WO2014166041A1 - Electronic cigarette and circuit thereof - Google Patents

Abstract

An electronic cigarette and a circuit thereof. The circuit of the electronic cigarette comprises a power supply, a microcontroller, and a heater used for heating to generate smoke, all of which are electrically connected sequentially to form a loop. The circuit of the electronic cigarette also comprises at least two gas flow sensors electrically connected to the microcontroller and used for sensing a gas flow in the electronic cigarette and outputting a sensing signal. The microcontroller connects the loop according to the sensing signal. The electronic cigarette and the circuit thereof use a technical means in which at least two gas flow sensors are electrically connected to a microcontroller and are used for sensing a gas flow in the electronic cigarette and outputting a sensing signal and the microcontroller connects a loop according to the sensing signal, the error working rate of the electronic cigarette after the gas flow sensors malfunction is exponentially reduced, hidden quality risks of the electronic cigarette are reduced, an error action is not easy to be caused, the quality is reliable and the performance is stable.

Description

 Electronic cigarette and its circuit

 [0001] The present invention relates to an electronic cigarette and its circuit.

Background technique

[0002] The existing electronic cigarette is activated or deactivated by an air flow sensing controller. Because there is only one air flow sensor and the quality is unstable, the failure rate is about one thousandth. When the air flow sensor fails, it is easy to cause The malfunction of the electronic cigarette causes the electronic cigarette to be unable to be used normally and causes waste of electric energy.

Summary of the invention

 [0003] In view of the above, it is necessary to provide an electronic cigarette and a circuit which are less prone to malfunction, reliable in quality, and stable in performance.

 [0004] The present invention provides an electronic cigarette circuit comprising a power source sequentially connected to form a loop, a microcontroller, and a heater for heating to generate smoke, and further comprising at least two electrically connected to the microcontroller And an air flow sensor that senses the airflow in the electronic cigarette and outputs a sensing signal, and the microcontroller turns on the loop according to the sensing signal.

[0005] Further, there are two microcontrollers, and are respectively electrically connected to an air flow sensor.

[0006] Further, a microcontroller and an airflow sensor are integrated on a circuit board to form an airflow sensing controller, and the two airflow sensing controllers are connected in series.

 Further, the microcontroller is one, and is electrically connected to two air flow sensors at the same time, and the microcontroller turns on the circuit according to the sensing signals of the two air flow sensors.

 Further, the air flow sensor is further configured to acquire a direction of the airflow entering the electronic cigarette, determine the air pressure type, and output the sensing signal.

 [0009] Further, the microcontroller is a single chip microcomputer.

 Further, the present invention provides an electronic cigarette comprising a docking rod and a power rod, and the electronic cigarette is provided with an electronic cigarette circuit as described above.

 [0011] Further, an atomizer is disposed in the suction rod, and the heater is disposed in the atomizer.

[0012] Further, a lithium battery or a farad capacitor is provided in the power rod as a power supply.

[0013] Further, the suction rod and the power rod are butted by threads.

[0014] The electronic cigarette of the embodiment of the present invention and the circuit thereof are configured by using at least two airflow sensors electrically connected to the microcontroller for sensing the airflow in the electronic cigarette and outputting the sensing signal, according to the The technical means for sensing the signal to conduct the loop achieves an exponential reduction of the misoperation rate of the electronic cigarette caused by the failure of the airflow sensor, which is greatly reduced. The quality of the electronic cigarette is low, and the electronic cigarette and its circuit are not easy to cause malfunction, the quality is reliable, and the performance is stable. DRAWINGS

 1 is a schematic view showing the circuit structure of an electronic cigarette according to an embodiment of the present invention.

2 is a schematic view showing the circuit structure of another embodiment of the electronic cigarette according to the present invention.

detailed description

 [0017] It should be noted that, in the case of no conflict, the embodiments in the present invention and the features in the embodiments may be combined with each other. The creation of the present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

[0018] Referring to FIG. 1 and FIG. 2, the present invention provides an electronic cigarette and an electric circuit thereof, so as to solve the problem that the existing electronic cigarette can easily cause the electronic cigarette to malfunction when the air flow sensor fails, and the electronic cigarette cannot be used normally. And caused the problem of wasting power.

 [0019] the electronic cigarette circuit includes a power source sequentially connected to form a loop, a microcontroller, and a heater for heating the generated smoke, and further includes at least two electrically connected to the microcontroller for sensing the electronic cigarette An air flow sensor that internally flows and outputs a sensing signal, and the microcontroller turns on the loop according to the sensing signal. In this embodiment, the microcontroller is a single chip machine.

[0020] As an embodiment, the airflow sensor is further configured to acquire a direction of the airflow entering the electronic cigarette, determine the airflow type, and output a sensing signal, and then the microcontroller processes the sensing signal to perform air pressure on the electronic cigarette. Detection, according to the detected air pressure and the control of the electronic cigarette being turned on or off, the control principle is controlled by the gas flu detector sensing airflow, and will not be described again.

 [0021] As an embodiment, the microcontrollers are at least two and are electrically connected to an airflow sensor. Preferably, as shown in FIG. 1, the two controllers are electrically connected to an air flow sensor. A microcontroller and an airflow sensor are integrated on a circuit board to form an airflow sensing controller, and the two airflow sensing controllers are connected in series. The two airflow sensors or the two airflow sensing controllers must operate simultaneously to allow the loop to conduct.

 [0022] As another embodiment, the microcontroller is one and is electrically connected to at least two airflow sensors simultaneously, and the microcontroller turns on the loop according to the sensing signals of all the airflow sensors. Preferably, as shown in Figure 2, the air flow sensor is two, and the two air flow sensors must work simultaneously, and the microcontroller controls the circuit to conduct.

 [0023] The present invention also provides an electronic cigarette comprising a docking suction rod and a power rod. Specifically, the suction rod and the power rod are butted by a thread, and the electronic cigarette is further provided with an electronic cigarette circuit as described above.

 [0024] An atomizer is disposed in the suction rod, and the heater is disposed in the atomizer.

 [0025] A lithium battery or a farad capacitor is provided in the power pole as a power supply.

[0026] Assuming that the failure rate of an airflow sensor is X, the n electrical connections created by the present invention are connected to the microcontroller. The error rate of the electronic cigarette after the airflow sensor is Y, then Υ=Χ ^η , for example: The failure rate X of an airflow sensor is 1%, and after the two airflow sensors are connected in series, the electronic cigarette misoperation rate is reduced to 10— ⁶ . Obviously, the technical solution created by the invention can exponentially reduce the misoperation rate of the electronic cigarette after the failure of the airflow sensor.

 [0027] While the embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that The scope of the invention is defined by the appended claims and their equivalents.

Claims

Claim  An electronic cigarette circuit comprising: a power source sequentially connected to form a loop, a microcontroller, and a heater for heating to generate smoke, wherein the electronic cigarette circuit further comprises at least two electrically connected to the microcontroller, An airflow sensor for sensing an airflow in the electronic cigarette and outputting a sensing signal, and the microcontroller turns on the loop according to the sensing signal.  2. The electronic cigarette circuit according to claim 1, wherein the two controllers are electrically connected to a gas flow sensor.  3. The electronic cigarette circuit according to claim 2, wherein a microcontroller and an airflow sensor are integrated on a circuit board to form an airflow sensing controller, and the two airflow sensing controllers are connected in series.  4. The electronic cigarette circuit according to claim 1, wherein one of the microcontrollers is electrically connected to the two airflow sensors, and the microcontroller turns on the loop according to the sensing signals of the two airflow sensors. .  5. The electronic cigarette circuit according to claim 1, wherein the air flow sensor is further configured to acquire a direction of the airflow entering the electronic cigarette, determine the air pressure type, and output the sensing signal.  6. The electronic cigarette circuit according to claim 1, wherein the microcontroller is a single chip microcomputer.  7. An electronic cigarette comprising a docking suction rod and a power pole, characterized in that the electronic cigarette is provided with an electronic cigarette circuit according to any one of claims 1 to 6.  8. The electronic cigarette circuit according to claim 7, wherein an atomizer is disposed in the suction rod, and the heater is disposed in the atomizer.  9. The electronic cigarette circuit according to claim 7, wherein a lithium battery or a farad capacitor is provided in the power rod as a power source.  10. The electronic cigarette circuit according to claim 7, wherein the suction rod and the power rod are butted by threads.