WO2018205908A1 - 雾化设备控制方法、装置及雾化设备 - Google Patents

雾化设备控制方法、装置及雾化设备 Download PDF

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Publication number
WO2018205908A1
WO2018205908A1 PCT/CN2018/085906 CN2018085906W WO2018205908A1 WO 2018205908 A1 WO2018205908 A1 WO 2018205908A1 CN 2018085906 W CN2018085906 W CN 2018085906W WO 2018205908 A1 WO2018205908 A1 WO 2018205908A1
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WO
WIPO (PCT)
Prior art keywords
component
target substance
content
liquid
mixing chamber
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PCT/CN2018/085906
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English (en)
French (fr)
Inventor
邱伟华
Original Assignee
常州市派腾电子技术服务有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Priority claimed from CN201710335962.6A external-priority patent/CN108851228A/zh
Priority claimed from CN201710334745.5A external-priority patent/CN108851226A/zh
Priority claimed from CN201710335428.5A external-priority patent/CN108851227A/zh
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 WO2018205908A1 publication Critical patent/WO2018205908A1/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
    • A24F40/50Control or monitoring
    • A24F40/53Monitoring, e.g. fault detection
    • 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
    • A24F40/30Devices using two or more structurally separated inhalable precursors, e.g. using two liquid precursors in two cartridges
    • 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
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B7/00Spraying apparatus for discharge of liquids or other fluent materials from two or more sources, e.g. of liquid and air, of powder and gas
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors

Definitions

  • the invention relates to the field of atomization equipment, in particular to a method, a device and an atomization device for controlling an atomization device.
  • e-cigarettes are increasingly popular in the market because of their portability and large amount of smoke.
  • an air flow is generated which is detected by the sensor, thereby triggering the heating device to atomize the liquid smoke oil disposed in the device.
  • the content of the first component of the existing electronic cigarette is determined by the content of the first component in the smoke oil at the time of liquid injection. Therefore, when the user needs to smoke the electronic cigarette of different first component content, only the electronic cigarette can be used. It is realized by adding different first component content of tobacco oil, and the operation is cumbersome and the flexibility is low.
  • the invention provides a method, a device and an atomizing device for controlling an atomizing device, which can automatically control the content of a target substance in the mixed liquid, and has high flexibility.
  • the present invention provides a method for controlling an atomizing device, the method comprising calculating a first demand amount of a first component and a second demand amount of a second component according to a preset content of a target substance, the first group And/or the target component is included in the second component; adding the first component of the first component and the second component of the second component to the mixing chamber; controlling atomization The assembly atomizes the liquid in the mixing chamber.
  • the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance includes:
  • the dosing triggering condition includes that the number of ports sucked by the user is greater than a first threshold, and/or the actual liquid level of the mixed liquid in the mixing chamber is less than a second threshold, and/or receiving the infusion request;
  • the content of the predetermined target substance is lower than the content of the target substance of the liquid in the mixing chamber, and the target substance is nicotine.
  • the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance includes:
  • Determining whether the dosing trigger condition is met, the dosing triggering condition includes that the number of ports sucked by the user is greater than a first threshold, and/or receiving a liquid injection request;
  • the content of the predetermined target substance is lower than the content of the target substance of the liquid in the liquid absorbing member of the atomizing component in the mixing chamber, and the target substance is nicotine.
  • the method further includes:
  • the step of controlling the atomization assembly to atomize the liquid in the mixing chamber is directly entered.
  • the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance includes:
  • the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance includes:
  • the content of the predetermined target substance is lower than the content of the target substance of the liquid in the mixing chamber.
  • the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance includes:
  • the content of the predetermined target substance is lower than the content of the target substance of the liquid in the liquid absorbing member of the atomizing component in the mixing chamber.
  • the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance includes:
  • Calculating the first component of the first component based on the difference, the content of the predetermined target substance, the content of the target substance in the first component, and the content of the target substance in the second component The demand and the second demand of the second component.
  • the invention also provides an atomization device control device, which comprises a processor and an execution device.
  • the processor is configured to calculate a first demand amount of the first component and a second demand amount of the second component according to a preset content of the target substance, wherein the first component and/or the second component are The target substance is included.
  • the actuator is electrically connected to the processor for adding the first component of the first requirement and the second component of the second requirement to the mixing chamber.
  • the apparatus further includes a controller for controlling the atomizing assembly to atomize the liquid in the mixing chamber.
  • the processor is configured to calculate a first requirement amount of the first component and a second requirement amount of the second component according to a preset content of the target substance when the liquid dispensing trigger condition is satisfied; wherein the dosing liquid
  • the triggering condition includes that the number of ports sucked by the user is greater than a first threshold, and/or the actual liquid level of the mixed liquid in the mixing chamber is less than a second threshold, and/or a liquid injection request is received; wherein the predetermined target substance is The content is lower than the content of the target substance of the liquid in the mixing chamber, and the target substance is nicotine.
  • the processor is configured to calculate a first requirement amount of the first component and a second requirement amount of the second component according to a preset content of the target substance when the liquid dispensing trigger condition is satisfied; wherein the dosing liquid
  • the triggering condition includes that the number of ports sucked by the user is greater than a first threshold, and/or a liquid injection request is received; wherein the predetermined target substance content is lower than the liquid in the liquid suction member of the atomizing component in the mixing chamber The content of the target substance, which is nicotine.
  • the processor is configured to receive a content of a preset target substance input by a user, to calculate a first requirement amount of the first component and a second component according to a preset content of the target substance input by the user The second demand.
  • the processor is further configured to detect a health indicator of the user; wherein, when the health indicator is abnormal, the content of the predetermined target substance is lower than the content of the target substance of the liquid in the mixing chamber.
  • the processor is further configured to detect a health indicator of the user; wherein, when the health indicator is abnormal, the predetermined target substance content is lower than the liquid suction component of the atomizing component in the mixing cavity The content of the target substance in the liquid.
  • the processor is further configured to: calculate a difference between a maximum liquid level of the mixing chamber and an actual liquid level; and according to the difference, the preset target substance content, the first component The content of the target substance and the content of the target substance in the second component are calculated, and the first demand amount of the first component and the second demand amount of the second component are calculated.
  • the processor includes a first memory that stores the content of the preset target substance.
  • the present invention also provides an atomizing device comprising the above-described atomizing device control device.
  • the atomization device further includes a mixing chamber, a first component storage chamber, and a second component storage chamber, the execution device including a first electric pump and a second electric pump; the first component storage chamber For storing a first component; the second component storage cavity is for storing a second component; the first electric pump is connected to the second component storage cavity and the mixing cavity for a second component of the second component is pumped from the second component storage chamber into the mixing chamber; the second electric pump is coupled to the first component storage chamber and the mixing chamber for Pumping the first required amount of the first component from the first component storage chamber into the mixing chamber; the mixing chamber for loading the pumped first component and the pumped second component To form a mixed solution.
  • the execution device including a first electric pump and a second electric pump
  • the first component storage chamber For storing a first component
  • the second component storage cavity is for storing a second component
  • the first electric pump is connected to the second component storage cavity and the mixing cavity for a second component of the second component is pumped from the second component storage chamber into the
  • the atomization device further includes a mixing chamber, a first storage chamber, the execution device includes a third electric pump; the first storage chamber is for storing a matrix, and the substrate is a first component or a second component
  • the mixing chamber is configured to load the added amount of the added component, wherein, when the matrix is the first component, the quantitative additive component is the second component of the second component, When the substrate is the second component, the quantitative additive component is the first component of the first requirement; the third electric pump is connected to the first storage cavity and the mixing cavity, Pumping the metered substrate from the first storage chamber into a mixing chamber loaded with the quantitative additive component, the quantitative matrix being the first component of the first component or the second component Two components.
  • a stirring device is provided in the mixing chamber, and the stirring device is used to mix the mixed liquid in the mixing chamber.
  • the atomization device further includes an atomization assembly, a first component storage chamber, and a second component storage chamber
  • the execution device includes a first electric pump and a second electric pump
  • the first component storage a cavity for storing a first component
  • the second component storage cavity for storing a second component
  • the first electric pump being coupled to the second component storage cavity and the atomizing component for Pumping the second required amount of the second component from the second component storage chamber into the atomizing assembly in the mixing chamber for direct atomization of the atomizing assembly
  • the second electricity a pump coupled to the first component storage chamber and the atomizing assembly for pumping the first desired amount of the first component from the first component storage chamber into the mixing chamber
  • the atomization assembly is directly atomized;
  • the liquid suction member of the atomization assembly is configured to absorb the pumped first component and the pumped second component to form a mixed liquid
  • the heating element of the atomizing assembly is used to convert the mixture into smoke.
  • the atomization device further includes an atomization assembly, a first storage chamber, the execution device includes a third electric pump; the first storage chamber is for storing a matrix, and the substrate is a first component or a second group
  • the liquid absorbing member of the atomizing assembly is configured to absorb the added quantitative additive component, wherein when the matrix is the first component, the quantitative additive component is the second demanding amount of the second component a component, when the substrate is a second component, the quantitative additive component is the first component of the first requirement; the third electric pump and the first storage cavity and the An atomizing assembly coupled for pumping the metered amount of substrate from the first storage chamber into a liquid absorbing member of the atomizing assembly that has absorbed the quantitative additive component, the quantitative matrix being The first component of the first demand or the second component of the second demand.
  • the invention also provides an atomization device control device, the device comprising:
  • the processor implements the above-described atomization device control method by loading and executing the at least one program instruction.
  • the present invention also provides a computer readable storage medium having stored therein one or more instructions, wherein the one or more instructions are processed by an atomizing device control device
  • the above-described atomization device control method is implemented when the device is executed.
  • the present invention also provides a computer readable storage medium having stored therein one or more instructions, wherein the one or more instructions are processed by an atomizing device control device
  • the above-described atomization device control method is implemented when the device is executed.
  • the atomization device control method, device and atomization device of the invention can automatically control the content of the target substance in the mixed liquid, and the flexibility is high.
  • FIG. 1 is a schematic flowchart of a method for controlling an atomization device according to a first embodiment of the present invention
  • FIG. 2 is a schematic diagram of a specific process of the first embodiment of step S14 in FIG. 1;
  • step S14 in FIG. 1 is a schematic diagram of a specific process of the second embodiment of step S14 in FIG. 1;
  • FIG. 4 is a schematic structural diagram of an atomization device control apparatus according to a second embodiment of the present invention.
  • Figure 5 is a schematic view showing the specific structure of the first embodiment of the executing device shown in Figure 4;
  • Figure 6 is a schematic view showing the specific structure of the second embodiment of the actuator shown in Figure 4.
  • FIG. 7 is a schematic structural diagram of an atomization device according to a third embodiment of the present invention.
  • FIG. 8 is a schematic cross-sectional structural view of an atomizing device according to a fourth embodiment of the present invention.
  • FIG. 9 is a schematic cross-sectional structural view of an atomizing device according to a fifth embodiment of the present invention.
  • FIG. 10 is a schematic cross-sectional structural view of an atomizing device according to a sixth embodiment of the present invention.
  • FIG. 11 is a schematic cross-sectional structural view of an atomizing device according to a seventh embodiment of the present invention.
  • FIG. 12 is a cross-sectional structural diagram of an atomizing device according to an eighth embodiment of the present invention.
  • the atomization device control method of the embodiment of the invention can automatically control the content of the target substance in the mixed liquid, and has high flexibility.
  • the target substance may be, for example, nicotine, a liquid medicine, a fragrance, and various additives required by the user in the atomization device, and may be, but not limited to, a drug solution in the field of health care such as Angelica, Tianqi, and the like.
  • the atomization device control method is used in the atomization device, and the atomization device may be an electronic cigarette, an inhaler, an air purifier, or the like, which can atomize the liquid, and the embodiment of the present invention takes the atomization device as an electronic cigarette as an example. Description. Referring to FIG. 1, the atomization device control method of this embodiment may include the following steps S12, S14, and S16.
  • Step S12 calculating a first demand amount of the first component and a second demand amount of the second component according to the preset content of the target substance;
  • the content of the target substance in the first component is from 0% to 100%
  • the content of the target substance in the second component is from 0% to 100%
  • the first component and/or the second component include the target substance, that is, when the target component is not included in the first component, the target component is included in the second component; and the target is not included in the second component
  • the target substance When the substance is in the first component, the target substance is included; and the target substance may be included in both the first component and the second component, and the content of the target substance in the two components is different.
  • the first component and the second component may be pure or a mixture; the first component and the second component may be in the form of a suspension, a solution, an emulsion or a colloid. Etc., this embodiment does not limit this.
  • the first component when it is pure, for example, it may be ethylene glycol, glycerin, nicotine; when it is a mixture, for example, it may be an alcohol solution of nicotine.
  • the content may be a volume content, a mass content, or the like.
  • the target substance may be, but not limited to, nicotine, liquid medicine, essence, propylene glycol, plant glycerin, and various additives required by the user, and may be, but not limited to, a liquid medicine in the field of health care such as Angelica, Tianqi, and the like.
  • the content of the preset target substance may be, but is not limited to, a default fixed value stored for the storage device, for example, the preset target substance content is 50% when the first liquid is injected, and is preset when the liquid is added for the second time.
  • the target substance content is 40%, and the preset target substance content is 30% when the liquid is added for the third time.
  • the preset target substance content can also be calculated by a decreasing amount, for example, the decreasing amount is 10%, then if the preset target substance content is 50% when the first liquid is injected, the second can be calculated.
  • the preset target substance content is 40% when the liquid is added, and the preset target substance content is 30% when the liquid is added for the third time.
  • the preset target substance content may also be a set value input by the user through an input device such as a button or a touch screen every time the liquid is injected.
  • the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance comprises: calculating the maximum liquid of the mixing chamber The difference between the bit and the actual liquid level, and the first demand amount of the first component and the second demand amount of the second component are calculated according to the difference and the preset content of the target substance.
  • the atomizing device calculates a difference between the maximum liquid level of the mixing chamber and the actual liquid level.
  • the maximum liquid level of the mixing chamber may be, but is not limited to, the actual maximum liquid level of the mixing chamber, or may be preset by the user. The ideal maximum level for a fixed or varying.
  • the first component may include, but not include, the target substance.
  • the second component may also include, but is not limited to, a small amount of the target substance, and the target substance content in the second component is preset and stored in the atomizing device.
  • the first demand amount of the first component and the second demand amount of the second component may also be calculated according to the mixed liquid demand amount and the preset target substance content. Therefore, the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance comprises: obtaining the demand amount of the mixed liquid and according to the demand of the mixed liquid The amount of the target substance and the predetermined amount of the target substance are calculated, and the first demand amount of the first component and the second demand amount of the second component are calculated.
  • the demand for the mixed solution is a default fixed value stored by the atomizing device storage device, and may also be a value input by the user through an input device such as a button or a touch screen, or may be a value set by the user through other mobile terminals.
  • the demand for the mixture is 10 ml
  • the default target substance is nicotine
  • the first component is nicotine solution
  • the second component is smoke liquid
  • the preset target substance content is 15%
  • the first requirement for the fraction is 1.5 ml and the second requirement for the second component is 8.5 ml.
  • the amount of the mixed solution may be determined according to the number of smoking ports and the length of smoking.
  • the amount of the liquid smoke consumed can be determined according to the number of smoking mouths and the length of smoking, thereby determining the amount of the liquid mixture required for the electronic cigarette to be added to the mixing chamber. The amount is less than or equal to the consumption.
  • the consumption of the liquid smoke that is, the consumption amount of the mixed liquid, may be determined in combination with the average output power of the electronic cigarette within a predetermined period of time, according to the output power of the electronic cigarette to the heating element. The combination of the number of smoking mouths and the length of smoking time can more accurately calculate the consumption of the liquid smoke, thereby obtaining the demand for the liquid smoke.
  • the heating element only atomizes the mixed liquid adsorbed on the liquid-absorbent member, and at this time, the demand of the mixed liquid can also be output according to the current atomizing device.
  • the output power on the heating element is determined, and each output power corresponds to the demand of one mixed liquid; or, each output power interval corresponds to the demand of one mixed liquid.
  • Step S14 adding the first component of the first requirement and the second component of the second requirement to the mixing chamber;
  • the atomizing device adds a first amount of the first component and a second amount of the second component to the mixing chamber.
  • the difference between the maximum liquid level and the actual liquid level is 10 ml
  • the preset target substance is nicotine
  • the first component is nicotine solution
  • the second component is smoke liquid
  • the preset target substance content is 15%
  • 1.5 ml of the first component and 8.5 ml of the second component are added to the mixing chamber to obtain a mixed liquid having a target substance content of 15% of the target substance.
  • the atomizing device when the atomizing device is a drip type electronic cigarette, the atomizing device adds the first required amount of the first component and the second required amount of the second component to the suction component of the mixing chamber.
  • the liquid piece For the atomization component to directly atomize.
  • the predetermined target substance is nicotine
  • the first component is nicotine solution
  • the second component is smoke liquid
  • the preset target substance content is 15%
  • 1.5 ml of the first component and 8.5 ml of the second component were added to the liquid-absorbent member so that the target substance absorbed by the liquid-absorbent member was a predetermined target substance content, that is, 15% of the mixed liquid.
  • the drip-type electronic cigarette is an electronic cigarette in which the heating element is not immersed in the liquid smoke, and the heating element only atomizes the liquid liquid dripping on the liquid absorbing member.
  • Step S16 Control the atomization assembly to atomize the liquid in the mixing chamber.
  • the atomizing device controls the atomizing assembly to atomize the liquid in the mixing chamber.
  • the atomizing component can atomize the mixed liquid by heating, ultrasonic vibration or the like.
  • the atomizing unit may be, but not limited to, a heating element including a heating wire, a heat generating sheet, a heat generating plate, and the like capable of converting the liquid in the mixing chamber into smoke.
  • the liquid absorbing member may be a liquid absorbing ceramic, cotton cloth, cotton thread or the like, which is not limited herein.
  • the heating liquid absorbed by the liquid-absorbent member wrapped on the outer surface of the heat-generating component can be heated by the heat-generating component to atomize it into smoke.
  • the flow of the airflow drives the smoke generated around the heat-generating component to flow upward, thereby Pass through the mouthpiece of the mouthpiece for the user to smoke.
  • the liquid in the mixing chamber may be a liquid stored in the mixing chamber, or may be a liquid absorbed by the liquid absorbing member in the atomizing assembly in the mixing chamber, which is not limited in this embodiment.
  • Step S10 receiving an operation instruction to enter a smoking cessation mode
  • Step S11 determining whether the liquid dispensing trigger condition is satisfied
  • the dosing triggering condition comprises that the number of ports sucked by the user is greater than a first threshold, and/or the actual liquid level of the mixed liquid in the mixing chamber is less than a second threshold, and/or a liquid injection request is received;
  • step S12 calculating a first demand amount of the first component and a second demand amount of the second component according to the preset content of the target substance;
  • the content of the target substance is lower than the content of the target substance in the liquid in the mixing chamber, and the target substance is nicotine. Therefore, as the number of times of absorbing the atomizing device increases, the atomizing device automatically controls the nicotine content. The less you come, the more you help the user to gradually reduce the use of nicotine and help the user to quit smoking.
  • the gradient of the predetermined target substance content lower than the content of the target substance in the mixing chamber may be, but not limited to, a set value input by the user through an input device such as a button or a touch screen, or may be a storage device of the atomizing device.
  • a certain fixed value stored for the default, that is, a decreasing gradient of the amount of each target substance, is a fixed or varying value.
  • step S16 control the atomizing assembly to atomize the liquid in the mixing chamber.
  • the dosing triggering condition includes that the number of ports sucked by the user is greater than a first threshold, and/or receiving a liquid injection request, and/or an atomizing component
  • the mixed liquid absorbed by the liquid suction member is less than a predetermined threshold.
  • the predetermined target substance content is lower than the target substance content of the liquid in the liquid suction member, and the target substance is nicotine. Therefore, as the number of times of smoking increases, the atomization device automatically controls the nicotine content to be less and less. Help users gradually reduce the use of nicotine, and help users to quit smoking.
  • the gradient of the predetermined target substance content lower than the content of the target substance of the liquid in the liquid suction member may be, but not limited to, a set value input by the user through an input device such as a button or a touch screen, or may be a storage device of the atomizing device.
  • the default value of a certain fixed value, that is, the decreasing gradient of the content of each target substance, is a fixed or varying value.
  • step S12: calculating the first required amount of the first component and the second required amount of the second component according to the preset content of the target substance may also include: receiving the incoming The operation command of the liquid mode, and receiving the content of the preset target substance input by the user, to calculate the first demand amount of the first component and the second demand of the second component according to the content of the preset target substance input by the user the amount.
  • the user can, but is not limited to, the user selects a mode by using an input device such as a button, a touch screen, or a microphone, and inputs a preset target substance content, thereby automatically preparing the content of the target substance, the operation is simple, and the liquid dispensing is convenient and quick.
  • the user can input the target substance, for example, the content of the predetermined liquid medicine through the input device, so that the corresponding liquid medicine and the solvent can be automatically added to the mixing chamber to form a medicine for the user to take the medicine by the ratio, and the operation is simple. And the liquid is convenient and quick.
  • the user can also manually input the content of the target substance of the first component, the content of the target substance of the second component, and the content of the predetermined target substance, thereby performing the dosing.
  • the user can mix any two solutions of the known target substance content into a mixed liquid of the target substance content required by the user, and the target substance content can be greater than, less than or equal to the content of the target substance of the liquid in the mixing chamber. .
  • the step S12: before the step of calculating the first demand amount of the first component and the second demand amount of the second component according to the preset content of the target substance, may further include: receiving the access monitoring Mode of operation instructions, as well as detecting user health indicators.
  • the atomization device may include, but is not limited to, a heart rate detection sensor, a pH detection sensor, a blood oxygen content detection sensor, a body temperature detection sensor, a vital capacity detection sensor, and the like to obtain a health indicator of the user.
  • the health index includes at least one or more of the user's heart rate, the pH of the user's saliva, and the blood oxygen content of the user.
  • the health indicators may also include, but are not limited to, vital capacity, body temperature, and the like.
  • the user's health index is abnormal, that is, when the user's heart rate is abnormal, or when the user's saliva's pH or the user's blood oxygen content is abnormal, for example, the heart rate is higher than a predetermined value, the heart rate is lower than a predetermined value, or the heart rate is greater than The predetermined value
  • the content of the predetermined target substance is lower than the content of the target substance of the liquid in the mixing chamber, wherein the liquid in the mixing chamber is a mixed liquid stored in the mixing chamber.
  • the target substance is nicotine, so that when the user's health index is abnormal, the content of nicotine is gradually reduced, which helps to improve the physical state of the user during use and better help the user to manage health.
  • the target substance can also be a drug solution
  • the user's health index reflects the improvement of the condition
  • the content of the drug solution is automatically reduced
  • the user's monitoring index reflects the worsening of the condition
  • the content of the drug solution is automatically increased.
  • the atomization device is a drip type electronic cigarette
  • the heart rate is abnormal or when the pH or the blood oxygen content of the saliva is abnormal, for example, the heart rate is higher than a predetermined value, the heart rate is lower than a predetermined value, or the heart rate change amount is greater than a predetermined amount.
  • the value of the predetermined target substance is lower than the content of the target substance of the liquid in the liquid-absorbent member of the atomizing component in the mixing chamber, that is, the atomizing device needs to dilute the target substance in the liquid-absorbent member, thereby making the user's health index
  • the automatic control of the nicotine content during an abnormality is gradually reduced, which helps to improve the physical state of the user during use and better helps the user to manage health.
  • the abnormal heart rate of the user includes the user's heart rate being too fast or the rate of change of the heart rate is too large, and the preset nicotine content is zero when the user's heart rate is abnormal.
  • the pH abnormality of the user's saliva includes the user's saliva pH change value is too large and so on.
  • a plurality of sensors such as a heart rate detecting sensor, a sputum pH sensor, a blood oxygen detecting sensor, and the like, may acquire a user's monitoring index.
  • the default operation mode of the atomization device may be the same as the last used working mode, or the working mode with the most usage, etc. .
  • FIG. 2 is a schematic diagram of a specific process of the first embodiment of step S14 in FIG. 1.
  • the method as shown in Fig. 2 can be applied to an atomizing device including a mixing chamber, a first component storage chamber, a second component storage chamber, and a mixed liquid in the mixing chamber.
  • step S14: adding the first required amount of the first component and the second required amount of the second component to the mixing chamber comprises the following steps S141 to S144.
  • Step S141 detecting an actual liquid level of the second component in the second component storage cavity
  • Step S142 determining whether the actual liquid level of the second component in the second component storage cavity is less than the second demand amount of the second component
  • step S143 secondizing the second demand amount in the second component storage chamber The components are added to the mixing chamber;
  • step S144 is performed: a second component shortage prompt signal is issued.
  • step S14: adding the first required amount of the first component and the second required amount of the second component to the mixing chamber may further include the following steps S145 to S148.
  • Step S145 detecting an actual liquid level of the first component in the first component storage cavity
  • Step S146 determining whether the actual liquid level of the first component in the first component storage cavity is less than the first demand amount of the first component
  • step S147 first, the first demand amount in the first component storage cavity The components are added to the mixing chamber;
  • step S148 is performed: a first component shortage prompt signal is issued.
  • the first component and/or the second component deficiency prompt signal may be displayed through the display screen, and the first component and/or may be emitted by blinking the LED light or by sound, vibration or display display. Or the second component is insufficient signal, etc., to prompt the user to add liquid.
  • the first component shortage signal and the second component deficiency signal may be displayed in different manners, or may be exhibited in the same manner.
  • the display screen may be used to display "the first component is insufficient” to prompt the user that the first component is insufficient, and the display screen may be used to display "the second component is insufficient”. It is also possible to emit a first component shortage signal by flashing an LED lamp, or to emit a second component shortage signal by vibration or the like.
  • the embodiment may, but is not limited to, first adding the first required amount of the first component in the first component storage cavity to the mixing cavity, and then the second component in the second component storage cavity.
  • the second component is added to the mixing chamber. It is also possible to add the first component of the first component in the first component storage chamber to the mixing chamber while adding the second component of the second component in the second component storage chamber to the mixing chamber, or A second desired amount of the second component in the second component storage chamber is added to the mixing chamber, and the first desired amount of the first component is added to the mixing chamber.
  • the execution order of S141 and S145 is not limited, and S141 may be performed first or S145 may be performed first, or S141 and S145 may be simultaneously performed.
  • FIG. 3 is a schematic diagram of a specific process of the second embodiment of step S14 in FIG. 1.
  • the method as shown in Figure 3 can be applied to an atomizing device comprising a mixing chamber, a first component storage chamber.
  • step S14: adding the first required amount of the first component and the second required amount of the second component to the mixing chamber comprises the following steps S140a and S140b.
  • Step S140a when the second component is added to the mixing chamber through the second component inlet port on the mixing chamber, when the amount of change of the actual liquid level in the mixing chamber is less than the second demand amount, the output of the second component is insufficient. signal;
  • Step S140b adding a second required amount of the second component to the mixing chamber.
  • the step of adding the first component of the first component to the mixing chamber may be the same as the step of the first embodiment, that is, step S14: the first component and the second component of the first demand amount
  • the addition of the second component to the mixing chamber further includes steps S145 through S148, i.e., step S14 further includes adding a first desired amount of the first component to the mixing chamber from the first component storage chamber.
  • the step of adding the first required amount of the first component to the mixing chamber may also be different from the steps of the first embodiment, for example, the user directly adds the first required amount of the first component to the mixing chamber.
  • the second component of the second component may be added to the mixing chamber first, and then the first component of the first component is added to the mixing chamber.
  • the first component of the first component may be added to the mixing chamber, and then add the second component of the second demand to the mixing chamber, or simultaneously the first component of the first demand and the first component.
  • a second amount of the second component is added to the mixing chamber.
  • the user when receiving the liquid injection operation signal of the user, the user is asked whether the content of the target substance preset is the liquid in the mixing chamber.
  • the content of the target substance if yes, calculating the first demand amount of the first component and the second demand amount of the second component according to the preset target substance content; if not, prompting the user to input the required amount of the liquid injection The preset target substance content.
  • the liquid level of the liquid is the volume of the liquid, that is, the amount of the liquid.
  • the atomization device control device includes a processor 402 and an execution device 404. In one of the embodiments, the atomizing device control device further includes a controller 406.
  • the processor 402 is configured to calculate a first demand amount of the first component and a second demand amount of the second component according to a preset content of the target substance, and output an execution control signal.
  • the processor 402 includes a first memory 412 for storing a predetermined target substance content.
  • the execution device 404 is electrically connected to the processor 402, and is configured to add the first component of the first requirement and the second component of the second requirement to the mixing cavity according to the execution control signal.
  • the processor 402 can calculate the difference between the maximum liquid level of the mixing chamber and the actual liquid level, and calculate the first demand amount of the first component according to the difference and the preset target substance content.
  • the second demand for the second component The processor 402 can also calculate the first demand amount of the first component and the second demand amount of the second component according to the mixed liquid demand amount and the preset target substance content.
  • the demand for the mixture is a fixed value stored, and may also be a value set by the user through a keyboard or other mobile terminal.
  • the controller 406 is used to control the atomization assembly to atomize the liquid in the mixing chamber.
  • the atomizing assembly includes a heating wire for atomizing a liquid in the mixing chamber, that is, a mixture of the first component and the second component, for the user to smoke.
  • the processor 402 is configured to calculate a first requirement quantity of the first component and a second group according to a preset target substance content when receiving an operation instruction to enter the smoking cessation mode and satisfy the liquid dispensing trigger condition a second demand amount; wherein the dosing triggering condition comprises the number of ports the user draws is greater than the first threshold, and/or the actual liquid level of the mixed liquid in the mixing chamber is less than the second threshold, and/or the infusion request is received And/or the mixed liquid absorbed by the liquid absorbing member in the atomizing assembly is less than a predetermined threshold.
  • the content of the target substance is lower than the content of the target substance in the liquid in the mixing chamber, and the target substance is nicotine; or, the content of the target substance is lower than the target substance of the liquid in the liquid-absorbing part of the atomizing component; The content of the target substance is nicotine.
  • the gradient of the predetermined target substance content lower than the content of the target substance of the mixing chamber liquid may be a set value input by a user such as a user using an input component such as a keyboard or by using a wireless communication technology, or may be stored. A fixed value.
  • the gradient of the predetermined target substance content lower than the content of the target substance of the liquid-absorbent liquid of the atomizing component may be a user input component such as a keyboard or the like
  • the set value input by the mobile device using wireless communication technology may also be a fixed value stored.
  • the processor 402 is configured to receive an operation instruction to enter the dosing mode and a content of the preset target substance input by the user, to calculate a first requirement amount of the first component according to a preset content of the target substance input by the user. And a second demand for the second component.
  • the processor 402 is further configured to receive an operation instruction for entering the monitoring mode, and detect a health indicator of the user, where the health indicator includes a heart rate of the user or a pH of the user's saliva or a blood oxygen content of the user; in this embodiment, the processor The 402 also includes a sensor for detecting a user's health indicator.
  • the sensor includes, but is not limited to, a heart rate detecting sensor, a pH detecting sensor, a blood oxygen content detecting sensor, a body temperature detecting sensor, a vital capacity detecting sensor, and the like.
  • the content of the predetermined target substance when the heart rate of the user is abnormal, the content of the predetermined target substance may be, but not limited to, equal to zero; when the pH of the user's saliva or the blood oxygen content of the user is abnormal, the predetermined target substance content is lower than the liquid in the mixing chamber.
  • the target substance may be, but is not limited to, nicotine.
  • the preset target substance content may but not It is limited to be equal to zero; when the pH of the saliva or the blood oxygen content is abnormal, the predetermined target substance content is lower than the content of the target substance of the liquid in the liquid-absorbent member of the atomizing component, and the target substance may be, but not limited to, nicotine.
  • the processor 402 is further configured to calculate a difference between the maximum liquid level of the mixing chamber and the actual liquid level; according to the difference, the preset target substance content, the content of the target substance in the first component, and the second group The content of the target substance in the fraction is calculated, and the first demand amount of the first component and the second demand amount of the second component are calculated.
  • FIG. 5 is a schematic diagram showing the specific structure of the first embodiment of the actuator 404 shown in FIG.
  • the executing device 404 includes a first detecting device 414, a first joining device 424, and a first prompting device 434.
  • the first detecting means 414 is configured to detect the actual liquid level of the second component in the second component storage chamber.
  • the first adding means 424 is configured to use the second demand in the second component storage chamber when the actual liquid level of the second component in the second component storage chamber is not less than the second demand amount of the second component
  • the second component is added to the mixing chamber.
  • the first prompting device 434 is configured to emit a second component shortage prompt signal when the actual liquid level of the second component in the second component storage chamber is less than the second demand amount of the second component.
  • the first detection device 414 can be, but is not limited to, a level detector located in the second component storage chamber.
  • the first adding means 424 can be, but is not limited to, comprising a first electric pump connected to both the second component storage chamber and the mixing chamber, the first electric pump being used for the actual liquid of the second component in the second component storage chamber The second desired amount of the second component in the second component storage chamber is pumped into the mixing chamber when the second demand is not less than the second component.
  • the first prompting device 434 can be, but is not limited to, a display screen.
  • the executing device 404 further includes a second detecting device 444, a second joining device 454, and a third prompting device 464.
  • the second detecting means 444 is for detecting the actual liquid level of the first component in the first component storage chamber.
  • the second adding device 454 is configured to: when the actual liquid level of the first component in the first component storage cavity is not less than the first demand amount of the first component, the first demand amount in the first component storage cavity The first component is added to the mixing chamber.
  • the third prompting means 464 is configured to emit a first component shortage prompt signal when the actual liquid level of the first component in the first component storage chamber is less than the first demand amount of the first component.
  • the second detection device 444 can be, but is not limited to, a level detector (not shown) located in the first component storage chamber.
  • the second adding means 454 can be, but is not limited to, comprising a second electric pump connected to both the first component storage chamber and the mixing chamber, the second electric pump being used for the actual liquid of the first component in the first component storage chamber The first required amount of the first component in the first component storage chamber is pumped into the mixing chamber when the position is not less than the first amount of the first component.
  • the third prompting device 464 can be, but is not limited to, a display screen.
  • the executing device of the embodiment adds a first required amount of the first component to the liquid-absorbent member of the atomizing assembly in the mixing chamber or the mixing chamber by controlling the first component storage chamber, and joins the second component storage chamber by controlling the second component storage chamber.
  • the second component of the second amount is supplied to the liquid absorbing member of the atomizing component in the mixing chamber or the mixing chamber, thereby automatically controlling the content of the target substance in the mixing chamber, and the flexibility is high, and the first component and the second group are The parts are respectively stored by the corresponding cavities, so that the order of adding the second component and the first component is more flexible, thereby further improving the flexibility of the device and making the amount of the second component and the first component more precise.
  • the control thus increases the accuracy of controlling the content of the target substance.
  • Fig. 6 is a schematic view showing the specific structure of the second embodiment of the actuator shown in Fig. 4.
  • the executing device 404a includes a second detecting device 444a, a second joining device 454a, a third prompting device 464a, a second prompting device 474, and a second component adding port 484.
  • the second prompting device 474 is configured to output the second component to the mixing chamber through the second component inlet port on the mixing chamber, when the actual liquid level change amount in the mixing chamber is less than the second demand amount, the output The second component is insufficient to indicate a signal to prompt addition of the second desired amount of the second component through the second component addition port 484 located in the mixing chamber.
  • the second prompting device 474 is configured to prompt the second component of the second component to be injected through the second component injection port 484 of the atomizing assembly when the atomizing device is a drip-type electronic cigarette.
  • the second detecting means 444a is for detecting the actual liquid level of the first component in the first component storage chamber.
  • the second adding device 454a is configured to: when the actual liquid level of the first component in the first component storage cavity is not less than the first demand amount of the first component, the first demand amount in the first component storage cavity The first component is added to the mixing chamber of the second component loaded with the second demand; or to the liquid absorbing member of the atomizing assembly that absorbs the second desired amount of the second component.
  • the third prompting device 464a is configured to emit a first component shortage prompt signal when the actual liquid level of the first component in the first component storage chamber is less than the first demand amount of the first component.
  • the second detection device 444a may be, but is not limited to, a level detector located in the first component storage chamber.
  • the second adding device 454a can be, but is not limited to, comprising a second electric pump connected to both the first component storage chamber and the mixing chamber, the second electric pump being used for the actual liquid of the first component in the first component storage chamber
  • the first required amount of the first component in the first component storage chamber is pumped into the liquid absorbing member of the atomizing assembly in the mixing chamber or mixing chamber when the position is not less than the first amount of the first component.
  • the third prompting device 464a can be, but is not limited to, a display screen.
  • FIG. 7 is a schematic structural diagram of an atomization device according to a third embodiment of the present invention. and the present invention further provides an atomization device 70, including an atomization device control device.
  • the specific structure and working principle of the atomization device control device can be referred to FIG. 4, FIG. 5 or FIG. 6, and details are not described herein again.
  • FIG. 8 is a cross-sectional structural diagram of an atomizing device 80 according to a fourth embodiment of the present invention.
  • the atomizing device 80 includes a power source 810, a mixing chamber 811, an opening key 812, and a second component storage chamber 813, a first component storage chamber 814, a first liquid level detector 815, and a second liquid.
  • the atomizing device 80 further includes a display screen 824, and the opening key 812 and the display screen 824 are respectively embedded on the outer casing 823.
  • the switch key 812 is electrically coupled to the power source 810, and the switch key 812 is configured to receive a switch command from the user's input to control whether the power source 810 provides an operating voltage to the various components of the atomizing device 80.
  • the display screen 824 is electrically connected to the circuit board 820 for providing a prompt signal. Display 824 can be, but is not limited to, a touch screen to receive an input from a user.
  • the first liquid level detector 815 constitutes a first detecting device.
  • the second liquid level detector 816, the third liquid level detector 817, the second electric pump 819, the first electric pump 818, and the display screen 824 constitute an actuator.
  • the circuit board 820 may be provided with all components of a processor (not shown) and a controller (not shown).
  • the mixing chamber 811, the first component storage chamber 814, and the second component storage chamber 813 are sequentially stacked, and the mixing chamber 811, the first component storage chamber 814, and the second component storage chamber 813 are disposed.
  • Through holes are respectively provided, and the cigarette holders 822 are sequentially connected to the atomizing assembly 821 located in the mixing chamber 811 through the through holes in the second component storage chamber 813 and the first component storage chamber 814.
  • the mixing chamber 811 is configured to store a mixture of the first component and the second component
  • the first component storage cavity 814 is for storing the first component
  • the second component storage cavity 813 is for storing the second component by the user.
  • the second liquid level detector 816 and the third liquid level detector 817 are respectively located at sidewalls of the first component storage chamber 814 and sidewalls of the second component storage chamber 813.
  • the second liquid level detector 816 and the third liquid level detector 817 are respectively used to detect the liquid level in the first component storage chamber 814 and the liquid level in the second component storage chamber 813.
  • the second electric pump 819 is connected to the mixing chamber 811 and the first component storage chamber 814 for pumping the first component of the first component in the first component storage chamber 814 according to a control signal output from the circuit board 820.
  • the first electric pump 818 is connected to the mixing chamber 811 and the second component storage chamber 813 for pumping a certain amount of the second component in the second component storage chamber 813 into the mixing chamber 811 to automatically control the mixing chamber 811.
  • the atomizing component 821 is electrically connected to the circuit board 820, and the atomizing component 821 is used for atomizing the mixture of the second component and the first component in the mixing chamber 811 into smoke for the user to smoke.
  • the mouthpiece 822 is coupled to the atomizing assembly 821, and the mouthpiece 822 can be contained by the user for the user to smoke the aerosolizing device 80.
  • a stirring device may be built in the mixing chamber 811 to mix the first component and the second component in the mixing chamber 811.
  • the stirring device can be, but is not limited to, including a vibrator.
  • the first level detector 815 is located in the mixing chamber 811 for obtaining the actual liquid level of the liquid in the mixing chamber 811.
  • the processor on the circuit board 820 is electrically connected to the first liquid level detector 815 for calculating the maximum liquid level and the actual liquid level of the mixing chamber 811 when the actual liquid level of the liquid in the mixing chamber 811 is less than the second threshold.
  • the first demanded first component of 814 is pumped into the mixing chamber 811 and controls the first electric pump 818 to pump the second desired amount of the second component of the second component storage chamber 813 into the mixing chamber 811,
  • the content of the first component in the mixing chamber 811 is automatically controlled.
  • the difference between the maximum liquid level and the actual liquid level is 10 ml
  • the preset target substance is nicotine
  • the first component is nicotine solution
  • the second component is smoke liquid
  • the preset target substance content is 15%
  • the first requirement for the first component is 1.5 ml
  • the second requirement for the second component is 8.5 ml.
  • the controller on the circuit board 820 is electrically connected to the first liquid level detector 815 for controlling the atomization assembly 821 to atomize the liquid in the mixing chamber when the actual liquid level of the liquid in the mixing chamber 811 is not less than a threshold.
  • the processor on the circuit board 820 can also calculate the first requirement of the first component according to the demand of the mixed liquid and the preset content of the target substance when the liquid dispensing trigger condition is satisfied. And a second demand amount of the second component, such that the second electric pump 819 pumps the first required amount of the first component in the first component storage chamber 814 into the mixing chamber 811, and controls the first electric pump 818 pumps the second desired amount of the second component in the second component storage chamber 813 into the mixing chamber 811 to automatically control the level of the target substance, such as nicotine, in the mixing chamber 811.
  • the dosing triggering condition may be, but is not limited to, including the number of ports the user draws is greater than the first threshold, and/or the actual level of the mixed liquor in the mixing chamber is less than the second threshold, and/or receiving the infusion request.
  • the demand for the mixed solution is a default fixed value stored by the atomizing device storage device, and may also be a value input by the user through an input device such as a button or a touch screen, or may be a value set by the user through other mobile terminals.
  • the demand for the mixture is 10 ml
  • the default target substance is nicotine
  • the first component is nicotine solution
  • the second component is smoke liquid
  • the preset target substance content is 15%
  • FIG. 9 is a cross-sectional structural view of an atomizing device 90 according to a fifth embodiment of the present invention.
  • the atomizing device 90 includes a power source 910, a mixing chamber 911, an opening key 912, a first storage chamber 914, a first liquid level detector 915, a second liquid level detector 916, and a third electric pump 919.
  • the first liquid level detector 915 constitutes a first detecting device
  • a second liquid level detector 916, a third electric pump 918, and a display screen 924 constitutes an executing device.
  • a circuit board 920 (not shown) and a controller are disposed on the circuit board 920.
  • the first storage chamber 914 is for storing a first component
  • the second level detector 916 is located at a sidewall of the first storage chamber 914 for detecting the level of the first component.
  • a third electric pump 918 is used to pump the first required amount of the first component into the mixing chamber 911. That is, the atomization device 90 shown in FIG. 9 is different from the atomization device shown in FIG. 8 in that the atomization device 90 does not include the second component memory, the third liquid level detector, and the first electric pump, and is directly utilized.
  • the mixing chamber 911 carries the second component.
  • the user directly directly adds the second component of the second component to the mixing chamber 911 through a second component inlet (not shown) disposed on the sidewall of the mixing chamber 911, and then, the second pump 919 pumping the first required amount of the first component in the first component storage chamber 914 into the mixing chamber 911 loaded with the second required amount of the second component, thereby causing the mixing chamber 911 to load a predetermined amount of the target substance a mixture for the user to smoke.
  • a second component inlet not shown
  • first storage chamber 914 can also be used to store the second component
  • second level detector 916 is used to detect the level of the second component.
  • the user directly adds the first component of the first demand directly to the mixing chamber 911 through a first component inlet (not shown) disposed on the sidewall of the mixing chamber 911.
  • a third electric pump 918 is used to pump a second desired amount of the second component into the mixing chamber 911.
  • the atomization device control method, device and atomization device of the invention can calculate the first demand amount of the first component and the second demand amount of the second component according to the preset target substance content, thereby the first demand amount
  • the first component and the second demanded second component are added to the mixing chamber to automatically control the content of the target substance with high flexibility.
  • FIG. 10 is a cross-sectional structural diagram of an atomizing device 100 according to a sixth embodiment of the present invention.
  • the atomizing device 100 includes a power source 1010, an opening key 1012, and a second component storage cavity 1013, a first component storage cavity 1014, a first liquid level detector 1016, and a second liquid level detector 1017.
  • the atomizing assembly 1021 includes a liquid absorbing member 1011 and a heat generating component 1015.
  • the atomizing device 100 further includes a display screen 1024, and the opening key 1012 and the display screen 1024 are respectively embedded on the outer casing 1023.
  • the switch key 1012 is electrically connected to the power source 1010, and the switch key 1012 is used to receive a switch command of the user's input to control whether the power source 1010 provides the operating voltage to the components of the atomization device 100.
  • the display screen 1024 is electrically connected to the circuit board 1020 for providing a prompt signal. Display 1024 may be, but is not limited to, a touch screen to receive an instruction input by a user.
  • the first liquid level detector 1016, the second liquid level detector 1017, the second electric pump 1019, the first electric pump 1018, and the display screen 1024 constitute an executing device.
  • the circuit board 1020 may be provided with all components of a processor (not shown) and a controller (not shown).
  • first component storage cavity 1014 and the second component storage cavity 1013 are sequentially stacked, and the first component storage cavity 1014 and the second component storage cavity 1013 are respectively provided with through holes, and the cigarette holders 1022 are sequentially disposed.
  • the through holes in the first component storage chamber 1013 and the first component storage chamber 1014 are connected to the atomizing assembly 1021.
  • the liquid absorbing member 1011 of the atomizing assembly 1021 is configured to absorb a mixture of the first component and the second component
  • the first component storage cavity 1014 is configured to store the first component
  • the second component storage cavity 1013 The user stores the second component.
  • the first liquid level detector 1016 and the second liquid level detector 1017 are respectively located at sidewalls of the first component storage chamber and sidewalls of the second component storage chamber.
  • the first level detector 1016 and the second level detector 1017 are respectively configured to detect the liquid level in the first component storage chamber 1014 and the liquid level in the second component storage chamber 1016.
  • the second electric pump 1019 is coupled to the atomizing assembly 1021 and the first component storage chamber 1014 for pumping the first required amount of the first component pump in the first component storage chamber 1014 according to a control signal output from the circuit board 1020.
  • the liquid absorbing member 1011 of the atomizing assembly 1021 is inserted.
  • the first electric pump 1018 is coupled to the atomizing assembly 1021 and the second component storage chamber 1013 for pumping a certain amount of the second component in the second component storage chamber 1013 into the liquid absorbing member 1011 of the atomizing assembly 1021.
  • the atomizing assembly 1021 is electrically connected to the circuit board 1020.
  • the heating element 1015 of the atomizing assembly 1011 atomizes the mixture of the second component and the first component in the liquid absorbing member 1011 into smoke for the user to smoke.
  • the mouthpiece 1022 is coupled to the atomizing assembly 1021, and the mouthpiece 1022 can be contained by the user for the user to smoke the aerosol of the atomizing device 100.
  • the processor on the circuit board 1020 can also calculate the first requirement amount and the second component of the first component according to the required amount of the mixed solution and the preset target substance content when the liquid dispensing trigger condition is satisfied. a second demand amount such that the second electric pump 1019 pumps the first required amount of the first component in the first component storage chamber 1014 into the liquid absorbing member 1011 of the atomizing assembly 1021 and controls the first electric pump 1018 pumps the second required amount of the second component in the second component storage chamber 1013 into the liquid absorbing member 1011 of the atomizing assembly 1021 to automatically control the content of the target substance in the liquid absorbing member 1011 of the mixed atomizing assembly 1021. .
  • the dosing triggering condition may be, but is not limited to, including the number of ports the user draws is greater than the first threshold, and/or receiving the infusion request, and/or the mixed liquid absorbed by the liquid absorbent member in the atomizing assembly is less than a predetermined threshold.
  • the demand for the mixed solution is a default fixed value stored by the atomizing device storage device, and may also be a value input by the user through an input device such as a button or a touch screen, or may be a value set by the user through other mobile terminals.
  • the demand for the mixture is 10 ml
  • the default target substance is nicotine
  • the first component is nicotine solution
  • the second component is smoke liquid
  • the preset target substance content is 15%
  • FIG. 11 is a cross-sectional structural diagram of an atomizing device 100b according to a seventh embodiment of the present invention.
  • the atomization device 100b provided in this embodiment is basically the same as the atomization device 100 shown in FIG. 11, except that the liquid absorption member 1011b in the atomization assembly includes the support portion 10111b. And a liquid absorbing portion 10112b.
  • the liquid absorbing portion 10112b is for absorbing the first required amount of the first component pumped by the second electric pump 1019 and the second required amount of the second component pumped by the first electric pump 1018.
  • the heat generating component (not shown) is in contact with the liquid absorbing member, for example, the heat generating component is a heating wire wound around the liquid absorbing portion 10112b; the heat generating sheet surrounding the liquid absorbing portion 10112b; and the heat inserted into the liquid absorbing portion 10112b. This embodiment does not limit this.
  • FIG. 12 is a cross-sectional structural diagram of an atomizing device 110 according to an eighth embodiment of the present invention.
  • the atomizing device 110 includes a power source 1110 , an opening key 1112 , a first storage cavity 1114 , a first liquid level detector 1116 , a third electric pump 1119 , a circuit board 1120 , an atomizing component 1121 , and a cigarette holder 1122 .
  • the first liquid level detector 1116, the third electric pump 1118, and the display screen 1124 constitute an executing device.
  • a circuit board (not shown) and a controller (not shown) are disposed on the circuit board 1120.
  • the atomizing assembly 1121 includes a liquid absorbing member 1111 and a heating element 1115.
  • the first storage chamber 1114 is configured to store a first component
  • the first level detector 1116 is located at a sidewall of the first storage chamber 1114 for detecting the level of the first component.
  • a third electric pump 918 is used to pump the first required amount of the first component into the atomizing assembly 1121. That is, the atomization device 110 shown in FIG. 12 is different from the atomization device shown in FIG. 10 in that the atomization device 110 does not include the second component memory, the second liquid level detector, and the first electric pump, and is directly utilized.
  • the liquid absorbing member 1111 of the atomizing assembly 1121 absorbs the second component.
  • the user directly directly adds the second component of the second component to the liquid absorbing member of the atomizing component 1121 through a second component inlet port (not shown) disposed on the sidewall of the atomizing component 1121.
  • the second electric pump 1119 pumps the first required amount of the first component in the first component storage chamber 1114 into the atomizing assembly 1121 that absorbs the second required amount of the second component, thereby causing the mist
  • the liquid absorbing member 1111 of the chemical component 1121 absorbs a mixture of a predetermined amount of the target substance for the user to smoke.
  • the first storage chamber 1114 can also be used to store the second component, and the first liquid level detector 1116 is used to detect the liquid level of the second component.
  • the user directly adds the first component of the first demand amount to the liquid absorbing member 1111 of the atomizing assembly 1121 through a first component inlet port (not shown) disposed on the side wall of the atomizing component 1121.
  • the third electric pump 1118 is for pumping a second required amount of the second component into the liquid absorbing member 1111 of the atomizing assembly 1121.
  • the quantitative addition component is an additive component of a certain volume and a known target substance content.
  • the present invention also provides a computer readable storage medium having stored therein one or more instructions, wherein the one or more instructions are processed by an atomizing device control device
  • the above-described atomization device control method is implemented when the device is executed.
  • the present invention also provides a computer readable storage medium having stored therein one or more instructions, wherein the one or more instructions are processed by an atomizing device control device
  • the above-described atomization device control method is implemented when the device is executed.

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Abstract

本发明公开一种雾化设备控制方法,所述方法包括根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量,所述第一组分和/或所述第二组分中包括所述目标物质;将所述第一需求量的第一组分及所述第二需求量的第二组分加入至混合腔中;控制雾化组件雾化所述混合腔中的液体。本发明还提供一种雾化设备控制装置及雾化设备。本发明的雾化设备控制方法、装置及雾化设备能自动控制混合液中目标物质的含量,以供雾化组件雾化,灵活性高。

Description

雾化设备控制方法、装置及雾化设备 技术领域
本发明涉及雾化设备领域,特别涉及一种雾化设备控制方法、装置及雾化设备。
背景技术
目前,电子烟作为烟草产品的替代品,因其在一定程度上具有使用便携、烟雾量大等特点,在市场上越来越受欢迎。一般来说,当用户抽吸电子烟时,会产生一个气流,该气流被传感器检测到,从而触发加热装置雾化设置于装置中的液态烟油。
但是,现有的电子烟的第一组分的含量由注液时的烟油中的第一组分含量决定,因此,当用户需要吸食不同第一组分含量的电子烟时,只能通过加入不同第一组分含量的烟油来实现,操作繁琐、灵活性低。
发明内容
本发明提供一种雾化设备控制方法、装置及雾化设备,能自动控制混合液中目标物质的含量,灵活性高。
所述技术方案如下:
本发明提供了一种雾化设备控制方法,所述方法包括根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量,所述第一组分和/或所述第二组分中包括所述目标物质;将所述第一需求量的第一组分及所述第二需求量的第二组分加入至混合腔中;控制雾化组件雾化所述混合腔中的液体。
进一步地,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
判断是否满足配液触发条件,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或混合腔中的混合液的实际液位小于第二阈值,和/或接收到注液请求;
若满足配液触发条件,则执行所述根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤;
其中,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量,所述目标物质为尼古丁。
进一步地,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
判断是否满足配液触发条件,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或接收到注液请求;
若满足配液触发条件,则执行所述根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤;
其中,所述预设的目标物质的含量低于所述混合腔中雾化组件的吸液件中液体的目标物质的含量,所述目标物质为尼古丁。
进一步地,所述方法还包括:
若不满足配液触发条件,则直接进入所述控制雾化组件雾化所述混合腔中的液体的步骤。
进一步地,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
接收用户输入的预设的目标物质的含量,以执行所述根据用户输入的预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤。
进一步地,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
检测用户的健康指标;
其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量。
进一步地,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
检测用户的健康指标;
其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中雾化组件的吸液件中液体的目标物质的含量。
进一步地,所述根据预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量的步骤包括:
计算所述混合腔的最大液位与实际液位的差值;
根据所述差值、所述预设的目标物质的含量、所述第一组分中所述目标物质的含量以及第二组分中所述目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量。
本发明还提供一种雾化设备控制装置,所述雾化设备控制装置包括处理器、执行装置。所述处理器用于根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量,所述第一组分和/或所述第二组分中包括所述目标物质。所述执行装置与所述处理器电性相连,用于将所述第一需求量的第一组分及所述第二需求量的第二组分加入至混合腔中。
进一步地,所述装置还包括控制器,用于控制雾化组件雾化所述混合腔中的液体。
进一步地,所述处理器用于在满足配液触发条件时根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;其中,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或混合腔中的混合液的实际液位小于第二阈值,和/或接收到注液请求;其中,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量,所述目标物质为尼古丁。
进一步地,所述处理器用于在满足配液触发条件时根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;其中,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或接收到注液请求;其中,所述预设的目标物质的含量低于所述混合腔中雾化组件的吸液件中液体的目标物质的含量,所述目标物质为尼古丁。
进一步地,所述处理器用于接收用户输入的预设的目标物质的含量,以根据所述用户输入的预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量。
进一步地,所述处理器还用于检测用户的健康指标;其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量。
进一步地,所述处理器还用于检测用户的健康指标;其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中的雾化组件的吸液件中液体的目标物质的含量。
进一步地,所述处理器还用于:计算所述混合腔的最大液位与实际液位的差值;根据所述差值、所述预设的目标物质的含量、所述第一组分中所述目标物质的含量以及第二组分中所述目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量。
进一步地,所述处理器包括第一存储器,所述第一存储器存储所述预设的目标物质的含量。
本发明还提供一种雾化设备,包括上述的雾化设备控制装置。
进一步地,所述雾化设备还包括混合腔、第一组分存储腔、第二组分存储腔,所述执行装置包括第一电泵、第二电泵;所述第一组分存储腔用于存储第一组分;所述第二组分存储腔用于存储第二组分;所述第一电泵与所述第二组分存储腔及所述混合腔相连,用于将所述第二需求量的第二组分从所述第二组分存储腔泵入所述混合腔;所述第二电泵与所述第一组分存储腔及所述混合腔 相连,用于将所述第一需求量的第一组分从所述第一组分存储腔泵入所述混合腔;所述混合腔用于装载泵入的第一组分和泵入的第二组分,以形成混合液。
进一步地,所述雾化设备还包括混合腔、第一存储腔,所述执行装置包括第三电泵;所述第一存储腔用于存储基质,基质为第一组分或第二组分;所述混合腔用于装载加入的定量的添加组分,其中,在基质为第一组分时,所述定量的添加组分为所述第二需求量的第二组分,在所述基质为第二组分时,所述定量的添加组分为所述第一需求量的第一组分;所述第三电泵与所述第一存储腔及所述混合腔相连,用于将所述定量的基质从所述第一存储腔泵入装载了所述定量的添加组分的混合腔,所述定量的基质为第一需求量的第一组分或第二需求量的第二组分。
进一步地,所述混合腔中设置有搅拌装置,所述搅拌装置用于将所述混合腔内的混合液混合。
进一步地,所述雾化设备还包括雾化组件、第一组分存储腔、第二组分存储腔,所述执行装置包括第一电泵、第二电泵;所述第一组分存储腔用于存储第一组分;所述第二组分存储腔用于存储第二组分;所述第一电泵与所述第二组分存储腔及所述雾化组件相连,用于将所述第二需求量的第二组分从所述第二组分存储腔泵入所述混合腔中的雾化组件中,以供所述雾化组件直接雾化;所述第二电泵与所述第一组分存储腔及所述雾化组件相连,用于将所述第一需求量的第一组分从所述第一组分存储腔泵入所述混合腔中的雾化组件中,以供所述雾化组件直接雾化;所述雾化组件的吸液件用于吸纳泵入的第一组分和泵入的第二组分,以形成混合液,所述雾化组件的发热元件用于将混合液转换为烟雾。
进一步地,所述雾化设备还包括雾化组件、第一存储腔,所述执行装置包括第三电泵;所述第一存储腔用于存储基质,基质为第一组分或第二组分;所述雾化组件的吸液件用于吸纳加入的定量的添加组分,其中,在基质为第一组分时,所述定量的添加组分为所述第二需求量的第二组分,在所述基质为第二 组分时,所述定量的添加组分为所述第一需求量的第一组分;所述第三电泵与所述第一存储腔及所述雾化组件相连,用于将所述定量的基质从所述第一存储腔泵入吸纳了所述定量的添加组分的所述雾化组件中的吸液件上,所述定量的基质为第一需求量的第一组分或第二需求量的第二组分。
本发明还提供一种雾化设备控制装置,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雾化设备控制方法。
本发明还提供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雾化设备控制装置内的处理器执行时实现上述雾化设备控制方法。
本发明还提供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雾化设备控制装置内的处理器执行时实现上述雾化设备控制方法。
本发明的雾化设备控制方法、装置及雾化设备能自动控制混合液中目标物质的含量,灵活性高。
上述说明仅是本发明技术方案的概述,为了能够更清楚了解本发明的技术手段,而可依照说明书的内容予以实施,并且为了让本发明的上述和其它目的、特征和优点能够更明显易懂,以下特举较佳实施例,并配合附图,详细说明如下。
附图说明
图1为本发明第一实施例提供的雾化设备控制方法的流程示意图;
图2为图1中的步骤S14的第一实施例的具体流程示意图;
图3为图1中的步骤S14的第二实施例的具体流程示意图;
图4为本发明第二实施例提供的雾化设备控制装置的结构示意图;
图5为如图4所示的执行装置的第一实施例的具体结构示意图;
图6为如图4所示的执行装置的第二实施例的具体结构示意图;
图7为本发明第三实施例提供的雾化设备的结构示意图;
图8为本发明第四实施例提供的雾化设备的剖面结构示意图;
图9为本发明第五实施例提供的雾化设备的剖面结构示意图;
图10为本发明第六实施例提供的雾化设备的剖面结构示意图;
图11为本发明第七实施例提供的雾化设备的剖面结构示意图;
图12为本发明第八实施例提供的雾化设备的剖面结构示意图。
具体实施方式
为更进一步阐述本发明为达成预定发明目的所采取的技术手段及功效,以下结合附图及较佳实施例,对依据本发明提出的雾化设备控制方法、装置及雾化设备其具体实施方式、结构、特征及功效,详细说明如后。
有关本发明的前述及其它技术内容、特点及功效,在以下配合参考图式的较佳实施例详细说明中将可清楚的呈现。通过具体实施方式的说明,当可对本发明为达成预定目的所采取的技术手段及功效得以更加深入且具体的了解,然而所附图式仅是提供参考与说明之用,并非用来对本发明加以限制。
第一实施例
图1是本发明第一实施例提供的雾化设备控制方法的流程示意图。本发明实施例的雾化设备控制方法可以自动控制混合液中目标物质的含量,灵活性高。其中,目标物质例如可以为雾化设备中的尼古丁、药液、香精、及各种用户需要的添加剂等,也可以但不限于为医疗保健领域中的药液例如当归、田七等等。本雾化设备控制方法用于雾化设备中,雾化设备可以是电子烟、吸入器、空气净化器等可将液体雾化的设备,本发明实施例以雾化设备为电子烟为例进行说明。请参考图1,本实施例的雾化设备控制方法,可以包括以下步骤S12、步骤S14及步骤S16。
步骤S12:根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;
具体地,第一组分中目标物质的含量为0%-100%,第二组分中目标物质的含量为0%-100%。其中,第一组分和/或第二组分中包括目标物质,即在第一组分中不包括目标物质时,则第二组分中包括目标物质;当第二组分中不包括目标物质时第一组分中包括目标物质;还可以第一组分和第二组分中都包括目标物质,此时两种组分中的目标物质的含量不同。
在本发明实施例中,第一组分和第二组分可以是纯净物,也可以是混合物;第一组分和第二组分存在的形式可以是悬浮液、溶液、乳浊液或者胶体等等,本实施例对此不做限定。例如,当第一组分是纯净物时,例如,可以是乙二醇、丙三醇、尼古丁;当为混合物时,例如,可以是尼古丁的醇溶液。含量可以是体积含量、质量含量等。
具体地,目标物质可以但不限于为尼古丁、药液、香精、丙二醇、植物甘油及各种用户需要的添加剂,也可以但不限于为医疗保健领域中的药液例如当归、田七等等。
具体地,预设的目标物质的含量可以但不限于为存储装置存储的默认的固定值,例如第一次注液时预设的目标物质的含量为50%,第二次加入液体时预设的目标物质的含量为40%,第三次加入液体时预设的目标物质的含量为30%。预设的目标物质的含量也可以通过一个递减的量计算获得,例如递减量为10%,那么如果第一次注液时预设的目标物质的含量为50%,则可以计算得出第二次加入液体时预设的目标物质的含量为40%,第三次加入液体时预设的目标物质的含量为30%。预设的目标物质的含量还可以是每次注液时用户通过按键、触摸屏等输入装置输入的设定值等等。
在本发明一实施例中,雾化设备根据预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量的步骤包括:计算混合腔的最大液位 与实际液位的差值,以及根据差值及预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量。
具体地,雾化设备计算混合腔的最大液位与实际液位的差值,具体地,混合腔的最大液位可以但不限于为混合腔的实际最大液位,也可以为用户预设的某一固定或变化的理想最大液位。
具体地,为了能更方便快捷的控制混合腔中的目标物质的含量,可以但不限于为第一组分包括目标物质,第二组分中不包括目标物质。当然,第二组分中也可以但不限于含有少量的目标物质,且第二组分中的目标物质含量预先设定,并存储于雾化设备中。
在另一可能的实施方式中,也可以根据混合液需求量及预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量。因此,雾化设备根据预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量的步骤包括:获取混合液的需求量及根据混合液的需求量及预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量。
其中,混合液需求量为雾化设备存储装置存储的默认的某一固定值,也可以为用户通过按键、触摸屏等输入装置输入的值,还可以是用户通过其它移动终端设置的值。例如,如果混合液需求量为10ml,预设的目标物质为尼古丁,第一组分为尼古丁溶液,第二组分为烟液,且预设的目标物质的含量为15%,那么第一组分的第一需求量就为1.5ml,第二组分的第二需求量就是8.5ml。
可选地,在本发明中,混合液的需求量还可以根据吸烟口数、吸烟时长来确定。例如,对于电子烟而言,可以根据吸烟口数和吸烟时长来判断消耗的烟液的多少,以此来确定电子烟向混合腔中加入烟液时所需要的混合液的需求量,此时需求量小于等于消耗量。此外,根据吸烟口数和吸烟时长判断烟液的消耗量,也即混合液的消耗量时,还可结合预定时间段内的电子烟平均输出功率确定,依据电子烟向发热元件输出功率的大小和吸烟口数、吸烟时长结合可更加精确地计算烟液的消耗量,从而得到烟液的需求量。
可选地,在本发明中,对于滴液型雾化设备而言,发热元件仅仅雾化吸液件上吸附的混合液,此时,混合液的需求量还可以根据当前雾化设备输出到发热元件上的输出功率确定,每个输出功率对应一个混合液的需求量;或者,每个输出功率区间对应一个混合液的需求量。
步骤S14:将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中;
雾化设备将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中。具体地,例如最大液位与实际液位的差值为10ml,预设的目标物质为尼古丁,第一组分为尼古丁溶液,第二组分为烟液,且预设的目标物质的含量为15%,那么,就将1.5ml的第一组分,8.5ml的第二组分加入至混合腔,以得到目标物质含量为预设的目标物质的含量即15%的混合液体。
可选地,当雾化设备为滴液型电子烟时,雾化设备将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中的雾化组件的吸液件中。以供雾化组件直接进行雾化。具体地,例如混合液需求量为10ml,预设的目标物质为尼古丁,第一组分为尼古丁溶液,第二组分为烟液,且预设的目标物质的含量为15%,那么,就将1.5ml的第一组分,8.5ml的第二组分加入至吸液件,以使得吸液件所吸纳的目标物质含量为预设的目标物质的含量即15%的混合液体。其中,滴液型电子烟为发热元件不浸泡在烟液内部的电子烟,发热元件仅仅将滴在吸液件上的烟液雾化。
步骤S16:控制雾化组件雾化混合腔中的液体。
具体地,雾化设备控制雾化组件雾化混合腔中的液体。雾化组件可以通过加热、超声波震荡等方式对混合液体进行雾化。当雾化组件通过加热雾化混合液体时,雾化组件可以但不限于包括发热丝、发热片、发热板等等能将混合腔中的液体转换为烟雾的发热元件。吸液件可以为吸液陶瓷、棉布、棉线等等,此处不做限定。通过发热元件可以将包裹在发热元件外表面的吸液件吸收的混 合液体进行加热,使其雾化成烟雾,当用户进行抽吸动作时,气流的流动带动发热元件周围产生的烟雾往上流,从而通过烟嘴吸入口中,以供用户吸食。
此外,混合腔中的液体可以为混合腔中存储的液体,也可以为混合腔中的雾化组件中吸液件吸收的液体,本实施例对此不做限定。
在本发明一实施方式中,步骤S12:根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前还包括:
步骤S10:接收进入戒烟模式的操作指令;
步骤S11:判断是否满足配液触发条件;
其中,配液触发条件包括用户抽吸的口数大于第一阈值,和/或混合腔中的混合液的实际液位小于第二阈值,和/或接收到注液请求;
若满足配液触发条件,则进入步骤S12:根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;
其中,预设的目标物质的含量低于混合腔中液体的目标物质的含量,目标物质为尼古丁,因此,随着吸食雾化设备的次数的增多,雾化设备自动就将尼古丁含量控制得越来越少,便有助于用户在不知不觉中逐步减少对尼古丁的吸食,更好地帮助用户戒烟。
其中,预设的目标物质的含量低于混合腔中液体的目标物质的含量的梯度可以但不限于为用户通过按键、触摸屏等输入装置输入的设定值,也可以是雾化设备的存储装置存储的默认的某一固定值即每次目标物质的含量的递减的梯度是固定的或变化的值。
若不满足配液触发条件,则直接进入步骤S16:控制雾化组件雾化混合腔中的液体。
需要说明的一点是,当雾化设备为滴液型电子烟时,配液触发条件包括用户抽吸的口数大于第一阈值,和/或接收到注液请求、和/或雾化组件中的吸液件所吸纳的混合液体小于预定阈值。预设的目标物质的含量低于吸液件中液体的目标物质的含量,目标物质为尼古丁,因此,随着吸食次数的增多,雾化设备 自动就将尼古丁含量控制得越来越少,便有助于用户在不知不觉中逐步减少对尼古丁的吸食,更好地帮助用户戒烟。预设的目标物质的含量低于吸液件中液体的目标物质的含量的梯度可以但不限于为用户通过按键、触摸屏等输入装置输入的设定值,也可以是雾化设备的存储装置存储的默认的某一固定值即每次目标物质的含量的递减的梯度是固定的或变化的值。
在另一可能的实施方式中,步骤S12:根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前也可以包括:接收进入配液模式的操作指令,以及接收用户输入的预设的目标物质的含量,以根据用户输入的预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量。
具体地,用户可以但不限于用户通过按键、触摸屏、麦克风等输入装置进行模式选择及输入预设的目标物质的含量,从而可以自动进行目标物质的含量配制,操作简单,且配液方便快捷,例如在医疗领域,用户可以通过输入装置输入目标物质例如预设的药液的含量,从而可以自动在混合腔中添加对应的药液及溶剂,以通过配比形成供用户吸食的药物,操作简单,且配液方便快捷。
此外,当进入配液模式后,用户还可以手动输入第一组分的目标物质的含量、第二组分的目标物质的含量和预设的目标物质的含量,从而进行配液。此时,用户可以将已知目标物质含量的任何两种溶液配比成自己所需要的目标物质的含量的混合液体,并且目标物质含量可以大于、小于或者等于混合腔中液体的目标物质的含量。
在另一可能的实施方式中,步骤S12:根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前还可以包括:接收进入监控模式的操作指令,以及检测用户的健康指标。
在本实施例中,雾化设备可以包括但不限于心率检测传感器、酸碱度检测传感器、血氧含量检测传感器、体温检测传感器,肺活量检测传感器等等,以获取用户的健康指标。健康指标至少包括用户的心率、用户唾液的酸碱度、用 户的血氧含量中的一项或者多项,健康指标还可以但不限于包括肺活量、体温等等。
其中,在用户的健康指标异常时,也即用户的心率异常时或在用户的唾液的酸碱度或用户的血氧含量异常时,例如心率高于预定值、心率低于预定值或心率变化量大于预定值,预设的目标物质的含量低于混合腔中液体的目标物质的含量,其中混合腔中的液体为混合腔中存储的混合液。例如,目标物质为尼古丁,从而使得在用户的健康指标异常时自动控制尼古丁的含量逐渐减少,便有助于改善用户在使用时的身体状态,更好帮助用户进行健康管理。此外,例如在医疗领域,目标物质也可以为药液,在用户的健康指标反映病情好转时,则自动降低药液的含量,在用户的监控指标反映病情加重时,则自动提高药液的含量,从而帮助用户进行健康管理。可选地,当雾化设备为滴液型电子烟时,在心率异常时或在唾液的酸碱度或血氧含量异常时,例如心率高于预定值、心率低于预定值或心率变化量大于预定值,预设的目标物质的含量低于混合腔中雾化组件的吸液件中液体的目标物质的含量,也即雾化设备需要稀释吸液件中目标物质,从而使得在用户的健康指标异常时自动控制尼古丁的含量逐渐减少,便有助于改善用户在使用时的身体状态,更好帮助用户进行健康管理。
具体地,用户的心率异常包括用户的心率过快或者心率的变化率过大,在用户的心率异常时预设的尼古丁的含量为零。用户的唾液的酸碱度异常包括用户唾液酸碱度变化值过大等等。
具体地,可以多个传感器,例如心率检测传感器、唾液酸碱度传感器、血氧检测传感器等传感器获取用户的监控指标。
在其中一个实施方式中,若雾化设备未接收到输入的模式选择指令,则可以默认雾化设备此次的工作模式与上次使用的工作模式相同,或者为使用次数最多的工作模式等等。
图2为图1中的步骤S14的第一实施例的具体流程示意图。如图2所示的方法可以应用于包括混合腔、第一组分存储腔、第二组分存储腔,且混合腔中 存储混合液的雾化设备。如图2所示,步骤S14:将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中包括以下步骤S141至S144。
步骤S141:检测第二组分存储腔中第二组分的实际液位;
步骤S142:判断第二组分存储腔中的第二组分的实际液位是否小于第二组分的第二需求量;
若第二组分存储腔中的第二组分的实际液位不小于第二组分的第二需求量,则进入步骤S143:将第二组分存储腔中的第二需求量的第二组分加入至混合腔中;
若第二组分存储腔中的第二组分的实际液位小于第二组分的第二需求量,则进入步骤S144:发出第二组分不足提示信号。
在其中一个实施方式中,步骤S14:将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中还可以包括以下步骤S145至S148。
步骤S145:检测第一组分存储腔中第一组分的实际液位;
步骤S146:判断第一组分存储腔中的第一组分的实际液位是否小于第一组分的第一需求量;
若第一组分存储腔中的第一组分的实际液位不小于第一组分的第一需求量,则进入步骤S147:将第一组分存储腔中的第一需求量的第一组分加入至混合腔中;
若第一组分存储腔中的第一组分的实际液位小于第一组分的第一需求量,则进入步骤S148:发出第一组分不足提示信号。
具体地,可以但不限于通过显示屏显示第一组分和/或第二组分不足提示信号,也可以通过LED灯闪烁或通过声音、震动或显示屏显示等方式发出第一组分和/或第二组分不足信号等,以提示用户加液。具体地,第一组分不足信号与第二组分不足信号可以通过不同的方式展示,也可以通过相同的方式展示。
例如,可以利用显示屏显示“第一组分不足”,以提示用户第一组分不足,也可以利用显示屏显示“第二组分不足”。还可以通过LED灯闪烁发出第一组分不足信号,或者通过震动发出第二组分不足信号等等。
值得说明的是,本实施例可以但不限于先将第一组分存储腔中的第一需求量的第一组分加入至混合腔,再将第二组分存储腔中的第二需求量的第二组分加入至混合腔。也可以将第一组分存储腔中第一需求量的第一组分加入至混合腔的同时将第二组分存储腔中第二需求量的第二组分加入至混合腔,还可以先将第二组分存储腔中的第二需求量的第二组分加入至混合腔,再将第一需求量的第一组分加入至混合腔。在本实施例中,不对S141与S145的执行先后顺序进行限定,可以先执行S141也可以先执行S145,还可以S141和S145同时执行。
图3为图1中的步骤S14的第二实施例的具体流程示意图。如图3所示的方法可以应用于包括混合腔、第一组分存储腔的雾化设备。如图3所示,步骤S14:将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中包括以下步骤S140a及S140b。
步骤S140a:在通过混合腔上的第二组分加入口加入第二组分至混合腔时,当混合腔中的实际液位的变化量小于第二需求量,则输出第二组分不足提示信号;
步骤S140b:加入第二需求量的第二组分至混合腔中。
其中,将第一需求量的第一组分加入至混合腔中的步骤可以与第一实施例的步骤相同,也就是说,步骤S14:将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中还包括步骤S145至S148,即步骤S14还包括从第一组分存储腔中将第一需求量的第一组分加入至混合腔中。当然,将第一需求量的第一组分加入至混合腔中的步骤也可以与第一实施例的步骤不相同,例如用户直接将第一需求量的第一组分加入至混合腔中。
值得说明的是,在此实施例中可以但不限于先将第二需求量的第二组分加入至混合腔,再将第一需求量的第一组分加入至混合腔。当然,也可以先将第一需求量的第一组分加入至混合腔,再将第二需求量的第二组分加入至混合腔,或者同时将第一需求量的第一组分及第二需求量的第二组分加入至混合腔。
需要说明的一点是,在本发明实施例中,无论雾化设备处于何种模式下,在接收到用户的注液操作信号时,询问用户预设的目标物质的含量是否为混合腔中液体的目标物质的含量,若是,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;若否,则提示用户输入此次注液所需的预设的目标物质的含量。
另外,在本发明中,液体的液位即液体的体积,也即液体的量。
第二实施例
图4为本发明第二实施例提供的雾化设备控制装置的结构示意图。如图4所示,雾化设备控制装置包括处理器402、执行装置404。在其中一个实施方式中,雾化设备控制装置还包括控制器406。
处理器402用于根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量,并输出执行控制信号。
其中,所述第一组分和/或所述第二组分中包括所述目标物质。在其中一个实施方式中,处理器402包括第一存储器412,第一存储器412用于存储预设的目标物质含量。
其中,执行装置404与处理器402电性相连,用于根据执行控制信号将所述第一需求量的第一组分及所述第二需求量的第二组分加入至混合腔中。
在其中一个实施方式中,处理器402可以通过计算混合腔的最大液位与实际液位的差值,且根据差值及预设的目标物质含量,计算第一组分的第一需求量及第二组分的第二需求量。处理器402还可以根据混合液需求量及预设的目标物质含量计算第一组分的第一需求量及第二组分的第二需求量。其中,混合液需求量为存储的固定值,也可以为用户通过键盘或其它移动终端设置的值。
其中,控制器406用于控制雾化组件雾化混合腔中的液体。具体地,雾化组件包括发热丝,发热丝用于将混合腔中的液体即第一组分与第二组分的混合物进行雾化,以供用户吸食。
在本发明一实施方式,处理器402用于在接收进入戒烟模式的操作指令,且满足配液触发条件时根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;其中,配液触发条件包括用户抽吸的口数大于第一阈值,和/或混合腔中的混合液的实际液位小于第二阈值,和/或接收到注液请求,和/或雾化组件中的吸液件所吸纳的混合液体小于预定阈值。其中,预设的目标物质的含量低于混合腔中液体的目标物质的含量,目标物质为尼古丁;或者,预设的目标物质的含量低于雾化组件的吸液件中液体的目标物质的含量,目标物质为尼古丁。
具体地,预设的目标物质含量低于混合腔液体的目标物质的含量的梯度可以为用户例如用户利用键盘等输入组件或利用无线通信技术通过移动设备输入的设定值,也可以是存储的某一固定值。
可选地,当雾化设备为滴液型电子烟时,预设的目标物质含量低于雾化组件的吸液件液体的目标物质的含量的梯度可以为用户例如用户利用键盘等输入组件或利用无线通信技术通过移动设备输入的设定值,也可以是存储的某一固定值
进一步地,处理器402用于接收进入配液模式的操作指令及用户输入的预设的目标物质的含量,以根据用户输入的预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量。
进一步地,处理器402还用于接收进入监控模式的操作指令,并检测用户的健康指标,健康指标包括用户的心率或用户唾液的酸碱度或用户的血氧含量;在本实施例中,处理器402还包括传感器,该传感器用于检测用户的健康指标。其中,传感器包括但不限于心率检测传感器、酸碱度检测传感器、血氧含量检测传感器、体温检测传感器,肺活量检测传感器等等。其中,在用户的心率异 常时,预设的目标物质的含量可以但不限于等于零;在用户的唾液的酸碱度或用户的血氧含量异常时,预设的目标物质的含量低于混合腔中液体的目标物质的含量,目标物质可以但不限于为尼古丁。可选地,当雾化设备为滴液型电子烟时,在心率异常例如心率高于预定值、心率低于预定值或心率变化量大于预定值时,预设的目标物质的含量可以但不限于等于零;在唾液的酸碱度或血氧含量异常时,预设的目标物质的含量低于雾化组件的吸液件中液体的目标物质的含量,目标物质可以但不限于为尼古丁。
可选地,处理器402还用于计算混合腔的最大液位与实际液位的差值;根据差值、预设的目标物质的含量、第一组分中目标物质的含量以及第二组分中目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量。
图5为如图4所示的执行装置404的第一实施例的具体结构示意图。如图5所示,执行装置404包括第一检测装置414、第一加入装置424、第一提示装置434。其中,第一检测装置414用于检测第二组分存储腔中第二组分的实际液位。第一加入装置424用于在第二组分存储腔中的第二组分的实际液位不小于第二组分的第二需求量时,将第二组分存储腔中的第二需求量的第二组分加入至混合腔中。第一提示装置434用于在第二组分存储腔中的第二组分的实际液位小于第二组分的第二需求量时,发出第二组分不足提示信号。
具体地,第一检测装置414可以但不限于为位于第二组分存储腔中的液位检测器。第一加入装置424可以但不限于包括与第二组分存储腔及混合腔均相连的第一电泵,第一电泵用于在第二组分存储腔中的第二组分的实际液位不小于第二组分的第二需求量时将第二组分存储腔中的第二需求量的第二组分泵入至混合腔中。第一提示装置434可以但不限于为显示屏。
在其中一个实施方式中,执行装置404还包括第二检测装置444、第二加入装置454、第三提示装置464。第二检测装置444用于检测第一组分存储腔中第一组分的实际液位。第二加入装置454用于在第一组分存储腔中的第一组分的实际液位不小于第一组分的第一需求量时,将第一组分存储腔中的第一需求量 的第一组分加入至混合腔中。第三提示装置464用于在第一组分存储腔中的第一组分的实际液位小于第一组分的第一需求量时发出第一组分不足提示信号。
具体地,第二检测装置444可以但不限于为位于第一组分存储腔中的液位检测器(图中未示出)。第二加入装置454可以但不限于包括与第一组分存储腔及混合腔均相连的第二电泵,第二电泵用于在第一组分存储腔中的第一组分的实际液位不小于第一组分的第一需求量时将第一组分存储腔中的第一需求量的第一组分泵入至混合腔中。第三提示装置464可以但不限于为显示屏。
本实施例的执行装置通过控制第一组分存储腔加入第一需求量的第一组分至混合腔或者混合腔中雾化组件的吸液件,并通过控制第二组分存储腔加入第二需求量的第二组分至混合腔或混合腔中雾化组件的吸液件,从而能自动控制混合腔中的目标物质的含量,灵活性高,且由于第一组分与第二组分分别利用对应的腔体存放,使得第二组分与第一组分的加入顺序更灵活,从而进一步提高了装置的灵活性,且使得第二组分与第一组分的量能更精准的控制,从而提高了控制目标物质含量的准确性。
图6为如图4所示的执行装置的第二实施例的具体结构示意图。如图6所示,执行装置404a包括第二检测装置444a、第二加入装置454a、第三提示装置464a、第二提示装置474及第二组分加入口484。
其中,第二提示装置474用于在通过混合腔上的第二组分加入口加入第二组分至混合腔时,当混合腔中的实际液位的变化量小于第二需求量时,输出第二组分不足提示信号,以提示通过位于混合腔的第二组分加入口484加入第二需求量的第二组分。或者,第二提示装置474在雾化设备为滴液型电子烟时,用于提示通过位于雾化组件的第二组分注入口484注入第二需求量的第二组分。
具体地,第二检测装置444a用于检测第一组分存储腔中第一组分的实际液位。第二加入装置454a用于在第一组分存储腔中的第一组分的实际液位不小于第一组分的第一需求量时,将第一组分存储腔中的第一需求量的第一组分加入至装载第二需求量的第二组分的混合腔中;或者加入至吸纳第二需求量的第二 组分的雾化组件的吸液件中。第三提示装置464a用于在第一组分存储腔中的第一组分的实际液位小于第一组分的第一需求量时发出第一组分不足提示信号。
具体地,第二检测装置444a可以但不限于为位于第一组分存储腔中的液位检测器。第二加入装置454a可以但不限于包括与第一组分存储腔及混合腔均相连的第二电泵,第二电泵用于在第一组分存储腔中的第一组分的实际液位不小于第一组分的第一需求量时将第一组分存储腔中的第一需求量的第一组分泵入至混合腔或混合腔中雾化组件的吸液件中。第三提示装置464a可以但不限于为显示屏。
第三实施例
图7为本发明第三实施例提供的雾化设备的结构示意图;本发明还一种雾化设备70,包括雾化设备控制装置。其中,雾化设备控制装置的具体结构及工作原理可以参考图4、图5或图6,在此不再赘述。
第四实施例
图8为本发明第四实施例提供的雾化设备80的剖面结构示意图。如图8所示,雾化设备80包括电源810、混合腔811、开关键812、及第二组分存储腔813、第一组分存储腔814、第一液位检测器815、第二液位检测器816、第三液位检测器817、第一电泵818、第二电泵819、电路板820、雾化组件821、烟嘴822、外壳823。
在其中一个实施方式中,雾化设备80还包括显示屏824,开关键812与显示屏824分别嵌设于外壳823上。开关键812与电源810电性相连,开关键812用于接收用户的输入的开关指令,以控制电源810是否提供工作电压给雾化设备80的各个组件。显示屏824与电路板820电性连接,用于提供提示信号。显示屏824可以但不限于为触摸屏以接收用户输入的指令。
其中,第一液位检测器815构成了第一检测装置。第二液位检测器816、第三液位检测器817、第二电泵819、第一电泵818、显示屏824构成执行装置。 电路板820可以设置有处理器(图中未示出)、控制器(图中未示出)的全部组件。
在其中一个实施方式中,混合腔811、第一组分存储腔814、第二组分存储腔813依次层叠设置,混合腔811、第一组分存储腔814、第二组分存储腔813中分别设置有通孔,烟嘴822依次通过第二组分存储腔813、第一组分存储腔814中的通孔与位于混合腔811中的雾化组件821相连。
具体地,混合腔811用于存储第一组分与第二组分的混合液,第一组分存储腔814用于存储第一组分,第二组分存储腔813用户存储第二组分。第二液位检测器816、第三液位检测器817分别位于第一组分存储腔814的侧壁、及第二组分存储腔813的侧壁。第二液位检测器816、第三液位检测器817分别用于检测第一组分存储腔814中的液位及第二组分存储腔813中的液位。第二电泵819与混合腔811及第一组分存储腔814相连,用于根据电路板820输出的控制信号将第一组分存储腔814中的第一需求量的第一组分泵入混合腔811。第一电泵818与混合腔811及第二组分存储腔813相连,用于将第二组分存储腔813中的一定量的第二组分泵入混合腔811,以自动控制混合腔811中目标物质的含量。雾化组件821与电路板820电性连接,雾化组件821用于将混合腔811中的第二组分与第一组分的混合液雾化为烟雾,以供使用者吸食。烟嘴822与雾化组件821相连,烟嘴822可被用户含住以供用户吸食雾化设备80的烟雾。
具体地,混合腔811中还可以内置有搅拌装置,以将混合腔811中的第一组分与第二组分充混合。搅拌装置可以但不限于包括振动器。
具体地,第一液位检测器815位于混合腔811中,用于获取混合腔811中液体的实际液位。电路板820上的处理器与第一液位检测器815电性相连,用于在混合腔811中液体的实际液位小于第二阈值时,计算混合腔811的最大液位与实际液位的差值,且根据差值及预设的目标物质含量,计算第一组分的第一需求量及第二组分的第二需求量,以使得第二电泵819将第一组分存储腔814中的第一需求量的第一组分泵入混合腔811,并控制第一电泵818将第二组分存 储腔813中的第二需求量的第二组分泵入混合腔811,以自动控制混合腔811中第一组分的含量。具体地,例如最大液位与实际液位的差值为10ml,预设的目标物质为尼古丁,第一组分为尼古丁溶液,第二组分为烟液,且预设的目标物质的含量为15%,那么第一组分的第一需求量就为1.5ml,第二组分的第二需求量就是8.5ml。电路板820上的控制器与第一液位检测器815电性相连,用于在混合腔811中液体的实际液位不小于阈值时,控制控制雾化组件821雾化混合腔中的液体。
在其它实施例中,具体地,电路板820上的处理器也可以在满足配液触发条件时,根据混合液的需求量及预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量,以使得第二电泵819将第一组分存储腔814中的第一需求量的第一组分泵入混合腔811,并控制第一电泵818将第二组分存储腔813中的第二需求量的第二组分泵入混合腔811,以自动控制混合腔811中目标物质例如尼古丁的含量。
其中,配液触发条件可以但不限于包括用户抽吸的口数大于第一阈值,和/或混合腔中的混合液的实际液位小于第二阈值,和/或接收到注液请求。其中,混合液需求量为雾化设备存储装置存储的默认的某一固定值,也可以为用户通过按键、触摸屏等输入装置输入的值,还可以是用户通过其它移动终端设置的值。例如,如果混合液需求量为10ml,预设的目标物质为尼古丁,第一组分为尼古丁溶液,第二组分为烟液,且预设的目标物质的含量为15%,那么第一组分的第一需求量就为1.5ml,第二组分的第二需求量就是8.5ml。
第五实施例
图9为本发明第五实施例提供的雾化设备90的剖面结构示意图。如图9所示,雾化设备90包括电源910、混合腔911、开关键912、第一存储腔914、第一液位检测器915、第二液位检测器916、第三电泵919、电路板920、雾化组件921、烟嘴922、外壳923、显示屏924。其中,第一液位检测器915构成了 第一检测装置、第二液位检测器916、第三电泵918、显示屏924构成执行装置。电路板920上设置有处理器(图中未示出)及控制器(图中未示出)。
在其中一个实施方式中,第一存储腔914用于存储第一组分,第二液位检测器916位于第一存储腔914的侧壁,用于检测第一组分的液位。第三电泵918用于将第一需求量的第一组分泵入混合腔911中。即图9所示的雾化设备90与图8所示的雾化设备的区别在于:雾化设备90不包括第二组分存储器、第三液位检测器及第一电泵,而直接利用混合腔911装载第二组分。具体地,用户直接将第二需求量的第二组分通过设置于混合腔911侧壁上的第二组分加入口(图中未示出)直接加入混合腔911,然后,第二电泵919将第一组分存储腔914中的第一需求量的第一组分泵入装载了第二需求量的第二组分的混合腔911,从而使得混合腔911装载预设含量的目标物质的混合液,以供用户吸食。
值得说明的是,第一存储腔914也可以用于存储第二组分,第二液位检测器916用于检测第二组分的液位。用户直接将第一需求量的第一组分通过设置于混合腔911侧壁上的第一组分加入口(图中未示出)直接加入混合腔911。第三电泵918用于将第二需求量的第二组分泵入混合腔911中。
本发明的雾化设备控制方法、装置及雾化设备,能根据预设的目标物质含量计算第一组分的第一需求量及第二组分的第二需求量,从而将第一需求量的第一组分及第二需求量的第二组分加入至混合腔中,以自动控制目标物质的含量,灵活性高。
第六实施例
图10为本发明第六实施例提供的雾化设备100的剖面结构示意图。如图10所示,雾化设备100包括电源1010、开关键1012、及第二组分存储腔1013、第一组分存储腔1014、第一液位检测器1016、第二液位检测器1017、第一电泵1018、第二电泵1019、电路板1020、雾化组件1021、烟嘴1022、外壳1023。
在其中一个实施方式中,雾化组件1021包括吸液件1011及发热元件1015。
在其中一个实施方式中,雾化设备100还包括显示屏1024,开关键1012与显示屏1024分别嵌设于外壳1023上。开关键1012与电源1010电性相连,开关键1012用于接收用户的输入的开关指令,以控制电源1010是否提供工作电压给雾化设备100的各个组件。显示屏1024与电路板1020电性连接,用于提供提示信号。显示屏1024可以但不限于为触摸屏以接收用户输入的指令。
其中,第一液位检测器1016、第二液位检测器1017、第二电泵1019、第一电泵1018、显示屏1024构成执行装置。电路板1020可以设置有处理器(图中未示出)、控制器(图中未示出)的全部组件。
在其中一个实施方式中第一组分存储腔1014、第二组分存储腔1013依次层叠设置,第一组分存储腔1014、第二组分存储腔1013中分别设置有通孔,烟嘴1022依次通过第二组分存储腔1013、第一组分存储腔1014中的通孔与雾化组件1021相连。
具体地,雾化组件1021的吸液件1011用于吸纳第一组分与第二组分的混合液,第一组分存储腔1014用于存储第一组分,第二组分存储腔1013用户存储第二组分。第一液位检测器1016、第二液位检测器1017分别位于第一组分存储腔的侧壁、及第二组分存储腔的侧壁。第一液位检测器1016、第二液位检测器1017分别用于检测第一组分存储腔1014中的液位及第二组分存储腔1016中的液位。第二电泵1019与雾化组件1021及第一组分存储腔1014相连,用于根据电路板1020输出的控制信号将第一组分存储腔1014中的第一需求量的第一组分泵入雾化组件1021的吸液件1011。第一电泵1018与雾化组件1021及第二组分存储腔1013相连,用于将第二组分存储腔1013中的一定量的第二组分泵入雾化组件1021的吸液件1011,以自动控制雾化组件1021的吸液件1011中目标物质的含量。雾化组件1021与电路板1020电性连接,雾化组件1021的发热元件1015将吸液件1011中的第二组分与第一组分的混合液雾化为烟雾,以供使用者吸食。烟嘴1022与雾化组件1021相连,烟嘴1022可被用户含住以供用户吸食雾化设备100的烟雾。
具体地,电路板1020上的处理器也可以在满足配液触发条件时,根据混合液的需求量及预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量,以使得第二电泵1019将第一组分存储腔1014中的第一需求量的第一组分泵入雾化组件1021的吸液件1011,并控制第一电泵1018将第二组分存储腔1013中的第二需求量的第二组分泵入雾化组件1021的吸液件1011,以自动控制混雾化组件1021的吸液件1011中目标物质的含量。
其中,配液触发条件可以但不限于包括用户抽吸的口数大于第一阈值,和/或接收到注液请求,和/或雾化组件中的吸液件所吸纳的混合液体小于预定阈值。其中,混合液需求量为雾化设备存储装置存储的默认的某一固定值,也可以为用户通过按键、触摸屏等输入装置输入的值,还可以是用户通过其它移动终端设置的值。例如,如果混合液需求量为10ml,预设的目标物质为尼古丁,第一组分为尼古丁溶液,第二组分为烟液,且预设的目标物质的含量为15%,那么第一组分的第一需求量就为1.5ml,第二组分的第二需求量就是8.5ml。
第七实施例
图11为本发明第七实施例提供的雾化设备100b的剖面结构示意图。如图11所示,本实施例提供的雾化设备100b与如图11所示的雾化设备100的结构基本相同,不同之处仅仅在于:雾化组件中的吸液件1011b包括支撑部10111b及吸液部10112b。在本实施例中,吸液部10112b用于吸收第二电泵1019泵入的第一需求量的第一组分及第一电泵1018泵入的第二需求量的第二组分。发热元件(图中未示出)与吸液件相接触,例如发热元件为缠绕于吸液部10112b外的发热丝;包围在吸液部10112b外的发热片;插入吸液部10112b内的发热片等等,本实施例对此不做限定。
第八实施例
图12为本发明第八实施例提供的雾化设备110的剖面结构示意图。如图11所示,雾化设备110包括电源1110、开关键1112、第一存储腔1114、第一液位检测器1116、第三电泵1119、电路板1120、雾化组件1121、烟嘴1122、外壳 1123、显示屏1124。其中,第一液位检测器1116、第三电泵1118、显示屏1124构成执行装置。电路板1120上设置有处理器(图中未示出)及控制器(图中未示出)。雾化组件1121包括吸液件1111及发热元件1115。
在其中一个实施方式中,第一存储腔1114用于存储第一组分,第一液位检测器1116位于第一存储腔1114的侧壁,用于检测第一组分的液位。第三电泵918用于将第一需求量的第一组分泵入雾化组件1121中。即图12所示的雾化设备110与图10所示的雾化设备的区别在于:雾化设备110不包括第二组分存储器、第二液位检测器及第一电泵,而直接利用雾化组件1121的吸液件1111吸纳第二组分。具体地,用户直接将第二需求量的第二组分通过设置于雾化组件1121侧壁上的第二组分加入口(图中未示出)直接加入至雾化组件1121的吸液件1111,然后,第二电泵1119将第一组分存储腔1114中的第一需求量的第一组分泵入吸纳了第二需求量的第二组分的雾化组件1121,从而使得雾化组件1121的吸液件1111吸纳预设含量的目标物质的混合液,以供用户吸食。
值得说明的是,第一存储腔1114也可以用于存储第二组分,第一液位检测器1116用于检测第二组分的液位。用户直接将第一需求量的第一组分通过设置于雾化组件1121侧壁上的第一组分加入口(图中未示出)直接加入雾化组件1121的吸液件1111中。第三电泵1118用于将第二需求量的第二组分泵入雾化组件1121的吸液件1111中。
需要说明的一点是,在本发明中,定量的添加组分为一定体积且目标物质含量已知的添加组分。
第九实施例
本发明还提供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雾化设备控制装置内的处理器执行时实现上述雾化设备控制方法。
第十实施例
本发明还提供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雾化设备控制装置内的处理器执行时实现上述雾化设备控制方法。
以上所述,仅是本发明的较佳实施例而已,并非对本发明作任何形式上的限制,虽然本发明已以较佳实施例揭露如上,然而并非用以限定本发明,任何熟悉本专业的技术人员,在不脱离本发明技术方案范围内,当可利用上述揭示的技术内容做出些许更动或修饰为等同变化的等效实施例,但凡是未脱离本发明技术方案内容,依据本发明的技术实质对以上实施例所作的任何简单修改、等同变化与修饰,均仍属于本发明技术方案的范围内。

Claims (21)

  1. 一种雾化设备控制方法,其特征在于,所述方法包括:
    根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量,所述第一组分和/或所述第二组分中包括所述目标物质;
    将所述第一需求量的第一组分及所述第二需求量的第二组分加入至混合腔中;
    控制雾化组件雾化所述混合腔中的液体。
  2. 如权利要求1所述的雾化设备控制方法,其特征在于,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
    判断是否满足配液触发条件,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或混合腔中的混合液的实际液位小于第二阈值,和/或接收到注液请求;
    若满足配液触发条件,则执行所述根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤;
    其中,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量,所述目标物质为尼古丁。
  3. 如权利要求1所述的雾化设备控制方法,其特征在于,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
    判断是否满足配液触发条件,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或接收到注液请求;
    若满足配液触发条件,则执行所述根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤;
    其中,所述预设的目标物质的含量低于所述混合腔中雾化组件的吸液件中液体的目标物质的含量,所述目标物质为尼古丁。
  4. 如权利要求2或3所述的雾化设备控制方法,其特征在于,所述方法还包括:
    若不满足配液触发条件,则直接进入所述控制雾化组件雾化所述混合腔中的液体的步骤。
  5. 如权利要求1所述的雾化设备控制方法,其特征在于,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
    接收用户输入的预设的目标物质的含量,以执行所述根据用户输入的预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤。
  6. 如权利要求1所述的雾化设备控制方法,其特征在于,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
    检测用户的健康指标;
    根据所述健康指标确定所述目标物质的含量;
    其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量。
  7. 如权利要求1所述的雾化设备控制方法,其特征在于,根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量的步骤之前包括:
    检测用户的健康指标;
    其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中雾化组件的吸液件中液体的目标物质的含量。
  8. 如权利要求2或5或6所述的雾化设备控制方法,其特征在于,所述根据预设的目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量的步骤包括:
    计算所述混合腔的最大液位与实际液位的差值;
    根据所述差值、所述预设的目标物质的含量、所述第一组分中所述目标物质的含量以及第二组分中所述目标物质的含量,计算第一组分的第一需求量及第二组分的第二需求量。
  9. 一种雾化设备控制装置,其特征在于,所述雾化设备控制装置包括:
    处理器,用于根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量,所述第一组分和/或所述第二组分中包括所述目标物质;
    执行装置,与所述处理器电性相连,用于将所述第一需求量的第一组分及所述第二需求量的第二组分加入至混合腔中雾化设备控制;控制器,用于控制所述雾化组件雾化所述混合腔中的液体。
  10. 如权利要求9所述的雾化设备控制装置,其特征在于,所述处理器用于在满足配液触发条件时根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;
    其中,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或混合腔中的混合液的实际液位小于第二阈值,和/或接收到注液请求;
    其中,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量,所述目标物质为尼古丁。
  11. 如权利要求9所述的雾化设备控制装置,其特征在于,所述处理器用于在满足配液触发条件时根据预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量;
    其中,所述配液触发条件包括用户抽吸的口数大于第一阈值,和/或接收到注液请求;
    其中,所述预设的目标物质的含量低于所述混合腔中雾化组件的吸液件中液体的目标物质的含量,所述目标物质为尼古丁。
  12. 如权利要求9所述的雾化设备控制装置,其特征在于,所述处理器用于接收用户输入的预设的目标物质的含量,以根据所述用户输入的预设的目标物质的含量计算第一组分的第一需求量及第二组分的第二需求量。
  13. 如权利要求9所述的雾化设备控制装置,其特征在于,所述处理器还用于检测用户的健康指标,根据所述健康指标确定所述目标物质的含量;
    其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中液体的目标物质的含量。
  14. 如权利要求9所述的雾化设备控制装置,其特征在于,所述处理器还用于检测用户的健康指标;
    其中,在所述健康指标异常时,所述预设的目标物质的含量低于所述混合腔中的雾化组件的吸液件中液体的目标物质的含量。
  15. 如权利要求9所述的雾化设备控制装置,其特征在于,所述处理器包括第一存储器,所述第一存储器存储所述预设的目标物质的含量。
  16. 一种雾化设备,其特征在于,包括如权利要求9至15任意一项所述的雾化设备控制装置。
  17. 如权利要求16所述的雾化设备,其特征在于,所述雾化设备还包括混合腔、第一组分存储腔、第二组分存储腔,所述执行装置包括第一电泵、第二电泵;
    所述第一组分存储腔用于存储第一组分;
    所述第二组分存储腔用于存储第二组分;所述第一电泵与所述第二组分存储腔及所述混合腔相连,用于将所述第二需求量的第二组分从所述第二组分存储腔泵入所述混合腔;
    所述第二电泵与所述第一组分存储腔及所述混合腔相连,用于将所述第一需求量的第一组分从所述第一组分存储腔泵入所述混合腔;
    所述混合腔用于装载泵入的第一组分和泵入的第二组分,以形成混合液。
  18. 如权利要求16所述的雾化设备,其特征在于,所述雾化设备还包括混合腔、第一存储腔,所述执行装置包括第三电泵;
    所述第一存储腔用于存储基质,基质为第一组分或第二组分;
    所述混合腔用于装载加入的定量的添加组分,其中,在基质为第一组分时,所述定量的添加组分为所述第二需求量的第二组分,在所述基质为第二组分时,所述定量的添加组分为所述第一需求量的第一组分;
    所述第三电泵与所述第一存储腔及所述混合腔相连,用于将所述定量的基质从所述第一存储腔泵入装载了所述定量的添加组分的混合腔,所述定量的基质为第一需求量的第一组分或第二需求量的第二组分。
  19. 如权利要求16所述的雾化设备,其特征在于,所述混合腔中设置有搅拌装置,所述搅拌装置用于将所述混合腔内的混合液混合。
  20. 如权利要求16所述的雾化设备,其特征在于,所述雾化设备还包括雾化组件、第一组分存储腔、第二组分存储腔,所述执行装置包括第一电泵、第二电泵;
    所述第一组分存储腔用于存储第一组分;
    所述第二组分存储腔用于存储第二组分;所述第一电泵与所述第二组分存储腔及所述雾化组件相连,用于将所述第二需求量的第二组分从所述第二组分存储腔泵入所述混合腔中的雾化组件中,以供所述雾化组件直接雾化;
    所述第二电泵与所述第一组分存储腔及所述雾化组件相连,用于将所述第一需求量的第一组分从所述第一组分存储腔泵入所述混合腔中的雾化组件中,以供所述雾化组件直接雾化;
    所述雾化组件的吸液件用于吸纳泵入的第一组分和泵入的第二组分,以形成混合液,所述雾化组件的发热元件用于将混合液转换为烟雾。
  21. 如权利要求16所述的雾化设备,其特征在于,所述雾化设备还包括雾化组件、第一存储腔,所述执行装置包括第三电泵;
    所述第一存储腔用于存储基质,基质为第一组分或第二组分;
    所述雾化组件的吸液件用于吸纳加入的定量的添加组分,其中,在基质为第一组分时,所述定量的添加组分为所述第二需求量的第二组分,在所述基质为第二组分时,所述定量的添加组分为所述第一需求量的第一组分;
    所述第三电泵与所述第一存储腔及所述雾化组件相连,用于将所述定量的基质从所述第一存储腔泵入吸纳了所述定量的添加组分的所述雾化组件中的吸液件上,所述定量的基质为第一需求量的第一组分或第二需求量的第二组分。
PCT/CN2018/085906 2017-05-12 2018-05-07 雾化设备控制方法、装置及雾化设备 WO2018205908A1 (zh)

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