an electronic cigarette control device 200, where the electronic cigarette control device 200 may be disposed in the body 10 and electrically connected to the pressure sensing module 20.

For detailed structural features of the electronic cigarette 100, please refer to the detailed description in the above embodiments. Since the electronic cigarette 100 includes the electronic cigarette control device 200, the electronic cigarette control device 200 has all the advantages that the electronic cigarette control device 200 has, and will not be described herein.

The present application is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present application.

Claims (9)

1. An electronic cigarette control method, characterized in that the electronic cigarette comprises a body and a pressure sensing module arranged in the body, the pressure sensing module comprises at least three circumferential force sensors and at least one axial force sensor, the at least three circumferential force sensors are arranged at intervals along the circumference of the body, and the axial force sensor and any one circumferential force sensor are arranged at intervals along the axial direction of the body, the electronic cigarette control method comprises:

acquiring a pressure signal detected by the pressure sensing module;

determining an operation gesture of a user according to the pressure signals, wherein the operation gesture comprises single-point pressing and multi-point pressing, and when the pressure signals output by only 1 force-sensitive sensor accord with a preset effective threshold, the operation gesture can be determined to be the single-point pressing gesture; when the pressure signals output by more than 1 force-sensitive sensors accord with a preset effective threshold value, the pressure signals can be determined to be multipoint pressing gestures;

executing the electronic cigarette control instruction corresponding to the operation gesture, including: when the operation gesture is the multi-point pressing gesture, judging whether at least two pressed positions of the multi-point pressing gesture are symmetrical to each other or not; and if yes, executing an electronic cigarette control instruction corresponding to the multi-point pressing gesture.

2. The electronic cigarette control method of claim 1, wherein the determining an operation gesture of a user from the pressure signal comprises:

determining at least one compression information of a pressure value, a compression position, a compression duration, compression times in a preset time and time intervals of compression of two adjacent times according to the pressure signal;

and determining an operation gesture of the user according to the at least one pressed information, wherein the operation gesture further comprises at least one of long press, short press, single press, multiple presses and sliding.

3. The electronic cigarette control method according to claim 1, wherein the executing the electronic cigarette control instruction corresponding to the operation gesture includes:

and controlling the electronic cigarette to perform at least one operation of opening and closing of the atomizer, temperature control of the atomizer, atomization amount control of the atomizer, heating time length control of the atomizer, heating power control of the atomizer, connection of the electronic cigarette and the mobile terminal, switching of a display interface of the electronic cigarette and adjustment of page parameters of a current display interface of the electronic cigarette according to the electronic cigarette control instruction.

4. The electronic cigarette control method of claim 1, wherein the executing the electronic cigarette control instruction corresponding to the multi-point press gesture comprises:

determining pressure values of the at least two pressed positions according to the pressure signals; when the pressure values of the at least two pressed positions are both larger than a first threshold value, executing a first control instruction corresponding to the multi-point pressing gesture;

executing a second control instruction corresponding to the multi-point pressing gesture when the pressure values of the at least two pressed positions are smaller than a second threshold value;

wherein the first threshold is greater than or equal to the second threshold.

5. The electronic cigarette control method according to claim 2, wherein the executing the electronic cigarette control instruction corresponding to the operation gesture includes:

when the operation gesture is a sliding gesture, acquiring corresponding sliding parameters according to the pressure signal, wherein the sliding parameters comprise at least one of a sliding track, a sliding speed, a sliding direction and a sliding distance;

and executing the electronic cigarette control instruction corresponding to the sliding gesture and the sliding parameter.

6. The electronic cigarette control method of claim 5, wherein the executing the electronic cigarette control instructions corresponding to the swipe gesture and the swipe parameter comprises:

judging the type of the sliding track according to the pressure signal, wherein the type of the sliding track comprises at least one of linear sliding along the axial direction of the electronic cigarette and rotary sliding along the circumferential direction of the electronic cigarette;

and executing an electronic cigarette control instruction corresponding to the type of the sliding track.

7. The electronic cigarette control method of claim 5, wherein the executing the electronic cigarette control instructions corresponding to the swipe gesture and the swipe parameter comprises:

judging whether the sliding speed is greater than a speed threshold;

when the sliding speed is greater than the speed threshold, switching a display interface of the electronic cigarette according to the sliding direction;

when the sliding speed is smaller than or equal to the speed threshold, switching a first parameter displayed on a current display interface of the electronic cigarette into a second parameter corresponding to the current sliding distance according to the change of the sliding distance; the first parameter and the second parameter respectively comprise at least one of atomization amount, heating power, heating duration and heating temperature.

8. An electronic cigarette control device, its characterized in that, electronic cigarette control device is applied to the electronic cigarette, the electronic cigarette include the body with set up in the pressure sensing module of body, pressure sensing module includes at least three circumference force sensor and at least one axial force sensor, at least three circumference force sensor follows the circumference interval arrangement of body, axial force sensor and arbitrary circumference force sensor follow the axial interval arrangement of body, electronic cigarette control device includes:

the acquisition module is used for acquiring the pressure signal detected by the pressure sensing module;

the determining module is used for determining an operation gesture of a user according to the pressure signals, wherein the operation gesture comprises single-point pressing and multi-point pressing, and when the pressure signals output by only 1 force-sensitive sensor accord with a preset effective threshold, the operation gesture can be determined to be the single-point pressing gesture; when the pressure signals output by more than 1 force-sensitive sensors accord with a preset effective threshold value, the pressure signals can be determined to be multipoint pressing gestures;

the execution module is used for executing an electronic cigarette control instruction corresponding to the operation gesture, and judging whether at least two pressed positions of the multi-point pressing gesture are symmetrical to each other or not when the operation gesture is the multi-point pressing gesture; and if yes, executing an electronic cigarette control instruction corresponding to the multi-point pressing gesture.

9. An electronic cigarette, characterized in that the electronic cigarette comprises a body and a pressure sensing module arranged on the body, wherein the pressure sensing module comprises at least three circumferential force sensors and at least one axial force sensor, the at least three circumferential force sensors are arranged at intervals along the circumference of the body, the axial force sensors and any one circumferential force sensor are arranged at intervals along the axis of the body, and the electronic cigarette further comprises the electronic cigarette control device according to claim 8.