WO2016015264A1 - Electronic cigarette and method for switching on electronic cigarette - Google Patents

Electronic cigarette and method for switching on electronic cigarette Download PDF

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Publication number
WO2016015264A1
WO2016015264A1 PCT/CN2014/083376 CN2014083376W WO2016015264A1 WO 2016015264 A1 WO2016015264 A1 WO 2016015264A1 CN 2014083376 W CN2014083376 W CN 2014083376W WO 2016015264 A1 WO2016015264 A1 WO 2016015264A1
Authority
WO
WIPO (PCT)
Prior art keywords
electronic cigarette
atomizing
control signal
preset value
trigger signal
Prior art date
Application number
PCT/CN2014/083376
Other languages
French (fr)
Chinese (zh)
Inventor
向智勇
Original Assignee
惠州市吉瑞科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 惠州市吉瑞科技有限公司 filed Critical 惠州市吉瑞科技有限公司
Priority to CN201480001112.7A priority Critical patent/CN106413433B/en
Priority to PCT/CN2014/083376 priority patent/WO2016015264A1/en
Publication of WO2016015264A1 publication Critical patent/WO2016015264A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/60Devices with integrated user interfaces
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors

Definitions

  • the invention relates to the field of electronic cigarette technology, in particular to an electronic cigarette and a method for starting an electronic cigarette.
  • E-cigarettes are a new type of electronic product that has the same appearance as ordinary cigarettes and the same taste as cigarettes, but e-cigarettes are healthier and more environmentally friendly than traditional cigarettes.
  • the electronic cigarette is controlled by a control module integrated with an air flow sensor, and when the user smokes the electronic cigarette, the air pressure in the electronic cigarette changes, and the film capacitance of the air flow sensor is deformed. . When the shape variable of the film capacitor reaches a threshold value, the electronic cigarette controls the smoke oil to be atomized into particles.
  • the invention provides an electronic cigarette and a method for starting the electronic cigarette, which can make the electronic cigarette more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette, thereby improving the user experience of the electronic cigarette.
  • the invention provides an electronic cigarette, comprising:
  • An electronic cigarette body having opposite first and second ends
  • An atomizing component for atomizing the tobacco oil and a battery component for supplying the atomizing component are disposed on the electronic cigarette body, and the first end of the electronic cigarette body is provided with a temperature sensor, and the second end is disposed on the second end a smoking end is provided, and the temperature sensor is configured to generate a first trigger signal when detecting that the temperature reaches a preset value;
  • the electronic cigarette body is further provided with an air flow sensor for generating a second trigger signal, and a micro controller electrically connected to the temperature sensor, the air flow sensor and the atomizing component respectively; Generating a first control signal when receiving the first trigger signal, and further configured to generate a second control signal when the second trigger signal is received;
  • the atomizing component is configured to be activated according to the first control signal and to be in a first preset time after startup And atomizing the smoke oil; and further for atomizing the smoke oil according to the second control signal.
  • the electronic cigarette wherein the first end of the electronic cigarette is further provided with a light-emitting element, configured to emit light according to the first control signal in a second preset time period after the atomizing component is activated.
  • the electronic cigarette wherein the light emitted by the light emitting element is red light.
  • the electronic cigarette wherein the microcontroller includes a first working mode
  • the microcontroller is specifically configured to generate a first control signal when the first trigger signal is received, and to be used in a third preset time period after generating the first control signal.
  • the second control signal is generated when the second trigger signal is received.
  • the electronic cigarette wherein the electronic cigarette body is further provided with a button for starting the atomizing assembly when the atomizing assembly is in a closed state;
  • the microcontroller is further configured to generate a second control signal when the second trigger signal is received within a third preset time period after the atomizing component is activated.
  • microcontroller is further configured to: after receiving the first trigger signal, receive the first trigger signal or the second trigger signal to reach a fourth preset time period Generating a third control signal when the second trigger signal has not been received;
  • the atomizing assembly is further configured to be turned off according to the third control signal.
  • microcontroller further includes a second working mode
  • the electronic cigarette body is further provided with a button for adjusting the microcontroller from the first working mode to the second working mode;
  • the microcontroller is configured to generate a second control signal when the second trigger signal is received.
  • the electronic cigarette wherein the temperature sensor and the electronic cigarette body are provided with a heat insulation layer except for other positions of the temperature sensor.
  • the electronic cigarette wherein the atomizing component further comprises:
  • the atomization sleeve is provided with a cylindrical support frame, and an outer side of the side wall of the support frame is provided with an oil storage space, and a support hole is further formed on a side surface of the support frame, and the support hole has a vertical direction On the direction of the support frame;
  • the atomizing core passes through the support hole and is fixed in the support frame, and both ends of the atomization core are further Inserting into the oil storage space for atomizing the liquid smoke in the oil storage space;
  • the smoke passage extends from the atomizing core to the smoking end along a central void of the support frame.
  • the invention also provides a method for starting an electronic cigarette, comprising:
  • the electronic cigarette When detecting that the temperature on the first end reaches the first preset value, the electronic cigarette starts, and atomizes the smoke oil in the first preset time period after the startup;
  • the method for starting an electronic cigarette wherein the first end of the electronic cigarette is further provided with a light-emitting element;
  • the method further includes:
  • the electronic cigarette controls the light-emitting element to emit light for the next second predetermined period of time when it is detected that the temperature on the first end reaches a first preset value.
  • the electronic aerosolized smoke oil specifically includes:
  • the electronic aerosolized smoke is detected when the detected change in the air pressure reaches a second preset value in the next third preset time period when it is detected that the temperature on the first end reaches the first preset value oil.
  • the method for starting an electronic cigarette wherein the electronic cigarette is further provided with a button for starting the electronic cigarette; the electronic cigarette further includes a second working mode, the method further comprising:
  • the method for starting an electronic cigarette wherein the method further includes:
  • the electronic cigarette After detecting that the temperature on the first end reaches the first preset value, in the next fourth preset time period, the electronic cigarette has not detected that the air pressure change amount reaches the second preset value. , the electricity The child smoke is automatically turned off;
  • the electronic cigarette After detecting that the air pressure change amount reaches the second preset value, in the next fourth preset time period, the electronic cigarette has not detected again that the air pressure change amount reaches the second preset value.
  • the electronic cigarette is automatically turned off.
  • the embodiments of the present invention have the following advantages:
  • a temperature sensor is disposed on one end of the electronic cigarette away from the smoking end, and the atomizing component is controlled to start when the detected temperature reaches a preset value, and the atomizing smoke is preset within the preset time after starting. Oil, in this way, the user can ignite the end of the electronic cigarette provided with the temperature sensor before using the electronic cigarette, so that the electronic cigarette can more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette. , improved the user experience of e-cigarettes.
  • FIG. 1 is a schematic cross-sectional structural view of an embodiment of an electronic cigarette according to the present invention.
  • FIG. 2 is a schematic diagram of circuit connection of an embodiment of an electronic cigarette according to the present invention.
  • FIG. 3 is a flow chart of one embodiment of a method of starting an electronic cigarette in the present invention.
  • the invention provides an electronic cigarette and a method for starting the electronic cigarette, which can make the electronic cigarette more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette, thereby improving the user experience of the electronic cigarette.
  • an embodiment of the electronic cigarette of the present invention includes:
  • the electronic cigarette body has an opposite first end and a second end, wherein the second end of the electronic cigarette body is provided with a smoking end 101 through which the user can smoke; the electronic cigarette body
  • the first end is provided with a temperature sensor 100 for generating a first trigger signal when it is detected that the temperature reaches a preset value.
  • the temperature sensor 100 may be an NTC (Negative Temperature Coefficient) thermistor.
  • An atomizing assembly 102 for atomizing the soot oil, and a battery assembly 103 for supplying power to the atomizing assembly 102 are also disposed on the electronic cigarette body.
  • the electronic cigarette body is further provided with an air flow sensor (not shown) for generating a second trigger signal when detecting that the amount of change in air pressure at the preset position in the body of the electronic cigarette reaches a preset value.
  • a controller (not shown) is further disposed in the electronic cigarette body, and the microcontroller is electrically connected to the temperature sensor 100, the air flow sensor, and the atomizing assembly 102, respectively.
  • the microcontroller is configured to generate a first control signal when the first trigger signal is received, and to generate a second control signal when the second trigger signal is received.
  • the microcontroller is configured to generate a first control signal when the first trigger signal is received, and to generate a second control signal when the second trigger signal is received.
  • the microcontroller is configured to generate a first control signal when receiving the first trigger signal, and generate a second control signal when receiving the second trigger signal within a preset time after receiving the first trigger signal.
  • the atomizing component 102 is configured to be activated according to the first control signal, and atomize the smoke oil within a first preset time period after startup; and further configured to atomize the smoke according to the second control signal oil. It should be noted that the atomizing assembly 102 atomizes the soot after activation and is different from atomizing the soot according to the second control signal. After the atomizing assembly 102 is activated, the atomizing assembly 102 only atomizes the smoke oil during the first preset time period after startup to generate a burst of smoke to simulate a burst of smoke generated by the user when the cigarette is smoked while the cigarette is being smoked. The state also reminds the user to stop ignition of the first end of the electronic cigarette.
  • the atomizing component 102 atomizes the smoke oil according to the second control signal, since the second control signal is generated when the user smokes the electronic cigarette, the time for atomizing the smoke oil by the atomizing component 102 is determined by the user when smoking the electronic cigarette. The length of time each cigarette is smoked.
  • a temperature sensor is disposed on one end of the electronic cigarette away from the smoking end, and when the detected temperature reaches a preset value, the atomizing component is controlled to start, and the smoke oil is atomized within a preset time after starting, so that The user can use a lighter to ignite the end of the electronic cigarette provided with the temperature sensor before using the electronic cigarette, so that the electronic cigarette can more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette, and the electronic is improved.
  • the user experience of the smoke is disposed on one end of the electronic cigarette away from the smoking end, and when the detected temperature reaches a preset value, the atomizing component is controlled to start, and the smoke oil is atomized within a preset time after starting, so that The user can use a lighter to ignite the end of the electronic cigarette provided with the temperature sensor before using the electronic cigarette, so that the electronic cigarette can more realistically imitate the cigarette, so that the user can follow the habit of smoking
  • the first end of the electronic cigarette is further provided with a light-emitting element 104 for emitting light according to the first control signal in a second preset time period after the atomizing assembly 102 is activated.
  • a light-emitting element 104 for emitting light according to the first control signal in a second preset time period after the atomizing assembly 102 is activated.
  • the light emitted by the light-emitting element is red light, so that the light generated by the light-emitting element is more similar to the red light that appears after the cigarette is lit in the actual situation.
  • the microcontroller includes a first working mode.
  • the microcontroller is specifically configured to generate a first control signal when the first trigger signal is received, and to receive the third preset time period after generating the first control signal.
  • a second control signal is generated when the second trigger signal is reached.
  • the atomizing assembly 102 is configured to start when the temperature sensor 100 detects that the temperature reaches a preset value, and atomizes the smoke oil within a first preset period of time (for example, 3 seconds) after startup.
  • the airflow sensor detects that the amount of change in air pressure at the preset position in the electronic cigarette body reaches a preset value within a third preset period of time (for example, 4 minutes) after the atomizing assembly 102 is activated, that is, the user is detected to smoke the electronic cigarette. At this time, the atomizing assembly 102 atomizes the smoke oil.
  • a third preset period of time for example, 4 minutes
  • the electronic cigarette body may further be provided with a button for starting the atomizing assembly 102 when the atomizing assembly 102 is in a closed state; the microcontroller is further configured to be used after the atomizing assembly 102 is started The second control signal is generated when the second trigger signal is received within the third preset time period.
  • the atomizing assembly 102 can be activated by pressing a button without starting the atomizing assembly 102 by igniting the temperature sensor 100, which is convenient for the user and improves the user's experience in using the electronic cigarette.
  • the microcontroller further includes a second working mode.
  • the microcontroller is configured to generate a second control signal when receiving the second trigger signal, without receiving the third preset time period after generating the first control signal
  • the second control signal is generated when the second trigger signal is described.
  • the electronic cigarette body is further provided with a button (not shown) for adjusting the microcontroller from the first working mode to the second working mode.
  • a button for adjusting the microcontroller from the first working mode to the second working mode.
  • the atomizing component 102 can be activated by long pressing the button, so that when the atomizing component 102 is started, when the airflow sensor detects
  • the microcontroller can control the atomizing component 102 to atomize the smoke oil when the user smokes the electronic cigarette.
  • the microcontroller can be adjusted from the first operating mode to the second operating mode by short pressing the button.
  • the atomizing assembly 102 does not need to be activated when the user ignites the electronic cigarette, but directly atomizes the smoke oil when the airflow sensor detects that the user is smoking the electronic cigarette.
  • the micro control is further configured to generate a third control signal; the atomizing component 102 is further configured to be turned off according to the third control signal.
  • the microcontroller can determine that the user suspends the use of the electronic cigarette, thereby controlling the atomizing component. 102 automatically shuts down to save battery and user experience without the need for manual operation.
  • a temperature sensor 100 is disposed on the first end of the electronic cigarette body.
  • the temperature sensor 100 and the electronic cigarette body are provided with a heat insulating layer except for other positions of the temperature sensor 100. In this way, it is possible to prevent the user from avoiding the temperature rise of the electronic cigarette body and causing the electronic cigarette to be hot when the temperature is heated by the ignition.
  • an oil storage space 1021 for storing smoke oil is disposed in the atomization assembly 102, and a smoke oil connected to the oil storage space 1021 for atomizing the oil storage space 1021 and electrically connected thereto
  • the atomizing core 1022 of the battery assembly 103 is described.
  • the oil storage space is disposed in the oil storage space 1021.
  • the oil storage space may be provided with other oil storage medium or no oil storage medium, and is not limited herein.
  • the atomizing core 1022 is specifically a heating wire assembly.
  • the atomizing core can also be realized by other means, for example, using a heating sheet or an ultrasonic atomizing component, etc., and is not limited herein.
  • a smoke passage 1023 for exhausting smoke to the smoking end 101 is also provided.
  • the smoke passage 1023 connects the atomizing core 1022 to the smoking end 101 and extends along the axis of the atomizing assembly 102.
  • the atomizing assembly 102 in the electronic cigarette body has various structural realizations. A specific structure of the atomizing assembly of the electronic cigarette will be described in detail below with reference to FIG. Referring to Figure 1, the atomizing assembly 102 further includes an atomizing sleeve 1024.
  • the atomizing sleeve 1024 is provided with a cylindrical support frame 1025.
  • the support frame 1025 is a fiberglass tube.
  • the support frame 1025 can also be other materials, and is not limited herein.
  • An outer side of the side wall of the support frame 1025 is provided with an oil storage space 1021.
  • the side wall of the support frame 1025 is further provided with a support hole 1027.
  • the support hole 1027 has a direction perpendicular to the direction of the support frame 1025.
  • the atomizing core 1022 passes through the support hole 1027 and is fixed in the support frame 1025. Both ends of the atomizing core 1022 are also inserted into the oil storage space 1021 for atomizing the liquid smoke in the oil storage space 1021.
  • the smoke channel 1023 extends from the atomizing core 1022 to the smoking end 101 along a central void of the support frame 1025.
  • the battery assembly 103 in the electronic cigarette body has various structural realizations. A specific structure of the battery assembly of the electronic cigarette will be described in detail below with reference to FIG. Referring to Figure 1, the battery assembly 103 includes:
  • a battery 1032 is disposed inside the battery cannula 1031.
  • FIG. 2 is a schematic cross-sectional structural view showing another embodiment of the electronic cigarette of the present invention.
  • FIG. 2 illustrates the real-time mode of the embodiment in a specific circuit diagram.
  • This circuit diagram is only for a fuller explanation and is not limited.
  • Ml is the airflow sensor
  • the specific model can be selected as S087.
  • the specific model of the microcontroller can be selected as SN8P2711B
  • B1 is the electric heating wire of the atomizing component 103
  • the specific model of the temperature sensor can be AD592.
  • the first trigger signal is sent to the microcontroller when the temperature of the temperature sensor rises to a preset value.
  • the microcontroller controls the FET Q1 in the switch assembly to be turned on according to the received first trigger signal, so that the battery BATTERY supplies power to the heating wire B1 of the atomizing assembly 102, so that the heating wire B1 atomizes the oil.
  • the FET Q1 in the microcontroller control switch assembly is turned off, and the heating wire B1 stops atomizing the smoke oil.
  • the airflow sensor sends a second trigger signal to the micro Controller.
  • the microcontroller controls the FET Q1 in the switch assembly to be turned on according to the second trigger signal, so that the battery BATTERY supplies power to the heating wire B1 of the atomizing assembly 102, so that the heating wire B1 atomizes the oil smoke;
  • the LED1 that imitates the burning of cigarettes is bright. If the airflow sensor does not detect that the air pressure change amount reaches the preset value for the fourth preset time period, the microcontroller controls the FET Ql stopped working.
  • an embodiment of the method of starting an electronic cigarette in the present invention includes:
  • the electronic cigarette includes opposite first and second ends, wherein the second end is provided with a smoking end.
  • a temperature sensor may be disposed on the first end of the electronic cigarette, and a temperature sensor may be used to detect the temperature on the first end.
  • a smoke passage in the electronic cigarette for conveying the atomized smoke oil to the smoking end of the electronic cigarette for the user to smoke.
  • an air flow is generated in the smoke passage to deliver the oil to the smoking end. Therefore, the amount of change in the air pressure of the smoke passage in the electronic cigarette can be detected, and when the amount of change in the air pressure reaches a predetermined value, it can be determined that the user is smoking the electronic cigarette.
  • the predetermined value can be determined by multiple experiments.
  • the electronic cigarette When detecting that the temperature on the first end reaches a first preset value, the electronic cigarette starts, and atomizes the smoke oil in a first preset time period after startup;
  • the first end of the electronic cigarette is provided with means for detecting the temperature of the first end. In this way, the user can ignite the first end of the electronic cigarette before smoking the electronic cigarette.
  • the first end of the e-cigarette is made of a material with a high ignition point to avoid a real fire at the first end.
  • the temperature on the first end of the electronic cigarette reaches the first preset value
  • the smoke oil is atomized during the time period to simulate a burst of smoke generated by the cigarette when the cigarette is ignited, and also reminds the user to stop ignition of the first end of the electronic cigarette.
  • the first end of the electronic cigarette is further provided with a light-emitting element.
  • the electronic cigarette also controls the light-emitting element to emit light in the next second preset time period to simulate the flare generated by the cigarette when it is lit.
  • the illuminating element is for generating red light such that the color of the light emitted by the illuminating element is closer to the color of the blaze.
  • the electronic cigarette When it is detected that the amount of change in the air pressure reaches the second preset value, it can be determined that the user is smoking the electronic cigarette, and thus the electronic cigarette atomizes the smoke oil to generate smoke for the user to smoke.
  • the electronic cigarette includes a first working mode and/or a second working mode.
  • the electronic aerosolized smoke oil when detecting that the air pressure change amount reaches a second preset value, specifically includes: when detecting that the temperature on the first end reaches the first preset The electronic aerosolized smoke oil is detected when the amount of change in the air pressure reaches a second preset value in the next third preset time period. That is, the electronic cigarette only meets the condition that the detected temperature on the first end reaches the first preset value, and the detected change in the air pressure reaches the second preset in the next third preset time period. When this condition is used, the electronic cigarette atomizes the smoke oil.
  • the electronic aerosolized smoke oil is detected when the amount of change in air pressure is detected to reach a second preset value. That is, the electronic cigarette only needs to satisfy one condition, that is, when it is detected that the air pressure change amount reaches the second preset value, the electronic cigarette can atomize the smoke oil.
  • the electronic cigarette is activated by detecting that the temperature on the first end reaches the first preset value, and the smoke oil is atomized within a preset time after startup, so that the user can use the electronic cigarette before smoking the electronic cigarette.
  • the lighter ignites the first end of the electronic cigarette, so that the electronic cigarette can more realistically imitate the cigarette, thereby facilitating the user to use the habit of smoking the cigarette before changing the electronic cigarette, thereby improving the user experience of the electronic cigarette.
  • the method for starting the electronic cigarette further comprises:
  • the electronic cigarette After detecting that the temperature on the first end reaches the first preset value, in the next fourth preset time period, the electronic cigarette has not detected that the air pressure change amount reaches the second preset value.
  • the electronic cigarette is automatically turned off;
  • the electronic cigarette After detecting that the air pressure change amount reaches the second preset value, in the next fourth preset time period, the electronic cigarette has not detected again that the air pressure change amount reaches the second preset value.
  • the electronic cigarette is automatically turned off.
  • the electronic cigarette can be judged to stop using the electronic cigarette when the electronic cigarette is detected for a long time, and the electronic cigarette can be automatically turned off, without the user manually closing the electronic cigarette, thereby improving the user experience.

Abstract

An electronic cigarette and a method for switching on the electronic cigarette. The electronic cigarette comprises: an electronic cigarette body having a first extremity and a second extremity opposite each other. An atomizing component (102) and a battery component (103) are provided on the electronic cigarette body. A temperature sensor (100) is provided on the first extremity. A smoking extremity (101) is provided on the second extremity. The temperature sensor (100) is used for generating a first trigger signal when the detected temperature reaches a preset value. Also provided on the electronic cigarette body are an airflow sensor used for generating a second trigger signal and a microcontroller electrically connected respectively to the temperature sensor (100), the airflow sensor, and the atomizing component (102). The microcontroller is used for generating a first control signal when the first trigger signal is received and generating a second control signal when the second trigger signal is received. The atomizing component (102) is used for being switched-on on the basis the first control signal and atomizing an e-liquid within a first preset time period after being switched on and also is used for atomizing the e-liquid on the basis of the second control signal. The electronic cigarette and the method for switching on the electronic cigarette allow the electronic cigarette to more realistically imitate a cigarette.

Description

一种电子烟和启动电子烟的方法 技术领域  Electronic cigarette and method for starting electronic cigarette
本发明涉及电子烟技术领域, 特别涉及一种电子烟和启动电子烟的方法。  The invention relates to the field of electronic cigarette technology, in particular to an electronic cigarette and a method for starting an electronic cigarette.
背景技术 Background technique
电子烟是一种新型的电子产品, 其与普通的香烟有着相同的外观, 以及与 香烟相同的味道, 但是电子烟相对于传统的香烟更为的健康以及环保。  E-cigarettes are a new type of electronic product that has the same appearance as ordinary cigarettes and the same taste as cigarettes, but e-cigarettes are healthier and more environmentally friendly than traditional cigarettes.
现有的一种电子烟中釆用集成有气流感应器的控制模块对电子烟进行控 制, 在用户吸食电子烟时, 电子烟内的气压会产生变化, 进而导致气流感应器 的薄膜电容发生形变。 当该薄膜电容的形变量达到阔值时, 电子烟控制烟油雾 化成颗粒。  In an existing electronic cigarette, the electronic cigarette is controlled by a control module integrated with an air flow sensor, and when the user smokes the electronic cigarette, the air pressure in the electronic cigarette changes, and the film capacitance of the air flow sensor is deformed. . When the shape variable of the film capacitor reaches a threshold value, the electronic cigarette controls the smoke oil to be atomized into particles.
实际中,许多用户一般的吸烟习惯是釆用打火机先将烟草制成的香烟点着 后吸烟。 然而, 釆用现有的电子烟无法满足用户的这个习惯, 因而现有电子烟 的用户体验差。  In practice, many users generally use smoking cigarettes to light cigarettes and then smoke them. However, the use of existing electronic cigarettes cannot satisfy the user's habit, and thus the existing electronic cigarette has a poor user experience.
发明内容 Summary of the invention
本发明提供了一种电子烟和启动电子烟的方法,能够让电子烟更加真实地 模仿香烟,使得用户在改吸电子烟时能够沿用以前吸食香烟的习惯,提高了电 子烟的用户体验。  The invention provides an electronic cigarette and a method for starting the electronic cigarette, which can make the electronic cigarette more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette, thereby improving the user experience of the electronic cigarette.
本发明提供了一种电子烟, 包括:  The invention provides an electronic cigarette, comprising:
具有相对的第一端和第二端的电子烟本体;  An electronic cigarette body having opposite first and second ends;
所述电子烟本体上设置有用于雾化烟油的雾化组件以及用于给所述雾化 组件供电的电池组件, 所述电子烟本体的第一端上设置有温度传感器, 第二端 上设置有吸烟端,所述温度传感器用于当检测到温度达到预置数值时产生第一 触发信号;  An atomizing component for atomizing the tobacco oil and a battery component for supplying the atomizing component are disposed on the electronic cigarette body, and the first end of the electronic cigarette body is provided with a temperature sensor, and the second end is disposed on the second end a smoking end is provided, and the temperature sensor is configured to generate a first trigger signal when detecting that the temperature reaches a preset value;
所述电子烟本体上还设置有用于产生第二触发信号的气流感应器,以及分 别与所述温度传感器、 所述气流传感器和所述雾化组件电连接的微控制器; 所述微控制器用于当接收到所述第一触发信号时生成第一控制信号,还用 于当接收到所述第二触发信号时生成第二控制信号;  The electronic cigarette body is further provided with an air flow sensor for generating a second trigger signal, and a micro controller electrically connected to the temperature sensor, the air flow sensor and the atomizing component respectively; Generating a first control signal when receiving the first trigger signal, and further configured to generate a second control signal when the second trigger signal is received;
所述雾化组件用于根据所述第一控制信号启动,并在启动后第一预置时间 段内雾化所述烟油; 还用于根据所述第二控制信号雾化所述烟油。 所述的电子烟, 其中, 所述电子烟的第一端上还设置有发光元件, 用于根 据所述第一控制信号在所述雾化组件启动后第二预置时间段内发光。 The atomizing component is configured to be activated according to the first control signal and to be in a first preset time after startup And atomizing the smoke oil; and further for atomizing the smoke oil according to the second control signal. The electronic cigarette, wherein the first end of the electronic cigarette is further provided with a light-emitting element, configured to emit light according to the first control signal in a second preset time period after the atomizing component is activated.
所述的电子烟, 其中, 所述发光元件发出的光为红光。  The electronic cigarette, wherein the light emitted by the light emitting element is red light.
所述的电子烟, 其中, 所述微控制器包括第一工作模式;  The electronic cigarette, wherein the microcontroller includes a first working mode;
在所述第一工作模式中,所述微控制器具体用于当接收到所述第一触发信 号时生成第一控制信号,还用于在生成第一控制信号后第三预置时间段内接收 到所述第二触发信号时生成第二控制信号。  In the first working mode, the microcontroller is specifically configured to generate a first control signal when the first trigger signal is received, and to be used in a third preset time period after generating the first control signal. The second control signal is generated when the second trigger signal is received.
所述的电子烟, 其中, 所述电子烟本体上还设置有按键, 用于在所述雾化 组件处于关闭状态时启动所述雾化组件;  The electronic cigarette, wherein the electronic cigarette body is further provided with a button for starting the atomizing assembly when the atomizing assembly is in a closed state;
所述微控制器还用于在所述雾化组件启动后第三预置时间段内接收到所 述第二触发信号时生成第二控制信号。  The microcontroller is further configured to generate a second control signal when the second trigger signal is received within a third preset time period after the atomizing component is activated.
所述的电子烟,其中,所述微控制器还用于在接收到所述第一触发信号后, 距离接收到所述第一触发信号或者所述第二触发信号达到第四预置时间段时 还未接收到第二触发信号时, 生成第三控制信号;  The electronic cigarette, wherein the microcontroller is further configured to: after receiving the first trigger signal, receive the first trigger signal or the second trigger signal to reach a fourth preset time period Generating a third control signal when the second trigger signal has not been received;
所述雾化组件还用于根据所述第三控制信号关闭。  The atomizing assembly is further configured to be turned off according to the third control signal.
所述的电子烟, 其中, 所述微控制器还包括第二工作模式;  The electronic cigarette, wherein the microcontroller further includes a second working mode;
所述电子烟本体上还设置有按键,用于将所述微控制器从所述第一工作模 式调整到所述第二工作模式;  The electronic cigarette body is further provided with a button for adjusting the microcontroller from the first working mode to the second working mode;
在所述第二工作模式中,所述微控制器用于当接收到所述第二触发信号时 生成第二控制信号。  In the second mode of operation, the microcontroller is configured to generate a second control signal when the second trigger signal is received.
所述的电子烟, 其中, 所述温度传感器与所述电子烟本体上除所述温度传 感器的其他位置之间设置有隔热层。  The electronic cigarette, wherein the temperature sensor and the electronic cigarette body are provided with a heat insulation layer except for other positions of the temperature sensor.
所述的电子烟, 其中, 所述雾化组件还包括:  The electronic cigarette, wherein the atomizing component further comprises:
雾化套;  Atomizing sleeve
所述雾化套内设有呈筒状的支撑架,所述支撑架的侧壁外侧环绕设置有储 油空间, 所述支撑架的侧面上还开有支撑孔, 所述支撑孔的走向垂直于所述支 撑架的走向;  The atomization sleeve is provided with a cylindrical support frame, and an outer side of the side wall of the support frame is provided with an oil storage space, and a support hole is further formed on a side surface of the support frame, and the support hole has a vertical direction On the direction of the support frame;
所述雾化芯穿过所述支撑孔并固定在所述支撑架内,所述雾化芯的两端还 插入所述储油空间内, 用于雾化所述储油空间内的烟液; The atomizing core passes through the support hole and is fixed in the support frame, and both ends of the atomization core are further Inserting into the oil storage space for atomizing the liquid smoke in the oil storage space;
所述烟雾通道沿着支撑架的中心空处从所述雾化芯延伸至所述吸烟端。 本发明还提供了一种启动电子烟的方法, 包括:  The smoke passage extends from the atomizing core to the smoking end along a central void of the support frame. The invention also provides a method for starting an electronic cigarette, comprising:
检测电子烟第一端上的温度,其中所述电子烟上与所述第一端相对的一端 上设置有吸烟端;  Detecting a temperature on the first end of the electronic cigarette, wherein the end of the electronic cigarette opposite to the first end is provided with a smoking end;
检测所述电子烟内的气压变化量;  Detecting a change in the amount of air pressure in the electronic cigarette;
当检测到所述第一端上的温度达到第一预置数值时, 所述电子烟启动, 并 在启动后第一预置时间段内雾化烟油;  When detecting that the temperature on the first end reaches the first preset value, the electronic cigarette starts, and atomizes the smoke oil in the first preset time period after the startup;
当检测到所述气压变化量达到第二预置数值时, 所述电子烟雾化烟油。 所述的启动电子烟的方法, 其中, 所述电子烟的第一端上还设置有发光元 件;  The electronic aerosolizes the smoke oil when it is detected that the amount of change in air pressure reaches a second preset value. The method for starting an electronic cigarette, wherein the first end of the electronic cigarette is further provided with a light-emitting element;
所述方法还包括:  The method further includes:
当检测到所述第一端上的温度达到第一预置数值时,所述电子烟控制所述 发光元件在接下来的第二预置时间段内发光。  The electronic cigarette controls the light-emitting element to emit light for the next second predetermined period of time when it is detected that the temperature on the first end reaches a first preset value.
所述的启动电子烟的方法, 其中, 所述电子烟包括第一工作模式, 在所述 第一工作模式中:  The method for starting an electronic cigarette, wherein the electronic cigarette comprises a first working mode, in the first working mode:
所述当检测到所述气压变化量达到第二预置数值时,所述电子烟雾化烟油 具体包括:  When the amount of change in the air pressure reaches a second preset value, the electronic aerosolized smoke oil specifically includes:
当在检测到所述第一端上的温度达到第一预置数值时接下来的第三预置 时间段内检测到所述气压变化量达到第二预置数值时, 所述电子烟雾化烟油。  The electronic aerosolized smoke is detected when the detected change in the air pressure reaches a second preset value in the next third preset time period when it is detected that the temperature on the first end reaches the first preset value oil.
所述的启动电子烟的方法, 其中, 所述电子烟上还设置有用于启动电子烟 的按键; 所述电子烟还包括第二工作模式, 所述方法还包括:  The method for starting an electronic cigarette, wherein the electronic cigarette is further provided with a button for starting the electronic cigarette; the electronic cigarette further includes a second working mode, the method further comprising:
在所述电子烟处于启动状态时,将所述电子烟从所述第一工作模式调整到 所述第二工作模式;  Adjusting the electronic cigarette from the first working mode to the second working mode when the electronic cigarette is in an activated state;
在所述第二工作模式中,  In the second mode of operation,
当检测到所述气压变化量达到第二预置数值时, 所述电子烟雾化烟油。 所述的启动电子烟的方法, 其中, 所述方法还包括:  The electronic aerosolizes the smoke oil when it is detected that the amount of change in air pressure reaches a second preset value. The method for starting an electronic cigarette, wherein the method further includes:
在检测到所述第一端上的温度达到第一预置数值后,接下来的第四预置时 间段内, 所述电子烟还未检测到所述气压变化量达到第二预置数值时, 所述电 子烟自动关闭; After detecting that the temperature on the first end reaches the first preset value, in the next fourth preset time period, the electronic cigarette has not detected that the air pressure change amount reaches the second preset value. , the electricity The child smoke is automatically turned off;
或者,在检测到所述气压变化量达到第二预置数值后,接下来的第四预置 时间段内, 所述电子烟还未再次检测到所述气压变化量达到第二预置数值时, 所述电子烟自动关闭。  Alternatively, after detecting that the air pressure change amount reaches the second preset value, in the next fourth preset time period, the electronic cigarette has not detected again that the air pressure change amount reaches the second preset value. The electronic cigarette is automatically turned off.
从以上技术方案可以看出, 本发明实施例具有以下优点:  As can be seen from the above technical solutions, the embodiments of the present invention have the following advantages:
本发明所提供的电子烟中,由于电子烟上远离吸烟端的一端上设置有温度 传感器, 并在检测到温度达到预置数值时控制雾化组件启动, 并在启动后预置 时间内雾化烟油, 这样, 用户可在吸食电子烟之前釆用打火机对电子烟设置有 温度传感器的一端点火,使得电子烟能够更加真实的模仿香烟,使得用户在改 吸电子烟时能够沿用以前吸食香烟的习惯, 提高了电子烟的用户体验。 附图说明  In the electronic cigarette provided by the present invention, a temperature sensor is disposed on one end of the electronic cigarette away from the smoking end, and the atomizing component is controlled to start when the detected temperature reaches a preset value, and the atomizing smoke is preset within the preset time after starting. Oil, in this way, the user can ignite the end of the electronic cigarette provided with the temperature sensor before using the electronic cigarette, so that the electronic cigarette can more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette. , improved the user experience of e-cigarettes. DRAWINGS
图 1为本发明中电子烟的一个实施例的剖面结构示意图;  1 is a schematic cross-sectional structural view of an embodiment of an electronic cigarette according to the present invention;
图 2为本发明中电子烟的一个实施例的电路连接示意图;  2 is a schematic diagram of circuit connection of an embodiment of an electronic cigarette according to the present invention;
图 3为本发明中启动电子烟的方法的一个实施例的流程图。  3 is a flow chart of one embodiment of a method of starting an electronic cigarette in the present invention.
具体实施方式 detailed description
本发明提供了一种电子烟和启动电子烟的方法,能够让电子烟更加真实地 模仿香烟,使得用户在改吸电子烟时能够沿用以前吸食香烟的习惯,提高了电 子烟的用户体验。  The invention provides an electronic cigarette and a method for starting the electronic cigarette, which can make the electronic cigarette more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette, thereby improving the user experience of the electronic cigarette.
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清 楚、 完整地描述, 显然, 所描述的实施例仅仅是本发明一部分实施例, 而不是 全部的实施例。基于本发明中的实施例, 本领域普通技术人员在没有做出创造 性劳动前提下所获得的所有其他实施例, 都属于本发明保护的范围。  BRIEF DESCRIPTION OF THE DRAWINGS The technical solutions in the embodiments of the present invention will be described in detail below with reference to the accompanying drawings. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without the creative work are all within the scope of the present invention.
请参阅图 1, 本发明中电子烟的一个实施例包括:  Referring to FIG. 1, an embodiment of the electronic cigarette of the present invention includes:
电子烟本体, 该电子烟本体具有相对的第一端和第二端, 其中该电子烟本 体的第二端上设置有吸烟端 101, 用户通过该吸烟端 101即可进行吸烟; 该电子 烟本体的第一端上设置有温度传感器 100, 用于当检测到温度达到预置数值时 产生第一触发信号。 具体的, 该温度传感器 100可以是 NTC ( Negative Temperature Coefficient, 负温度系数)热敏电阻。 电子烟本体上还设置有用于雾化烟油的雾化组件 102, 以及用于给雾化组 件 102供电的电池组件 103。 The electronic cigarette body has an opposite first end and a second end, wherein the second end of the electronic cigarette body is provided with a smoking end 101 through which the user can smoke; the electronic cigarette body The first end is provided with a temperature sensor 100 for generating a first trigger signal when it is detected that the temperature reaches a preset value. Specifically, the temperature sensor 100 may be an NTC (Negative Temperature Coefficient) thermistor. An atomizing assembly 102 for atomizing the soot oil, and a battery assembly 103 for supplying power to the atomizing assembly 102 are also disposed on the electronic cigarette body.
电子烟本体上还设置有气流感应器(图未示), 用于在检测到电子烟本体 内预置位置处的气压变化量达到预置数值时, 产生第二触发信号。  The electronic cigarette body is further provided with an air flow sensor (not shown) for generating a second trigger signal when detecting that the amount of change in air pressure at the preset position in the body of the electronic cigarette reaches a preset value.
电子烟本体内还设置有微控制器 (图未示), 该微控制器分别与所述温度 传感器 100、 所述气流传感器以及所述雾化组件 102电连接。 所述微控制器用 于当接收到所述第一触发信号时生成第一控制信号,还用于当接收到所述第二 触发信号时生成第二控制信号。  A controller (not shown) is further disposed in the electronic cigarette body, and the microcontroller is electrically connected to the temperature sensor 100, the air flow sensor, and the atomizing assembly 102, respectively. The microcontroller is configured to generate a first control signal when the first trigger signal is received, and to generate a second control signal when the second trigger signal is received.
具体的,所述微控制器用于当接收到所述第一触发信号时生成第一控制信 号, 并且用于当接收到所述第二触发信号时生成第二控制信号。 或者, 所述微 控制器用于当接收到所述第一触发信号时生成第一控制信号,并且在接收到第 一触发信号之后预置时间内接收到第二触发信号时生成第二控制信号。以上描 述仅为举例, 并不作限制。  Specifically, the microcontroller is configured to generate a first control signal when the first trigger signal is received, and to generate a second control signal when the second trigger signal is received. Alternatively, the microcontroller is configured to generate a first control signal when receiving the first trigger signal, and generate a second control signal when receiving the second trigger signal within a preset time after receiving the first trigger signal. The above description is by way of example only and not limitation.
所述雾化组件 102用于根据所述第一控制信号启动,并在启动后第一预置 时间段内雾化所述烟油; 还用于根据所述第二控制信号雾化所述烟油。 需注意 的是,雾化组件 102在启动后雾化烟油与在根据第二控制信号雾化烟油是不同 的。在雾化组件 102启动后, 雾化组件 102仅在启动后的第一预置时间段内进 行雾化烟油以产生一阵烟雾,以模拟用户在抽香烟时将香烟点着后产生的一阵 烟雾的状态, 也同时提醒用户可以停止对电子烟的第一端点火。 而雾化组件 102在根据第二控制信号雾化烟油时, 由于在用户吸食电子烟时才会产生第二 控制信号,因此雾化组件 102雾化烟油的时长决定于用户吸食电子烟时每一口 吸烟的时长。  The atomizing component 102 is configured to be activated according to the first control signal, and atomize the smoke oil within a first preset time period after startup; and further configured to atomize the smoke according to the second control signal oil. It should be noted that the atomizing assembly 102 atomizes the soot after activation and is different from atomizing the soot according to the second control signal. After the atomizing assembly 102 is activated, the atomizing assembly 102 only atomizes the smoke oil during the first preset time period after startup to generate a burst of smoke to simulate a burst of smoke generated by the user when the cigarette is smoked while the cigarette is being smoked. The state also reminds the user to stop ignition of the first end of the electronic cigarette. When the atomizing component 102 atomizes the smoke oil according to the second control signal, since the second control signal is generated when the user smokes the electronic cigarette, the time for atomizing the smoke oil by the atomizing component 102 is determined by the user when smoking the electronic cigarette. The length of time each cigarette is smoked.
本实施例中, 由于电子烟上远离吸烟端的一端上设置有温度传感器, 并在 检测到温度达到预置数值时控制雾化组件启动,并在启动后预置时间内雾化烟 油, 这样, 用户可在吸食电子烟之前釆用打火机对电子烟设置有温度传感器的 一端点火,使得电子烟能够更加真实的模仿香烟,使得用户在改吸电子烟时能 够沿用以前吸食香烟的习惯, 提高了电子烟的用户体验。  In this embodiment, a temperature sensor is disposed on one end of the electronic cigarette away from the smoking end, and when the detected temperature reaches a preset value, the atomizing component is controlled to start, and the smoke oil is atomized within a preset time after starting, so that The user can use a lighter to ignite the end of the electronic cigarette provided with the temperature sensor before using the electronic cigarette, so that the electronic cigarette can more realistically imitate the cigarette, so that the user can follow the habit of smoking the cigarette before changing the electronic cigarette, and the electronic is improved. The user experience of the smoke.
优选的, 电子烟的第一端上还设置有发光元件 104, 用于根据所述第一控 制信号在所述雾化组件 102启动后第二预置时间段内发光。这样, 能够让电子 烟更真实地模拟香烟点着之后的情形。 优选的, 该发光元件发出的光为红光, 以使得发光元件产生的光与实际情况中香烟点着后出现的红色火光更加相似。 Preferably, the first end of the electronic cigarette is further provided with a light-emitting element 104 for emitting light according to the first control signal in a second preset time period after the atomizing assembly 102 is activated. In this way, can make electronics The smoke more realistically simulates the situation after the cigarette is lit. Preferably, the light emitted by the light-emitting element is red light, so that the light generated by the light-emitting element is more similar to the red light that appears after the cigarette is lit in the actual situation.
具体的,本实施例中,微控制器包括第一工作模式。在该第一工作模式中, 所述微控制器具体用于当接收到所述第一触发信号时生成第一控制信号,还用 于在生成第一控制信号后第三预置时间段内接收到所述第二触发信号时生成 第二控制信号。那么相对应的, 雾化组件 102用于在温度传感器 100检测到温 度达到预置数值时启动,并在启动后第一预置时间段(例如 3秒)内雾化烟油。 如果在距离雾化组件 102启动第三预置时间段(例如 4分钟)内气流传感器检 测到电子烟本体内预置位置处的气压变化量达到预置数值时,也即检测到用户 吸食电子烟时, 雾化组件 102对烟油进行雾化。 当然, 上述对第一预置时间段 和第三预置时间段的描述仅为举例, 并不作限制。  Specifically, in this embodiment, the microcontroller includes a first working mode. In the first working mode, the microcontroller is specifically configured to generate a first control signal when the first trigger signal is received, and to receive the third preset time period after generating the first control signal. A second control signal is generated when the second trigger signal is reached. Correspondingly, the atomizing assembly 102 is configured to start when the temperature sensor 100 detects that the temperature reaches a preset value, and atomizes the smoke oil within a first preset period of time (for example, 3 seconds) after startup. If the airflow sensor detects that the amount of change in air pressure at the preset position in the electronic cigarette body reaches a preset value within a third preset period of time (for example, 4 minutes) after the atomizing assembly 102 is activated, that is, the user is detected to smoke the electronic cigarette. At this time, the atomizing assembly 102 atomizes the smoke oil. Of course, the foregoing description of the first preset time period and the third preset time period is merely an example and is not limited.
或者, 电子烟本体上还可以设有按键, 用于在所述雾化组件 102处于关闭 状态时启动所述雾化组件 102; 所述微控制器还用于在所述雾化组件 102启动 后第三预置时间段内接收到所述第二触发信号时生成第二控制信号。这样,在 用户没有带打火机时可通过按键来启动雾化组件 102, 而无需通过对温度传感 器 100进行点火来启动雾化组件 102, 方便了用户, 提高用户对电子烟的使用 体验。  Alternatively, the electronic cigarette body may further be provided with a button for starting the atomizing assembly 102 when the atomizing assembly 102 is in a closed state; the microcontroller is further configured to be used after the atomizing assembly 102 is started The second control signal is generated when the second trigger signal is received within the third preset time period. Thus, when the user does not have a lighter, the atomizing assembly 102 can be activated by pressing a button without starting the atomizing assembly 102 by igniting the temperature sensor 100, which is convenient for the user and improves the user's experience in using the electronic cigarette.
上面对微控制器的第一工作模式进行了描述。 优选的, 本实施例中, 所述 微控制器还包括第二工作模式。在所述第二工作模式中, 所述微控制器用于当 接收到所述第二触发信号时生成第二控制信号,而无需在生成第一控制信号后 第三预置时间段内接收到所述第二触发信号时才生成第二控制信号。  The first mode of operation of the microcontroller is described above. Preferably, in this embodiment, the microcontroller further includes a second working mode. In the second working mode, the microcontroller is configured to generate a second control signal when receiving the second trigger signal, without receiving the third preset time period after generating the first control signal The second control signal is generated when the second trigger signal is described.
所述电子烟本体上还设置有按键(图未示), 用于将所述微控制器从所述 第一工作模式调整到所述第二工作模式。 具体的, 在电子烟处于休眠状态时, 也即雾化组件 102未启动时,可通过长按该按键来将启动雾化组件 102,这样, 在雾化组件 102启动后,当气流传感器检测到用户吸食电子烟时微控制器即可 控制雾化组件 102雾化烟油。 当电子烟的雾化组件 102处于启动状态时, 可通 过短按该按键来将微控制器从第一工作模式调整到所述第二工作模式。此后雾 化组件 102无需在用户点火加热电子烟时才启动,而是直接在气流传感器检测 到用户吸食电子烟时即可雾化烟油。 优选的,在接收到所述第一触发信号后,距离接收到所述第一触发信号或 者所述第二触发信号达到第四预置时间段时还未接收到第二触发信号时,微控 制器还用于生成第三控制信号;所述雾化组件 102还用于根据该第三控制信号 关闭。 这样, 由于在雾化组件 102启动后, 或者在气流传感器检测到用户吸食 一口烟之后,如果较长时间用户没有吸食电子烟, 则微控制器可以判断用户暂 停使用电子烟, 进而控制雾化组件 102自动关闭, 以节省电池以及无需用户手 动操作, 提供用户的使用体验。 The electronic cigarette body is further provided with a button (not shown) for adjusting the microcontroller from the first working mode to the second working mode. Specifically, when the electronic cigarette is in a dormant state, that is, when the atomizing component 102 is not activated, the atomizing component 102 can be activated by long pressing the button, so that when the atomizing component 102 is started, when the airflow sensor detects The microcontroller can control the atomizing component 102 to atomize the smoke oil when the user smokes the electronic cigarette. When the atomizing component 102 of the electronic cigarette is in an activated state, the microcontroller can be adjusted from the first operating mode to the second operating mode by short pressing the button. Thereafter, the atomizing assembly 102 does not need to be activated when the user ignites the electronic cigarette, but directly atomizes the smoke oil when the airflow sensor detects that the user is smoking the electronic cigarette. Preferably, after receiving the first trigger signal, when the first trigger signal is received or the second trigger signal is not received when the second trigger signal reaches the fourth preset time period, the micro control The device is further configured to generate a third control signal; the atomizing component 102 is further configured to be turned off according to the third control signal. In this way, after the atomizing assembly 102 is started, or after the airflow sensor detects that the user smokes a cigarette, if the user does not smoke the electronic cigarette for a long time, the microcontroller can determine that the user suspends the use of the electronic cigarette, thereby controlling the atomizing component. 102 automatically shuts down to save battery and user experience without the need for manual operation.
本实施例中,有温度传感器 100设置在所述电子烟本体的第一端上。优选 的,所述温度传感器 100与所述电子烟本体上除所述温度传感器 100的其他位 置之间设置有隔热层。 这样, 可以避免用户在点火加热温度传感器 100时, 避 免电子烟本体的温度上升而造成电子烟烫手的情况。  In this embodiment, a temperature sensor 100 is disposed on the first end of the electronic cigarette body. Preferably, the temperature sensor 100 and the electronic cigarette body are provided with a heat insulating layer except for other positions of the temperature sensor 100. In this way, it is possible to prevent the user from avoiding the temperature rise of the electronic cigarette body and causing the electronic cigarette to be hot when the temperature is heated by the ignition.
本实施例中, 雾化组件 102 内设置有用于存储烟油的储油空间 1021, 以 及与所述储油空间 1021相接、用于雾化储油空间 1021内的烟油并电连接至所 述电池组件 103的雾化芯 1022。 具体地, 该储油空间 1021内设置有储油棉。 当然, 实际运用中, 该储油空间内也可以设置有其他储油介质或者不设储油介 质, 在此不作限制。  In this embodiment, an oil storage space 1021 for storing smoke oil is disposed in the atomization assembly 102, and a smoke oil connected to the oil storage space 1021 for atomizing the oil storage space 1021 and electrically connected thereto The atomizing core 1022 of the battery assembly 103 is described. Specifically, the oil storage space is disposed in the oil storage space 1021. Of course, in actual use, the oil storage space may be provided with other oil storage medium or no oil storage medium, and is not limited herein.
本实施例中, 该雾化芯 1022具体为电热丝组件。 当然, 实际运用中, 该 雾化芯也可以通过其他方式实现, 例如, 用电热片或超声波雾化组件等, 在此 不作限制。 在所述雾化组件 102 内, 还设置有用于供烟雾排出至吸烟端 101 的烟雾通道 1023。 该烟雾通道 1023连接所述雾化芯 1022至所述吸烟端 101, 并沿雾化组件 102的轴心延伸设置。  In this embodiment, the atomizing core 1022 is specifically a heating wire assembly. Of course, in practice, the atomizing core can also be realized by other means, for example, using a heating sheet or an ultrasonic atomizing component, etc., and is not limited herein. Within the atomizing assembly 102, a smoke passage 1023 for exhausting smoke to the smoking end 101 is also provided. The smoke passage 1023 connects the atomizing core 1022 to the smoking end 101 and extends along the axis of the atomizing assembly 102.
本发明中, 电子烟本体内的雾化组件 102有多种结构实现方式。 下面结合 图 1对该电子烟的雾化组件的一种具体结构进行详细说明。 请参阅图 1, 雾化 组件 102还包括雾化套 1024。 所述雾化套 1024内设有呈筒状的支撑架 1025。 具体的, 该支撑架 1025为玻纤管。 当然, 实际运用中, 该支撑架 1025也可以 是其他材料, 在此不作限制。  In the present invention, the atomizing assembly 102 in the electronic cigarette body has various structural realizations. A specific structure of the atomizing assembly of the electronic cigarette will be described in detail below with reference to FIG. Referring to Figure 1, the atomizing assembly 102 further includes an atomizing sleeve 1024. The atomizing sleeve 1024 is provided with a cylindrical support frame 1025. Specifically, the support frame 1025 is a fiberglass tube. Of course, in actual use, the support frame 1025 can also be other materials, and is not limited herein.
所述支撑架 1025的侧壁外侧环绕设置有储油空间 1021,所述支撑架 1025 的侧壁上还开有支撑孔 1027,所述支撑孔 1027的走向垂直于所述支撑架 1025 的走向。所述雾化芯 1022穿过所述支撑孔 1027并固定在所述支撑架 1025内, 所述雾化芯 1022的两端还插入所述储油空间 1021内,用于雾化所述储油空间 1021 内的烟液。 所述烟雾通道 1023沿着支撑架 1025的中心空处从所述雾化 芯 1022延伸至所述吸烟端 101。 An outer side of the side wall of the support frame 1025 is provided with an oil storage space 1021. The side wall of the support frame 1025 is further provided with a support hole 1027. The support hole 1027 has a direction perpendicular to the direction of the support frame 1025. The atomizing core 1022 passes through the support hole 1027 and is fixed in the support frame 1025. Both ends of the atomizing core 1022 are also inserted into the oil storage space 1021 for atomizing the liquid smoke in the oil storage space 1021. The smoke channel 1023 extends from the atomizing core 1022 to the smoking end 101 along a central void of the support frame 1025.
本发明中, 电子烟本体内的电池组件 103有多种结构实现方式。 下面结合 图 1对该电子烟的电池组件的一种具体结构进行详细说明。 请参阅图 1, 该电 池组件 103包括:  In the present invention, the battery assembly 103 in the electronic cigarette body has various structural realizations. A specific structure of the battery assembly of the electronic cigarette will be described in detail below with reference to FIG. Referring to Figure 1, the battery assembly 103 includes:
电池套管 1031 ;  Battery casing 1031 ;
套设在所述电池套管 1031内部的电池 1032。  A battery 1032 is disposed inside the battery cannula 1031.
在以上实施例中, 储油空间设置在雾化组件内。 实际运用中, 也可以在电 子烟内设置烟油瓶, 用于装载烟油, 以供雾化组件雾化。 请参见图 2, 图 2为 本发明的电子烟的另一种实施例的剖面结构示意图。  In the above embodiment, the oil storage space is disposed within the atomizing assembly. In actual use, it is also possible to provide a soot bottle in the electronic cigarette for loading the soot oil for atomizing the atomizing component. Referring to FIG. 2, FIG. 2 is a schematic cross-sectional structural view showing another embodiment of the electronic cigarette of the present invention.
当然, 上述对电子烟的结构仅为举例描述, 并不作限制。  Of course, the above structure of the electronic cigarette is merely described as an example and is not limited.
为了能够更好的理解本实施例,请参阅图 2所示, 利用以具体的电路图说 明本实施例的实时方式。 此电路图仅为了更充分的说明, 不做任何限定。  In order to better understand the present embodiment, please refer to FIG. 2, which illustrates the real-time mode of the embodiment in a specific circuit diagram. This circuit diagram is only for a fuller explanation and is not limited.
如图 2所示, 具体部件为: Ml为气流感应器, 具体型号可以选用 S087。 微控制器的具体型号可以选用 SN8P2711B , B1为雾化组件 103的电加热丝, 温度传感器的具体型号可以选用 AD592。  As shown in Figure 2, the specific components are: Ml is the airflow sensor, and the specific model can be selected as S087. The specific model of the microcontroller can be selected as SN8P2711B, B1 is the electric heating wire of the atomizing component 103, and the specific model of the temperature sensor can be AD592.
具体工作流程为:  The specific workflow is:
当用户对温度传感器点火时, 温度传感器的温度升高。温度传感器的温度 升高到预置数值时发送第一触发信号给微控制器。微控制器根据接收到的第一 触发信号控制开关组件中的场效应管 Q1导通, 从而使电池 BATTERY为雾化 组件 102的电热丝 B1供电, 以使电热丝 B1将烟油雾化。 在第一预置时间后, 微控制器控制开关组件中的场效应管 Q1断开, 电热丝 B1停止雾化烟油。 在 距离微控制器接收到第一触发信号第三预置时间段内, 若用户吸烟, 则气流通 过气流感应器, 当气压变化量达到预置数值时, 气流感应器发送第二触发信号 给微控制器。 微控制器根据该第二触发信号控制开关组件中的场效应管 Q1导 通,从而使电池 BATTERY为雾化组件 102的电热丝 B1供电, 以使电热丝 B1 将烟油雾化; 同时控制用于模仿香烟燃烧的 LED1亮。 若气流感应器长达第四 预置时间段没有检测到气压变化量达到预置数值时, 微控制器控制场效应管 Ql停止工作。 When the user ignites the temperature sensor, the temperature of the temperature sensor rises. The first trigger signal is sent to the microcontroller when the temperature of the temperature sensor rises to a preset value. The microcontroller controls the FET Q1 in the switch assembly to be turned on according to the received first trigger signal, so that the battery BATTERY supplies power to the heating wire B1 of the atomizing assembly 102, so that the heating wire B1 atomizes the oil. After the first preset time, the FET Q1 in the microcontroller control switch assembly is turned off, and the heating wire B1 stops atomizing the smoke oil. During a third preset period from when the microcontroller receives the first trigger signal, if the user smokes, the airflow passes through the airflow sensor, and when the air pressure change reaches a preset value, the airflow sensor sends a second trigger signal to the micro Controller. The microcontroller controls the FET Q1 in the switch assembly to be turned on according to the second trigger signal, so that the battery BATTERY supplies power to the heating wire B1 of the atomizing assembly 102, so that the heating wire B1 atomizes the oil smoke; The LED1 that imitates the burning of cigarettes is bright. If the airflow sensor does not detect that the air pressure change amount reaches the preset value for the fourth preset time period, the microcontroller controls the FET Ql stopped working.
上面对本发明实施例中的电子烟进行了描述,下面对本发明实施例中的启 动电子烟的方法进行描述。 请参阅图 3, 本发明中启动电子烟的方法的一个实 施例包括:  The electronic cigarette in the embodiment of the present invention has been described above, and a method of starting the electronic cigarette in the embodiment of the present invention will be described below. Referring to FIG. 3, an embodiment of the method of starting an electronic cigarette in the present invention includes:
301、 检测电子烟第一端上的温度;  301. Detecting a temperature on the first end of the electronic cigarette;
电子烟包括相对的第一端和第二端, 其中第二端上设置有吸烟端。检测电 子烟第一端上的温度有多种方法, 具体举例来说, 可通过在电子烟的第一端上 设置有温度传感器, 釆用温度传感器来检测第一端上的温度。  The electronic cigarette includes opposite first and second ends, wherein the second end is provided with a smoking end. There are various methods for detecting the temperature at the first end of the electronic cigarette. For example, a temperature sensor may be disposed on the first end of the electronic cigarette, and a temperature sensor may be used to detect the temperature on the first end.
302、 检测所述电子烟内的气压变化量;  302. Detect a change in air pressure in the electronic cigarette;
电子烟内设有烟雾通道,用于将雾化的烟油输送到电子烟的吸烟端以供用 户吸食。 在用户抽电子烟时, 烟雾通道内产生气流, 以将烟油输送至吸烟端。 因此, 可通过对电子烟内的烟雾通道的气压变化量进行检测, 当该气压变化量 达到预定数值时, 即可确定用户正在抽电子烟。 其中该预定数值可通过多次实 验确定。  There is a smoke passage in the electronic cigarette for conveying the atomized smoke oil to the smoking end of the electronic cigarette for the user to smoke. When the user smokes the electronic cigarette, an air flow is generated in the smoke passage to deliver the oil to the smoking end. Therefore, the amount of change in the air pressure of the smoke passage in the electronic cigarette can be detected, and when the amount of change in the air pressure reaches a predetermined value, it can be determined that the user is smoking the electronic cigarette. Where the predetermined value can be determined by multiple experiments.
303、 当检测到所述第一端上的温度达到第一预置数值时, 所述电子烟启 动, 并在启动后第一预置时间段内雾化烟油;  303. When detecting that the temperature on the first end reaches a first preset value, the electronic cigarette starts, and atomizes the smoke oil in a first preset time period after startup;
在更加真实地模拟用户抽香烟的情形,电子烟的第一端上设有可以检测第 一端温度的装置。这样,用户在抽电子烟前,可以对电子烟的第一端进行点火。 当然, 电子烟的第一端由燃点高的材料制成, 以避免第一端真正着火。  In a more realistic simulation of the user's smoking of a cigarette, the first end of the electronic cigarette is provided with means for detecting the temperature of the first end. In this way, the user can ignite the first end of the electronic cigarette before smoking the electronic cigarette. Of course, the first end of the e-cigarette is made of a material with a high ignition point to avoid a real fire at the first end.
当检测到电子烟的第一端上的温度达到第一预置数值时,可以确定用户已 经燃烧电子烟的第一端一段时间, 因此启动电子烟, 并使得电子烟在启动后第 一预置时间段内雾化烟油, 以模拟在点燃香烟时香烟产生的一阵烟雾,也同时 提醒用户可以停止对电子烟的第一端点火。  When it is detected that the temperature on the first end of the electronic cigarette reaches the first preset value, it may be determined that the user has burned the first end of the electronic cigarette for a period of time, thereby starting the electronic cigarette, and causing the electronic cigarette to be first preset after starting The smoke oil is atomized during the time period to simulate a burst of smoke generated by the cigarette when the cigarette is ignited, and also reminds the user to stop ignition of the first end of the electronic cigarette.
优选的, 电子烟的第一端上还设置有发光元件。 当检测到所述第一端上的 温度达到第一预置数值时,电子烟还控制该发光元件在接下来的第二预置时间 端内发光, 以模拟香烟在点着时产生的火光。 优选的, 该发光元件用于产生红 光, 这样, 发光元件发出的光的颜色更加接近火光的颜色。  Preferably, the first end of the electronic cigarette is further provided with a light-emitting element. When it is detected that the temperature on the first end reaches the first preset value, the electronic cigarette also controls the light-emitting element to emit light in the next second preset time period to simulate the flare generated by the cigarette when it is lit. Preferably, the illuminating element is for generating red light such that the color of the light emitted by the illuminating element is closer to the color of the blaze.
304、 当检测到所述气压变化量达到第二预置数值时, 所述电子烟雾化烟 油。 304. When detecting that the amount of change in air pressure reaches a second preset value, the electronic aerosolized smoke Oil.
在检测到气压变化量达到第二预置数值时, 可以确定用户在抽电子烟, 因 此电子烟对烟油进行雾化, 以产生烟雾供用户吸食。  When it is detected that the amount of change in the air pressure reaches the second preset value, it can be determined that the user is smoking the electronic cigarette, and thus the electronic cigarette atomizes the smoke oil to generate smoke for the user to smoke.
具体的, 电子烟包括第一工作模式和 /或第二工作模式。  Specifically, the electronic cigarette includes a first working mode and/or a second working mode.
在第一工作模式中, 当检测到所述气压变化量达到第二预置数值时, 所述 电子烟雾化烟油具体包括:当在检测到所述第一端上的温度达到第一预置数值 时接下来的第三预置时间段内检测到所述气压变化量达到第二预置数值时,所 述电子烟雾化烟油。也即电子烟只有在满足检测到第一端上的温度达到第一预 置数值这个条件之后,并且在接下来的第三预置时间段内满足检测到所述气压 变化量达到第二预置数值时这个条件时, 电子烟才雾化烟油。  In the first working mode, when detecting that the air pressure change amount reaches a second preset value, the electronic aerosolized smoke oil specifically includes: when detecting that the temperature on the first end reaches the first preset The electronic aerosolized smoke oil is detected when the amount of change in the air pressure reaches a second preset value in the next third preset time period. That is, the electronic cigarette only meets the condition that the detected temperature on the first end reaches the first preset value, and the detected change in the air pressure reaches the second preset in the next third preset time period. When this condition is used, the electronic cigarette atomizes the smoke oil.
在第二工作模式中, 当检测到所述气压变化量达到第二预置数值时, 所述 电子烟雾化烟油。也即电子烟只需要满足一个条件,也即当检测到所述气压变 化量达到第二预置数值时, 电子烟即可雾化烟油。  In the second mode of operation, the electronic aerosolized smoke oil is detected when the amount of change in air pressure is detected to reach a second preset value. That is, the electronic cigarette only needs to satisfy one condition, that is, when it is detected that the air pressure change amount reaches the second preset value, the electronic cigarette can atomize the smoke oil.
本发明中,通过检测到所述第一端上的温度达到第一预置数值时启动电子 烟, 并在启动后预置时间内雾化烟油, 这样, 用户可在吸食电子烟之前釆用打 火机对电子烟的第一端点火,使得电子烟能够更加真实的模仿香烟, 进而方便 用户在改吸电子烟时能够沿用以前吸食香烟的习惯, 提高了电子烟的用户体 验。  In the present invention, the electronic cigarette is activated by detecting that the temperature on the first end reaches the first preset value, and the smoke oil is atomized within a preset time after startup, so that the user can use the electronic cigarette before smoking the electronic cigarette. The lighter ignites the first end of the electronic cigarette, so that the electronic cigarette can more realistically imitate the cigarette, thereby facilitating the user to use the habit of smoking the cigarette before changing the electronic cigarette, thereby improving the user experience of the electronic cigarette.
优选的, 本实施例中, 所启动电子烟的方法还包括:  Preferably, in this embodiment, the method for starting the electronic cigarette further comprises:
在检测到所述第一端上的温度达到第一预置数值后,接下来的第四预置时 间段内, 所述电子烟还未检测到所述气压变化量达到第二预置数值时, 所述电 子烟自动关闭;  After detecting that the temperature on the first end reaches the first preset value, in the next fourth preset time period, the electronic cigarette has not detected that the air pressure change amount reaches the second preset value. The electronic cigarette is automatically turned off;
或者,在检测到所述气压变化量达到第二预置数值后,接下来的第四预置 时间段内, 所述电子烟还未再次检测到所述气压变化量达到第二预置数值时, 所述电子烟自动关闭。  Alternatively, after detecting that the air pressure change amount reaches the second preset value, in the next fourth preset time period, the electronic cigarette has not detected again that the air pressure change amount reaches the second preset value. The electronic cigarette is automatically turned off.
这样,可以使得电子烟在检测到电子烟长时间未被使用时可判断用户停止 使用电子烟, 进而自动关闭电子烟, 而无需用户手动关闭电子烟, 能够提高用 户的使用体验。  In this way, the electronic cigarette can be judged to stop using the electronic cigarette when the electronic cigarette is detected for a long time, and the electronic cigarette can be automatically turned off, without the user manually closing the electronic cigarette, thereby improving the user experience.
本说明书中各个实施例釆用递进的方式描述,每个实施例重点说明的都是 与其他实施例的不同之处, 各个实施例之间相同相似部分互相参见即可。 对所公开的实施例的上述说明,使本领域专业技术人员能够实现或使用本 发明。 对这些实施例的多种修改对本领域的专业技术人员来说将是显而易见 的, 本文中所定义的一般原理可以在不脱离本发明的精神或范围的情况下,在 其它实施例中实现。 因此, 本发明将不会被限制于本文所示的这些实施例, 而 是要符合与本文所公开的原理和新颖特点相一致的最宽的范围。 The various embodiments in this specification are described in a progressive manner, and each embodiment focuses on Different from other embodiments, the same similar parts between the various embodiments may be referred to each other. The above description of the disclosed embodiments enables those skilled in the art to make or use the invention. Various modifications to these embodiments are obvious to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Therefore, the present invention is not intended to be limited to the embodiments shown herein, but the scope of the inventions

Claims

权 利 要 求 Rights request
1、 一种电子烟, 其特征在于, 包括:  An electronic cigarette characterized by comprising:
具有相对的第一端和第二端的电子烟本体;  An electronic cigarette body having opposite first and second ends;
所述电子烟本体上设置有用于雾化烟油的雾化组件以及用于给所述雾化 组件供电的电池组件, 所述电子烟本体的第一端上设置有温度传感器, 第二端 上设置有吸烟端,所述温度传感器用于当检测到温度达到预置数值时产生第一 触发信号;  An atomizing component for atomizing the tobacco oil and a battery component for supplying the atomizing component are disposed on the electronic cigarette body, and the first end of the electronic cigarette body is provided with a temperature sensor, and the second end is disposed on the second end a smoking end is provided, and the temperature sensor is configured to generate a first trigger signal when detecting that the temperature reaches a preset value;
所述电子烟本体上还设置有用于产生第二触发信号的气流感应器,以及分 别与所述温度传感器、 所述气流传感器和所述雾化组件电连接的微控制器; 所述微控制器用于当接收到所述第一触发信号时生成第一控制信号,还用 于当接收到所述第二触发信号时生成第二控制信号;  The electronic cigarette body is further provided with an air flow sensor for generating a second trigger signal, and a micro controller electrically connected to the temperature sensor, the air flow sensor and the atomizing component respectively; Generating a first control signal when receiving the first trigger signal, and further configured to generate a second control signal when the second trigger signal is received;
所述雾化组件用于根据所述第一控制信号启动,并在启动后第一预置时间 段内雾化所述烟油; 还用于根据所述第二控制信号雾化所述烟油。  The atomizing component is configured to be activated according to the first control signal, and atomize the smoke oil in a first preset time period after startup; and further to atomize the smoke oil according to the second control signal .
2、 根据权利要求 1所述的电子烟, 其特征在于, 所述电子烟的第一端上 还设置有发光元件,用于根据所述第一控制信号在所述雾化组件启动后第二预 置时间段内发光。  The electronic cigarette according to claim 1, wherein the first end of the electronic cigarette is further provided with a light-emitting element, configured to be second after the atomizing component is activated according to the first control signal. Illuminates within a preset time period.
3、 根据权利要求 2所述的电子烟, 其特征在于, 所述发光元件发出的光 为红光。  The electronic cigarette according to claim 2, wherein the light emitted from the light emitting element is red light.
4、 根据权利要求 1所述的电子烟, 其特征在于, 所述微控制器包括第一 工作模式;  4. The electronic cigarette according to claim 1, wherein the microcontroller comprises a first mode of operation;
在所述第一工作模式中,所述微控制器具体用于当接收到所述第一触发信 号时生成第一控制信号,还用于在生成第一控制信号后第三预置时间段内接收 到所述第二触发信号时生成第二控制信号。  In the first working mode, the microcontroller is specifically configured to generate a first control signal when the first trigger signal is received, and to be used in a third preset time period after generating the first control signal. The second control signal is generated when the second trigger signal is received.
5、 根据权利要求 4所述的电子烟, 其特征在于, 所述电子烟本体上还设 置有按键, 用于在所述雾化组件处于关闭状态时启动所述雾化组件;  The electronic cigarette according to claim 4, wherein the electronic cigarette body is further provided with a button for starting the atomizing assembly when the atomizing assembly is in a closed state;
所述微控制器还用于在所述雾化组件启动后第三预置时间段内接收到所 述第二触发信号时生成第二控制信号。  The microcontroller is further configured to generate a second control signal when the second trigger signal is received within a third preset time period after the atomizing component is activated.
6、 根据权利要求 4所述的电子烟, 其特征在于, 所述微控制器还用于在 接收到所述第一触发信号后,距离接收到所述第一触发信号或者所述第二触发 信号达到第四预置时间段时还未接收到第二触发信号时, 生成第三控制信号; 所述雾化组件还用于根据所述第三控制信号关闭。 The electronic cigarette according to claim 4, wherein the microcontroller is further configured to: after receiving the first trigger signal, receive the first trigger signal or the second trigger The third control signal is generated when the second trigger signal is not received when the signal reaches the fourth preset time period; and the atomization component is further configured to be turned off according to the third control signal.
7、 根据权利要求 1所述的电子烟, 其特征在于, 所述微控制器还包括第 二工作模式;  The electronic cigarette according to claim 1, wherein the microcontroller further comprises a second working mode;
所述电子烟本体上还设置有按键,用于将所述微控制器从所述第一工作模 式调整到所述第二工作模式;  The electronic cigarette body is further provided with a button for adjusting the microcontroller from the first working mode to the second working mode;
在所述第二工作模式中,所述微控制器用于当接收到所述第二触发信号时 生成第二控制信号。  In the second mode of operation, the microcontroller is configured to generate a second control signal when the second trigger signal is received.
8、 根据权利要求 1所述的电子烟, 其特征在于, 所述温度传感器与所述 电子烟本体上除所述温度传感器的其他位置之间设置有隔热层。  The electronic cigarette according to claim 1, wherein the temperature sensor and the electronic cigarette body are provided with a heat insulating layer between the other positions of the temperature sensor.
9、 根据权利要求 1所述的电子烟, 其特征在于, 所述雾化组件还包括: 雾化套;  The electronic cigarette according to claim 1, wherein the atomizing assembly further comprises: an atomizing sleeve;
所述雾化套内设有呈筒状的支撑架,所述支撑架的侧壁外侧环绕设置有储 油空间, 所述支撑架的侧面上还开有支撑孔, 所述支撑孔的走向垂直于所述支 撑架的走向;  The atomization sleeve is provided with a cylindrical support frame, and an outer side of the side wall of the support frame is provided with an oil storage space, and a support hole is further formed on a side surface of the support frame, and the support hole has a vertical direction On the direction of the support frame;
所述雾化芯穿过所述支撑孔并固定在所述支撑架内,所述雾化芯的两端还 插入所述储油空间内, 用于雾化所述储油空间内的烟液;  The atomization core passes through the support hole and is fixed in the support frame, and both ends of the atomization core are also inserted into the oil storage space for atomizing the liquid smoke in the oil storage space. ;
所述烟雾通道沿着支撑架的中心空处从所述雾化芯延伸至所述吸烟端。 The smoke passage extends from the atomizing core to the smoking end along a central void of the support frame.
10、 一种启动电子烟的方法, 其特征在于, 包括: 10. A method of starting an electronic cigarette, characterized in that it comprises:
检测电子烟第一端上的温度,其中所述电子烟上与所述第一端相对的一端 上设置有吸烟端;  Detecting a temperature on the first end of the electronic cigarette, wherein the end of the electronic cigarette opposite to the first end is provided with a smoking end;
检测所述电子烟内的气压变化量;  Detecting a change in the amount of air pressure in the electronic cigarette;
当检测到所述第一端上的温度达到第一预置数值时, 所述电子烟启动, 并 在启动后第一预置时间段内雾化烟油;  When detecting that the temperature on the first end reaches the first preset value, the electronic cigarette starts, and atomizes the smoke oil in the first preset time period after the startup;
当检测到所述气压变化量达到第二预置数值时, 所述电子烟雾化烟油。 The electronic aerosolizes the smoke oil when it is detected that the amount of change in air pressure reaches a second preset value.
11、 根据权利要求 10所述的启动电子烟的方法, 其特征在于, 11. The method of starting an electronic cigarette according to claim 10, wherein
所述电子烟的第一端上还设置有发光元件;  a light emitting element is further disposed on the first end of the electronic cigarette;
所述方法还包括:  The method further includes:
当检测到所述第一端上的温度达到第一预置数值时,所述电子烟控制所述 发光元件在接下来的第二预置时间段内发光。 When detecting that the temperature on the first end reaches a first preset value, the electronic cigarette controls the The illuminating element emits light for the next second predetermined period of time.
12、 根据权利要求 10所述的启动电子烟的方法, 其特征在于, 所述电子 烟包括第一工作模式, 在所述第一工作模式中:  12. The method of starting an electronic cigarette according to claim 10, wherein the electronic cigarette comprises a first working mode, and in the first working mode:
所述当检测到所述气压变化量达到第二预置数值时,所述电子烟雾化烟油 具体包括:  When the amount of change in the air pressure reaches a second preset value, the electronic aerosolized smoke oil specifically includes:
当在检测到所述第一端上的温度达到第一预置数值时接下来的第三预置 时间段内检测到所述气压变化量达到第二预置数值时, 所述电子烟雾化烟油。  The electronic aerosolized smoke is detected when the detected change in the air pressure reaches a second preset value in the next third preset time period when it is detected that the temperature on the first end reaches the first preset value oil.
13、 根据权利要求 10所述的启动电子烟的方法, 其特征在于, 所述电子 烟上还设置有用于启动所述电子烟的按键; 所述电子烟还包括第二工作模式, 所述方法还包括:  The method for starting an electronic cigarette according to claim 10, wherein the electronic cigarette is further provided with a button for starting the electronic cigarette; the electronic cigarette further comprises a second working mode, the method Also includes:
在所述电子烟处于启动状态时,将所述电子烟从所述第一工作模式调整到 所述第二工作模式;  Adjusting the electronic cigarette from the first working mode to the second working mode when the electronic cigarette is in an activated state;
在所述第二工作模式中,  In the second mode of operation,
当检测到所述气压变化量达到第二预置数值时, 所述电子烟雾化烟油。  The electronic aerosolizes the smoke oil when it is detected that the amount of change in air pressure reaches a second preset value.
14、 根据权利要求 10所述的启动电子烟的方法, 其特征在于, 所述方法 还包括: The method of starting an electronic cigarette according to claim 10, wherein the method further comprises:
在检测到所述第一端上的温度达到第一预置数值后,接下来的第四预置时 间段内, 所述电子烟还未检测到所述气压变化量达到第二预置数值时, 所述电 子烟自动关闭;  After detecting that the temperature on the first end reaches the first preset value, in the next fourth preset time period, the electronic cigarette has not detected that the air pressure change amount reaches the second preset value. The electronic cigarette is automatically turned off;
或者,在检测到所述气压变化量达到第二预置数值后,接下来的第四预置 时间段内, 所述电子烟还未再次检测到所述气压变化量达到第二预置数值时, 所述电子烟自动关闭。  Alternatively, after detecting that the air pressure change amount reaches the second preset value, in the next fourth preset time period, the electronic cigarette has not detected again that the air pressure change amount reaches the second preset value. The electronic cigarette is automatically turned off.
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