CN110720673A - Electronic cigarette, and control method and device of electronic cigarette - Google Patents

Abstract

The invention discloses an electronic cigarette, and a control method and device of the electronic cigarette, and belongs to the technical field of simulated smoking. The electron cigarette includes stock solution spare, drive arrangement, extrusion device, wherein: the driving device is connected with the extruding device, and drives the extruding device to extrude the liquid storage part to generate elastic deformation, so that the tobacco juice in the liquid storage part enters the atomizing cavity of the electronic cigarette; the problem of present user use electron cigarette in-process need extrude the tobacco tar bottle repeatedly is solved, user operation's effect has been reached sparingly.

Description

Electronic cigarette, and control method and device of electronic cigarette

Technical Field

The invention relates to the technical field of simulated smoking, in particular to an electronic cigarette, and a control method and a control device of the electronic cigarette.

Background

The electronic cigarette is used as a substitute of a cigarette, and is more and more popular in the market due to the characteristics of safe, convenient, healthy, environment-friendly and the like in use to a certain extent.

At present, some electron cigarettes utilize the tobacco tar bottle to carry out the stock solution, and the user makes the tobacco juice in the tobacco tar bottle flow into the atomizing chamber through the extrusion tobacco tar bottle, and the atomizing intracavity tobacco juice is atomized and is produced smog, and this smog can be inhaled internally from the cigarette holder by the user of electron cigarette to reach the mesh of simulation smoking. However, in the using process of the electronic cigarette, the user needs to repeatedly press the tobacco tar bottle, and the operation is complicated.

Disclosure of Invention

In order to solve the problem that a user needs to repeatedly squeeze a tobacco tar bottle in the process of using an electronic cigarette in the prior art, the embodiment of the invention provides the electronic cigarette and a control method and device of the electronic cigarette. The technical scheme is as follows:

in a first aspect, an electronic cigarette is provided, which includes a liquid storage component, a driving device, and a squeezing device, wherein:

the inner part of the liquid storage part is communicated with an atomization cavity of the electronic cigarette;

the driving device is mechanically connected with the extruding device, and the driving device drives the extruding device to extrude the liquid storage part to generate elastic deformation, so that the tobacco juice in the liquid storage part enters the atomizing cavity.

Optionally, the electronic cigarette further comprises a liquid supply pipe, one end of the liquid supply pipe is inserted into the liquid storage part, and the other end of the liquid supply pipe is communicated with the atomization cavity of the electronic cigarette.

Optionally, the driving device includes a motor and a threaded screw rod, the extruding device is a pressing block, the motor is mechanically connected with the pressing block through the threaded screw rod, wherein:

when the motor rotates, the pressing block is driven to move through the threaded screw rod, so that the pressing block extrudes or is far away from the liquid storage part.

In a second aspect, there is provided a method of controlling an electronic cigarette, the method comprising:

when a cigarette lighting signal is detected, controlling an extrusion device to extrude a liquid storage part according to the output parameters of the electronic cigarette so that the cigarette liquid in the liquid storage part enters an atomization cavity;

controlling an atomizer to atomize smoke according to the output parameters;

wherein the output parameter comprises at least one of output power and output temperature.

Optionally, according to the output parameter control of the electronic cigarette the extrusion device extrudes the liquid storage part to make the tobacco juice in the liquid storage part enter the atomizing cavity, including:

determining a target liquid supply speed of the electronic cigarette according to the output parameters; determining a target rotating speed of the motor according to the target liquid supply speed, and controlling the motor to rotate according to the target rotating speed; alternatively, the first and second electrodes may be,

acquiring a target rotating speed corresponding to the output parameter; and controlling the motor to rotate according to the target rotating speed.

Optionally, stock solution spare passes through the feed tube to the atomizer supplies liquid, be provided with the measurement subassembly in the feed tube, the measurement subassembly is used for detecting the velocity of flow of following stock solution spare outflow tobacco juice, according to the output parameter control of electron cigarette extrusion device extrudees the stock solution spare so that tobacco juice in the stock solution spare gets into the atomizing chamber, include:

determining a target liquid supply speed of the electronic cigarette according to the output parameters;

and if the flow rate detected by the metering assembly is lower than the target liquid supply speed, increasing the rotation speed of the motor.

Optionally, when a cigarette lighting signal is detected, the extruding device is controlled to extrude the liquid storage part according to the output parameter of the electronic cigarette so that the cigarette liquid in the liquid storage part enters the atomizing cavity, including:

when the cigarette lighting signal is received, the extruding device is controlled to extrude the liquid storage part, so that the liquid storage part provides cigarette liquid of a first cigarette liquid amount to the atomizing cavity;

before the cigarette lighting signal is not interrupted, determining the residual cigarette liquid amount in the atomization cavity according to the output parameter and the first cigarette liquid amount;

and if the residual tobacco juice amount in the atomization cavity is lower than the second tobacco juice amount before the cigarette lighting signal is not interrupted, controlling the extruding device to extrude the liquid storage part, so that the liquid storage part continuously provides the tobacco juice for the atomization cavity. Optionally, the method further includes:

and when the cigarette lighting signal is detected to be interrupted, controlling the extrusion device to stop moving, or controlling the extrusion device to be far away from the liquid storage part.

Optionally, the liquid storage part supplies liquid to the atomizer through a liquid supply pipe, and a height from one end of the liquid supply pipe inserted into the liquid storage part to the bottom of the liquid storage part is greater than 0, the method further comprising:

when the cigarette lighting signal is detected to be interrupted, the squeezing device is controlled to be away from the liquid storage part;

and if the liquid storage part is not extruded by the extruding device and the residual liquid amount in the liquid storage part is less than or equal to the third liquid amount, displaying a prompt message for prompting that the liquid is insufficient.

Optionally, if the liquid storage part is not squeezed by the squeezing device, and the remaining amount of the tobacco juice in the liquid storage part is less than or equal to a third amount of the tobacco juice, a prompt message for prompting that the tobacco juice is insufficient is displayed, including:

when the liquid storage part is not extruded by the extruding device, the liquid level detected by a liquid level detector in the liquid storage part is obtained;

and if the liquid level is lower than a preset height, displaying the prompt message, wherein the preset height is the height from one end of the liquid supply pipe inserted into the liquid storage part to the bottom of the liquid storage part.

In a third aspect, there is provided a computer-readable storage medium having one or more instructions stored therein, which when executed by a processor in an electronic cigarette, implement the second aspect and the method of controlling an electronic cigarette according to any one of the optional embodiments of the second aspect.

In a fourth aspect, there is provided a control device for an electronic cigarette, the control device comprising:

a memory and a processor;

at least one program instruction is stored in the memory;

the processor is configured to load and execute the at least one program instruction to implement the method for controlling an electronic cigarette according to the second aspect and any optional embodiment of the second aspect.

The technical scheme provided by the embodiment of the invention has the following beneficial effects:

by providing an electron cigarette, this electron cigarette includes stock solution spare, drive arrangement, extrusion device, wherein: the inner part of the liquid storage part is communicated with an atomization cavity of the electronic cigarette; the driving device is mechanically connected with the extruding device and can drive the extruding device to extrude the liquid storage part to generate elastic deformation, so that the tobacco juice in the liquid storage part flows into the atomizing cavity; the problem of present user use electron cigarette in-process need extrude the tobacco tar bottle repeatedly is solved, user operation's effect has been reached sparingly.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic view of a partial structure of an electronic cigarette according to an exemplary embodiment of the present invention;

figure 2 is a method flow diagram of a method of controlling an e-cigarette according to one embodiment of the present invention;

figure 3 is a method flow diagram of a method of controlling an e-cigarette according to another embodiment of the invention;

figure 4 is a method flow diagram of a method of controlling an e-cigarette according to yet another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic partial structure diagram of an electronic cigarette according to an exemplary embodiment of the present invention. As shown in fig. 1, the electronic cigarette includes a liquid storage member 10, a driving device, and a squeezing device 30, wherein: the interior of the liquid storage part 10 is communicated with an atomization cavity of the electronic cigarette; drive arrangement and extrusion device 30 mechanical connection, drive arrangement can drive extrusion device 30 extrusion stock solution spare 10 and take place elastic deformation, make in the stock solution spare 10 tobacco juice flow in the atomizing chamber of electron cigarette.

How the smoke liquid in the liquid storage part 10 flows into the atomizing chamber when the liquid storage part 10 is squeezed by the squeezing device 30 is described as follows:

first, the liquid outlet of the liquid storage part is connected with the atomizing cavity (not shown in the figure), and the liquid outlet of the liquid storage part is a mesh hole; when the liquid storage part 10 is extruded by the extruding device 30, the tobacco liquid in the liquid storage part 10 can be directly sprayed into the atomizing cavity through the liquid outlet.

The liquid outlet of the liquid storage part can be a single hole or a reticular hole formed by a plurality of holes.

Optionally, can be provided with imbibition spare in the atomizing chamber, imbibition spare be close to with the liquid outlet of contact stock solution spare 10, when extrusion device 30 extrudeed stock solution spare 10, the tobacco juice sprays to imbibition spare in the stock solution spare 10. In actual implementation, the intracavity that atomizes also can not set up imbibition spare, and the heating member is close to the liquid outlet of stock solution spare 10 for when extrusion device 30 extrudees stock solution spare 10, the tobacco juice directly sprays to the heating member in the stock solution spare 10.

Secondly, the electronic cigarette may further include a liquid supply tube 20, one end of the liquid supply tube 20 is inserted into the liquid storage part 10, and the other end of the liquid supply tube 20 is communicated with an atomization cavity of an atomizer 40 of the electronic cigarette; when the liquid storage part 10 is squeezed by the squeezing device 30, the tobacco juice in the liquid storage part 10 can flow into the atomization cavity in the electronic cigarette through the liquid supply pipe.

Optionally, the other end of the liquid supply tube 20 is close to or in contact with the liquid absorbing member in the atomizing chamber, and when the liquid storage member 10 is squeezed, the smoke liquid in the liquid storage member 10 can be sprayed onto the liquid absorbing member through the liquid supply tube 20. The heating element in the atomization cavity can atomize the smoke liquid on the liquid suction element when heating, thereby generating smoke. In actual implementation, the intracavity that atomizes also can not set up imbibition spare, and the other end of feed pipe 20 is close or contacts the heating member, and stock solution spare 10 receives when the extrusion cigarette liquid accessible feed pipe 20 sprays to the heating member in stock solution spare 10 on.

Optionally, at least one side of the bottle body of the liquid storage part 10 is made of an elastic material, and can be elastically deformed under the extrusion of the extrusion device 30. For example, at least one side may be made of silicone, rubber, or an elastic resin, so that the reservoir 10 can return to a shape before the squeezing force is applied to the reservoir 10 after the squeezing force on the reservoir 10 is removed.

Optionally, the driving device includes a motor 41 and a threaded screw rod 42, the extruding device 30 is a pressing block, the motor 41 is mechanically connected with the pressing block through the threaded screw rod 42, wherein: when the motor 41 rotates, the pressing block is driven to move, so that the pressing block is extruded or far away from the liquid storage part 10.

For example, as shown in fig. 1, the pressing block is disposed at a side of the liquid storage part 10, and when the motor 41 rotates, the pressing block is driven by the screw rod 42 to move in a horizontal direction, so that the pressing block is pressed or away from the liquid storage part 10.

In practical implementation, the pressing block may also be disposed on the upper side of the liquid storage part 10, and the driving device drives the extruding device to extrude the liquid storage part downwards from the upper side of the liquid storage part 10, or the driving device drives the extruding device to move upwards to be away from the liquid storage part.

The motor 41 according to the present application may be a servo motor 41.

Optionally, in order to save the internal space of the electronic cigarette and reduce the overall volume of the electronic cigarette, as shown in fig. 1, a motor 41 is disposed above the liquid storage part 10, and a rotating shaft of the motor 41 is mechanically connected with a nut and can drive the nut to rotate; one end of the screw thread screw rod 42 on which the screw thread is provided is inserted into the nut, and the press block is provided at the other end of the screw thread screw rod 42.

In practical implementation, the electronic cigarette can control the motor 41 to rotate forward to drive the extruding device 30 to extrude the liquid storage part 10; the electronic cigarette can control the motor 41 to rotate reversely, and drive the extruding device 30 to be away from the liquid storage part 10, so that the liquid storage part 10 is restored to the shape before the extruding force is not applied to the liquid storage part 10.

Optionally, the other end of the liquid supply tube 20 is inserted into the base of the atomizer 40 to communicate with the atomizing chamber of the atomizer 40. Optionally, a thread is provided on an inner wall of a portion of the base of the atomizer 40, into which the liquid supply pipe 20 is inserted, and a thread matching with the thread on the inner wall of the base of the atomizer 40 is provided on an outer wall of a portion of the liquid supply pipe 20, into which the base is inserted.

Optionally, the end of the liquid supply tube 20 inserted into the liquid storage member 10 contacts the bottom of the liquid storage member 10. In practical implementation, the end of the liquid supply tube 20 inserted into the liquid storage member 10 may not contact with the bottom of the liquid storage member 10, and may be a certain distance away from the bottom of the liquid storage member 10.

Optionally, as shown in figure 1, the e-cigarette further comprises a control board 50 and/or a battery 60. Optionally, the bottom surface of the battery, the bottom surface of the liquid storage part 10 and the bottom end of the control board 50 are at the same or similar height.

In the embodiment, the extrusion device 30 is taken as a pressing block for illustration, and in practical implementation, the extrusion device 30 may include a plurality of pressing blocks, and the plurality of pressing blocks are controlled to simultaneously extrude the liquid storage member 10; the squeezing device 30 may also be a robot, and the electronic cigarette controls the robot to squeeze the liquid storage part 10.

In this application, the electron cigarette can be according to the extrusion of the output parameter control extrusion device of electron cigarette when detecting some cigarette signals stock solution spare. The output parameter includes at least one of output power and output temperature, where the output power may be the output power of the heating element, and the output temperature may be the temperature in the heating cavity of the electronic cigarette. This may be achieved in particular by several steps as shown in fig. 2 or fig. 3 or fig. 4.

It should be noted that the electronic cigarette can detect the temperature in the heating cavity by disposing a temperature detecting element in the heating cavity, for example, disposing a temperature detecting element on the surface of the heat generating member.

Referring to fig. 2, a method flowchart of a method for controlling an electronic cigarette according to an embodiment of the present invention is shown, and the embodiment illustrates that the method for controlling an electronic cigarette is used in the electronic cigarette shown in fig. 1. As shown in fig. 2, the control method of the electronic cigarette may include:

and step 210, when the cigarette lighting signal is detected, determining the target liquid supply speed of the electronic cigarette according to the output parameters of the electronic cigarette.

The cigarette lighting signal referred to in this application may be a pressing signal generated by pressing a cigarette lighting key on the electronic cigarette, or may be an airflow signal detected by an airflow sensor in an air passage communicating with the mouthpiece in the electronic cigarette, which is not specifically limited in this application.

And when the cigarette lighting signal is detected, determining the target liquid supply speed of the electronic cigarette according to the first corresponding relation. The first corresponding relation is a variation relation of the liquid consumption speed of the electronic cigarette along with variation of the output parameters of the electronic cigarette. The specific implementation can be as follows: and acquiring the liquid consumption speed corresponding to the output parameter according to the first corresponding relation, and determining the target liquid supply speed according to the liquid consumption speed.

Optionally, the first corresponding relationship may be stored in the electronic cigarette in a functional relationship, a table form, or a function curve form, and may be set by a system developer or customized by a user.

Alternatively, determining the target liquid supply rate based on the consumption rate may be accomplished by:

firstly, the acquired liquid consumption speed is determined as a target liquid supply speed of the electronic cigarette.

And secondly, calculating the sum of the obtained liquid consumption speed and a preset additional value to obtain a target liquid supply speed of the electronic cigarette so as to avoid dry burning. Where additional values are typically set by system developers.

Thirdly, multiplying the acquired liquid consumption speed by a preset multiple to obtain a target liquid supply speed of the electronic cigarette. Optionally, the predetermined multiple is usually greater than or equal to 1 to avoid dry burning, and a specific value may be set by a system developer, for example, the predetermined multiple may be 1.02.

And step 220, determining the target rotating speed of the motor according to the target liquid supply speed.

This step can be achieved in two ways:

firstly, the motor rotating speed corresponding to the target liquid supply speed in the second pair of relations is determined as the target rotating speed of the motor, the target rotating speed of the motor is determined according to the target moving speed, and the second corresponding relation is the change relation of the liquid supply speed of the electronic cigarette along with the change of the rotating speed of the motor.

The second corresponding relation can be stored in the electronic cigarette in a functional relation, a table form or a function curve form, can be set by a system developer and can also be customized by a user.

Secondly, determining the target moving speed of the pressing block according to the target liquid supply speed, and determining the target rotating speed of the motor according to the target moving speed.

The specific implementation can be as follows: calculating the quotient of the target liquid supply speed and the amount of the smoke liquid extruded into the atomizing cavity by the pressing block moving to the liquid storage part for a unit distance to obtain a target moving speed; and determining the rotating speed of the motor when the extrusion device moves according to the target moving speed to obtain the target rotating speed of the motor.

Optionally, a corresponding relationship between the moving speed of the squeezing device and the rotating speed of the motor may be stored in the electronic cigarette, where the corresponding relationship is a variation relationship of the moving speed of the squeezing device with the change of the rotating speed of the motor, and the corresponding relationship may be stored in the electronic cigarette in a functional relationship, a table form, or a functional curve form, and set by a system developer.

And step 230, controlling the motor to rotate according to the target rotating speed.

Optionally, in another embodiment, steps 210 and 220 may be directly replaced by: and acquiring a target rotating speed corresponding to the output parameter. The specific implementation can be as follows: and acquiring the corresponding motor rotating speed of the output parameter in the third corresponding relation.

The third corresponding relation can be stored in the electronic cigarette in a functional relation, a table form or a functional curve form, the liquid consumption speed of the electronic cigarette when the electronic cigarette is output by any value of the output parameter is the same as or similar to the preset liquid supply speed, and the preset liquid supply speed is the liquid supply speed when the motor rotates according to the motor rotating speed corresponding to any value in the third corresponding relation. The system developer can determine the corresponding relation between the output parameter and the motor rotating speed according to the first corresponding relation and the second corresponding relation to obtain a third corresponding relation.

In summary, in the method provided by the embodiment of the present invention, when the cigarette lighting signal is detected, the target liquid supply speed of the electronic cigarette is determined according to the output parameter; determining a target rotating speed of the motor according to the target liquid supply speed; and controlling the motor to rotate according to the target rotating speed so as to supply liquid according to the output parameters in real time in the cigarette lighting process, thereby avoiding dry burning.

In addition, in the process that the extrusion device is controlled to extrude the liquid storage part by executing the steps shown in fig. 2 or fig. 3 so that the tobacco juice in the liquid storage part enters the atomization cavity, the electronic cigarette also controls the atomizer to atomize the smoke according to the output parameters, namely, the electronic cigarette controls the atomizer to work according to the output parameters.

Referring to fig. 3, a method flowchart of a method for controlling an electronic cigarette according to another embodiment of the present invention is shown, and the present embodiment illustrates that the method for controlling an electronic cigarette is applied to the electronic cigarette shown in fig. 1. As shown in fig. 3, the control method of the electronic cigarette may include:

and 310, when the cigarette lighting signal is detected, determining the target liquid supply speed of the electronic cigarette according to the output parameters of the electronic cigarette.

The implementation of this step can refer to the implementation of step 210, and is not described in detail here.

If the liquid supply rate detected by the metering assembly is less than the target liquid supply rate, the rotational speed of the motor is increased, step 320.

Wherein, this measurement subassembly can set up in the feed tube for detect the velocity of flow of flowing out the tobacco juice from stock solution spare, also the liquid supply speed of electron cigarette.

Optionally, if the liquid supply rate detected by the metering assembly is higher than the target liquid supply rate, the rotational speed of the motor is decreased.

In practical implementation, the magnitude relation between the liquid supply speed detected by the metering component and the target liquid supply speed is periodically detected in the process of receiving the cigarette lighting signal. If the liquid supply speed detected by the metering component is lower than the target liquid supply speed, the rotating speed of the motor is increased by a basic step length; if the measured supply rate is greater than the target supply rate, the motor speed is reduced by a base step. Wherein the basic step size is typically set by the system developer.

In summary, in the method provided by the embodiment of the present invention, when the cigarette lighting signal is detected, the target liquid supply speed of the electronic cigarette is determined according to the output parameter of the electronic cigarette; and if the liquid supply speed detected by the metering component is lower than the target liquid supply speed, increasing the rotating speed of the motor to increase the liquid supply speed of the electronic cigarette so as to control the liquid supply speed of the electronic cigarette to be greater than or equal to the liquid consumption speed in the cigarette lighting process and avoid dry burning.

Referring to fig. 4, a flowchart of a method for controlling an electronic cigarette according to still another embodiment of the present invention is shown, and the present embodiment illustrates the method for controlling an electronic cigarette used in the electronic cigarette shown in fig. 1. As shown in fig. 4, the control method of the electronic cigarette may include:

and step 410, when a cigarette lighting signal is received, controlling the extruding device to extrude the liquid storage part, so that the liquid storage part provides the first amount of tobacco juice to the atomizing cavity.

This step can be achieved in several ways:

firstly, the motor is controlled to rotate for a preset number of turns, so that the extruding device extrudes the tobacco juice of the first tobacco juice amount in the liquid storage part to the atomizing cavity.

The predetermined number of turns is usually set by a system developer, for example, the developer can determine the number of turns of the motor in the process of extruding the tobacco juice of the first tobacco juice amount in the liquid storage part to the atomizing cavity by the extruding device through multiple experiments.

Secondly, after a cigarette lighting signal is received, the amount of the smoke liquid provided to the atomizing cavity after the cigarette lighting is started is determined according to the information detected by the metering component in the liquid supply pipe; before the tobacco juice amount provided to the atomization cavity reaches a first tobacco juice amount, controlling the motor to rotate to drive the extrusion device to extrude the liquid storage part; when the tobacco juice volume that provides the atomizing chamber reaches first tobacco juice volume, stop control motor and rotate and drive extrusion device and extrude stock solution spare.

The information detected by the metering component in the liquid supply pipe can be the flow speed or the smoke liquid amount of smoke liquid flowing into the atomization device from the liquid storage part.

And step 420, determining the amount of the residual smoke liquid in the atomization cavity according to the output parameter of the electronic cigarette and the first smoke liquid amount before the cigarette lighting signal is not interrupted.

This step may be implemented; determining the consumption speed of the tobacco juice according to the output parameters of the electronic cigarette; calculating the product of the consumption speed and the cigarette lighting time length to obtain the amount of the cigarette liquid consumed by the atomizing cavity after the last liquid supply; and calculating the difference between the first tobacco liquid amount and the tobacco liquid amount consumed by the atomizing cavity after the last liquid supply to obtain the residual tobacco liquid amount in the atomizing cavity.

And 430, if the residual smoke liquid amount in the atomizing cavity is lower than the second smoke liquid amount before the cigarette lighting signal is not interrupted, controlling the extruding device to extrude the liquid storage part so that the liquid storage part continues to provide the smoke liquid to the atomizing cavity.

The second amount of smoke is set by a system developer, for example, the system developer may set the second amount of smoke to a value close to or equal to 0.

In step 430, the squeezing device is controlled to squeeze the reservoir to provide a predetermined amount of liquid to the aerosolizing chamber. The predetermined amount is usually set by a system developer, and may be the first smoke amount. And after the liquid storage part provides the predetermined amount of the smoke liquid to the atomization chamber, determining the amount of the smoke liquid left in the atomization chamber according to the output parameter of the electronic cigarette and the predetermined amount, and executing step 430.

It should be noted that, if the electronic cigarette receives the first cigarette lighting signal after starting up, step 410 to step 430 are executed; and then, calculating the residual smoke liquid amount in the atomization cavity as the initial smoke liquid amount in the atomizer when the electronic cigarette is lit for the next time after the electronic cigarette is lit for each time, determining the residual smoke liquid amount in the atomization cavity according to the output parameters and the initial smoke liquid amount in the next lighting process, and executing step 430.

In summary, in the method provided in the embodiment of the present invention, when the cigarette lighting signal is received, the extruding device is controlled to extrude the liquid storage component, so that the liquid storage component provides the first amount of liquid smoke to the atomizing chamber; before the cigarette lighting signal is not interrupted, determining the residual cigarette liquid amount in the atomization cavity according to the output parameter of the electronic cigarette and the first cigarette liquid amount; if the residual smoke liquid amount in the atomization cavity is lower than the second smoke liquid amount before the cigarette lighting signal is not interrupted, the extrusion device is controlled to extrude the liquid storage part, so that the liquid storage part continues to provide the smoke liquid to the atomization cavity, the liquid supply speed of the electronic cigarette is controlled to be higher than or equal to the liquid consumption speed in the cigarette lighting process, and the dry burning is avoided.

In actually realizing any of the above embodiments, the liquid supply tube is communicated with the atomizing chamber, and the atomizing chamber is communicated with the outside of the electronic cigarette. In one example, the squeezing device is controlled to be away from the liquid storage part when the cigarette lighting signal interruption is detected, so that the liquid storage part is restored to the shape before the squeezing force acts on the liquid storage part, and the liquid storage part can be rapidly supplied to the atomizer when the squeezing device is controlled to squeeze next time. For example, the pressing device is controlled to move to the initial position when the interruption of the lighting signal is detected, and the pressing device is controlled to start moving from the initial position to press the liquid storage member when the lighting signal is detected again.

In another example, when the cigarette lighting signal is detected to be interrupted, the extrusion device is controlled to stop moving, and the next time the extrusion device is controlled to continue extruding the liquid storage part, so that the liquid storage part can quickly supply liquid to the atomizer. Optionally, if the squeezing device moves to the extreme squeezing position, the squeezing device is controlled to be away from the liquid storage part, so that the liquid storage part is restored to the shape before the squeezing force does not act on the liquid storage part, and the squeezing device is controlled to squeeze the liquid storage part when the cigarette lighting signal is detected again.

Optionally, the electronic cigarette may also exhibit a degree of squeezing of the reservoir. The specific implementation can be as follows: acquiring a first distance between an initial position and a current position of an extrusion device; acquiring a second distance between the initial position and the limit extrusion position of the extrusion device; and calculating the ratio of the first distance to the second distance to obtain the extrusion degree of the liquid storage part.

One end that the feed tube inserted in the stock solution spare does not stretch into the bottommost of stock solution spare (that is, the one end that the feed tube inserted in the stock solution spare to the height of stock solution spare bottom is greater than 0), and under the circumstances that the control extrusion device kept away from the stock solution spare when lighting a cigarette signal and cutting off, if the liquid level was less than the one end that the feed tube inserted in the stock solution spare, the electron cigarette passed through the feed tube entering atomizer according to lighting a cigarette signal control extrusion device's initial stage smokeless liquid that the stock solution spare, dry combustion easily takes place. In order to avoid the problem, if the liquid storage part is not extruded by the extruding device and the residual tobacco juice amount in the liquid storage part is less than or equal to the third tobacco juice amount, a prompt message for prompting that the tobacco juice is insufficient is displayed; wherein, under the circumstances that the stock solution spare possesses the third tobacco juice volume, the liquid feed pipe just supplies liquid to the atomizer chamber after the duration of extrusion device extrusion stock solution spare exceeded length of time in advance to predetermine.

The preset time duration can be set by a system developer, for example, the preset time duration can be set to 0.1 second by the system developer, and the third flue gas amount can be determined by the system developer through multiple experiments.

In actual practice, the relationship between the amount of smoke remaining in the reservoir and the third amount of smoke may be determined in two ways:

firstly, when the liquid storage part is not extruded by the extruding device, the liquid level detected by a liquid level detector in the liquid storage part is obtained; the prompt message is displayed if the liquid level is below a predetermined height, the predetermined height being the height from the end of the liquid supply tube inserted into the liquid storage member to the bottom of the liquid storage member.

Secondly, when the liquid storage part is not extruded by the extruding device, the liquid level detected by a liquid level detector in the liquid storage part is obtained; and calculating the residual smoke liquid amount in the liquid storage part according to the liquid level detected by the liquid level detector.

For example, if the liquid storage part is a cylinder, the product of the cross-sectional area of the bottom surface of the cylinder and the liquid level detected by the liquid level detector is calculated to obtain the amount of smoke remaining in the liquid storage part.

Thirdly, obtaining the residual tobacco juice amount in the electronic cigarette after the last liquid injection is finished; and in the cigarette lighting process, determining the cigarette liquid consumption according to the output parameters and the cigarette lighting time, and updating the residual cigarette liquid amount in the electronic cigarette according to the cigarette liquid consumption.

The residual tobacco juice amount in the electronic cigarette after the last liquid injection can be the residual tobacco juice amount input by a user after the last liquid injection is finished, and can also be the total capacity of the liquid storage part.

For example, after the liquid storage piece is filled with the tobacco juice, the user presses a full-filling confirmation key on the electronic cigarette to trigger the electronic cigarette to update the remaining tobacco juice amount in the electronic cigarette to the total capacity of the liquid storage piece.

In an example of any of the above embodiments, if it is detected that the amount of smoke liquid remaining in the electronic cigarette is lower than the second amount of smoke liquid, it is considered that the internal smoke liquid in the liquid storage member is exhausted, and a prompt message for prompting insufficient smoke liquid is displayed. The second amount of smoke is set by a system developer, for example, the system developer may set the second amount of smoke to a value close to or equal to 0.

Optionally, the electronic cigarette may further provide a squeezing key, and when the electronic cigarette detects that the squeezing key is triggered, the squeezing device is controlled to squeeze the liquid storage part.

Optionally, the electronic cigarette may further provide a deceleration liquid supply key and an acceleration liquid supply key, and when it is detected that the deceleration liquid supply key is pressed, the speed at which the liquid storage part is extruded by the extruding device is reduced; when detecting that the acceleration liquid supply key is pressed, improving the speed of extruding the liquid storage part by the extruding device.

The method can be realized in the following ways:

firstly, when an accelerated liquid supply key is detected to be triggered, the liquid consumption speed corresponding to each value of an output parameter in a first corresponding relation is synchronously increased; and when the deceleration liquid supply key is triggered, reducing the liquid consumption speed corresponding to each value of the output parameters in the first corresponding relation.

Secondly, when the liquid supply acceleration key is detected to be triggered, the rotating speed of the motor corresponding to each value of the liquid supply speed in the second corresponding relation is synchronously increased; and when the speed reduction liquid supply key is triggered, synchronously reducing the rotating speed of the motor corresponding to each value of the liquid supply speed in the second corresponding relation.

Thirdly, when the accelerated liquid supply key is detected to be triggered, the rotating speed of the motor corresponding to each value of the output parameters in the third corresponding relation is synchronously increased; and when the deceleration liquid supply key is triggered, synchronously reducing the rotating speed of the motor corresponding to each value of the output parameter in the third corresponding relation.

An embodiment of the present invention further provides a computer-readable storage medium, in which one or more instructions are stored, and when executed by a processor in an electronic cigarette, the one or more instructions implement the method for controlling an electronic cigarette in any of the above embodiments.

An embodiment of the present invention further provides a control device for an electronic cigarette, where the control device includes: a memory and a processor; at least one program instruction is stored in the memory; the processor is configured to load and execute the at least one program instruction to implement the control method of the electronic cigarette according to any one of the embodiments.

The terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying a number of the indicated technical features. Thus, a defined feature of "first", "second", may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (12)

1. The electronic cigarette is characterized by comprising a liquid storage part, a driving device and an extrusion device, wherein:

the inner part of the liquid storage part is communicated with an atomization cavity of the electronic cigarette;

the driving device is connected with the extruding device, the driving device drives the extruding device to extrude the liquid storage part to generate elastic deformation, so that the tobacco juice in the liquid storage part enters the atomizing cavity.

2. The electronic cigarette of claim 1, further comprising a liquid supply tube, wherein one end of the liquid supply tube is inserted into the liquid storage member, and the other end of the liquid supply tube is communicated with the atomization cavity of the electronic cigarette.

3. The electronic cigarette of claim 1, wherein the driving device comprises a motor and a threaded lead screw, the pressing device is a pressing block, and the motor is mechanically connected with the pressing block through the threaded lead screw, wherein:

when the motor rotates, the pressing block is driven to move through the threaded screw rod, so that the pressing block extrudes or is far away from the liquid storage part.

4. A method of controlling an electronic cigarette, the method comprising:

when a cigarette lighting signal is detected, controlling an extrusion device to extrude a liquid storage part according to the output parameters of the electronic cigarette so that the cigarette liquid in the liquid storage part enters an atomization cavity;

controlling an atomizer to atomize smoke according to the output parameters;

wherein the output parameter comprises at least one of output power and output temperature.

5. The method according to claim 4, wherein the controlling the squeezing device to squeeze the liquid reservoir to cause the liquid in the liquid reservoir to enter the atomization chamber according to the output parameter of the electronic cigarette comprises:

determining a target liquid supply speed of the electronic cigarette according to the output parameters; determining a target rotating speed of the motor according to the target liquid supply speed, and controlling the motor to rotate according to the target rotating speed; alternatively, the first and second electrodes may be,

and acquiring a target rotating speed corresponding to the output parameter, and controlling the motor to rotate according to the target rotating speed.

6. The method according to claim 4, wherein the liquid storage part supplies liquid to the atomizer through a liquid supply pipe, a metering component is arranged in the liquid supply pipe and used for detecting the flow rate of the smoke liquid flowing out of the liquid storage part, and the extruding device is controlled to extrude the liquid storage part according to the output parameter of the electronic cigarette so as to enable the smoke liquid in the liquid storage part to enter the atomizing cavity, and the method comprises the following steps:

determining a target liquid supply speed of the electronic cigarette according to the output parameters;

and if the flow rate detected by the metering assembly is lower than the target liquid supply speed, increasing the rotation speed of the motor.

7. The method according to claim 4, wherein the controlling the pressing device to press the liquid storage part to enable the liquid in the liquid storage part to enter the atomization cavity according to the output parameter of the electronic cigarette when the cigarette ignition signal is detected comprises:

when the cigarette lighting signal is received, the extruding device is controlled to extrude the liquid storage part, so that the liquid storage part provides cigarette liquid of a first cigarette liquid amount to the atomizing cavity;

before the cigarette lighting signal is not interrupted, determining the residual cigarette liquid amount in the atomization cavity according to the output parameter and the first cigarette liquid amount;

and if the residual tobacco juice amount in the atomization cavity is lower than the second tobacco juice amount before the cigarette lighting signal is not interrupted, controlling the extruding device to extrude the liquid storage part, so that the liquid storage part continuously provides the tobacco juice for the atomization cavity.

8. The method of claim 4, further comprising:

and when the cigarette lighting signal is detected to be interrupted, controlling the extruding device to stop moving, or controlling the extruding device to be far away from the liquid storage part.

9. The method of claim 4, wherein the reservoir supplies liquid to the atomizer through a liquid supply tube, the liquid supply tube having an end inserted into the reservoir that has a height greater than 0 ° to a bottom of the reservoir, the method further comprising:

when the cigarette lighting signal is detected to be interrupted, the squeezing device is controlled to be away from the liquid storage part;

and if the liquid storage part is not extruded by the extruding device and the residual liquid amount in the liquid storage part is less than or equal to the third liquid amount, displaying a prompt message for prompting that the liquid is insufficient.

10. The method of claim 9, wherein if the squeezing device does not squeeze the reservoir and the amount of smoke remaining in the reservoir is less than or equal to a third amount of smoke, presenting a notification message for notifying that smoke is insufficient comprises:

when the liquid storage part is not extruded by the extruding device, the liquid level detected by a liquid level detector in the liquid storage part is obtained;

and if the liquid level is lower than a preset height, displaying the prompt message, wherein the preset height is the height from one end of the liquid supply pipe inserted into the liquid storage part to the bottom of the liquid storage part.

11. A computer readable storage medium having one or more instructions stored therein, wherein the one or more instructions, when executed by a processor within an electronic cigarette, implement the method of controlling an electronic cigarette of any of claims 4-10.

12. A control device of an electronic cigarette, the control device comprising:

a memory and a processor;

at least one program instruction is stored in the memory;

the processor, by loading and executing the at least one program instruction, implements the control method of the electronic cigarette according to any one of claims 4 to 10.

Images