WO2020140961A1 - 供液方法和装置 - Google Patents

供液方法和装置 Download PDF

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Publication number
WO2020140961A1
WO2020140961A1 PCT/CN2020/070189 CN2020070189W WO2020140961A1 WO 2020140961 A1 WO2020140961 A1 WO 2020140961A1 CN 2020070189 W CN2020070189 W CN 2020070189W WO 2020140961 A1 WO2020140961 A1 WO 2020140961A1
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WO
WIPO (PCT)
Prior art keywords
liquid
liquid supply
atomizer
smoke
cam
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PCT/CN2020/070189
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English (en)
French (fr)
Inventor
邱伟华
周良军
Original Assignee
常州市派腾电子技术服务有限公司
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Application filed by 常州市派腾电子技术服务有限公司 filed Critical 常州市派腾电子技术服务有限公司
Publication of WO2020140961A1 publication Critical patent/WO2020140961A1/zh

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    • 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
    • A24F40/48Fluid transfer means, e.g. pumps
    • 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
    • A24F47/00Smokers' requisites not otherwise provided for

Definitions

  • the invention relates to the technical field of simulated smoking, in particular to a liquid supply method and device.
  • e-cigarettes are more and more popular in the market because of their safety, convenience, health, and environmental protection to a certain extent.
  • some e-cigarettes use e-liquid oil bottles for liquid storage.
  • the user directly squeezes e-liquid oil bottles to make the liquid in the e-liquid bottle flow into the atomization chamber.
  • the liquid in the atomization chamber is atomized to produce smoke.
  • the smoke can be sucked into the body from the mouthpiece of the user of the electronic cigarette, thereby achieving the purpose of simulating smoking.
  • a liquid supply device including a processor, a liquid supply assembly, a fuel supply tube atomizer, and a cigarette oil bottle, wherein:
  • the liquid inlet of the oil supply pipe is provided in the cigarette oil bottle, and the liquid outlet of the oil supply pipe is provided in the atomizer;
  • the liquid supply assembly is arranged around the cigarette oil bottle or on one side of the cigarette oil bottle;
  • the processor is electrically connected to the liquid supply assembly, and the processor can control the liquid supply assembly to squeeze the e-liquid oil bottle, so that the e-liquid in the e-liquid oil bottle enters the oil through the oil supply pipe Nebulizer.
  • the liquid supply assembly includes a cam, a slider, and a motor, wherein:
  • the slider is provided on one side of the cigarette oil bottle, the slider is provided with a sliding area for the cam to slide, the cam slide is provided in the sliding area, and the cam is sleeved on the On the output shaft of the motor;
  • the motor is electrically connected to the processor
  • the processor controls the cam to rotate when the output shaft of the motor rotates, and slides in the sliding area during the cam rotation and can drive the slider away from or squeeze the cigarette oil bottle.
  • a liquid supply method includes:
  • the working parameters including at least one of the output power of the electronic cigarette, the temperature in the atomizing chamber, and the working voltage of the atomizer;
  • the liquid supply rule is used to instruct the electronic cigarette to control the liquid supply component to the mist according to the single replenishment amount of the liquid smoke during every liquid supply interval time during the operation of the atomizer Liquid supply to the carburetor.
  • the rules for obtaining the liquid supply according to the working parameters and the single refill amount of the smoke liquid of the atomizer include:
  • the rules for obtaining the liquid supply according to the working parameters and the single refill amount of the smoke liquid of the atomizer include:
  • the determining of the liquid supply interval according to the single replenishment amount of the liquid smoke and the liquid consumption speed is executed The step of duration, or the step of determining the length of time required by the atomizer to consume a single amount of smoke liquid supplemented by the atomizer to obtain the length of the liquid supply interval according to the working parameter.
  • the single refill amount of the smoke liquid is the total amount of smoke liquid absorbed when the liquid suction member in the atomizer is saturated with liquid suction.
  • controlling the liquid supply assembly to supply liquid to the atomizer according to the liquid supply rule includes:
  • the target number of times being equal to a ratio of a single refill amount of the smoke liquid to a single time the liquid supply component squeezes the liquid supply of the smoke oil bottle;
  • the liquid supply assembly includes a cam, a slider, a motor, and a reset detector.
  • the slider is provided with a sliding area of the cam, the cam is slidingly connected to the sliding area, and the motor
  • the output shaft of the camera drives the cam to rotate.
  • the cam slides in the sliding area and drives the slider away from or squeezes the e-liquid bottle.
  • the liquid supply component in the electronic cigarette supplies liquid to the liquid absorbing member, including:
  • the reset detection component is used to detect whether the slider moves to the reset position corresponding to the slider, or the reset detection component is used to detect whether the cam moves to the reset position corresponding to the cam.
  • a detection component for detecting whether the cigarette oil bottle is squeezed is provided in the electronic cigarette.
  • the liquid supply component includes a cam, a slider, and a motor.
  • the slider is provided with the cam In the sliding area, the cam is slidingly connected to the sliding area.
  • the cam rotates.
  • the cam slides in the sliding area and drives the slider away or Squeezing the e-liquid bottle, and controlling the liquid supply assembly in the electronic cigarette to supply liquid to the liquid absorbing member according to the liquid supply rule includes:
  • the motor is controlled to stop rotating.
  • the method further includes:
  • the method further includes:
  • the liquid supply component is controlled to supply liquid to the atomizer according to the single replenishment amount of the smoke liquid.
  • the method further includes:
  • the single refill amount of the smoke liquid is updated according to the total smoke liquid amount, and the single refill amount of the smoke liquid is less than or equal to the total smoke liquid amount.
  • a computer-readable storage medium where one or more instructions are stored in the computer-readable storage medium, and the one or more instructions are implemented when executed by a processor in an electronic cigarette.
  • the liquid supply method according to one aspect and any optional embodiment of the first aspect.
  • a liquid supply device comprising:
  • At least one program instruction is stored in the memory
  • the processor implements the liquid supply method according to the first aspect and any optional implementation manner of the first aspect by loading and executing the at least one program instruction.
  • the working parameters include at least one of the output power of the electronic cigarette, the temperature in the atomizing chamber, and the operating voltage of the atomizer; according to the operating parameters, the smoke of the atomizer
  • a single liquid replenishment quantity obtains a liquid supply rule, and the liquid supply rule is used to instruct the electronic cigarette to control the liquid supply assembly according to the single replenishment amount of the smoke liquid to the mist according to the time of each liquid supply interval during the operation of the atomizer.
  • the liquid supply of the atomizer according to the liquid supply rule, the liquid supply component is controlled to supply the liquid to the atomizer; it solves the difficulty of grasping the liquid supply volume of the user who squeezes the smoke oil bottle to the atomization chamber in the related art, which is easy to cause waste and dry burning of smoke The problem of achieving the effect of improving the use efficiency of smoke liquid and avoiding dry burning.
  • FIG. 1 is a schematic structural diagram of an electronic cigarette according to an exemplary embodiment of the present invention
  • FIG. 2 is a schematic diagram showing a connection relationship between a cam and a slider shown in an exemplary embodiment of the present invention
  • FIG. 3 is a method flowchart of a liquid supply method according to an embodiment of the present invention.
  • FIG. 1 is a schematic structural diagram of an electronic cigarette according to an exemplary embodiment of the present invention.
  • the electronic cigarette includes an atomizer (not shown in the figure), a cigarette oil bottle 12, an oil supply pipe 13 and a liquid supply assembly, wherein:
  • the liquid inlet of the oil supply pipe 13 is disposed in the e-liquid oil bottle 12 and is close to or located at the bottom of the e-liquid oil bottle 12.
  • the liquid outlet of the oil supply pipe 13 is provided in the atomizer.
  • the liquid outlet of the oil supply pipe 13 may be close to or in contact with the liquid absorbing member, so as to spray the smoke liquid provided to the atomizer through the oil supply pipe 13 onto the liquid absorbing member.
  • the fuel supply pipe 13 is an upright pipe in the electronic cigarette. The upper end (ie, the liquid outlet end) extends into the atomizer and the lower end (ie, the liquid inlet end) extends into the smoke. Oil bottle 12.
  • the processor (not shown) in the electronic cigarette is electrically connected to the liquid supply assembly.
  • the liquid supply assembly is disposed around or on the side of the cigarette oil bottle 12; the processor can control the liquid supply assembly to squeeze the cigarette
  • the oil bottle 12 causes the smoke liquid in the smoke oil bottle 12 to enter the atomizer through the oil supply pipe 13.
  • the liquid supply assembly includes a motor 10, a cam 14 and a slider 15, wherein: the slider 15 in the electronic cigarette is disposed on one side of the cigarette oil bottle 12, and the slider 15 is driven by the motor 10
  • the bottom can approach (ie, squeeze) or move away from the e-liquid oil bottle 12 to perform a reciprocating motion to squeeze the e-liquid oil bottle 12 to supply liquid to the atomizer.
  • the slider 15 is provided with a sliding area of the cam 14, and the cam 14 is slidably provided in the sliding area.
  • the cam 14 is driven to rotate around the output shaft of the motor 10.
  • the slider 15 rolls in the sliding area, thereby pushing the slider 15 to reciprocate, that is, pushing the slider 15 away from or squeezing the smoke oil bottle 12 .
  • the upper end of the cam 14 is sleeved on the output shaft of the motor 10, and the lower end of the cam 14 is provided with a bump, and the bump is not coaxial with the output shaft of the motor 10; when the motor 10 drives the cam 14 to rotate, the cam
  • the convex point on 14 performs circular motion, and the convex point drives the slider 15 to move toward the cigarette oil bottle 12 to squeeze the cigarette oil bottle 12 or away from the cigarette oil bottle 12.
  • the motor 10 is electrically connected to the processor in the electronic cigarette, and the processor can control the output shaft of the motor to rotate clockwise or counterclockwise.
  • At least one side of the body of the e-liquid oil bottle 12 is an elastic material, which can be elastically deformed under the extrusion of the slider 15 and squeeze out the e-liquid under pressure To supply liquid to the atomizer.
  • at least one side may be made of silicone, rubber, elastic resin, etc., so that after the squeezing force of the cigarette oil bottle 12 is removed, the cigarette oil bottle 12 can return to the shape before the squeezing force did not act on the cigarette oil bottle 12 , So that the next time the smoke oil bottle 12 is squeezed, the smoke liquid flows from the oil supply pipe 13 into the atomizer.
  • FIG. 3 shows a flowchart of a liquid supply method provided by an embodiment of the present invention.
  • This embodiment uses the liquid supply method as an example in an electronic cigarette.
  • the liquid supply method may include:
  • Step 310 Obtain working parameters during the operation of the atomizer.
  • the working parameters include at least one of the output power of the electronic cigarette, the temperature in the atomization chamber, and the working voltage of the atomizer.
  • the temperature in the atomization chamber may be the temperature detected by the temperature detection element disposed on or near the surface of the heating element in the electronic cigarette.
  • the liquid supply component is controlled to supply liquid to the atomizer according to the single replenishment amount of the smoke liquid of the atomizer.
  • the single refill amount of the smoke liquid of the atomizer can be set by the system developer or can be customized by the user. It should be noted that: in an electronic cigarette that uses a liquid-absorbent member to absorb liquid in an atomizer, the set single-time replenishment amount of the liquid smoke needs to be less than or equal to the total amount of liquid smoke absorbed when the liquid-absorbent member is saturated with liquid.
  • the set single refill amount of the smoke liquid of the atomizer should be an integer multiple of the liquid supply amount during the single extrusion of the smoke oil bottle by the slider, that is, the slider performs An integer multiple of the amount of fluid supplied during a reciprocating motion.
  • the integer multiple can be 3, 4, 5, and so on.
  • the amount of liquid supply is 5 ml
  • the single replenishment of the smoke liquid can be 15 ml, 20 ml, and so on.
  • the amount of liquid supplied during the reciprocating motion of the slider is set by the system developer.
  • the system developer can combine the size setting of the cam and the slider in the electronic cigarette, and can also determine the slider to reciprocate once through multiple experiments The amount of liquid supplied to the atomizer during movement.
  • the electronic cigarette can calculate the ratio of the single refill amount of the smoke liquid and the liquid supply amount during the single squeeze of the smoke oil bottle by the slider, each The target number of times that the liquid supply component squeezes the e-liquid bottle within the duration of the liquid supply interval, and stores the target number of times in the electronic cigarette.
  • Step 320 Obtain the liquid supply rule according to the working parameter and the single refill amount of the smoke liquid of the atomizer, and the liquid supply rule is used to instruct the electronic cigarette to control the liquid supply time at every liquid supply interval during the operation of the atomizer The component supplies liquid to the atomizer according to the single replenishment amount of the smoke liquid.
  • this step can be implemented in the following ways:
  • the first one is to determine the liquid consumption speed in the atomizer according to the obtained working parameters; to determine the duration of the liquid supply interval according to the single refill amount of the smoke liquid of the atomizer and the liquid consumption speed; to generate the liquid supply according to the duration of the liquid supply interval rule.
  • the correspondence between the liquid consumption speed of the atomizer and the operating parameters can be stored in the electronic cigarette.
  • the correspondence can be stored in the electronic cigarette in the form of tables, output curves, etc.
  • the correspondence can be passed by the system developer multiple times Experimental setting; after obtaining the working parameters by performing step 310, the electronic cigarette queries the corresponding consumption speed of the obtained working parameters in the corresponding relationship.
  • multiple working parameters may correspond to a liquid consumption speed, or a working parameter may correspond to a liquid consumption speed, which is not limited in this embodiment.
  • the ratio of the single replenishment amount of the smoke liquid of the atomizer and the liquid consumption speed can be calculated to obtain the duration of the liquid supply interval. Then add the duration of the liquid supply interval to the liquid supply rule to be executed.
  • the liquid supply rule may further include a target number of times that the liquid supply component squeezes the e-cigarette oil bottle in the electronic cigarette within the duration of each liquid supply interval, and the target number of times is equal to the atomization The ratio of the single replenishment volume of the smoke liquid to the liquid supply volume of the liquid supply component squeezing the smoke oil bottle at a time.
  • the e-cigarette may store the correspondence between the smoke liquid consumption and the atomization duration under various operating parameters.
  • the correspondence may be stored in the e-cigarette in the form of tables, output curves, etc. Set by the system developer through multiple experiments; after obtaining the working parameters by performing step 310, the electronic cigarette queries the obtained working parameters to determine the length of time required for the atomizer to consume the single supplement of the smoke liquid The length of the liquid interval.
  • the liquid supply rules corresponding to the working parameters and the single replenishment amount of the smoke liquid are obtained from the local or server.
  • the correspondence relationship between the liquid supply rules, working parameters and the single replenishment amount of the cigarette liquid can be stored in the electronic cigarette, and the correspondence relationship can be stored in the electronic cigarette in the form of a table or the like, and the correspondence relationship can be created by the system developer set up.
  • the liquid consumption speed of the atomizer when the electronic cigarette is working with the working parameter is also determined according to the working parameter, and the ratio of the single replenishment amount of the smoke liquid to the liquid consumption speed is calculated to obtain the length of the liquid supply interval.
  • the length of the liquid supply interval generates the liquid supply rule.
  • the server may store the correspondence between the liquid supply rules, working parameters, and the single replenishment volume of the smoke liquid
  • the electronic cigarette may establish a connection with the server through a wired network or a wireless network.
  • the implementation of the e-cigarette obtaining liquid supply rule from the server may be: sending a query request to the server carrying the single replenishment amount of the smoke liquid and its working parameters; the server querying the working parameters and the single supply amount of the smoke liquid corresponding to the stored liquid supply rule.
  • the liquid supply rules corresponding to the working parameters and the single replenishment amount of the smoke liquid from the local or server; if not obtained, determine the liquid consumption speed in the atomizer according to the obtained working parameters; according to the The single replenishment volume of the smoke liquid and the liquid consumption speed determine the duration of the liquid supply interval; the liquid supply rule is generated according to the length of the liquid supply interval.
  • the smoke liquid consumption during the operation of the atomizer is obtained according to the working parameters; when the smoke liquid consumption reaches the single supplement of the smoke liquid, the atomizer consumes the smoke
  • the duration of the single liquid replenishment amount is the duration of the liquid supply interval; a liquid supply rule is generated according to the duration of the liquid supply interval, and step 330 is executed.
  • the e-cigarette can store the correspondence between the smoke liquid consumption and the atomization duration under various operating parameters.
  • the correspondence can be stored in the e-cigarette in the form of tables, output curves, etc.
  • the correspondence can be determined by the system The developer has set through multiple experiments; after obtaining the working parameters by performing step 310, the electronic cigarette queries the obtained working parameters to determine the length of time required for the atomizer to consume the single supplement of the smoke liquid to obtain the liquid supply interval duration.
  • Step 330 During the working process of the atomizer, the liquid supply assembly is controlled to supply liquid to the atomizer according to the liquid supply rule.
  • the liquid supply component is electrically connected to the control component in the electronic cigarette, and the control component controls the liquid supply component to supply liquid to the atomizer according to the liquid supply rule.
  • the control assembly may include a control unit that is connected to the motor in the electronic cigarette and controls the rotation of the motor.
  • This step can be achieved in the following two ways:
  • the liquid supply component is controlled to supply the liquid to the atomizer according to the single replenishment amount of the smoke liquid, and the electronic cigarette controls the liquid supply component when the atomizer continues to work for a liquid supply interval.
  • the liquid supply to the atomizer is supplied to the atomizer according to the single replenishment amount of smoke liquid; then, each time the atomizer continues to work to reach a liquid supply interval, the liquid supply component is controlled to supply the liquid to the atomizer according to the atomizer's A single replenishment of smoke liquid supplies liquid to the atomizer.
  • the electronic cigarette does not control the liquid supply component to the atomizer until the atomizer continues to work for 3 seconds, according to the single refill volume of the atomizer to the atomizer.
  • the liquid supply of the atomizer when the atomizer continues to work for 3 seconds, the liquid supply component is controlled to supply the liquid to the atomizer according to the single replenishment amount of the smoke liquid of the atomizer; when the atomizer continues to work At 6 seconds, the liquid supply component is controlled to supply liquid to the atomizer according to the single replenishment amount of the smoke liquid of the atomizer, and the others are in turn.
  • the electronic cigarette when the e-cigarette receives the cigarette lighter signal for the first time after the electronic cigarette is turned on and controls the liquid supply component to supply liquid to the atomizer according to the single refill amount of the smoke liquid of the atomizer, the electronic cigarette is controlled when the cigarette lighter receives the cigarette lighter signal for the first time
  • the liquid supply component supplies liquid to the atomizer according to the single replenishment amount of the smoke liquid of the atomizer, and controls the operation of the atomizer; then, every other liquid supply interval time, the liquid supply component is controlled to supply the liquid to the atomizer according to the mist
  • the single replenishment of the smoke liquid from the atomizer supplies the liquid to the atomizer.
  • the electronic cigarette When the electronic cigarette receives the cigarette lighter signal for the first time, it controls the liquid supply assembly to supply the liquid to the atomizer according to the single replenishment of the liquid of the atomizer. ; When the atomizer continues to work for 3 seconds, control the liquid supply assembly to the atomizer to supply liquid to the atomizer according to the single replenishment of the smoke liquid of the atomizer; when the atomizer continues to work for 6 seconds , Control the liquid supply assembly to supply liquid to the atomizer according to the single replenishment volume of the smoke liquid from the atomizer, and so on.
  • the cigarette liquid consumption after the last liquid supply is determined according to the length of the cigarette lighter after the last liquid supply of the liquid supply component and the operating parameters; the liquid supply component is controlled to the liquid-absorbing component Supplementary liquid smoke consumption.
  • the specific implementation may be: obtaining the liquid consumption speed of the smoke liquid in the atomizer according to the working parameters, calculating the product of the liquid consumption speed and the cigarette lighting time to obtain the smoke liquid consumption, and controlling the liquid supply component to supplement the liquid consumption of the liquid suction part The amount of liquid smoke.
  • the liquid supply component is controlled to supply liquid to the atomizer according to the smoke liquid list of the atomizer
  • the liquid is supplied to the atomizer at the second replenishment amount; then, at every interval of the liquid supply interval, the liquid supply assembly is controlled to supply the liquid to the atomizer according to the single replenishment amount of the smoke liquid.
  • the liquid supply rule includes the liquid supply component squeezing the e-liquid bottle in the electronic cigarette during the liquid supply process according to the single refill amount of the smoke liquid of the atomizer .
  • the target number of times is obtained according to the liquid supply rules, and the liquid supply component is controlled to squeeze the e-liquid bottle to reach the target number of times.
  • the liquid supply rule does not include the target number of times the liquid supply component squeezes the e-liquid oil bottle in the electronic cigarette during the single supply of liquid smoke, then the electronic The target number of times the cigarette obtaining liquid supply component squeezes the cigarette oil bottle in the electronic cigarette during the liquid supply process according to the single replenishment amount of the smoke liquid.
  • the electronic cigarette can control the liquid supply component to squeeze the cigarette oil bottle to reach the target number of times during the interval of the liquid supply interval.
  • the liquid supply assembly further includes a reset detection element.
  • the reset detection element is used to detect whether the slider moves to the reset position corresponding to the slider, or the reset detection element is used to detect whether the cam moves to the reset position corresponding to the cam.
  • the reset position corresponding to the slider is set by the system developer.
  • the system developer can set the position of the slider to the reset position corresponding to the slider when the distance between the slider and the cigarette oil bottle reaches the maximum limit; the cam corresponds to The reset position of the system is set by the system developer.
  • the system developer can set the position of the cam as the corresponding reset position of the cam when the distance between the slider and the smoke oil bottle reaches the maximum limit.
  • the output shaft of the motor is controlled to rotate in a predetermined direction (clockwise or counterclockwise); and the statistical reset detection is performed during the rotation of the output shaft.
  • the number of resets refers to the number of times the slider or cam moves from other positions to the reset position, and the squeeze of the cigarette oil bottle is completed every time the slider moves to the reset position.
  • the method of determining the number of times the slider squeezes the smoke oil bottle according to the number of resets needs to be determined in conjunction with the slider after the target number of squeezes are completed.
  • the position where the slider is located is the corresponding reset position of the slider, and the slider stays in the reset position after the target number of squeezes are completed.
  • the number of resets directly determines the number of times the slider squeezes the smoke oil bottle.
  • the slider takes the position of the slider when the distance between the slider and the e-liquid bottle reaches the maximum limit as the corresponding reset position of the slider, and the slider stays to the e-liquid oil bottle and reset position after the slider completes the target number of squeezes
  • the number of times the slider squeezes the smoke oil bottle is 0 when the slider reaches the reset position for the first time during the motor rotation; the number of times the slider squeezes the smoke oil bottle is n- when it reaches the reset position for the nth time 1;
  • control the motor to rotate a predetermined number of times to make the slider squeeze the smoke oil bottle and stay between the smoke oil bottle and the reset position.
  • the electronic cigarette is provided with a detection component for detecting whether the smoke oil bottle is squeezed.
  • the detection component may be a distance sensor for detecting the distance from the slider, or may be provided on the side wall of the smoke oil bottle to slide toward
  • the pressure sensor on the side of the block is not specifically limited in this embodiment.
  • the distance sensor is arranged on the straight line where the slider reciprocates, the cigarette oil bottle is arranged on one side of the slider, and the distance sensor is arranged on the other side of the slider.
  • a distance can be the minimum limit distance between the slider and the e-liquid oil bottle, that is, the distance between the slider and the e-liquid oil bottle when the slider is in the reset position Squeeze of the cigarette oil bottle;
  • the second distance may be the maximum limit distance value between the slider and the cigarette oil bottle.
  • the output shaft of the motor is controlled to rotate in a predetermined direction; during the rotation of the output shaft, the cigarette oil bottle is counted according to the information detected by the detection component The number of times the squeezed state is switched to the unsqueezed state; when the number of times that the cigarette oil bottle is switched from the squeezed state to the unsqueezed state reaches the target number of times, the motor is controlled to stop rotating.
  • the method provided by the embodiments of the present invention obtains the operating parameters during the operation of the atomizer.
  • the operating parameters include at least the output power of the electronic cigarette, the temperature in the atomizing chamber, and the operating voltage of the atomizer.
  • the liquid supply component supplies liquid to the atomizer according to the single replenishment amount of the smoke liquid; controls the liquid supply component to supply the liquid to the atomizer according to the liquid supply rules; solves the problem that the user squeezes the smoke oil bottle to the atomization chamber in the related art It is difficult to grasp the amount of liquid supply, which is easy to cause the waste of smoke liquid and dry burning; it achieves the effect of improving the use efficiency of smoke liquid and avoiding dry burning.
  • the e-cigarette when detecting the replacement of the atomizer in the electronic cigarette, obtains the total amount of smoke liquid absorbed when the liquid-absorbent member in the atomizer is saturated after replacement; the smoke liquid is updated once according to the total amount of smoke liquid Replenishment volume, the single replenishment volume of the smoke liquid is less than or equal to the total volume of smoke liquid.
  • the electronic cigarette when it detects the replacement of the atomizer in the electronic cigarette, it can obtain the total amount of liquid smoke absorbed by the user-absorbed liquid absorption member when the liquid is saturated, or query the model of atomization according to the model of the atomizer The total amount of smoke liquid absorbed by the liquid-absorbent member in the device when the liquid-absorbent is saturated.
  • the electronic cigarette can use the identification device to identify the model of the atomizer, or it can be the model of the atomizer obtained by the user.
  • the identification device may be a scanning device, and the barcode number on the atomizer is scanned by the scanning device to obtain the model number of the atomizer.
  • the electronic cigarette can also use the barcode scanned by the scanning device to obtain the identification of the atomizer to determine whether the atomizer is replaced.
  • the single refill amount of the smoke liquid before updating the single refill amount of the smoke liquid according to the smoke liquid amount, determine the size relationship between the single refill amount of the smoke liquid of the atomizer and the total smoke liquid amount; if the smoke liquid of the atomizer The single replenishment volume is greater than the total smoke liquid volume, the single refill volume of the smoke liquid of the atomizer is updated according to the total smoke liquid volume, so that the updated single refill volume of the smoke liquid is not higher than the total smoke liquid volume, Otherwise, the single refill amount of the smoke liquid of the atomizer is not updated.
  • the specific realization of updating the single refill amount of the smoke liquid of the atomizer may be: reducing the single refill amount of the smoke liquid by one step; if the reduced single refill amount of the smoke liquid is still higher than the total amount of the liquid smoke , Then the single refill amount of cigarette liquid is reduced by another step until it is lower than the total amount of cigarette liquid; wherein, one step can be the supply volume of the single pressurized smoke oil bottle of the slider, or it can be the single An integer multiple of the supply volume of the secondary pressurized cigarette oil bottle.
  • the user can also directly modify the single refill amount of the smoke liquid in the memory, which is not limited in this embodiment.
  • An embodiment of the present invention also provides a computer-readable storage medium that stores one or more instructions, and the one or more instructions are implemented when executed by a processor in an electronic cigarette
  • An embodiment of the present invention further provides a liquid supply device.
  • the device includes: a memory and a processor; the memory stores at least one program instruction; the processor loads and executes the at least one program instruction to The liquid supply method involved in any of the above embodiments is realized.
  • first and second are for descriptive purposes only and cannot be understood as indicating or implying relative importance or implying the number of indicated technical features.
  • the defined “first” and “second” features may explicitly or implicitly include one or more of the features.
  • “multiple” means two or more.
  • the program may be stored in a computer-readable storage medium.
  • the mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

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Abstract

一种供液方法和装置。该方法包括:在雾化器工作过程中,获取工作参数,工作参数包括电子烟的输出功率、雾化腔内温度、雾化器的工作电压中至少一种(310);根据工作参数、雾化器的烟液单次补充量获取供液规则;按照供液规则控制供液组件向雾化器供液;其中,供液规则用于指示电子烟在雾化器工作过程中,每隔一个供液间隔时长控制供液组件按照烟液单次补充量向雾化器供液(320);解决了用户挤压烟油瓶时的供液量难以把握易造成烟液浪费、干烧的问题;实现了提高烟液使用效率、避免干烧的效果。

Description

供液方法和装置 技术领域
本发明涉及模拟吸烟技术领域,特别涉及一种供液方法和装置。
背景技术
电子烟作为香烟的替代品,因其在一定程度上具有使用安全、方便、健康、环保等特点,在市场上越来越受欢迎。
目前,一些电子烟利用烟油瓶进行储液,用户通过用手直接挤压烟油瓶使烟油瓶中的烟液流入雾化腔中,雾化腔内烟液被雾化产生烟雾,该烟雾可以被电子烟的使用者从烟嘴吸入体内,从而达到模拟吸烟的目。然而,用户用手挤压烟油瓶给雾化腔的供液量难以把握,过多容易造成烟液浪费,过少容易造成干烧。
发明内容
为了解决现有技术中户挤压烟油瓶给雾化腔的供液量难以把握易造成烟液浪费、干烧的问题,本发明实施例提供了一种供液方法和装置。所述技术方案如下:
第一方面,提供了一种供液装置,所述装置包括处理器、供液组件、供油管雾化器以及烟油瓶,其中:
所述供油管的进液端设置于所述烟油瓶内,所述供油管的出液端设置于所述雾化器中;
所述供液组件围绕所述烟油瓶设置或设置于所述烟油瓶的一侧;
所述处理器与所述供液组件电连接,所述处理器能够控制所述供液组件挤压所述烟油瓶,使所述烟油瓶内烟液通过所述供油管进入所述雾化器中。
可选的,所述供液组件包括凸轮、滑块、电机,其中:
所述滑块设置于所述烟油瓶的一侧,所述滑块上设置有供所述凸轮滑动的滑动区域,所述凸轮滑动设置于所述滑动区域内,所述凸轮套设于所述电机的 输出轴上;
所述电机与所述处理器电连接;
所述处理器控制所述电机的输出轴转动时带动所述凸轮转动,所述凸轮转动过程中在所述滑动区域内滑动并且能够带动所述滑块远离或挤压所述烟油瓶。
第二方面,提供了一种供液方法,所述方法包括:
在雾化器工作过程中,获取工作参数,所述工作参数包括电子烟的输出功率、雾化腔内温度、所述雾化器的工作电压中至少一种;
根据所述工作参数、所述雾化器的烟液单次补充量获取供液规则;
按照所述供液规则控制所述供液组件向所述雾化器供液;
其中,所述供液规则用于指示所述电子烟在所述雾化器工作过程中,每隔一个供液间隔时长控制所述供液组件按照所述烟液单次补充量向所述雾化器供液。
可选的,所述根据所述工作参数、所述雾化器的烟液单次补充量获取供液规则,包括:
获取与所述工作参数以及所述烟液单次补充量对应存储的供液规则;或者,
根据所述工作参数确定所述雾化器内耗液速度;根据所述烟液单次补充量、所述耗液速度确定所述供液间隔时长;根据所述供液间隔时长生成供液规则;或者,
根据所述工作参数确定所述雾化器消耗所述烟液单次补充量的烟液所需的时长得到供液间隔时长;根据所述供液间隔时长生成供液规则。
可选的,所述根据所述工作参数、所述雾化器的烟液单次补充量获取供液规则,包括:
执行所述获取与所述工作参数以及所述烟液单次补充量对应存储的供液规则的步骤;
如果未获取到与所述工作参数以及所述烟液单次补充量对应存储的供液规则,则执行所述根据所述烟液单次补充量、所述耗液速度确定所述供液间隔时长的步骤,或执行所述根据所述工作参数确定所述雾化器消耗所述烟液单次补充量的烟液所需的时长得到供液间隔时长的步骤。
可选的,所述烟液单次补充量为所述雾化器内吸液件吸液饱和时吸收的总 烟液量。
可选的,所述按照所述供液规则控制所述供液组件向所述雾化器供液,包括:
根据所述供液规则获取目标次数,所述目标次数等于所述烟液单次补充量与所述供液组件单次挤压所述烟油瓶供液量的比值;
控制所述供液组件挤压所述电子烟内烟油瓶达到所述目标次数。
可选的,所述供液组件包括凸轮、滑块、电机以及复位检测件,所述滑块上设置有所述凸轮的滑动区域,所述凸轮滑动连接于所述滑动区域内,所述电机的输出轴转动时带动所述凸轮转动,所述凸轮转动过程中在所述滑动区域内滑动并且带动所述滑块远离或挤压所述烟油瓶,所述按照所述供液规则控制所述电子烟内供液组件向所述吸液件供液,包括:
在与所述供液组件上一次供液时间的时间间隔达到所述供液间隔时长时,控制所述电机的输出轴按照预定方向转动;
所述输出轴转动过程中统计所述复位检测件检测到的复位次数,以及根据所述复位次数确定所述滑块挤压所述烟油瓶的次数是否达到所述目标次数;
在所述滑块挤压所述烟油瓶的次数达到所述目标次数时,控制所述电机停止转动;
其中,所述复位检测件用于检测所述滑块是否移动至所述滑块对应的复位位置,或者,所述复位检测件用于检测所述凸轮是否移动至所述凸轮对应的复位位置。
可选的,所述电子烟内设置有用于检测所述烟油瓶是否被挤压的检测组件,所述供液组件包括凸轮、滑块、电机,所述滑块上设置有所述凸轮的滑动区域,所述凸轮滑动连接于所述滑动区域内,所述电机的输出轴转动时带动所述凸轮转动,所述凸轮转动过程中在所述滑动区域内滑动并且带动所述滑块远离或挤压所述烟油瓶,所述按照所述供液规则控制所述电子烟内供液组件向所述吸液件供液,包括:
在与所述供液组件上一次供液时间的时间间隔达到所述供液间隔时长时,控制所述电机的输出轴按照预定方向转动;
所述输出轴转动过程中根据所述检测组件检测到的信息统计所述烟油瓶由挤压状态切换至未挤压状态的次数;
在所述烟油瓶由挤压状态切换至未挤压状态的次数达到所述目标次数时,控制所述电机停止转动。
可选的,所述方法还包括:
在所述雾化器停止工作时,根据所述供液组件上一次供液后的点烟时长以及所述工作参数确定所述上一次供液后的烟液消耗量;
控制所述供液组件向所述雾化器补充所述烟液消耗量的烟液。
可选的,所述方法还包括:
在所述电子烟开机时,或者,所述电子烟开机后首次接收到点烟信号时,控制所述供液组件按照所述烟液单次补充量向所述雾化器供液。
可选的,所述方法还包括:
在检测到所述电子烟内雾化器更换时,获取更换后雾化器内吸液件吸液饱和时吸收的总烟液量;
根据所述总烟液量更新所述烟液单次补充量,所述烟液单次补充量小于或等于所述总烟液量。
第二方面,提供了一种计算机可读存储介质,所述计算机可读存储介质中存储有一个或一个以上的指令,所述一个或一个以上的指令被电子烟内的处理器执行时实现第一方面以及第一方面任一可选实施方式所涉及的供液方法。
第三方面,提供了一种供液装置,所述装置包括:
存储器和处理器;
所述存储器中存储有至少一条程序指令;
所述处理器,通过加载并执行所述至少一条程序指令以实现第一方面以及第一方面任一可选实施方式所涉及的供液方法。
本发明实施例提供的技术方案带来的有益效果是:
通过在雾化器工作过程中,获取工作参数,该工作参数包括电子烟的输出功率、雾化腔内温度、雾化器的工作电压中至少一种;根据该工作参数、雾化器的烟液单次补充量获取供液规则,该供液规则用于指示所述电子烟在雾化器工作过程中每隔一个供液间隔时长控制该供液组件按照该烟液单次补充量向雾化器供液;按照该供液规则控制供液组件向雾化器供液;解决了相关技术中用户挤压烟油瓶给雾化腔的供液量难以把握易造成烟液浪费、干烧的问题;达到了提高烟液使用效率、避免干烧的效果。
附图说明
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本发明一示例性实施例示出的一种电子烟的结构示意图;
图2是本发明一示例性实施例示出的凸轮、滑块之间的连接关系示意图;
图3是本发明一个实施例提供的供液方法的方法流程图。
具体实施方式
为使本发明的目的、技术方案和优点更加清楚,下面将结合附图对本发明实施方式作进一步地详细描述。
图1是本发明一示例性实施例示出的一种电子烟的结构示意图。如图1所示,该电子烟包括雾化器(图中未示出)、烟油瓶12、供油管13以及供液组件,其中:
供油管13的进液端设置于烟油瓶12内,并且靠近或位于烟油瓶12的底部。供油管13的出液端设置于雾化器中。可选的,供油管13的出液端可与吸液件向接近或接触,以将通过供油管13向雾化器提供的烟液喷洒至吸液件上。举例来讲,如图1所示,供油管13为电子烟内直立的管,上端(也即,出液端)伸入雾化器中并且下端(也即,进液端)伸入烟油瓶12中。
该电子烟内处理器(图中未示出)与供液组件电连接,供液组件围绕烟油瓶12设置或设置于烟油瓶12的一侧;处理器能够控制供液组件挤压烟油瓶12,使烟油瓶12内烟液通过供油管13进入雾化器中。
可选的,如图1所示,供液组件包括电机10、凸轮14以及滑块15,其中:该电子烟内滑块15设置于烟油瓶12的一侧,滑块15在电机10驱动下能够靠近(也即,挤压)或远离烟油瓶12,以进行往复运动实现挤压烟油瓶12向雾化器进行供液。
如图2所示,滑块15上设置有凸轮14的滑动区域,凸轮14滑动设置于该 滑动区域内。电机10的输出轴转动时带动凸轮14围绕电机10的输出轴转动,凸轮14转动过程中在滑动区域内滚动进而推动滑块15往复运动,也即推动滑块15远离或挤压烟油瓶12。
具体的,凸轮14的上端套设于电机10的输出轴上,凸轮14的下端设置有凸点,且该凸点不与电机10的输出轴同轴;当电机10带动凸轮14转动时,凸轮14上的凸点做圆周运动,凸点带动滑块15向烟油瓶12运动挤压烟油瓶12或远离烟油瓶12。
其中,电机10与电子烟内处理器电连接,处理器能够控制电机的输出轴顺指针转动或逆时针转动。
需要说明的是:烟油瓶12的瓶身的至少一个侧面(包括朝向滑块15的侧面)为弹性材质,能够在滑块15的挤压下发生弹性形变,在压力下将烟油挤出,从而向雾化器供液。比如,至少一个侧面可以采用硅胶、橡胶、弹性树脂等材料制造,使得烟油瓶12的挤压力撤走后烟油瓶12能够恢复到该挤压力未作用于烟油瓶12之前的形状,使得烟油瓶12下次被挤压时烟液从供油管13流入雾化器。
请参考图3,其示出了本发明一个实施例提供的供液方法的方法流程图,本实施例以该供液方法用于电子烟中来举例说明。如图3所示,该供液方法可以包括:
步骤310,在雾化器工作过程中,获取工作参数,该工作参数包括电子烟的输出功率、雾化腔内温度、雾化器的工作电压中至少一种。
其中,雾化腔内的温度可以为电子烟内设置于发热件表面或附近的温度检测元件检测到的温度。
可选的,在电子烟开机时,或者,电子烟开机后首次接收到点烟信号时,控制供液组件按照雾化器的烟液单次补充量向雾化器供液。
其中,雾化器的烟液单次补充量可以由系统开发人员设定,也可由用户自定义。需要说明的是:在雾化器内采用吸液件吸液的电子烟中,设定的烟液单次补充量需小于或等于该吸液件吸液饱和时所吸收的总烟液量。
另外,在图1所示的电子烟中,设定的雾化器的烟液单次补充量应当为滑块单次挤压烟油瓶过程中供液量的整数倍,也即滑块进行一次往复运动过程中 供液量的整数倍。例如,整数倍可以为3、4、5等等。举例来讲,滑块单次挤压烟油瓶时的供液量为5毫升,则烟液单次补充量可以为15毫升、20毫升等等。其中,滑块进行一次往复运动过程中供液量由系统开发人员设定,系统开发人员可结合电子烟内凸轮、滑块的尺寸设定,也可经过多次实验确定出滑块进行一次往复运动过程中向雾化器提供的供液量。
可选的,电子烟在获取到雾化器的烟液单次补充量后,可计算烟液单次补充量与滑块单次挤压烟油瓶过程中供液量的比值得到,每个供液间隔时长内供液组件挤压烟油瓶的目标次数,并将该目标次数存储在电子烟中。
步骤320,根据该工作参数、雾化器的烟液单次补充量获取供液规则,该供液规则用于指示电子烟在雾化器工作过程中每隔一个供液间隔时长控制该供液组件按照该烟液单次补充量向雾化器供液。
可选的,本步骤可通过以下几种方式实现:
第一种,根据获取到的工作参数确定雾化器内耗液速度;根据该雾化器的烟液单次补充量、该耗液速度确定供液间隔时长;根据该供液间隔时长生成供液规则。
电子烟中可存储有雾化器的耗液速度和工作参数之间的对应关系,该对应关系可以以表格、输出曲线等形式存储在电子烟中,该对应关系可以由系统开发人员经过多次实验设定;电子烟通过执行步骤310获取到工作参数后,在该对应关系中查询获取到的工作参数对应的耗液速度。上述对应关系中可以是多种工作参数对应一个耗液速度,也可以是一种工作参数对应一个耗液速度,本实施例对此并不做限定。
在确定供液间隔时长时,可计算雾化器的烟液单次补充量与耗液速度的比值得到供液间隔时长。再将该供液间隔时长添加至待执行的供液规则中。
可选的,在如图1所示的电子烟中,供液规则中还可以包括每个供液间隔时长内供液组件挤压电子烟内烟油瓶的目标次数,该目标次数等于雾化器的烟液单次补充量与供液组件单次挤压烟油瓶供液量的比值。
第二种,根据获取到的工作参数确定雾化器消耗该烟液单次补充量的烟液所需的时长得到供液间隔时长;根据该供液间隔时长生成供液规则。
可选的,电子烟中可存储有各种工作参数下烟液消耗量与雾化时长之间的对应关系,该对应关系可以为表格、输出曲线等形式存储在电子烟中,该对应 关系可以由系统开发人员经过多次实验设定;电子烟通过执行步骤310获取到工作参数后,查询获取到的工作参数确定雾化器消耗该烟液单次补充量的烟液所需的时长得到供液间隔时长。
第三种,从本地或服务器获取与该工作参数以及该烟液单次补充量对应存储的供液规则。
可选的,电子烟中可存储供液规则、工作参数以及烟液单次补充量之间的对应关系,该对应关系可以以表格等形式存储在电子烟中,该对应关系可以由系统开发人员设定。系统开发人员设定时,也根据工作参数确定电子烟以该工作参数工作时雾化器内的耗液速度,计算烟液单次补充量与耗液速度的比值得到供液间隔时长,利用该供液间隔时长生成供液规则。
可选的,服务器中可存储有供液规则、工作参数以及烟液单次补充量之间的对应关系,电子烟可通过有线网络或无线网络与服务器建立连接。电子烟从服务器获取供液规则的实现可以为:向服务器发送携带有烟液单次补充量以及其工作参数的查询请求;服务器查询该工作参数以及该烟液单次补充量对应存储的供液规则。
第四种,从本地或服务器获取与该工作参数以及该烟液单次补充量对应存储的供液规则;如果未获取到,则根据获取到的工作参数确定雾化器内耗液速度;根据该烟液单次补充量、该耗液速度确定供液间隔时长;根据该供液间隔时长生成供液规则。
第五种,从本地或服务器获取与该工作参数以及该烟液单次补充量对应存储的供液规则;如果未获取到,则根据获取到的工作参数确定雾化器消耗该烟液单次补充量的烟液所需的时长得到供液间隔时长;根据该供液间隔时长生成供液规则。
第五种,在雾化器工作过程过程中,根据该工作参数获取雾化器工作过程中烟液消耗量;在烟液消耗量达到烟液单次补充量时,获取雾化器消耗该烟液单次补充量所消耗的时长得到供液间隔时长;根据该供液间隔时长生成供液规则,并执行步骤330。
其中,电子烟中可存储有各种工作参数下烟液消耗量与雾化时长之间的对应关系,该对应关系可以为表格、输出曲线等形式存储在电子烟中,该对应关系可以由系统开发人员经过多次实验设定;电子烟通过执行步骤310获取到工 作参数后,查询获取到的工作参数确定雾化器消耗该烟液单次补充量的烟液所需的时长得到供液间隔时长。
步骤330,在雾化器工作过程中,按照该供液规则控制供液组件向雾化器供液。
可选的,供液组件与电子烟内控制组件电连接,该控制组件按照该供液规则控制供液组件向雾化器供液。例如,该控制组件可以包括控制单元,该控制单元与电子烟内电机连接并且控制该电机的转动。
本步骤可通过以下两种方式实现:
第一种,在电子烟开机后控制供液组件按照烟液单次补充量向雾化器供液的情况下,电子烟在雾化器持续工作达到一个供液间隔时长时,控制供液组件向雾化器供液按照烟液单次补充量向雾化器供液;然后,雾化器每持续工作达到一个供液间隔时长,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液。
以供液间隔时长为3秒来举例说明,电子烟在雾化器持续工作达到3秒之前,不控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液;在雾化器持续工作达到3秒时,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液;在雾化器持续工作达到6秒时,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液,其他依次类推。
第二种,在电子烟开机后首次接收到点烟信号控制供液组件按照雾化器的烟液单次补充量向雾化器供液的情况下,电子烟首次接收到点烟信号时控制供液组件按照雾化器的烟液单次补充量向雾化器供液,以及控制雾化器工作;然后,每隔一个供液间隔时长,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液。
以供液间隔时长为3秒来举例说明,电子烟在首次接收到点烟信号时,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液;在雾化器持续工作达到3秒时,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液;在雾化器持续工作达到6秒时,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液,其他依次类推。
可选的,电子烟在雾化器停止工作时,根据供液组件上一次供液后的点烟时长以及工作参数确定上一次供液后的烟液消耗量;控制供液组件向吸液件补 充烟液消耗量的烟液。具体实现可以为:根据工作参数获取雾化器内烟液的耗液速度,计算该耗液速度与点烟时长的乘积得到烟液消耗量,控制供液组件向吸液件补充该烟液消耗量的烟液。
可选的,在电子烟开机后,雾化器再次工作过程中,在雾化器持续工作达到一个供液间隔时长时,控制供液组件向雾化器供液按照雾化器的烟液单次补充量向雾化器供液;然后,每隔一个供液间隔时长,控制供液组件向雾化器供液按照烟液单次补充量向雾化器供液。
可选的,在如图1所示的电子烟中,如果该供液规则包括供液组件按照雾化器的烟液单次补充量供液过程中挤压电子烟内烟油瓶的目标次数,则根据供液规则获取目标次数,控制该供液组件挤压烟油瓶达到目标次数。
可选的,在如图1所示的电子烟中,如果该供液规则不包括供液组件按照烟液单次补充量供液过程中挤压电子烟内烟油瓶的目标次数,则电子烟获取供液组件按照烟液单次补充量供液过程中挤压电子烟内烟油瓶的目标次数。
其中,在如图1所示的电子烟中,电子烟每隔供液间隔时长内控制供液组件挤压烟油瓶达到目标次数可通过以下两种方式实现:
第一种,供液组件还包括复位检测件。该复位检测件用于检测滑块是否移动至滑块对应的复位位置,或者,该复位检测件用于检测凸轮是否移动至凸轮对应的复位位置。其中,滑块对应的复位位置由系统开发人员设定,例如系统开发人员可设定滑块与烟油瓶之间距离达到最大极限时滑块所在的位置为滑块对应的复位位置;凸轮对应的复位位置由系统开发人员设定,例如系统开发人员可设定滑块与烟油瓶之间距离达到最大极限时凸轮所在位置为凸轮对应的复位位置。
则电子烟在与供液组件上一次供液时间的时间间隔达到供液间隔时长时,控制电机的输出轴按照预定方向(顺时针或逆时针)转动;并且在输出轴转动过程中统计复位检测件检测到的复位次数,以及根据该复位次数确定滑块挤压烟油瓶的次数是否达到目标次数;在滑块挤压烟油瓶的次数达到目标次数时,控制电机停止转动。其中,需要说明的一点是:复位次数是指滑块或凸轮从其他位置移动至复位位置的次数,滑块移动过程中每移动至复位位置一次完成一次烟油瓶的挤压。
需要说明的是:根据复位次数确定滑块挤压烟油瓶的次数的方式需要结合 滑块完成目标次数挤压后滑块停留位置确定。以滑块与烟油瓶之间距离达到最大极限时滑块所在的位置为滑块对应的复位位置、并且滑块完成目标次数挤压后滑块停留至复位位置的情况下,将统计到的复位次数直接确定滑块挤压烟油瓶的次数。再举例来讲,以滑块与烟油瓶之间距离达到最大极限时滑块所在的位置为滑块对应的复位位置、滑块完成目标次数挤压后滑块停留至烟油瓶、复位位置之间进行说明,则电机转动过程中滑块第一次达到复位位置时,滑块挤压烟油瓶次数为0;第n次达到复位位置时,滑块挤压烟油瓶次数为n-1;在达到复位位置的次数达到目标次数时,再控制电机转动预定圈数使滑块挤压烟油瓶后停留至烟油瓶与复位位置之间。
第二种,电子烟内设置有用于检测烟油瓶是否被挤压的检测组件,该检测组件可以为检测与滑块之间距离的距离传感器,也可以为设置于烟油瓶侧壁朝向滑块侧面上的压力传感器,本实施例对此不作具体限定。
举例来讲,距离传感器设置于滑块进行往复运动所在直线上,且烟油瓶设置于滑块的一侧,距离传感器设置于滑块的另一侧。在距离传感器检测到的距离值达到第一距离时确定烟油瓶处于挤压状态;在距离传感器检测到的距离值降低至第二距离时,确定烟油瓶处于未挤压状态;其中,第一距离可以为滑块与烟油瓶之间的最小极限距离值,也即滑块处于复位位置时滑块与烟油瓶之间的距离,滑块移动过程中每移动至复位位置一次完成一次烟油瓶的挤压;第二距离可以为滑块与烟油瓶之间的最大极限距离值。
则电子烟在与供液组件上一次供液时间的时间间隔达到供液间隔时长时,控制电机的输出轴按照预定方向转动;输出轴转动过程中根据检测组件检测到的信息统计烟油瓶由挤压状态切换至未挤压状态的次数;在烟油瓶由挤压状态切换至未挤压状态的次数达到目标次数时,控制电机停止转动。
综上所述,本发明实施例提供的方法,通过在雾化器工作过程中,获取工作参数,该工作参数包括电子烟的输出功率、雾化腔内温度、雾化器的工作电压中至少一种;根据该工作参数、雾化器的烟液单次补充量获取供液规则,该供液规则用于指示所述电子烟在雾化器工作过程中每隔一个供液间隔时长控制该供液组件按照该烟液单次补充量向雾化器供液;按照该供液规则控制供液组件向雾化器供液;解决了相关技术中用户挤压烟油瓶给雾化腔的供液量难以把握易造成烟液浪费、干烧的问题;达到了提高烟液使用效率、避免干烧的效果。
可选的,电子烟在检测到电子烟内雾化器更换时,获取更换后雾化器内吸液件吸液饱和时吸收的总烟液量;根据该总烟液量更新烟液单次补充量,该烟液单次补充量小于或等于该总烟液量。
可选的,电子烟在检测到电子烟内雾化器更换时,可获取用户输入的吸液件吸液饱和时吸收的总烟液量,也可根据雾化器的型号查询该型号雾化器内吸液件吸液饱和时吸收的总烟液量。
其中,电子烟可利用识别装置识别雾化器的型号,也可以为获取用户输入的雾化器的型号。例如,识别装置可以为扫描装置,利用该扫描装置扫描雾化器上的条形码得到该雾化器的型号。进一步的,电子烟还可利用扫描装置扫描到的条形码得到雾化器的标识,以确定雾化器是否被更换。
可选的,在根据该烟液量更新烟液单次补充量之前,确定雾化器的烟液单次补充量与该总烟液量之间的大小关系;如果该雾化器的烟液单次补充量大于该总烟液量,则根据该总烟液量更新该雾化器的烟液单次补充量,使更新后的烟液单次补充量不高于该总烟液量,否则,不更新该雾化器的烟液单次补充量。
其中,更新该雾化器的烟液单次补充量的具体实现可以为:将烟液单次补充量降低一个步长;如果降低后的烟液单次补充量仍然高于该总烟液量,则将烟液单次补充量再降低一个步长直至低于该总烟液量;其中,一个步长可以为滑块单次加压烟油瓶的供液量,也可以为滑块单次加压烟油瓶的供液量的整数倍。可选地,用户也可以直接在存储器中修改烟液单次补充量,本实施例对此不做限定。
本发明一个实施例还提供的一种计算机可读存储介质,该计算机可读存储介质中存储有一个或一个以上的指令,所述一个或一个以上的指令被电子烟内的处理器执行时实现上述任一实施例中所涉及的供液方法。
本发明一个实施例还提供一种供液装置,所述装置包括:存储器和处理器;所述存储器中存储有至少一条程序指令;所述处理器,通过加载并执行所述至少一条程序指令以实现上述任一实施例中所涉及的供液方法。
术语“第一”、“第二”仅用于描述目的,而不能理解为指示或暗示相对重要性或隐含所指示的技术特征的数量。由此,限定的“第一”、“第二”的特征可以明示 或隐含地包括一个或者更多个该特征。在本发明的描述中,除非另有说明,“多个”的含义是两个或两个以上。
本领域普通技术人员可以理解实现上述实施例的全部或部分步骤可以通过硬件来完成,也可以通过程序来指令相关的硬件完成,所述的程序可以存储于一种计算机可读存储介质中,上述提到的存储介质可以是只读存储器,磁盘或光盘等。
以上所述仅为本发明的较佳实施例,并不用以限制本发明,凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。

Claims (14)

  1. 一种供液装置,其特征在于,所述装置包括处理器、供液组件、供油管、雾化器以及烟油瓶,其中:
    所述供油管的进液端设置于所述烟油瓶内,所述供油管的出液端设置于所述雾化器中;
    所述供液组件围绕所述烟油瓶设置或设置于所述烟油瓶的一侧;
    所述处理器与所述供液组件电连接,所述处理器能够控制所述供液组件挤压所述烟油瓶,使所述烟油瓶内烟液通过所述供油管进入所述雾化器中。
  2. 根据权利要求1所述的装置,其特征在于,所述供液组件包括凸轮、滑块、电机,其中:
    所述滑块设置于所述烟油瓶的一侧,所述滑块上设置有供所述凸轮滑动的滑动区域,所述凸轮滑动设置于所述滑动区域内,所述凸轮套设于所述电机的输出轴上;
    所述电机与所述处理器电连接;
    所述处理器控制所述电机的输出轴转动时带动所述凸轮转动,所述凸轮转动过程中在所述滑动区域内滑动并且能够带动所述滑块远离或挤压所述烟油瓶。
  3. 一种供液方法,其特征在于,所述方法包括:
    在雾化器工作过程中,获取工作参数,所述工作参数包括电子烟的输出功率、雾化腔内温度、所述雾化器的工作电压中至少一种;
    根据所述工作参数、所述雾化器的烟液单次补充量获取供液规则;
    按照所述供液规则控制所述供液组件向所述雾化器供液;
    其中,所述供液规则用于指示所述电子烟在所述雾化器工作过程中,每隔一个供液间隔时长控制所述供液组件按照所述烟液单次补充量向所述雾化器供液。
  4. 根据权利要求3所述的方法,其特征在于,所述根据所述工作参数、所 述雾化器的烟液单次补充量获取供液规则,包括:
    获取与所述工作参数以及所述烟液单次补充量对应存储的供液规则;或者,
    根据所述工作参数确定所述雾化器内耗液速度;根据所述烟液单次补充量、所述耗液速度确定所述供液间隔时长;根据所述供液间隔时长生成供液规则;或者,
    根据所述工作参数确定所述雾化器消耗所述烟液单次补充量的烟液所需的时长得到供液间隔时长;根据所述供液间隔时长生成供液规则。
  5. 根据权利要求4所述的方法,其特征在于,所述根据所述工作参数、所述雾化器的烟液单次补充量获取供液规则,包括:
    执行所述获取与所述工作参数以及所述烟液单次补充量对应存储的供液规则的步骤;
    如果未获取到与所述工作参数以及所述烟液单次补充量对应存储的供液规则,则执行所述根据所述烟液单次补充量、所述耗液速度确定所述供液间隔时长的步骤,或执行所述根据所述工作参数确定所述雾化器消耗所述烟液单次补充量的烟液所需的时长得到供液间隔时长的步骤。
  6. 根据权利要求3所述的方法,其特征在于,所述烟液单次补充量为所述雾化器内吸液件吸液饱和时吸收的总烟液量。
  7. 根据权利要求3所述的方法,其特征在于,所述按照所述供液规则控制所述供液组件向所述雾化器供液,包括:
    根据所述供液规则获取目标次数,所述目标次数等于所述烟液单次补充量与所述供液组件单次挤压所述烟油瓶供液量的比值;
    控制所述供液组件挤压所述电子烟内烟油瓶达到所述目标次数。
  8. 根据权利要求7所述的方法,其特征在于,所述供液组件包括凸轮、滑块、电机以及复位检测件,所述滑块上设置有所述凸轮的滑动区域,所述凸轮滑动连接于所述滑动区域内,所述电机的输出轴转动时带动所述凸轮转动,所述凸轮转动过程中在所述滑动区域内滑动并且带动所述滑块远离或挤压所述烟 油瓶,所述按照所述供液规则控制所述电子烟内供液组件向所述吸液件供液,包括:
    在与所述供液组件上一次供液时间的时间间隔达到所述供液间隔时长时,控制所述电机的输出轴按照预定方向转动;
    所述输出轴转动过程中统计所述复位检测件检测到的复位次数,以及根据所述复位次数确定所述滑块挤压所述烟油瓶的次数是否达到所述目标次数;
    在所述滑块挤压所述烟油瓶的次数达到所述目标次数时,控制所述电机停止转动;
    其中,所述复位检测件用于检测所述滑块是否移动至所述滑块对应的复位位置,或者,所述复位检测件用于检测所述凸轮是否移动至所述凸轮对应的复位位置。
  9. 根据权利要求7所述的方法,其特征在于,所述电子烟内设置有用于检测所述烟油瓶是否被挤压的检测组件,所述供液组件包括凸轮、滑块、电机,所述滑块上设置有所述凸轮的滑动区域,所述凸轮滑动连接于所述滑动区域内,所述电机的输出轴转动时带动所述凸轮转动,所述凸轮转动过程中在所述滑动区域内滑动并且带动所述滑块远离或挤压所述烟油瓶,所述按照所述供液规则控制所述电子烟内供液组件向所述吸液件供液,包括:
    在与所述供液组件上一次供液时间的时间间隔达到所述供液间隔时长时,控制所述电机的输出轴按照预定方向转动;
    所述输出轴转动过程中根据所述检测组件检测到的信息统计所述烟油瓶由挤压状态切换至未挤压状态的次数;
    在所述烟油瓶由挤压状态切换至未挤压状态的次数达到所述目标次数时,控制所述电机停止转动。
  10. 根据权利要求3所述的方法,其特征在于,所述方法还包括:
    在所述雾化器停止工作时,根据所述供液组件上一次供液后的点烟时长以及所述工作参数确定所述上一次供液后的烟液消耗量;
    控制所述供液组件向所述雾化器补充所述烟液消耗量的烟液。
  11. 根据权利要求3所述的方法,其特征在于,所述方法还包括:
    在所述电子烟开机时,或者,所述电子烟开机后首次接收到点烟信号时,控制所述供液组件按照所述烟液单次补充量向所述雾化器供液。
  12. 根据权利要求3至11任一所述的方法,其特征在于,所述方法还包括:
    在检测到所述电子烟内雾化器更换时,获取更换后雾化器内吸液件吸液饱和时吸收的总烟液量;
    根据所述总烟液量更新所述烟液单次补充量,所述烟液单次补充量小于或等于所述总烟液量。
  13. 一种计算机可读存储介质,所述计算机可读存储介质中存储有一个或一个以上的指令,其特征在于,所述一个或一个以上的指令被电子烟内的处理器执行时实现权利要求3至12中任一所述的供液方法。
  14. 一种供液装置,其特征在于,所述装置包括:
    存储器和处理器;
    所述存储器中存储有至少一条程序指令;
    所述处理器,通过加载并执行所述至少一条程序指令以实现权利要求3至12中任一所述的供液方法。
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