Electronic cigarette and atomizing method thereof

What is claimed is: 1. An electronic cigarette, comprising: an electronic cigarette body, comprising an airflow sensing module, an atomizer assembly, a button module, a battery assembly, a timing module and a microcontroller, wherein: the microcontroller is configured to receive pulse signals from the airflow sensing module, the button module and the timing module and transmit a control signal to elements of the electronic cigarette body according to the pulse signals from the airflow sensing module, the button module and the timing module; the airflow sensing module is electrically connected to the microcontroller, and is configured to detect pressure change inside the electronic cigarette body and transmit the pulse signal to the microcontroller; the button module is electrically connected to the microcontroller, and is configured to transmit the pulse signal to the microcontroller according to pressing operation of a user to make the atomizer assembly performing preheating, causing more smoke volume to be generated when the user puffs the electronic cigarette; in a case that the user presses the button module a preset number of times during a preset time interval or the user presses and holds the button module during a period of time, the button module transmits the pulse signal to the microcontroller, and the microcontroller makes the electronic cigarette stop operation according to the pulse signal; in a case that the user presses the button module a preset number of times during a preset time interval or the user presses and holds the button module during a period of time, the button module transmits the pulse signal to the microcontroller, and the microcontroller makes the electronic cigarette return to normal operation according to the pulse signal; the atomizer assembly is electrically connected to the microcontroller, and is configured to receive the control signal from the microcontroller to atomize nicotine liquid to generate smoke; the timing module is electrically connected to the microcontroller, and is configured to start timing and make the atomizer assembly perform preheating under control of the microcontroller when the user presses the button module, and if the user does not puff on the electronic cigarette during a preset period of time, the timing module transmit the pulse signal to the microcontroller, and the microcontroller controls the atomizer assembly to stop preheating according to the pulse signal from the timing module to prevent overturning of the atomizer assembly; and the battery assembly is configured to supply electric energy to the microcontroller, the airflow sensing module, the atomizer assembly and other elements of the electronic cigarette. 2. The electronic cigarette according to claim 1 , wherein the airflow sensing module comprises an airflow sensor or an integrated microphone switch. 3. The electronic cigarette according to claim 1 , wherein: the atomizer assembly comprises a heat-generating assemble; the electronic cigarette body further comprises a switch; and the switch is electrically connected to the microcontroller and the heat-generating assemble respectively, and the microcontroller controls to turn on the switch, causing the battery assembly to power the heat-generating assemble to atomize nicotine liquid to generate smoke. 4. The electronic cigarette according to claim 3 , wherein: the electronic cigarette body further comprises a battery protective module; the battery protective module comprises a charge protective unit and a power protective unit; the charge protective unit is configured to detect charging voltage and charging current of the battery assembly, and break the charging circuit off in a case that the charging voltage and/or charge current is excessive; and the power protective unit is configured to break a power circuit off in a case that voltage and/or current in the power circuit is excessive, when the battery assemble powers the elements of the electronic cigarette body. 5. The electronic cigarette according to claim 4 , wherein the power protective unit comprises two field effect transistor with drains electrically connected to each other. 6. The electronic cigarette according to claim 1 , wherein: the electronic cigarette body further comprises a display device; and the display device is electrically connected to the microcontroller, and is configured to display operational state of the electronic cigarette. 7. The electronic cigarette according to claim 1 , wherein: the electronic cigarette body further comprises a boost module; and the boost module is electrically connected to the microcontroller, the battery assembly and the atomizer assembly respectively, and is configured to raise voltage supplied from the battery assembly to the atomizer assembly, causing the atomizer assembly to quickly heat nicotine liquid to generate smoke. 8. The electronic cigarette according to claim 1 , wherein: the electronic cigarette body further comprises a voltage stabilizing module; and the voltage stabilizing module is electrically connected to the microcontroller and the battery assembly respectively, and is configured to enable the battery assembly to supply stable voltage for the microcontroller. 9. The electronic cigarette according to claim 8 , wherein: the voltage stabilizing module comprises a diode and a voltage regulator; the diode is connected to the voltage regulator in series; the anode of the diode is electrically connected to a power port of the battery assemble; the cathode of the diode is electrically connected to an input port of the voltage regulator; and the diode is configured to prevent reverse conduction of current. 10. An atomizing method of an electronic cigarette, comprising: pressing a button module, and transmitting, by the button module, a first pulse signal to a microcontroller; controlling, by the microcontroller, an atomizer assembly to atomize tobacco tar to generate smoke according to the first pulse signal from the button module; sensing, by an airflow sensing module, pressure change inside the electronic cigarette body and transmitting a second pulse signal to the microcontroller, when a user puffs on the electronic cigarette; controlling, by the microcontroller, the atomizer assembly to continually atomize tobacco tar to generate smoke according to the second pulse signal from the airflow sensing module; in a case that the user presses the button module for times equal to or greater than a preset number of times during a preset time interval or the user presses and holds the button module during a preset period of time, controlling, by the microcontroller, the electronic cigarette to stop operation; and in a case that the user presses the button module for times equal to or greater than a preset number of times during a preset time interval or the user presses and holds the button module during a preset period of time, controlling, by the microcontroller, the electronic cigarette to return to normal operation, wherein after the microcontroller controls the atomizer assembly to atomize tobacco tar to generate smoke according to the first pulse signal from the button module, the method further comprises: controlling, by the microcontroller, a timing module to start timing according to the first pulse signal from the button module; in a case that the user does not puff on the electronic cigarette during a preset period of time, transmitting, by the timing module, a fourth pulse signal to the microcontroller; and controlling, by the microcontroller, the atomizer assembly to stop atomization according to the fourth pulse signal. 11. The atomizing method of the