EP3387928A1 - Cigarette électronique - Google Patents

Cigarette électronique Download PDF

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Publication number
EP3387928A1
EP3387928A1 EP18165689.3A EP18165689A EP3387928A1 EP 3387928 A1 EP3387928 A1 EP 3387928A1 EP 18165689 A EP18165689 A EP 18165689A EP 3387928 A1 EP3387928 A1 EP 3387928A1
Authority
EP
European Patent Office
Prior art keywords
liquid
valve
electronic cigarette
fluid transportation
transportation device
Prior art date
Legal status (The legal status 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 status listed.)
Withdrawn
Application number
EP18165689.3A
Other languages
German (de)
English (en)
Inventor
Li-Pang Mo
Shih-Chang Chen
Jia-yu LIAO
Jheng-Wei Chen
Chi-Feng Huang
Yung-Lung Han
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Microjet Technology Co Ltd
Original Assignee
Microjet Technology Co Ltd
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.)
Filing date
Publication date
Application filed by Microjet Technology Co Ltd filed Critical Microjet Technology Co Ltd
Publication of EP3387928A1 publication Critical patent/EP3387928A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • 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
    • A24F40/485Valves; Apertures
    • 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
    • A24F40/60Devices with integrated user interfaces
    • 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 present invention relates to an electronic cigarette, and more particularly to an electronic cigarette with a fluid transportation device.
  • FIG. 1A is a schematic cross-sectional view illustrating a conventional electronic cigarette.
  • FIG. 1B is a schematic cross-sectional view illustrating the structure of an atomizer of the conventional electronic cigarette.
  • the electronic cigarette comprises a first casing 1a, a second casing 1b, a power supply device 2, a sensing unit 3, an atomizer 4 and a liquid storage structure 5.
  • the first casing 1a and the second casing 1b are thin-wall metal pipes, e.g., stainless steel pipes.
  • the power supply device 2, the sensing unit 3, the atomizer 4 and the liquid storage structure 5 are disposed within the first casing 1a and the second casing 1b.
  • the electronic cigarette is assembled.
  • the length and diameter of the electronic cigarette are similar to those of the conventional tobacco cigarette.
  • the power supply device 2 and the sensing unit 3 are disposed within the first casing 1a.
  • the first casing 1a comprises at least one entrance 1c near the sensing unit 3.
  • the atomizer 4 and the liquid storage structure 5 are disposed within the second casing 1b.
  • the atomizer 4 is fixed and supported on a bracket 7.
  • the atomizer 4 comprises an electric heater 41, a liquid receiving part 42 and a liquid transfer part 43.
  • the liquid receiving part 42 is arranged around the electric heater 41.
  • the liquid transfer part 43 is tightly contacted with the liquid receiving part 42.
  • the electric heater 41 has a hollow structure.
  • the liquid storage structure 5 comprises a passageway 51 and a liquid container 52.
  • the passageway 51 is formed within the liquid storage structure 5 for allowing the gas to pass through.
  • the liquid container 52 is arranged around the passageway 51.
  • a communication part 431 of the liquid transfer part 43 is contacted with the liquid container 52. Consequently, a cigarette liquid in the liquid container 52 could be absorbed to or infiltrate to the liquid receiving part 42 through the communication part 431 of the liquid transfer part 43.
  • an intake-and-electric-connection element 10 is disposed between the atomizer 4 and the sensing unit 3 to define an airflow path. The airflow path is in communication with the passageway 51 of the liquid storage structure 5.
  • the electronic cigarette further comprises an electrode ring 8.
  • the electrode ring 8 is electrically connected with two pins of the electric heater 41.
  • the electrode ring 8 is electrically connected with the power supply device 2 through the electric connection between the intake-and-electric-connection element 10 and the sensing unit 3.
  • An electric circuit of the power supply device 2 is selectively enabled or disabled according to the result of sensing the airflow by the sensing unit 3.
  • a mouthpiece 9 is disposed on an end of the second casing 1b and in communication with the passageway 51 of the liquid storage structure 5.
  • the cigarette liquid in the liquid container 52 can be absorbed to or infiltrate to the liquid receiving part 42 through the communication part 431 of the liquid transfer part 43.
  • the electric circuit of the power supply device 2 is enabled.
  • the power supply device 2 provides electric power to the electrode ring 8. Consequently, the electric heater 41 is enabled to heat the cigarette liquid. Meanwhile, the cigarette liquid in the liquid receiving part 42 is heated and atomized by the electric heater 41.
  • the user inhales the atomized vapor from the passageway 51 of the liquid storage structure 5 through the mouthpiece 9.
  • the airflow does not flow through the electronic cigarette.
  • the electric circuit of the power supply device 2 is disabled. Meanwhile, the electric heater 41 stops heating the cigarette liquid.
  • the cigarette liquid is transferred to the liquid receiving part 42 through the communication part 431 of the liquid transfer part 43.
  • this design has some drawbacks. Since it is difficult to precisely control the amount of the cigarette liquid to be transferred to the liquid receiving part 42, the cigarette liquid usually fails to be transferred uniformly to the liquid receiving part 42. If a part of the liquid receiving part 42 receives a lesser amount of the cigarette liquid than the other parts, the liquid droplets are not uniformly generated so that an unpleasing burning taste appears in the atomized vapor.
  • the liquid leakage occurs. Especially when the electronic cigarette stays in an upright position with the mouthpiece 9 on the top, the cigarette liquid continuously moves from the liquid container 52 to the liquid receiving part 42 under the force of gravity. Once the liquid receiving part 42 reaches a saturation state, the excessive cigarette liquid drops down to the bracket 7 and the intake-and-electric-connection element 10. Moreover, the cigarette liquid may drop down through the sensing unit 3 and leak out from the at least one entrance 1c, which results in serious user experience. Moreover, there are some differences between the electronic cigarettes and the tobacco cigarettes. For example, when people smoke the tobacco cigarettes, they are accustomed to gulp air quickly and shortly.
  • the conventional method of atomizing the cigarette liquid of the electronic cigarette still has some drawbacks.
  • the above problems lead to significant differences between the tobacco cigarette and the electronic cigarette. Because of these drawbacks, the user does not prefer to choose the electronic cigarette in replace of the tobacco cigarette.
  • the present invention provides an improved electronic cigarette.
  • the cooperation of a fluid transportation device and a liquid receiving part of an atomizer forms a controllable switch element.
  • the amount of the cigarette liquid to be transferred to the liquid receiving part of the atomizer is precisely controlled by the controllable switch element. Consequently, the taste of the atomized vapor is enhanced, and the liquid leakage problem is solved.
  • the electronic cigarette includes an airflow sensor and an air pressure sensor.
  • the air pressure sensor is operable to generate and transmit a detection signal to a control module according to the result of detecting a pressure of the airflow.
  • the control module adjusts the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid. That is, the control signal from the control module is adjusted according to the detection signal. Since the driving frequency of the fluid transportation device and the driving power of the heater module are correspondingly changed according to the control signal, the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid are adjusted. Consequently, the user could inhale a great amount of atomized vapor quickly, or the user could inhale the same amount of atomized vapor in each breath.
  • an electronic cigarette in accordance with an aspect of the present invention, there is provided an electronic cigarette.
  • the electronic cigarette includes a power supply device, a sensing unit, an atomizer, a liquid storage structure, a fluid transportation device, a casing and a mouthpiece.
  • the power supply device provides a driving power and a control signal.
  • An electric circuit of the power supply device is selectively enabled or disabled according to a result of detecting an airflow by the sensing unit.
  • the atomizer includes an electric heater and at least one liquid receiving part.
  • the electric heater surrounds the liquid receiving part.
  • the liquid storage structure includes a passageway and a liquid container. The passageway allows the airflow to go through.
  • the electric heater of the atomizer is disposed on a first end of the passageway.
  • a cigarette liquid is stored in the liquid container.
  • a fluid transportation device includes an input channel and an output channel. The input channel is in communication with the liquid container. The output channel is in communication with the liquid receiving part of the atomizer.
  • the cigarette liquid is transferred from the liquid container to the liquid receiving part through the fluid transportation device, so that the cigarette liquid is transferred to the electric heater of the atomizer at a certain amount. After the cigarette liquid is heated by the electric heater, an atomized vapor is generated.
  • the power supply device, the sensing unit, the fluid transportation device, the atomizer, the liquid storage structure and an intake-and-electric-connection element are disposed within the casing, and the casing has an entrance for the airflow to pass through.
  • the airflow passes through the sensing unit and the passageway of the liquid storage structure along an airflow path.
  • the fluid transportation device and the electric heater of the atomizer are electrically connected with the power supply device and the sensing unit through the intake-and-electric-connection element to receive the driving power and the control signal.
  • the mouthpiece seals an end of the casing and in communication with the passageway of the liquid storage structure.
  • the mouthpiece has an opening for inhaling the atomized vapor in the passageway of the liquid storage structure.
  • the electronic cigarette of the present invention comprises a casing 1, a power supply device 2, a sensing unit 3, an atomizer 4, a liquid storage structure 5, a fluid transportation device 6 and a mouthpiece 9.
  • the casing 1 is a combination of a first casing 1a and a second casing 1b.
  • the second casing 1b is replaceable.
  • the first casing 1a and the second casing 1b are thin-wall metal pipes, e.g., stainless steel pipes. After the first casing 1a and the second casing 1b are combined together, the electronic cigarette is assembled.
  • the length and diameter of the electronic cigarette are similar to those of the conventional tobacco cigarette.
  • the power supply device 2 and the sensing unit 3 are disposed within the first casing 1a.
  • the first casing 1a comprises at least one entrance 1c near the sensing unit 3.
  • the power supply device 2 comprises a power module 21, a control module 22, a heater module 23 and a light emitting diode 24.
  • the power module 21 is a rechargeable battery or a disposable battery for providing a driving power to the control module 22, the heater module 23 and the sensing unit 3.
  • the control module 22 transmits a first control signal to the heater module 23 and a second control signal to the fluid transportation device 6.
  • the control module 22 provides the driving power to the fluid transportation device 6, and the heater module 23 provides electric energy to the atomizer 4 for heating to atomize.
  • the light emitting diode 24 is located at an end of the first casing 1a. Under control of the control module 22, the light emitting diode 24 is turned on or turned off to provide a prompt signal to indicate the operating condition of the electronic cigarette or provide a prompt signal with varied intensity to indicate the intensity of the atomized vapor.
  • the sensing unit 3 is disposed on an end of the power supply device 2, and an airflow chamber 1d is formed between the sensing unit 3 and the power supply device 2. After the ambient airflow is introduced into the airflow chamber 1d through the at least one entrance 1c, the airflow passes through the sensing unit 3 along an airflow path.
  • the sensing unit 3 includes an airflow sensor 31 and an air pressure sensor 32.
  • the airflow sensor 31 is operable to generate and transmit a control signal to the control module 22. According to the result of detecting the airflow, the electric circuit of the power supply device 2 is selectively enabled or disabled.
  • the air pressure sensor 32 is operable to generate and transmit a detection signal to the control module 22 according to the result of detecting the pressure of the airflow. According to the detection signal, the control module 22 adjusts the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid. That is, the control signal from the control module 22 is adjusted according to the detection signal. Since the driving frequency of the fluid transportation device 6 and the driving power of the heater module 23 are correspondingly changed according to the control signal, the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid are adjusted.
  • an intake-and-electric-connection element 10 is disposed between the atomizer 4 and the sensing unit 3.
  • the power supply device 2 is electrically connected with the atomizer 4 and the fluid transportation device 6 through the intake-and-electric-connection element 10.
  • the intake-and-electric-connection element 10 also provides an airflow channel for the sensing unit 3 to communicate with the second casing 1b.
  • the atomizer 4 is disposed within the second casing 1b.
  • the atomizer 4 is fixed and supported on a fixing seat 71 of a bracket 7.
  • the atomizer 4 comprises an electric heater 41 and a liquid receiving part 42.
  • the electric heater 41 has a hollow structure.
  • the two pins (not shown) of the electric heater 41 are electrically connected with the power supply device 2 and the sensing unit 3 through the intake-and-electric-connection element 10. According to the flowing condition of the airflow detected by the sensing unit 3, the electric heater 41 is controlled to start heating or stop heating.
  • the liquid receiving part 42 is a tubular core used for guiding the cigarette liquid.
  • the liquid receiving part 42 is made of ceramic fiber, quartz fiber, glass fiber, aramid fiber, ordinary fiber, paper, fabric or non-woven material.
  • the liquid receiving part 42 is disposed on the fixing seat 71.
  • the electric heater 41 surrounds the liquid receiving part 42.
  • the fixing seat 71 has a gas channel 72.
  • the atomizer 4 comprises plural liquid receiving parts 42.
  • the plural liquid receiving parts 42 are bundled together.
  • the electric heater 41 surrounds the plural liquid receiving parts 42.
  • the liquid storage structure 5 is disposed within the second casing 1b.
  • the liquid storage structure 5 comprises a passageway 51 and a liquid container 52.
  • the passageway 51 is formed within the liquid storage structure 5 for allowing the gas to pass through.
  • the cigarette liquid is stored in the liquid container 52.
  • the liquid container 52 is in communication with an input channel 6a of the fluid transportation device 6.
  • the fluid transportation device 6 is used as a switch element for selectively allowing the cigarette liquid of the liquid container 52 to pass through.
  • the fluid transportation device 6 is supported and positioned in the second casing 1b through a supporting seat 1e.
  • the supporting seat 1e has a gas channel 1f.
  • An output channel 6b of the fluid transportation device 6 is in communication with the liquid receiving part 42 of the atomizer 4.
  • the cigarette liquid is transferred from the liquid container 52 to the liquid receiving part 42 of the atomizer 4 through the fluid transportation device 6. Meanwhile, the cigarette liquid in the liquid receiving part 42 is heated and atomized by the electric heater 41.
  • the passageway 51 of the liquid storage structure 5 is in communication with the intake-and-electric-connection element 10 through the gas channel 72 of the fixing seat 71 and the gas channel 1f of the supporting seat 1e. After the ambient airflow is fed into the at least one entrance 1c, the airflow is transferred to the passageway 51 of the liquid storage structure 5 through the sensing unit 3 and the electric heater 41 of the atomizer 4.
  • the fluid transportation device 6 comprises a valve body 63, a valve membrane 64, a valve chamber seat 65, an actuator 66 and an outer sleeve 67.
  • the valve body 63 and the valve chamber seat 65 are the main components for guiding the cigarette liquid to be inputted into or outputted from of the fluid transportation device 6.
  • the valve body 63 comprises an inlet passage 631 and an outlet passage 632.
  • the inlet passage 631 and the outlet passage 632 run through a first surface 633 and a second surface 634 of the valve body 63.
  • An inlet opening 6311 is formed in the second surface 634 and in communication with the inlet passage 631.
  • a groove 6341 is formed in the second surface 634 and arranged around the inlet opening 6311.
  • a protrusion block 6343 is disposed on the periphery of the inlet opening 6311.
  • An outlet opening 6321 is formed in the second surface 634 and in communication with the outlet passage 632.
  • a groove 6342 is arranged around the outlet opening 6321.
  • plural recesses 63b are formed in the second surface 634 of the valve body 63.
  • the valve chamber seat 65 comprises a third surface 655, a fourth surface 656, plural posts 65a, an inlet valve channel 651, an outlet valve channel 652 and a pressure chamber 657.
  • the plural posts 65a are formed on the third surface 655.
  • the posts 65a are aligned with the corresponding recesses 63b of the valve body 63.
  • the inlet valve channel 651 and the outlet valve channel 652 run through the third surface 655 and the fourth surface 656.
  • a groove 653 is formed in the third surface 655 and arranged around the inlet valve channel 651.
  • a protrusion block 6521 is disposed on the periphery of the outlet valve channel 652.
  • a groove 654 is formed in the third surface 655 and arranged around the outlet valve channel 652.
  • the pressure chamber 657 is concavely formed in the fourth surface 656, and in communication with the inlet valve channel 651 and the outlet valve channel 652.
  • a concave structure 658 is formed in the fourth surface 656 and arranged around the pressure chamber 657.
  • the valve membrane 64 is made of polyimide (PI), and the valve membrane 64 is produced by a reactive ion etching (RIE) process, in which a photosensitive photoresist is applied to the valve structure and the pattern of the valve structure is exposed to light, then the polyimide layer uncovered by the photoresist is etched so that the valve structure of the valve membrane 64 is formed.
  • the valve membrane 64 is a flat thin film structure. As shown in FIG. 8 , the valve membrane 64 comprises two valve plates 641a and 641b at two perforated regions 64a and 64b, respectively. The two valve plates 641a and 641b have the same thickness.
  • the valve membrane 64 further comprises plural extension parts 642a and 642b.
  • the extension parts 642a and 642b are arranged around the valve plates 641a and 641b for elastically supporting the valve plates 641a and 641b.
  • the valve membrane 64 further comprises plural hollow parts 643a and 643b, each of which is formed between two adjacent extension parts 642a and 642b.
  • the valve plates 641a and 641b have circular shapes, rectangular shapes, square shapes or arbitrary shapes.
  • the valve membrane 64 further comprises plural positioning holes 64c.
  • the posts 65a of the valve chamber seat 65 are penetrated through the corresponding positioning holes 64c. Consequently, the valve membrane 64 is positioned on the valve chamber seat 65. Meanwhile, the inlet valve channel 651 and the outlet valve channel 652 are respectively covered by the valve plates 641a and 641b (see FIG. 8 ).
  • the valve chamber seat 65 comprises two posts 65a and valve membrane 64 comprises two positioning holes 64c. It is noted that the number of the posts 65a and the number of the positioning holes 64c are not restricted.
  • FIG. 11 When the valve body 63 and the valve chamber seat 65 are combined together, four sealing rings 68a, 68b, 68c and 68d are received in the groove 6341 of the valve body 63, the groove 6342 of the valve body 63, the groove 653 of the valve chamber seat 65 and the groove 654 of the valve chamber seat 65, respectively. Due to the sealing rings 68a, 68b, 68c and 68d, the cigarette liquid is not leaked out after the valve body 63 and the valve chamber seat 65 are combined together. The inlet passage 631 of the valve body 63 is aligned with the inlet valve channel 651 of the valve chamber seat 65.
  • the communication between the inlet passage 631 and the inlet valve channel 651 is selectively enabled or disabled through the valve plate 641a of the valve membrane 64.
  • the outlet passage 632 of the valve body 63 is aligned with the outlet valve channel 652 of the valve chamber seat 65.
  • the communication between the outlet passage 632 and the outlet valve channel 652 is selectively enabled or disabled through the valve plate 641b of the valve membrane 64.
  • the actuator 66 comprises a vibration plate 661 and a piezoelectric element 662.
  • the piezoelectric element 662 is attached on a surface of the vibration plate 661.
  • the vibration plate 661 is made of a metallic material
  • the piezoelectric element 662 is made of a highly-piezoelectric material such as lead zirconate titanate (PZT) piezoelectric powder.
  • PZT lead zirconate titanate
  • the vibration plate 661 of the actuator 66 is assembled with the fourth surface 656 of the valve chamber seat 65 to cover the pressure chamber 657.
  • the concave structure 658 is formed in the fourth surface 656 and arranged around the pressure chamber 657.
  • a sealing ring 68e is received in the concave structure 658.
  • the valve body 63, the valve membrane 64, the valve chamber seat 65 and the actuator 66 are the main components of the fluid transportation device 6 for guiding the cigarette liquid.
  • the fluid transportation device 6 has a specified mechanism for assembling and positioning these components. That is, it is not necessary to use the fastening elements (e.g., screws, nuts or bolts) to fasten these components.
  • the valve body 63, the valve membrane 64, the valve chamber seat 65 and the actuator 66 are sequentially stacked on each other and accommodated within the outer sleeve 67. Then, a valve cover 62 is tight-fitted into the outer sleeve 67. Consequently, the fluid transportation device 6 is assembled.
  • the mechanism for assembling and positioning these components will be described as follows.
  • the outer sleeve 67 is made of a metallic material.
  • An accommodation space is defined by an inner wall 671 of the outer sleeve 67.
  • a ring-shaped protrusion structure 672 is formed on the lower portion of the inner wall 671 of the outer sleeve 67.
  • FIGS. 10A and 10B The valve cover 62 is also made of a metallic material.
  • the valve cover 62 comprises a first opening 621 and a second opening 622.
  • the inlet passage 631 and the outlet passage 632 of the valve body 63 are penetrated through the first opening 621 and the second opening 622, respectively.
  • a bottom edge of the valve cover 62 has a chamfer structure 623.
  • the outer diameter of the valve cover 62 is slightly larger than the inner diameter of the inner wall 671 of the outer sleeve 67.
  • valve body 63, the valve membrane 64, the valve chamber seat 65 and the actuator 66 are sequentially stacked on each other and placed into the accommodation space within the inner wall 671 of the outer sleeve 67. Meanwhile, the combination of the valve body 63, the valve membrane 64, the valve chamber seat 65 and the actuator 66 is supported by the ring-shaped protrusion structure 672 of the outer sleeve 67.
  • the outer diameter of the valve cover 62 is slightly larger than the inner diameter of the inner wall 671 of the outer sleeve 67. Due to the chamfer structure 623, the valve cover 62 is tight-fitted into the outer sleeve 67.
  • the combination of the valve body 63, the valve membrane 64, the valve chamber seat 65 and the actuator 66 is securely fixed between the valve cover 62 and the outer sleeve 67. Meanwhile, the fluid transportation device 6 is assembled.
  • the actuator 66 is also disposed within the accommodation space of the outer sleeve 67.
  • the vibration plate 661 is vibrated along the vertical direction in the reciprocating manner. In other words, it is not necessary to use the fastening elements (e.g., screws, nuts or bolts) to fasten the components of the fluid transportation device 6.
  • the inlet valve channel 651 of the valve chamber seat 65 is aligned with the inlet opening 6311 of the valve body 63, and the inlet valve channel 651 of the valve chamber seat 65 and the inlet opening 6311 of the valve body 63 are selectively in communication with each other through the valve plate 641a of the valve membrane 64.
  • the valve plate 641a is in close contact with the protrusion block 6343 of the valve body 63. Consequently, a pre-force is generated to result in a stronger sealing effect, and the cigarette liquid will not be returned back.
  • the outlet valve channel 652 of the valve chamber seat 65 is aligned with the outlet opening 6321 of the valve body 63, and the outlet valve channel 652 of the valve chamber seat 65 and the outlet opening 6321 of the valve body 63 are selectively in communication with each other through the valve plate 641b of the valve membrane 64.
  • the valve plate 641b is in close contact with the protrusion block 6521 of the valve chamber seat 65. Consequently, a pre-force is generated to result in a stronger sealing effect, and the cigarette liquid will not be returned back to the pressure chamber 657. Under this circumstance, in case that the fluid transportation device 6 is disabled, the cigarette liquid is not returned back to the inlet passage 631 and the outlet passage 632 of the valve body 63.
  • valve plate 641b supported by the extension parts 642b of the valve membrane 64 is in close contact with the protrusion block 6521 of the valve chamber seat 65. Consequently, the outlet valve channel 652 of the valve chamber seat 65 is tightly closed by the valve plate 641b.
  • the piezoelectric element 662 drives the vibration plate 661 to deform upwardly, and the volume of the pressure chamber 657 is shrunken.
  • the cigarette liquid within the pressure chamber 657 is compressed, and a pushing force is applied to the inlet valve channel 651.
  • the valve plate 641a supported by the extension parts 642a of the valve membrane 64 is in close contact with the protrusion block 6343 of the valve body 63. Consequently, the inlet valve channel 651 of the valve chamber seat 65 is closed, and the cigarette liquid cannot be returned back to the inlet valve channel 651.
  • the pushing force is also applied to the outlet valve channel 652.
  • the valve plate 641b supported by the extension parts 642b of the valve membrane 64 is separated from the protrusion block 6521.
  • the outlet valve channel 652 of the valve chamber seat 65 is opened, and the cigarette liquid is transferred from the pressure chamber 657 to the external portion of the fluid transportation device 6 through the outlet valve channel 652 of the valve chamber seat 65, the hollow parts 643b of the valve membrane 64, the outlet opening 6321 of the valve body 63 and the outlet passage 632 of the valve body 63, sequentially.
  • FIGS. 12A and 12B The processes of FIGS. 12A and 12B are repeatedly done. Consequently, the cigarette liquid can be transferred by the fluid transportation device 6 at high efficiency without being returned back.
  • the fluid transportation device 6 is disposed between the sensing unit 3 and the atomizer 4.
  • the inlet passage 631 and the input channel 6a of the fluid transportation device 6 are connected with each other.
  • the fluid transportation device 6 is in communication with the liquid container 52 through the input channel 6a.
  • the outlet passage 632 and the output channel 6b of the fluid transportation device 6 are connected with each other.
  • the output channel 6b of the fluid transportation device 6 is in communication with the liquid receiving part 42 of the atomizer 4.
  • the cigarette liquid is transferred from the liquid container 52 to the liquid receiving part 42 through the fluid transportation device 6 at a certain amount. Under the same pressure, the cigarette liquid is uniformly transferred to the liquid receiving part 42 to generate uniform droplets. Once the cigarette liquid absorbed by the liquid receiving part 42 reaches a saturation state, the fluid transportation device 6 is disabled. In other words, the cooperation of the fluid transportation device 6 and the atomizer 4 forms a controllable switch element in order for precisely controlling the amount of the cigarette liquid to be transferred to the liquid receiving part 42 of the atomizer 4. Consequently, the taste of the atomized vapor is enhanced, and the liquid leakage problem is solved.
  • the mouthpiece 9 is located at an end of the second casing 1b. Moreover, the mouthpiece 9 is in communication with the passageway 51 of the liquid storage structure 5.
  • the mouthpiece 9 comprises a filter 91 and an opening 92.
  • the filter 91 is located at an end of the passageway 51 of the liquid storage structure 5 to block the cigarette liquid which is not completely atomized from entering the opening 92. Consequently, the cigarette liquid cannot be inhaled by the user.
  • the operations of the electronic cigarette will be described as follows.
  • the electric circuit of the power supply device 2 is enabled.
  • the power supply device 2 provides electric power to the heater module 23. Consequently, the electric heater 41 is enabled to heat the cigarette liquid.
  • the cigarette liquid in the liquid receiving part 42 is heated and atomized by the electric heater 41.
  • the cooperation of the fluid transportation device 6 and the atomizer 4 forms a controllable switch element in order for precisely controlling the amount of the cigarette liquid to be transferred to the liquid receiving part 42 of the atomizer 4 at a certain amount.
  • the user inhales the atomized vapor from the passageway 51 of the liquid storage structure 5 through the opening 92 of the mouthpiece 9.
  • the airflow does not flow through the electronic cigarette.
  • the electric circuit of the power supply device 2 is disabled. Meanwhile, the electric heater 41 is disabled.
  • the air pressure sensor 32 when the user inhales the atomized vapor through the opening 92 of the mouthpiece 9, the air pressure sensor 32 generates and transmits a detection signal to the control module 22 according to the result of detecting the pressure of the airflow.
  • the control module 22 adjusts the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid. That is, the control signal from the control module 22 is adjusted according to the detection signal. Since the driving frequency of the fluid transportation device 6 and the driving power of the heater module 23 are correspondingly changed according to the control signal, the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid are adjusted. Consequently, the user could inhale a great amount of atomized vapor quickly, or the user could inhale the same amount of atomized vapor in each breath.
  • the present invention provides the electronic cigarette.
  • the cooperation of the fluid transportation device and the liquid receiving part of the atomizer forms the controllable switch element.
  • the amount of the cigarette liquid to be transferred to the liquid receiving part of the atomizer is precisely controlled by the controllable switch element.
  • the electronic cigarette includes an airflow sensor and an air pressure sensor.
  • the air pressure sensor generates and transmits a detection signal to the control module according to the result of detecting the pressure of the airflow.
  • a control module adjusts the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid. That is, the control signal from the control module is adjusted according to the detection signal.
  • the driving frequency of the fluid transportation device and the driving power of the heater module are correspondingly changed according to the control signal, the speed of atomizing the cigarette liquid and the speed of providing the cigarette liquid are adjusted. Consequently, the cigarette liquid can be transferred by the fluid transportation device at high efficiency without being returned back. Since the amount of the cigarette liquid is precisely controlled, the droplets are uniformly generated, the taste of the atomized vapor is enhanced, and the liquid leakage problem is solved. In other words, the electronic cigarette with the fluid transportation device is industrially valuable.

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  • Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Reciprocating Pumps (AREA)
  • Electrostatic Spraying Apparatus (AREA)
EP18165689.3A 2017-04-11 2018-04-04 Cigarette électronique Withdrawn EP3387928A1 (fr)

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USD984730S1 (en) 2021-07-08 2023-04-25 Nicoventures Trading Limited Aerosol generator
USD985187S1 (en) 2021-01-08 2023-05-02 Nicoventures Trading Limited Aerosol generator

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CN212325377U (zh) * 2019-01-21 2021-01-12 浙江迈博高分子材料有限公司 具有储液元件的气雾弹和气雾散发装置
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CN111528531B (zh) * 2020-04-30 2023-06-23 歌尔微电子股份有限公司 电子烟的检测装置、检测方法以及电子烟
CN217309152U (zh) * 2021-11-19 2022-08-30 深圳麦克韦尔科技有限公司 雾化器及电子雾化装置
CN217184809U (zh) * 2021-11-19 2022-08-16 深圳麦克韦尔科技有限公司 雾化器及电子雾化装置

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