CN105377063A

CN105377063A - Electronic cigarette and control method therefor

Info

Publication number: CN105377063A
Application number: CN201480000231.0A
Authority: CN
Inventors: 刘秋明
Original assignee: Kimree Technology Co Ltd
Current assignee: Kimree Technology Co Ltd
Priority date: 2014-05-19
Filing date: 2014-05-19
Publication date: 2016-03-02
Also published as: WO2015176210A1

Abstract

An electronic cigarette and a control method therefor, comprising an electronic cigarette body. The electronic cigarette body is provided with a microcontroller (4), a voice module (5), and a touch module (6). Multiple touch areas (11) are provided on the surface of the electronic cigarette body. The voice module (5) and the touch module (6) are connected to the microcontroller (4). The touch module (6) is used for detecting touch signals in the different touch areas (11) and for converting the signals into corresponding electric signals to be transmitted to the microcontroller (4). When the electric signals transmitted by the touch module (6) are analyzed by the microcontroller (4), same controls the voice module (5) to emit voices corresponding to the touch areas (11). The electronic cigarette produces different musical notes when a user either touches or approaches the touch module (6), the user is guided by music to switch between different fingers in holding the electronic cigarette while smoking, and cases of fatigued finger caused by using only certain fingers in holding the electronic cigarette are prevented, thus enhancing user experience.

Description

Electronic cigarette and control method thereof

Technical Field

The invention relates to the field of electronic cigarettes, in particular to an electronic cigarette and a control method thereof.

Background

The electronic cigarette is also named as a virtual cigarette and an electronic cigarette and is mainly used for quitting smoking and replacing cigarettes. It has the same appearance and taste as cigarette, even has more taste than common cigarette, and can suck cigarette and taste like cigarette.

The electronic cigarette has no tar, suspended particles and other harmful components in the cigarette, so that if the time for smoking the cigarette is slowly transferred to the electronic cigarette, the purpose of quitting smoking is achieved, and the user is far away from the chemical substances such as nicotine and the like which are harmful to health.

The habits of the user in using the electronic cigarette and the cigarette are generally the same, i.e., the user usually takes a puff by holding the cigarette with one of two fingers. However, the electronic cigarette in the prior art is provided with electronic components such as a battery, and the weight of the electronic cigarette is several times that of a cigarette made of tobacco, and if the electronic cigarette is held by two fingers for smoking for a long time, the fingers are easy to fatigue, the user experience is poor, and the electronic cigarette is not beneficial to use and smoking cessation; in addition, the existing electronic cigarette has no entertainment function, can only be used for smoking, has single function, cannot effectively attract users, is boring to use, is not beneficial to popularization of the electronic cigarette, and has poor smoking cessation effect.

The prior art is deficient and needs improvement.

Disclosure of Invention

The invention aims to solve the technical problem that the electronic cigarette in the prior art is easy to cause finger fatigue of a user and has poor smoking cessation effect, and provides the electronic cigarette capable of relieving the finger fatigue and the control method thereof.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a structure electron cigarette, includes the electron cigarette body, the electron cigarette body is provided with microcontroller, voice module and touch module, electron cigarette body surface has a plurality of touch areas, wherein: the voice module and the touch module are both connected with the microcontroller;

the touch module is used for detecting touch signals in different touch areas, converting the corresponding touch signals of the different touch areas into corresponding electric signals and sending the electric signals to the microcontroller;

and after analyzing the electric signal sent by the touch module, the microcontroller controls the voice module to send out voice corresponding to the touch area.

In above-mentioned electron cigarette, touch module includes touch-sensitive chip and a plurality of touch button, wherein: a touch key is correspondingly arranged in each touch area, each touch key is respectively connected to a touch input port corresponding to the touch sensing chip, and an output port of the touch sensing chip is connected to the microcontroller;

each touch key is used for sensing a touch action when a user touches the corresponding touch area and sending a corresponding touch signal to the touch sensing chip, and the touch sensing chip converts the touch signal into a corresponding first electric signal and sends the corresponding first electric signal to the microcontroller;

when the microcontroller receives the first electric signals which are sent by the touch sensing chip and correspond to different touch areas, the first electric signals are converted into corresponding voice control signals and sent to the voice module; and the voice module sends out voice corresponding to the touch area according to the received voice control signal.

In the electronic cigarette, after the time that the user contacts one of the touch areas exceeds a preset time, the microcontroller starts a piano playing function of the electronic cigarette or a function of playing different music.

In the electronic cigarette, the voice comprises a plurality of scales, and the voice module can send out the scales corresponding to the touch areas by contacting the touch areas corresponding to different touch keys by a user; or the voice comprises a plurality of kinds of music, and the voice module plays the music corresponding to the touch area by contacting the touch area corresponding to different touch keys by the user.

In the electronic cigarette, the electronic cigarette further comprises a plurality of indicating units connected with the microcontrollers, each indicating unit corresponds to one touch key, and when a user contacts touch areas corresponding to different touch keys, the microcontrollers control the corresponding indicating units to work.

In the electronic cigarette, each indicating unit comprises a light emitting diode and a resistor which are connected between the microcontroller and the ground in series, and when a user touches touch areas corresponding to different touch keys, the microcontroller controls the corresponding light emitting diode to be turned on.

In the electronic cigarette, after the time that the user contacts the touch area for starting the piano playing function or the function of playing different music of the electronic cigarette exceeds the preset time, the piano playing function or the function of playing different music of the electronic cigarette is closed.

In the electronic cigarette, the touch sensing chip is JG606, the microcontroller is SN8P2711B, the number of the touch KEYs is six, and the touch KEYs are K1 to K6, the six touch KEYs K1 to K6 are correspondingly connected to KEY5 to KEY0 pins of the touch sensing chip, the OUT0 to OUT2 pins of the touch sensing chip are correspondingly connected to P4.4 pin, P4.3 pin and P0.1 pin of the microcontroller, and the P4.0 pin and P4.1 pin of the microcontroller are connected to the voice module;

each touch KEY is used for sensing a touch action when a user touches a corresponding touch area, sending a corresponding touch signal to correspond to KEY 5-KEY 0 pins of the touch sensing chip, outputting a first electric signal corresponding to each touch area through OUT 0-OUT 2 pins of the touch sensing chip and sending the first electric signal to the microcontroller, receiving the first electric signal by a P4.4 pin, a P4.3 pin and a P0.1 pin of the microcontroller, converting the first electric signal into a corresponding voice control signal by the microcontroller according to the received first electric signal, sending the voice control signal to a voice module through the P4.0 pin and the P4.1 pin, and sending a voice corresponding to the touch area by the voice module according to the received voice control signal; wherein the first electrical signal is a BCD code.

In the above electronic cigarette, the touch module includes a plurality of photosensitive sensors connected to the microcontroller, wherein: each touch area is correspondingly provided with a photosensitive sensor;

each photosensitive sensor is used for detecting touch signals of different touch areas, converting the touch signals into corresponding second electric signals and sending the second electric signals to the microcontroller;

the microcontroller is used for sending a corresponding voice control signal to the voice module according to the received second electric signal, and the voice module sends out voice corresponding to the touch area according to the received voice control signal.

In above-mentioned electron cigarette, each photosensitive sensor all includes diode and the photo resistance of series connection between power module and microcontroller, the positive pole of diode with power module connects, the negative pole of diode with photo resistance's one end is connected, photo resistance's the other end with microcontroller connects.

In the electronic cigarette, each photosensitive sensor further comprises a current-limiting resistor, one end of the current-limiting resistor is connected with the connecting point of the photosensitive resistor and the microcontroller, and the other end of the current-limiting resistor is grounded.

In the electronic cigarette, the electronic cigarette further comprises a switch unit connected with the microcontroller and used for starting and closing the playing function of the electronic cigarette or playing different music.

In the electronic cigarette, the voice comprises a plurality of scales, a user contacts or approaches to touch areas corresponding to different photosensitive sensors, and the voice module sends out the scales corresponding to the touch areas; or the voice comprises a plurality of kinds of music, the user contacts or approaches to the touch areas corresponding to the different photosensitive sensors, and the voice module plays the music corresponding to the touch areas.

In the electronic cigarette, the type of the microcontroller is SN8P1808, the number of the photosensitive sensors is six, the signal output end of each photosensitive sensor is correspondingly connected to pins P4.0 to P4.5 of the microcontroller, and the pin P5.3 and the pin P5.4 of the microcontroller are connected to the voice module;

when a user contacts or approaches to touch areas corresponding to different photosensitive sensors, the photosensitive sensors detect touch signals and convert the touch signals into corresponding second signals to be sent to the microcontroller, the second signals are received by pins P4.0-P4.5 of the microcontroller, the microcontroller converts the received second electrical signals into corresponding voice control signals and sends the corresponding voice control signals to the voice module through a pin P5.3 and a pin P5.4, and the voice module sends out voices corresponding to the touch areas according to the received voice control signals.

There is also provided an electronic cigarette control method, the electronic cigarette comprising: the electronic cigarette comprises a microcontroller, a voice module and a touch module, wherein the microcontroller, the voice module and the touch module are arranged in an electronic cigarette body, the surface of the electronic cigarette body is provided with a plurality of touch areas, and the method comprises the following steps:

s1: the touch module detects touch signals in different touch areas, converts the touch signals into corresponding electric signals and sends the electric signals to the microcontroller;

s2: and after analyzing the electric signal sent by the touch module, the microcontroller controls the voice module to send out voice corresponding to the touch area.

In the above control method, the step S2 specifically includes:

the microcontroller analyzes the electric signal sent by the touch module and the smoking state of the user, and controls the voice module to send out voice corresponding to the touch area if the user is in the smoking state; the smoking state is a state that the electronic cigarette atomizes the tobacco tar or/and within a preset time after the tobacco tar is atomized.

In the above control method, the touch module includes a plurality of touch keys and a touch sensing chip, wherein: each touch key is respectively connected to a touch input port corresponding to the touch sensing chip, and an output port of the touch sensing chip is connected to the microcontroller; the method specifically comprises the following steps:

s1': each touch key senses a touch action when a user touches a corresponding touch area and sends a corresponding touch signal to the touch sensing chip, and the touch sensing chip converts the touch signal into a corresponding first electric signal and sends the first electric signal to the microcontroller;

s2': the microcontroller converts the first electric signal into a corresponding voice control signal and sends the corresponding voice control signal to the voice module; and the voice module sends out voice corresponding to the touch area according to the received voice control signal.

In the above control method, the speech is a plurality of scales or a plurality of pieces of music, and the step S1' is preceded by:

s0': the user contacts one of the touch areas, and when the contact time exceeds a preset time, the microcontroller starts the playing function of the electronic cigarette or plays different music;

in the above control method, the speech is a plurality of scales or a plurality of pieces of music, and the step S2' is followed by:

s3': and after the time that the user contacts the touch area for starting the piano playing function of the electronic cigarette or playing different music exceeds the preset time, closing the piano playing function of the electronic cigarette or playing different music.

In the above control method, the touch module includes a plurality of light-sensitive sensors connected to the microcontroller, wherein: each touch area is correspondingly provided with a photosensitive sensor, the voice comprises a plurality of scales or a plurality of kinds of music, the electronic cigarette further comprises a switch unit which is connected with the microcontroller and is used for starting and closing the piano playing function or playing different music of the electronic cigarette, and the method specifically comprises the following steps:

s0': switching on the switch unit to start the playing function or play different music of the electronic cigarette;

s1': each photosensitive sensor detects touch signals of different touch areas, converts the touch signals into corresponding second electric signals and sends the second electric signals to the microcontroller;

s2': the microcontroller is used for sending a corresponding voice control signal to the voice module according to the received second electric signal, and the voice module sends out voice corresponding to the touch area according to the received voice control signal;

s3': and the switch unit is disconnected, and the piano playing function or the function of playing different music of the electronic cigarette is closed.

The electronic cigarette and the control method thereof have the following beneficial effects: when smoking, a user can make the electronic cigarette emit different scales when touching different touch keys or touch areas corresponding to the photosensitive sensors through fingers, so that the function of simulating playing of an electronic organ is realized, or different music (the music can refer to songs, natural sounds or animal sounds and the like) is played, the user can usually replace different fingers to touch the electronic cigarette through the guidance of the music when smoking, namely constantly replace fingers to apply force on the electronic cigarette to clamp the electronic cigarette, so that the condition that the fingers are easily fatigued because the fingers are fixedly clamped on the electronic cigarette in the prior art is avoided, the finger fatigue of the user can be relieved, the user experience is improved, the electronic cigarette has more entertainment functions, the electronic cigarette is more humanized, meanwhile, the electronic cigarette can be used as toy music, and the interestingness is increased, is beneficial to the physical and psychological health of the user.

Drawings

Figure 1 is a functional block diagram of a first embodiment of an electronic cigarette of the present invention;

figure 2 is a schematic circuit diagram of the e-cigarette of figure 1;

figure 3 is another schematic circuit diagram of the e-cigarette of figure 1;

figure 4 is a functional block diagram of a second embodiment of an electronic cigarette of the present invention;

figure 5 is a schematic circuit diagram of the e-cigarette of figure 4;

figure 6 is a schematic structural view of a first embodiment of an electronic cigarette according to the present invention;

fig. 7 is a schematic structural diagram of a second embodiment of the electronic cigarette according to the present invention.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the electronic cigarette according to a first embodiment of the present invention is a schematic block diagram, and includes a power supply module 1, an atomizer module 2, a smoking sensor 3, a microcontroller 4, a voice module 5, and a touch module 6. Wherein: the smoking sensor 3 is used for sending a smoking signal to the microcontroller 4 when a user smokes; when receiving the smoking signal, the microcontroller 4 controls the power supply circuit of the power supply module 1 and the atomizer module 2 to be conducted, so that the tobacco tar of the electronic cigarette is atomized. Particularly, the surface of the electronic cigarette body is provided with a plurality of touch areas, the voice module 5 and the touch module 6 are both connected with the microcontroller 4, and the touch module 6 is used for detecting touch signals in different touch areas and converting the touch signals into corresponding electric signals to be sent to the microcontroller 4; the microcontroller 4 analyzes and processes the electric signal sent by the touch module 6, and then controls the voice module 5 to send out voice corresponding to the touch area. Therefore, through the voice module 5 and the touch module 6, the electronic cigarette can realize the functions of simulating an electronic organ to pop out wonderful music or play different sounds and the like.

In this embodiment, the touch module 6 includes a plurality of touch keys 7 and a touch sensing chip 8, each touch key 7 is connected to a touch input port of the touch sensing chip 8, and an output port of the touch sensing chip 8 is connected to the microcontroller 4.

Specifically, when the user needs to simulate the piano playing function of the electronic organ or play different sounds, the user can start the piano playing function of the electronic cigarette or play different music by long-time pressing, i.e. contacting the touch area corresponding to any one of the touch keys for a long time, then the user touches the touch area corresponding to the different touch keys, the touch keys sense the touch action and send corresponding touch signals to the touch sensing chip 8, the touch sensing chip 8 converts the touch sensing signal into corresponding first electrical signals (i.e. touch sensing signals) and sends the corresponding first electrical signals to the microcontroller 4, the microcontroller 4 outputs corresponding voice control signals to the voice module 5 according to the received different touch sensing signals, and the voice module 5 outputs scales corresponding to the different touch areas, different scales are given out according to different touch areas, and the effect of simulating the function of the electronic organ to play wonderful music is achieved. In addition, different music can be controlled to play by touching different touch keys, wherein the music is not musical scale but refers to some songs or natural sound, even animal call, and the like, and when different touch keys are touched, different songs or different animal calls are played. Thereby make the function of electron cigarette no longer only have the function of smoking, increased the interest, and when using the function that the electron cigarette imitates the electronic organ and play or broadcast music, if the user does not have the smoking then need not the centre gripping electron cigarette, if the user makes the different fingers of user's replacement and electron cigarette contact through the guide of music when the smoking, constantly replace the finger promptly application of force in order to centre gripping electron cigarette on the electron cigarette, therefore avoided among the prior art fixedly with some finger centre gripping in the electron cigarette and make the tired condition of finger easily, can alleviate user's finger fatigue, improve user experience.

Fig. 2 is a specific circuit diagram of the electronic cigarette in fig. 1, wherein the power supply module 1 is a battery, the atomizer module 2 includes a field effect transistor Q1 and a heating wire B1, and the smoking sensor 3 is an airflow sensor M1 with a model number S087. The circuit also comprises a resistor R1, a resistor R2, a light emitting diode LED1, a diode D1 and a capacitor C2, and the model of the microcontroller 4 is preferably SN8P 2711B. Specifically, the source of the field effect transistor Q1 is connected to the negative electrode of the battery, the drain of the field effect transistor Q1 is connected to the positive electrode of the battery through the heating wire B1, the gate of the field effect transistor Q1 is connected to the pin P5.3 of the microcontroller SN8P2711B, and the gate of the field effect transistor Q1 is also connected to the source of the field effect transistor Q1 through the resistor R2. The output end of the airflow sensor M1 is connected to the P0.2 pin of the microcontroller SN8P2711B, and the positive terminal and the negative terminal of the airflow sensor M1 are correspondingly connected to the positive pole and the negative pole of the battery respectively. The VDD pin of the microcontroller SN8P2711B is grounded via a capacitor C2, the VDD pin is also connected to the cathode of a diode D1, and the anode of a diode D1 is connected to the battery anode. The anode of the LED1 is connected to the positive electrode of the battery, the cathode of the LED1 is connected to the P5.4 pin of the microcontroller through the resistor R1, and the VSS pin of the microcontroller SN8P2711B is grounded.

Wherein the LED1 is used to indicate whether the microcontroller SN8P2711B receives a smoking signal to prompt the user whether or not the user is smoking. When no air flow exists in the normal state, the pin P5.3 of the microcontroller SN8P2711B outputs low level, the field effect transistor Q1 is cut off, and then the power supply of the battery and the heating wire B1 is not communicated. Meanwhile, pin P5.4 of the microcontroller SN8P2711B outputs high level, and the LED1 is turned off and does not emit light. When airflow exists, the airflow sensor M1 outputs a voltage signal to the P0.2 pin of the microcontroller SN8P2711B when sensing an airflow signal, so that the P5.3 pin of the microcontroller SN8P2711B outputs a high level, the field effect transistor Q1 is switched on, the battery is communicated with a power supply passage of the heating wire B1, and the heating wire B1 generates heat and atomizes the tobacco tar. Meanwhile, pin P5.4 of the microcontroller SN8P2711B outputs low level, and the LED1 is turned on to emit light. The LED1 is turned on only during the time period when the airflow sensor M1 sends the smoking signal, if the airflow sensor M1 stops sending the smoking signal, the LED1 stops sending the light indication, and the time when the fet Q1 is turned on may be the same as the LED1, or may be extended appropriately.

In particular, the touch module 6 may preferably be a 6-key touch integrated circuit in this embodiment, as shown in the figure, the plurality of touch keys 7 are respectively K1 to K6, and the type of the touch sensing chip 8 is preferably JG606, it can be understood that each touch key corresponds to one touch area on the cigarette body surface of the electronic cigarette, which is equivalent to six touch keys corresponding to six touch panels respectively (in this embodiment, the touch areas are defined as touch panels), and the six touch panels are vertically distributed on the cigarette body surface of the electronic cigarette in a straight line and are located at positions where touching is convenient. In the present embodiment, the voice module 5 includes a voice control chip HT86a72 and a speaker M connected to the voice control chip.

Specifically, six touch KEYs K1-K6 are respectively connected with the input pins of the touch KEYs of the touch sensing chip JG606, i.e., KEY 5-KEY 0 pins, the output pins of the touch sensing chip JG606, i.e., OUT 0-OUT 2 pins, are respectively connected with the P4.4, P4.3 and P0.1 pins of the microcontroller, and the P4.0 pin and the P4.1 pin of the microcontroller are connected with the voice control chip HT86a 72. In addition, the microcontroller 4 includes a storage module (not shown) which stores the touch sensing signal and the corresponding voice control signal in advance. When the user needs to use the playing function of the electronic cigarette, the voice control signals stored by the storage module in the microcontroller and corresponding to the touch sensing signals respectively represent six different scales such as do re mi fa sol la, namely, after the playing function of the electronic cigarette is started, the user touches different touch keys, the microcontroller receives different touch sensing signals, different voice control signals are output, the loudspeaker M is controlled by the voice control chip to emit different scales, and the function of simulating playing of the electronic organ is realized.

The electronic cigarette can also play different music by touching different touch keys, and the music can be songs, natural sounds or animal voices and the like. The voice control signals corresponding to the touch sensing signals stored in the storage module at the moment can respectively represent different songs, natural sounds or the singing of various animals and the like.

With reference to fig. 1 and 2, the specific working process of the electronic cigarette according to the present invention is described in detail as follows: when a user starts smoking, the user inhales air opposite to the cigarette holder, the air flow passes through the air flow channel of the cigarette body, the air flow sensor M1 on the air flow channel senses the change of the air flow and sends a smoking signal to the microcontroller 4, and the microcontroller 4 sends a driving signal to the field effect tube Q1 through the P5.3 pin after receiving the smoking signal to be conducted, so that the electric heating wire B1 is electrified, the electric heating wire B1 is electrified to generate heat, the tobacco tar of the electronic cigarette is atomized, and the effect of smoking of the user at one time is realized.

When the user is exhausted with smoking or needs to relax, the touch key K1 is taken as an example when any one of the touch keys is touched by the finger for a long time, wherein the touch time of the touch key K1 can be set by the microcontroller 4, for example, when the touch time exceeds 3s, the long-time touch can be considered, and when the touch time is less than 3s, the short-time touch (normal condition) can be considered. If a user touches a touch panel corresponding to the key K1, the touch key K1 sends a corresponding signal to the microcontroller through the touch sensing chip, when the microcontroller detects that the duration of the received signal exceeds 3s, the electronic cigarette is started, at the moment, the user touches control panels corresponding to the touch keys K1-K6 through fingers, the electronic organ playing function can be realized in a simulated mode, each touch key corresponds to a scale, the microcontroller sends a voice control signal matched with the touch key to the voice control chip according to the detected touch sensing signal corresponding to different touch panels, and the voice control chip controls the loudspeaker M to send out the corresponding scale according to the received voice control signal representing different scales. Any one of the touch keys is touched by a finger for a long time to serve as an opening signal, so that a music opening switch is not required to be arranged, the structure of the electronic cigarette is more compact, and the conditions of false triggering and the like are avoided.

For example, the touch signals corresponding to the touch KEYs K1-K6 are signals 1-6, and the scales represented by the corresponding voice control signals in the microcontroller are do re mi fa sol la, so that when a user touches the touch areas corresponding to different touch KEYs with a finger, each touch KEY is used for sensing the touch action when the user touches the corresponding touch area, sending the corresponding touch signal to the touch sensing chip JG606 through the touch KEY input pins KEY 5-KEY 0 of the touch sensing chip, the touch sensing chip analyzes and processes the touch signal, outputs the touch sensing signal corresponding to each touch area through the output pins OUT 0-OUT 2 of the touch sensing chip and sends the touch sensing signal to the microcontroller, and the touch sensing signal is received by the P4.4 pin, the P4.3 pin and the P0.1 pin of the microcontroller, the microcontroller converts the received touch sensing signal into a corresponding voice control signal and sends the corresponding voice control signal to the voice module through a P4.0 pin and a P4.1 pin, and the voice module sends out voice corresponding to the touch area according to the received voice control signal; for example, when the user touches the touch area corresponding to the touch key K1, the corresponding BCD code is 001, and so on, which is not described herein again.

Therefore, the user can play wonderful music according to different musical scales by contacting the touch areas corresponding to different touch keys. When the user needs to close the playing function of the electronic cigarette, the function can be closed by contacting the touch key K1 for a long time, and when the touch key is contacted again, the electronic cigarette does not realize the playing function of the electronic cigarette.

This electron cigarette not only can realize playing the musical instrument function, also can be through broadcasting different music when touching the touch area that different touch button corresponds, and this music can be song, natural sound or animal's cry etc.. The implementation manner of the electronic cigarette is the same as that of the electronic cigarette, when a user needs to start the function of the electronic cigarette, different songs can be played by contacting the touch key K1 for a long time (namely the touch time exceeds a preset time) and then contacting the touch areas corresponding to different touch keys with fingers; or as a toy for children, when the user touches the touch areas corresponding to different touch keys, different animal voices are played. When the function is not needed, the function can be closed by touching the touch key K1 for a long time.

The number of the touch keys is not limited, and the touch keys may be set according to the needs of a user, for example, the touch keys may also be an 8-key touch sensing chip, or include two or more touch sensing chips to form a plurality of touch keys, which is not described herein again.

As shown in fig. 3, which is another circuit diagram of the electronic cigarette in fig. 1, unlike fig. 2, a plurality of indicating units are added to the circuit, each of which includes a light emitting diode and a resistor connected in series between the microcontroller 4 and the negative electrode of the battery. In the present embodiment, the number of the indicating units is six, but the indicating units are not limited to this, and is consistent with the number of the touch keys, where the light emitting diodes and the resistors included in each indicating unit are respectively LEDs 1 to LED6, and R1 to R6, as shown in the figure, anodes of the light emitting diodes LEDs 1 to LED6 are respectively connected to pins P2.0 to P2.5 of the microcontroller 4, cathodes of the light emitting diodes LEDs 1 to LED6 are respectively connected to one ends of the resistors R1 to R6, and the other ends of the resistors R1 to R6 are all connected to the negative electrode of the battery, that is, grounded. In the embodiment, each light emitting diode corresponds to one touch key, and for example, the light emitting diodes LED1 to LED6 and the touch keys K1 to K6 respectively correspond to one another, all the light emitting diodes may be in the same color or different colors. When the piano playing function or music playing function of the electronic cigarette is started, and a user touches touch areas corresponding to different touch keys with fingers, the touch keys sense touch actions and send touch signals to the touch sensing chip JG606, corresponding touch sensing signals are output by the output pins OUT 0-OUT 2, and after the microcontroller receives the touch sensing signals corresponding to the touch areas, high-level signals are output by the corresponding pins P2.0-P2.5 to control corresponding light-emitting diodes to be turned on.

For example, when a user touches a touch area corresponding to the touch KEY K1, a touch signal is sent to the KEY5 pin of the touch sensing chip, the BCD code representing the touch sensing signal output by the OUT 0-OUT 2 of the touch sensing chip is 001, the pins P1.4, P1.5 and P1.6 of the microcontroller SN8P2614 receive the BCD code and control the pin P2.0 to output a high level signal according to the BCD code, the LED1 is turned on, and so on, which is not described herein again. Above-mentioned six emitting diode settle on the electron cigarette body and with six touch button be in same anchor ring respectively, when the user finger through the different touch button of contact realize playing the function of music or when directly playing different music, the emitting diode that the touch button next door corresponds also can be lighted, brings more audio-visual impression for the user, has increased the enjoyment of playing, and is convenient for use and be convenient for user discernment touch button in the environment of dark.

As shown in fig. 4, which is a schematic block diagram of a second embodiment of the electronic cigarette according to the present invention, different from fig. 1, the touch module 6 in fig. 1 includes a plurality of photosensitive sensors 9, each photosensitive sensor 9 is configured to output a different voltage signal to the microcontroller 4 according to the intensity of the received light, and the microcontroller 4 detects the voltage signal, so as to determine whether a finger touches a photosensitive surface (i.e., a touch area) on the cigarette body of the electronic cigarette. With reference to the specific circuit diagrams shown in fig. 4 and fig. 5, in this embodiment, the process of controlling the heating wire to generate heat by the microcontroller 4 during smoking by the user is the same as that of the first embodiment, and is not repeated herein. However, in this embodiment, the model of the microcontroller 4 is preferably SN8P1808, the touch module 6 includes six photosensitive sensors 9, each photosensitive sensor includes a diode, a photosensitive resistor and a current limiting resistor connected in series, specifically, the diodes D1 to D6, the photosensitive resistors RCT1 to RCT6, and the current limiting resistors R4 to R9, where: anodes of the diodes D1-D6 are all connected with the anode of the battery, cathodes of the diodes D1-D6 are respectively correspondingly connected with one ends of the photoresistors RCT 1-RCT 6, the other ends of the photoresistors RCT 1-RCT 6 are respectively correspondingly connected with pins P4.0-P4.5 of the microcontroller SN8P1808, and are also respectively correspondingly connected with one ends of the resistors R4-R9, and the other ends of the resistors R4-R9 are both connected with the cathode of the battery and grounded.

In this embodiment, the touch module 6 further includes a switch unit, the switch unit specifically includes a switch K and a resistor R3, and the switch K and the resistor R3 are connected in series between the pin P0.1 of the microcontroller SN8P1808 and the negative electrode of the battery. The piano playing function of the electronic cigarette or the function of playing different music are respectively turned on and off by closing and opening the switch K.

As in the above embodiments, the number of the photosensitive sensors in this embodiment is preferably six, but is not limited thereto, and the number thereof may be increased or decreased as required. Wherein, six photosensitive sensors distribute in the same vertical section of electron cigarette, be in same vertical row promptly, each photosensitive sensor corresponds a photosurface (touch area) respectively on electron cigarette surface, the size of photosurface is about 5 mm's disc, clearly mark its photosurface on the cigarette body, when the user points to contact or be close different photosurfaces, the change of illumination just can be sensed to the photosensitive sensor that corresponds to output voltage changes, can judge that what photosensitive sensor that contact or be close this moment of the user is the photosurface that corresponds. Still increased a switch K in this embodiment, this switch K is used for starting touch module 6 work, when the user need use the function that triggers photosensitive module and realize the electron cigarette plucking instrument or play different music promptly, press switch K can, prevented simultaneously through increasing switch K that the change of external environment from causing photosensitive sensor's irregular triggering. Through setting up six photosensitive sensor, therefore guide the user to carry out the operation simultaneously with the finger of both hands during the use, therefore the tired problem of solution finger that not only can be better, improved user experience moreover.

With reference to fig. 4 and 5, the specific operation process of the second embodiment of the electronic cigarette according to the present invention is described in detail as follows: in this embodiment, taking the function of simulating the playing of the electronic organ by the electronic cigarette as an example, when the user needs to use the function of the electronic cigarette, the switch K is pressed, the level of the P0.1 pin of the microcontroller is at a high level, and at this time, the microcontroller SN8P1808 can detect the output voltage signals (i.e., the second electrical signals) corresponding to the photosensitive sensors through the P4.0-P4.5 pins.

When a user touches or approaches the corresponding photosensitive surface of the photosensitive sensor by a finger, the output voltage of the photosensitive sensor changes, the microcontroller SN8P1808 judges that the user presses the corresponding photosensitive surface according to the detected voltage change, then sends a corresponding voice control signal to the voice control chip through the P5.3 pin and the P5.4 pin, the voice control chip sends a corresponding scale according to the corresponding voice control signal, so that different scales can be sent out according to the touch or approach of the user to the photosensitive surface corresponding to different photosensitive sensors, thereby realizing the function of simulating the playing of wonderful music by the electronic organ, namely realizing the effect of playing the electronic organ, when the user does not need to use the electronic cigarette, the function can be closed by pressing the switch K again, after the function is closed, namely, the user touches or approaches the photosensitive surface corresponding to different photosensitive sensors by the finger, the microcontroller will no longer detect the voltage signal sent by the light-sensitive sensor.

In this embodiment, the electronic cigarette can realize the function of simulating the playing of the electronic organ, and can also realize the function of playing different music by contacting or approaching the photosensitive surfaces corresponding to different photosensitive sensors, wherein the music can be songs, natural sounds, or animal sounds, etc. Specifically, when the function of the electronic cigarette needs to be used, the switch K is pressed, the photosensitive surfaces corresponding to different photosensitive sensors are contacted or approached simultaneously, the microcontroller outputs a value according to the detected voltage, so that the photosensitive surface corresponding to which photosensitive sensor the user is contacted or approached at the moment is judged, a corresponding voice control signal is output to the voice control chip simultaneously, and the voice control chip controls the loudspeaker to play a corresponding song or a corresponding animal to call the voice and the like according to the received voice control signal.

In the above embodiment, the process of the microcontroller controlling the voice module to send out voice is as follows: the microcontroller outputs serial signals to the voice control chip, each voice has a serial signal corresponding to the voice, and the voice control chip selects the voice code corresponding to the serial signal stored in the voice control chip according to the serial signals to synthesize, and outputs the voice code to the loudspeaker M for output through A/D conversion. The process of synthesizing and outputting the speech by the speech control chip is not the focus of the present invention, and is not described in detail herein.

Fig. 6 is a schematic structural diagram of a first embodiment of an electronic cigarette according to the present invention, in which a plurality of touch areas 11 are disposed on a surface of a battery rod of the electronic cigarette, and in this embodiment, the touch areas 11 are circular surfaces, but the shape is not limited thereto, and may be square or other shapes, which belong to the prior art and are not described in detail herein. When the touch module includes a plurality of touch keys and a touch sensing chip connected to the plurality of touch keys, each touch area 11 (only three touch areas are shown in the figure, but not limited thereto) is provided with a corresponding touch key; when the touch module comprises a plurality of light-sensitive sensors connected to the microcontroller, each touch area 11 is provided with a corresponding light-sensitive sensor.

Fig. 7 is a schematic structural diagram of a second embodiment of an electronic cigarette according to the present invention, in which a plurality of touch areas 11 are disposed on a base of the electronic cigarette, and in this embodiment, the touch areas 11 are also circular surfaces, but the shape is not limited thereto, and may be square or other shapes, which belongs to the prior art and will not be described in detail herein. In this embodiment, the touch module is a plurality of photosensitive sensors connected to the microcontroller, each touch area 11 (only three touch areas are shown in the figure, but not limited thereto) is correspondingly provided with a photosensitive sensor, and a plurality of light emitting diodes (not shown) corresponding to the touch areas one by one are provided at the smoking end of the electronic cigarette, as shown by the dotted line in the figure, when a user smokes, the plurality of light emitting diodes are turned on, the emitted light correspondingly illuminates the touch area 11 through the dotted line part in the figure, at this time, when the user's finger contacts different touch areas, the corresponding photosensitive sensor outputs different voltage signals to the microcontroller according to the intensity of the received light, the microcontroller detects the voltage signals thereof, thereby determining whether the finger contacts the touch area on the base of the electronic cigarette, and thereby controlling the voice module to emit corresponding voice, therefore, in the embodiment, the electronic cigarette can be used for simulating the function of playing or playing different music by using the electronic cigarette even under dark conditions. In addition, when the electronic cigarette described in this embodiment is used, it is not necessary to directly touch the plurality of touch areas 11 on the base of the electronic cigarette with a finger, and it is also possible to control the electronic cigarette by touching other areas on the peripheral surface of the electronic cigarette, as long as the light emitted by the light emitting diode corresponding to the touch area at the smoking end can be blocked, thereby improving the user experience. The light emitted by the light emitting diode is preferably monochromatic light such as red light, green light or blue light, so that strings are simulated, a user can observe a touch position conveniently, and the user experience is improved.

The invention also provides a control method of the electronic cigarette, the structure of the electronic cigarette is specifically explained in the embodiment, and is not described again, and the control method of the electronic cigarette comprises the following steps:

s2: and after analyzing and processing the electric signal sent by the touch module, the microcontroller controls the voice module to send out voice corresponding to the touch area.

Specifically, in the electronic cigarette control method according to the first embodiment of the present invention, the touch module includes a plurality of touch keys and a touch sensing chip, wherein: a touch key is correspondingly arranged in each touch area, each touch key is respectively connected to a touch input port corresponding to the touch sensing chip, and an output port of the touch sensing chip is connected to the microcontroller; the voice may be musical scale or music, and the method specifically includes:

s0': when the time that the user contacts one of the touch areas exceeds a preset time, the microcontroller starts the playing function of the electronic cigarette or plays different music;

s1': the user then senses the touch action by contacting the corresponding touch areas of the different touch keys and sends corresponding touch signals to the touch sensing chip, and the touch sensing chip converts the touch signals into corresponding first electric signals and sends the first electric signals to the microcontroller;

s2': when receiving first electric signals which are sent by a touch sensing chip and correspond to different touch areas, the microcontroller converts the first electric signals into corresponding voice control signals and sends the corresponding voice control signals to the voice module; the voice module sends out a scale corresponding to the touch area according to the received voice control signal, so that the function of simulating the playing of the electronic organ is realized; or playing different music (such as songs, natural sounds or animal sounds) according to the received voice control signal so as to realize that the electronic cigarette plays different songs, natural sounds or different animal sounds and the like by contacting the touch areas corresponding to different touch keys.

S3': and the user contacts a touch area for starting the piano playing function of the electronic cigarette or playing different music, and the piano playing function of the electronic cigarette or playing different music is closed after the contact time of the touch area exceeds the preset time.

Specifically, in the electronic cigarette control method according to the second embodiment of the present invention, the touch module includes a plurality of photosensitive sensors and a switch unit connected to the microcontroller, the voice may be musical scale or music, and the method specifically includes:

s1': the user contacts or approaches different photosensitive sensors, and the photosensitive sensors detect corresponding touch signals and convert the touch signals into corresponding second electric signals to be sent to the microcontroller;

s2': the microcontroller sends a corresponding voice control signal to the voice module according to the received second electric signal, and the voice module sends out a scale corresponding to the touch area according to the received voice control signal, so that the function of simulating the playing of the electronic organ is realized, or different music (such as songs, natural sounds or animal sounds) is played according to the received voice control signal, so that the electronic cigarette can play different songs, natural sounds or different animal sounds by contacting different touch keys;

In the above embodiment, it is also limited that the electronic cigarette plays a piano or plays different music when the user smokes. Specifically, the microcontroller analyzes the electric signal sent by the touch module and also analyzes the smoking state of the user, and if the user is in the smoking state, the voice module can be controlled, that is, the electronic cigarette is started to simulate the function of playing an electronic organ or playing different music (consistent with the implementation method), and then the voice corresponding to the touch area is sent out by contacting different touch areas. The smoking state here is a state in which the electronic cigarette is atomizing tobacco tar or/and a predetermined time after the tobacco tar is atomized, and the predetermined time may be 2 minutes or may be appropriately extended, and is not limited herein.

Therefore, by implementing the electronic cigarette and the control method thereof, when a user smokes, the user can make the electronic cigarette emit different scales by touching the touch areas corresponding to different touch keys or photosensitive sensors with fingers, so as to realize the function of simulating playing of an electronic organ, or play different music (the music can refer to songs, natural sounds or animal sounds, etc.), and the user can usually replace different fingers to touch the electronic cigarette by guiding the music when smoking, namely constantly replace fingers to apply force on the electronic cigarette to clamp the electronic cigarette, thereby avoiding the condition that the fingers are easily fatigued because the fingers are fixedly clamped on the electronic cigarette in the prior art, relieving the finger fatigue of the user, improving the user experience, enabling the electronic cigarette to have more entertainment functions, and enabling the electronic cigarette to be more humanized, meanwhile, the electronic cigarette can be used as a music toy, so that the interest is increased, and the physical and mental health of a user is facilitated.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

The utility model provides an electronic cigarette, includes the electronic cigarette body, its characterized in that, the electronic cigarette body is provided with microcontroller, voice module and touch module, electronic cigarette body surface has a plurality of touch areas, wherein: the voice module and the touch module are both connected with the microcontroller;

the touch module is used for detecting touch signals in different touch areas, converting the corresponding touch signals of the different touch areas into corresponding electric signals and sending the electric signals to the microcontroller;

and after analyzing the electric signal sent by the touch module, the microcontroller controls the voice module to send out voice corresponding to the touch area.
The electronic cigarette of claim 1, wherein the touch module comprises a touch sensing chip and a plurality of touch keys, wherein: a touch key is correspondingly arranged in each touch area, each touch key is respectively connected to a touch input port corresponding to the touch sensing chip, and an output port of the touch sensing chip is connected to the microcontroller;

each touch key is used for sensing a touch action when a user touches the corresponding touch area and sending a corresponding touch signal to the touch sensing chip, and the touch sensing chip converts the touch signal into a corresponding first electric signal and sends the corresponding first electric signal to the microcontroller;

when the microcontroller receives the first electric signals which are sent by the touch sensing chip and correspond to different touch areas, the first electric signals are converted into corresponding voice control signals and sent to the voice module; and the voice module sends out voice corresponding to the touch area according to the received voice control signal.
The electronic cigarette of claim 2, wherein the microcontroller activates a piano playing function or a function of playing different music of the electronic cigarette after a user contacts one of the touch areas for more than a preset time.
The electronic cigarette according to claim 3, wherein the voice comprises a plurality of scales, and the voice module emits the scales corresponding to the touch areas by touching the touch areas corresponding to different touch keys; or the voice comprises a plurality of kinds of music, and the voice module plays the music corresponding to the touch area by contacting the touch area corresponding to different touch keys by the user.
The electronic cigarette according to claim 2, further comprising a plurality of indicating units connected to the microcontroller, wherein each indicating unit corresponds to one touch key, and when a user touches a touch area corresponding to a different touch key, the microcontroller controls the corresponding indicating unit to operate.
The electronic cigarette of claim 5, wherein each indicating unit comprises a light emitting diode and a resistor connected in series between the microcontroller and ground, and when a user touches a touch area corresponding to a different touch key, the microcontroller controls the corresponding light emitting diode to light up.
The electronic cigarette according to claim 3, wherein the touch area for the user to touch for activating the playing function of the electronic cigarette or playing different music is closed after the preset time.
The electronic cigarette according to claim 2, wherein the touch sensing chip is of a type JG606, the microcontroller is of a type SN8P2711B, the number of the touch KEYs is six, and the touch KEYs are K1 to K6, six touch KEYs K1 to K6 are correspondingly connected to KEY5 to KEY0 pins of the touch sensing chip, OUT0 to OUT2 pins of the touch sensing chip are correspondingly connected to P4.4 pin, P4.3 pin and P0.1 pin of the microcontroller, and P4.0 pin and P4.1 pin of the microcontroller are connected to the voice module;

each touch KEY is used for sensing a touch action when a user touches a corresponding touch area, sending a corresponding touch signal to correspond to KEY 5-KEY 0 pins of the touch sensing chip, outputting a first electric signal corresponding to each touch area through OUT 0-OUT 2 pins of the touch sensing chip and sending the first electric signal to the microcontroller, receiving the first electric signal by a P4.4 pin, a P4.3 pin and a P0.1 pin of the microcontroller, converting the first electric signal into a corresponding voice control signal by the microcontroller according to the received first electric signal, sending the voice control signal to a voice module through the P4.0 pin and the P4.1 pin, and sending a voice corresponding to the touch area by the voice module according to the received voice control signal; wherein the first electrical signal is a BCD code.
The electronic cigarette of claim 1, wherein the touch module comprises a plurality of light sensitive sensors connected to the microcontroller, wherein: each touch area is correspondingly provided with a photosensitive sensor;

each photosensitive sensor is used for detecting touch signals of different touch areas, converting the touch signals into corresponding second electric signals and sending the second electric signals to the microcontroller;

the microcontroller is used for sending a corresponding voice control signal to the voice module according to the received second electric signal, and the voice module sends out voice corresponding to the touch area according to the received voice control signal.
The electronic cigarette of claim 9, wherein each photosensor comprises a diode and a photosensor connected in series between a power supply module and a microcontroller, an anode of the diode is connected to the power supply module, a cathode of the diode is connected to one end of the photosensor, and the other end of the photosensor is connected to the microcontroller.
The electronic cigarette of claim 10, wherein each light-sensitive sensor further comprises a current limiting resistor, one end of the current limiting resistor is connected to the connection point of the light-sensitive resistor and the microcontroller, and the other end of the current limiting resistor is grounded.
The electronic cigarette of claim 9, further comprising a switch unit connected to the microcontroller for activating and deactivating a piano playing function or a function of playing different music of the electronic cigarette.
The electronic cigarette of claim 12, wherein the voice comprises a plurality of scales, the user touches or approaches a touch area corresponding to different light-sensitive sensors, and the voice module emits the scale corresponding to the touch area; or the voice comprises a plurality of kinds of music, the user contacts or approaches to the touch areas corresponding to the different photosensitive sensors, and the voice module plays the music corresponding to the touch areas.
The electronic cigarette according to claim 9, wherein the microcontroller is SN8P1808, the number of the photosensitive sensors is six, the signal output end of each photosensitive sensor is correspondingly connected to pins P4.0 to P4.5 of the microcontroller, and pins P5.3 and P5.4 of the microcontroller are connected to the voice module;

when a user contacts or approaches to touch areas corresponding to different photosensitive sensors, the photosensitive sensors detect touch signals and convert the touch signals into corresponding second signals to be sent to the microcontroller, the second signals are received by pins P4.0-P4.5 of the microcontroller, the microcontroller converts the received second electrical signals into corresponding voice control signals and sends the corresponding voice control signals to the voice module through a pin P5.3 and a pin P5.4, and the voice module sends out voices corresponding to the touch areas according to the received voice control signals.
An electronic cigarette control method, characterized in that the electronic cigarette comprises: the electronic cigarette comprises a microcontroller, a voice module and a touch module, wherein the microcontroller, the voice module and the touch module are arranged in an electronic cigarette body, the surface of the electronic cigarette body is provided with a plurality of touch areas, and the method comprises the following steps:

s1: the touch module detects touch signals in different touch areas, converts the touch signals into corresponding electric signals and sends the electric signals to the microcontroller;

s2: and after analyzing the electric signal sent by the touch module, the microcontroller controls the voice module to send out voice corresponding to the touch area.
The control method according to claim 15, wherein the step S2 is specifically:

the microcontroller analyzes the electric signal sent by the touch module and the smoking state of the user, and controls the voice module to send out voice corresponding to the touch area if the user is in the smoking state; the smoking state is a state that the electronic cigarette atomizes the tobacco tar or/and within a preset time after the tobacco tar is atomized.
The control method according to claim 15, wherein the touch module comprises a plurality of touch keys and a touch sensing chip, wherein: each touch key is respectively connected to a touch input port corresponding to the touch sensing chip, and an output port of the touch sensing chip is connected to the microcontroller; the method specifically comprises the following steps:

s1': each touch key senses a touch action when a user touches a corresponding touch area and sends a corresponding touch signal to the touch sensing chip, and the touch sensing chip converts the touch signal into a corresponding first electric signal and sends the first electric signal to the microcontroller;

s2': the microcontroller converts the first electric signal into a corresponding voice control signal and sends the corresponding voice control signal to the voice module; and the voice module sends out voice corresponding to the touch area according to the received voice control signal.
The control method according to claim 17, wherein the speech is a plurality of scales or a plurality of pieces of music, and the step S1' is preceded by:

s0': and the user contacts one of the touch areas, and when the contact time exceeds a preset time, the microcontroller starts the playing function of the electronic cigarette or plays different music.
The control method according to claim 17, wherein the speech is a plurality of scales or a plurality of pieces of music, and the step S2' is followed by:

s3': and after the time that the user contacts the touch area for starting the piano playing function of the electronic cigarette or playing different music exceeds the preset time, closing the piano playing function of the electronic cigarette or playing different music.
The control method of claim 15, wherein the touch module comprises a plurality of light sensitive sensors connected to the microcontroller, wherein: each touch area is correspondingly provided with a photosensitive sensor, the voice comprises a plurality of scales or a plurality of kinds of music, the electronic cigarette further comprises a switch unit which is connected with the microcontroller and is used for starting and closing the piano playing function or playing different music of the electronic cigarette, and the method specifically comprises the following steps:

s0': switching on the switch unit to start the playing function or play different music of the electronic cigarette;

s1': each photosensitive sensor detects touch signals of different touch areas, converts the touch signals into corresponding second electric signals and sends the second electric signals to the microcontroller;

s2': the microcontroller is used for sending a corresponding voice control signal to the voice module according to the received second electric signal, and the voice module sends out voice corresponding to the touch area according to the received voice control signal;

s3': and the switch unit is disconnected, and the piano playing function or the function of playing different music of the electronic cigarette is closed.