WO2023143523A1 - Procédé de démarrage de dispositif d'atomisation électronique et dispositif d'atomisation électronique - Google Patents

Procédé de démarrage de dispositif d'atomisation électronique et dispositif d'atomisation électronique Download PDF

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Publication number
WO2023143523A1
WO2023143523A1 PCT/CN2023/073583 CN2023073583W WO2023143523A1 WO 2023143523 A1 WO2023143523 A1 WO 2023143523A1 CN 2023073583 W CN2023073583 W CN 2023073583W WO 2023143523 A1 WO2023143523 A1 WO 2023143523A1
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WO
WIPO (PCT)
Prior art keywords
atomizer
atomization
host
atomization device
electronic atomization
Prior art date
Application number
PCT/CN2023/073583
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English (en)
Chinese (zh)
Inventor
冯祥煌
徐升阳
王慧
Original Assignee
深圳雾芯科技有限公司
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Application filed by 深圳雾芯科技有限公司 filed Critical 深圳雾芯科技有限公司
Publication of WO2023143523A1 publication Critical patent/WO2023143523A1/fr

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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

Definitions

  • the present application relates to the technical field of atomization devices, in particular to a method for starting an electronic atomization device and the electronic atomization device.
  • buttons In related technologies, most of the existing electronic atomization devices do not have a child lock function and cannot meet the requirements of the national standard. Even if there are, they are mainly conventional buttons, and the setting of the buttons will limit the layout of the appearance and the accidental touch of children, and the action is single. It is easy to be imitated and learned, thus failing to achieve the purpose of preventing false touches.
  • This application aims to solve at least one of the technical problems existing in the prior art. For this reason, the present application proposes a method for starting an electronic atomization device, and the method for starting an electronic atomization device can well prevent false touches.
  • the present application also proposes an electronic atomization device activated by the above-mentioned activation method of the electronic atomization device.
  • the electronic atomization device includes an atomization host and an atomizer, and the starting method includes:
  • the electronic atomization is started when the number of times the atomizer is continuously inserted into the atomization host is greater than or equal to the first preset number of times
  • the device wherein the first preset number of times is greater than or equal to 2, so that the atomizer can be continuously inserted into the atomization host for the first preset number of times before the electronic atomization device can be turned on, which can prevent children from accidentally inserting the atomizer into the atomizer host 1
  • the electronic atomization device is activated to achieve the purpose of preventing false touches.
  • the interval between two consecutive insertions of the atomizer into the atomization main body is less than the first preset time.
  • one of the atomization host and the atomizer is provided with a magnet, and the other is provided with a Hall sensor, and the acquisition of the atomizer is continuously inserted into the atomizer
  • the number of hosts includes: acquiring the number of times the atomizer is continuously inserted into the atomization host by acquiring the number of electrical signals output by the Hall sensor.
  • the atomizer has a first electrical connector
  • the atomization host has a second electrical connector adapted to be connected to the first electrical connector
  • the atomization The number of times the atomizer is continuously inserted into the atomization host includes: obtaining the number of times the atomizer is continuously inserted into the atomization host by acquiring the number of times the first electrical connector and the second electrical connector are connected .
  • the starting method further include:
  • the inhalation time is greater than or equal to a second preset time.
  • the interval between the last time the atomizer is inserted into the atomization host and the user's inhalation action is less than a third preset time.
  • the atomizer has an atomization chamber and a suction port communicating with the atomization chamber, and the atomization host has a negative pressure channel communicating with the atomization chamber, so A negative pressure sensor is provided in the negative pressure channel, and the inhalation time of the user is obtained through the negative pressure sensor.
  • the starting method before starting the electronic atomization device, the starting method further includes:
  • the interval between the last time the atomizer is inserted into the atomization host and the user blowing air is less than the fifth preset time.
  • the atomizer before acquiring the number of times the atomizer is continuously inserted into the atomization host, the atomizer is inserted into the atomizer host, and the atomization to the atomizer is executed.
  • the carburetor blows.
  • the time interval between inserting the atomizer into the atomization host for the first time and the air blowing action of the user is less than the sixth preset time.
  • the time interval between the action of inserting the atomizer into the atomization host before the air blowing action and the user's air blowing action is less than the seventh preset time.
  • the interval between two adjacent air blows is less than the eighth preset time.
  • the atomizer has an atomization chamber and an air suction port communicated with the atomization chamber
  • the atomization host has an air inlet channel communicated with the atomization chamber and an air inlet connected to the atomization chamber.
  • the air inlet connected to the air intake passage, the air intake passage is provided with a positive pressure sensor, and the acquisition of the number of times the user continuously blows air or the time of one continuous blow air includes: obtaining the user's continuous air blowing time through the positive pressure sensor The number of blows or the duration of one blow.
  • the starting method further includes:
  • the electronic atomization device is locked.
  • the electronic atomization device is started by using the above-mentioned method for starting the electronic atomization device, and includes: an atomization host; an atomizer, the atomizer is detachable and The atomization host connection described above.
  • the electronic atomization device of the embodiment of the present application by adopting the above startup method, the number of times the atomizer is continuously inserted into the atomization host is obtained, and the electronic atomizer is started when the number of times the atomizer is continuously inserted into the atomization host is greater than or equal to the first preset number of times.
  • the atomization device wherein the first preset number of times is greater than or equal to 2, so that the atomizer can be continuously inserted into the atomization host to reach the first preset number of times, and the electronic atomization device can be turned on, which can prevent children from accidentally inserting the atomizer into the atomizer
  • the host 1 activates the electronic atomization device to achieve the purpose of preventing false touches.
  • Fig. 1 is a front view of an electronic atomization device according to an embodiment of the present application
  • FIG. 2 is a cross-sectional view of an electronic atomization device according to an embodiment of the present application.
  • Fig. 3 is a cross-sectional view of an electronic atomization device according to an embodiment of the present application, wherein the atomizer and the atomization host are separated;
  • Fig. 4 is a front view of an electronic atomization device according to another embodiment of the present application.
  • FIG. 5 is a cross-sectional view of an electronic atomization device according to another embodiment of the present application.
  • Fig. 6 is a cross-sectional view of an electronic atomization device according to another embodiment of the present application, wherein the atomizer and the atomization host are separated;
  • Fig. 7 is a cross-sectional view of another angle of an electronic atomization device according to another embodiment of the present application, wherein the atomizer Separate from the atomization host;
  • Fig. 8 is a cross-sectional view of an atomization main body of an electronic atomization device according to another embodiment of the present application.
  • Atomization host 11. Atomization main casing; 111. Air intake passage; 112. Intake cavity; 113. Negative pressure channel; 114. Air intake; 115. Insertion cavity; 12. Negative pressure sensor; 13. Positive pressure sensor; 13, circuit board; 14, power supply module; 15, Hall sensor; 16, second electrical connector; 17, bracket; 171, air intake hole; 18, sealing silica gel; 19, baffle;
  • Atomizer 21. Atomizer shell; 22. Atomization component; 23. Oil storage chamber; 24. Atomization chamber; 25. Smoke outlet pipe; 26. Inhalation port; 27. Magnet; 28. A first electrical connector.
  • connection should be understood in a broad sense, for example, it can be a fixed connection or a detachable connection. Connected, or integrally connected; it can be mechanically connected or electrically connected; it can be directly connected or indirectly connected through an intermediary, and it can be the internal communication of two components. Those of ordinary skill in the art can understand the specific meanings of the above terms in this application in specific situations.
  • the electronic atomization device 100 includes an atomization host 1 and an atomizer 2, and the atomizer 2 is detachably arranged on the atomization host 1, wherein the atomizer 2 is pluggably and For the atomization host 1.
  • the atomizer 2 includes an atomizer housing 21 and an atomization assembly 22 arranged in the atomizer housing 21, and the atomizer housing 21 defines a connected oil storage chamber 23 and an atomizer Chamber 24, the atomization assembly 22 is located in the atomization chamber 24, the mist
  • the atomization assembly 22 includes an electric heating element, which is connected to the first electrical connector 28, and a smoke outlet pipe 25 communicating with the atomization chamber 24 is also defined in the atomizer housing 21, and the other end of the smoke outlet pipe 25 forms a An intake opening 26 is formed on the atomizer housing 21 .
  • the main atomizer 1 includes a main atomizer shell 11, a circuit board 13, a power supply module 14 and a second electrical connector 16, the circuit board 13 and the power supply module 14 are both arranged in the main atomizer shell 11, the second electrical connector 16 and The power supply modules 14 are all electrically connected to the circuit board 13 .
  • One end of the atomization host 1 adjacent to the atomizer 2 has an insertion cavity 115, and when the atomizer 2 and the atomization host 1 are assembled, the end of the atomizer 2 adjacent to the atomization host 1 is inserted into the insertion cavity 115, After the atomizer 2 is assembled in place, the second electrical connector 16 in the atomizer host 1 abuts against the first electrical connector 28 in the atomizer 2 to realize electrical connection.
  • the power supply module 14 may be a battery
  • the second electrical connector 16 may be a spring pin.
  • an air inlet chamber 112 is defined between the atomizer host 1 and the atomizer 2, the atomizer chamber 24 communicates with the inlet chamber 112, and an inlet channel 111 is defined in the atomizer host housing 11, and the inlet channel 111 communicates with the atomizer host housing 11
  • the air inlet chamber 112 is in communication, and the atomizer main housing 11 is provided with an air inlet 114 in communication with the air inlet channel 111 .
  • a negative pressure channel 113 communicating with the air intake cavity 112 is also defined in the housing, and a negative pressure sensor 12 is provided in the negative pressure channel 113 , and the negative pressure sensor 12 is connected to the circuit board 13 .
  • the negative pressure sensor 12 detects the negative pressure, controls the electric heating element to heat, and generates smoke. Entering the air intake cavity 112, the gas in the air intake cavity 112 enters the atomization cavity 24 and is inhaled by the user along with the smoke.
  • the starting method of the electronic atomization device 100 includes:
  • Inserting the atomization host 1 in the separated state means that the atomizer 2 is inserted into the atomization host 1 once, and the atomizer 2 is pulled out from the atomization host 1 and then inserted into the atomization host 1 is the second time that the atomizer 2 is inserted into the atomization host 1.
  • the atomizer 2 is inserted into the atomization host 1, and the atomizer 2 is inserted into the atomization host 1 from the state of being separated from the atomization host 1.
  • the number of times that the atomizer 2 is continuously inserted into the atomization host 1 is that the atomizer 2 has no other actions between the multiple insertions into the atomization host 1 .
  • the atomizer 2 When starting the electronic atomization device 100, the atomizer 2 must be continuously inserted into the atomization host 1 for the first preset number of times before the electronic atomization device 100 can be turned on, otherwise the electronic atomization device 100 cannot be turned on, thus preventing children from Mis-touching
  • the atomizer 2 is inserted into the atomization host 1 to activate the electronic atomization device 100, which achieves the purpose of preventing mis-touching.
  • the first preset number of times may be 2, 3 or 4, etc.
  • the start-up method of the electronic atomization device 100 of the embodiment of the present application by obtaining the number of times the atomizer 2 is continuously inserted into the atomization host 1, the number of times the atomizer 2 is continuously inserted into the atomization host 1 is greater than or equal to the first preset number of times start electron
  • the atomization device 100 wherein the first preset number of times is greater than or equal to 2, so that the atomizer 2 is continuously inserted into the atomization host 1 to reach the first preset number of times before the electronic atomization device 100 can be turned on, which can prevent children from accidentally touching the atomizer.
  • the device 2 is inserted into the atomization host 1 to start the electronic atomization device 100, which achieves the purpose of preventing accidental touches.
  • the interval between two adjacent insertions of the atomizer 2 into the atomization host 1 is less than the first preset time. It can be understood that when obtaining the number of times the atomizer 2 is inserted into the atomization host 1, the interval between two adjacent times is less than the first preset time, and the two adjacent insertions of the atomizer 2 are all recorded During the counting, the counting is increased by 2, and when the interval between two adjacent times is greater than or equal to the first preset time, the latter of the two adjacent times needs to start counting from 1 again. In this way, it is possible to better prevent the child from starting the electronic atomization device 100 due to multiple accidental touches for a long period of time when inserting the atomizer 2 into the main atomizer 1 , and better achieve the purpose of preventing false touches.
  • the first preset time may be 1-10s.
  • the first preset time may be 2s, 3s, 4s, 5s, 6s, 7s, 8s or 9s and so on.
  • a magnet 27 is provided on one of the atomization main unit 1 and the atomizer 2, and a Hall sensor 15 is provided on the other to obtain the atomizer 2
  • the number of times the atomizer 2 is continuously inserted into the atomizer host 1 includes: the number of times the atomizer 2 is continuously inserted into the atomizer host 1 is obtained by acquiring the number of times the Hall sensor 15 outputs an electrical signal.
  • the number of times the atomizer 2 is continuously inserted into the atomization host 1 can be acquired simply and conveniently.
  • a Hall sensor 15 can be provided on the atomizing host 1, and the Hall sensor 15 can be arranged on the circuit board 13 and electrically connected to the circuit board 13, and a magnet 27 is provided at the end of the atomizer 2 close to the atomizing host 1. , when the atomizer 2 is inserted into the atomizer host 1, the magnet 27 gradually approaches the Hall sensor 15, resulting in a change in the magnetic field, and the Hall sensor 15 generates an electrical signal. 2 The number of times to insert the atomizer host 1.
  • the Hall sensor 15 is set inside the atomizer main unit 1, and the magnet 27 is set inside the atomizer 2 and is not exposed outside the electronic atomization device 100, thereby achieving a hidden function and a higher level of protection for children.
  • the Hall sensor 15 can be set in the atomizer 2
  • the magnet 27 can be set in the atomizer host 1 , which is not limited here.
  • the atomizer 2 has a first electrical connector 28
  • the atomizer host 1 has a second electrical connection suitable for connecting with the first electrical connector 28 Item 16
  • obtaining the number of times the atomizer 2 is continuously inserted into the atomization host 1 includes: obtaining the number of times the atomizer 2 is continuously inserted into the atomization host 1 by acquiring the number of times the first electrical connector 28 and the second electrical connector 16 are connected frequency.
  • the number of times the atomizer 2 is continuously inserted into the atomization host 1 can be acquired simply and conveniently.
  • the first electrical connector 28 and the second electrical connector 16 abut and can realize electrical connection, thereby generating an electrical signal, and the atomization can be obtained according to the number of times the electrical signal is generated.
  • the number of times the device 2 is continuously inserted into the atomizer host 1 is simple and convenient.
  • the starting method further includes:
  • the user's inhalation time is the time from the user putting the inhalation port 26 into the mouth and starting to inhale to the end of inhalation;
  • the electronic atomization device 100 when the electronic atomization device 100 is started, the number of times the atomizer 2 is continuously inserted into the atomization host 1 is greater than or equal to the first preset number and the user's inhalation time reaches the second preset time. This can increase the complexity of starting the electronic atomization device 100, making it impossible for children to learn, thus making it difficult for children to open it, meeting the requirements of the national standard child lock, and better preventing children from inserting the atomizer 2 due to repeated plugging and unplugging by mistake.
  • the atomization host 1 activates the electronic atomization device 100 to better prevent accidental touches.
  • the second preset time may be 1-5s, for example, the second preset time may be 2s, 3s or 4s.
  • the method for starting the electronic atomization device 100 includes:
  • starting the electronic atomization device 100 after the atomizer 2 has been continuously inserted into the atomization host 1 for the first preset number of times and the user’s inhalation time reaches the second preset time can better prevent children from being Mistouch multiple plugs and unplugs
  • the atomizer 2 is inserted into the atomization main unit 1 to start the electronic atomization device 100, so as to better achieve the purpose of preventing false touches.
  • the atomizer 2 inserts the atomizer 2 into the atomization host 1 for inhalation at last, and insert the atomizer 2 into the atomizer host 1 for the last time and the user inhales.
  • the interval time between is less than the third preset time. This can make the starting action more compact, better achieve the purpose of preventing accidental touches, and prevent children from inserting the atomizer 2 into the atomizer host 1 for several times, and then inhale after a period of time, causing the electronic atomization device 100 to malfunction. start, to better achieve the purpose of preventing false touches.
  • the third preset time is 1-10s, for example, the third preset time may be 2s, 3s, 4s, 5s, 6s, 7s, 8s or 9s and so on.
  • the atomizer 2 has an atomizing chamber 24 and Connected to the inhalation port 26 connected to 24, the atomization main unit 1 has a negative pressure channel 113 that communicates with the atomization chamber 24.
  • the negative pressure channel 113 is provided with a negative pressure sensor 12, and the user's inhalation time is obtained through the negative pressure sensor 12. Specifically, when the user inhales, the negative pressure sensor 12 detects a negative pressure signal, and the negative pressure sensor 12 sends an electrical signal to the circuit board 13. After the user inhales, the negative pressure sensor 12 cannot detect the negative pressure signal.
  • the pressure sensor 12 detects the duration of the negative pressure signal to obtain the user's inhalation time, which is simple and convenient.
  • the air intake channel 111 of the atomization host 1 is provided with a negative pressure sensor 12 for controlling whether the electric heating element works, and the user's inhalation time can be obtained through the negative pressure sensor 12, without adding additional detection components. Help to reduce costs.
  • the user when the user is going to use the electronic atomization device 100, the user inserts the atomizer 2 into the atomization host 1, pulls it out and then inserts it into the atomization host 1, so that the magnet 27 and the Hall sensor 15 produce a relative displacement, so that the Hall sensor 15 Sensing the change of the magnetic field, output an electrical signal to the circuit board 13, and then inhale the atomizer 2 for 2 seconds, and the negative pressure sensor 12 senses the pumping action, thereby outputting an electrical signal to the circuit board 13, and the circuit board 13 judges the ability to work together Start the negative pressure sensor 12 to start the working mode, and the user can take a breath normally at this moment.
  • the starting method before starting the electronic atomization device 100, the starting method further includes:
  • the second preset number of times is 2, 3 or 4, etc.
  • the fourth preset time may be 1-5s, for example, the fourth preset time may be 2s, 3s or 4s.
  • the electronic atomization device 100 can start to carry out normal suction after several times or one continuous air blowing reaches the fourth preset time, which is convenient for the user to operate.
  • the time interval between the last action of inserting the atomizer 2 into the atomizer host 1 and the user's blowing action is less than the fifth preset time. This can make the starting action more compact, better achieve the purpose of preventing accidental touches, and prevent children from inserting the nebulizer 2 into the atomizing host 1 several times in a row, and then blowing air after a period of time to meet the blowing conditions and causing electronic damage.
  • the atomizing device 100 is activated.
  • the fifth preset time is 1-10s, for example, the fifth preset time may be 2s, 3s, 4s, 5s, 6s, 7s, 8s or 9s and so on.
  • the method for starting the electronic atomization device 100 includes:
  • S5 Determine that the number of consecutive blowing times is greater than or equal to the second preset number of times M or the duration of one continuous blowing is greater than or equal to the fourth preset time, wherein M ⁇ 2.
  • Starting the electronic atomization device 100 can better prevent children from starting the electronic atomization device 100 by plugging and unplugging the atomizer 2 into the atomization host 1 for multiple times by mistake, and better achieve the purpose of preventing accidental touch.
  • the atomizer 2 is inserted into the atomizer host 1 and blowing air to the atomizer 2 is performed before acquiring the number of times the atomizer 2 is continuously inserted into the atomizer host 1 .
  • the atomizer 2 is first inserted into the atomization host 1, and air is blown to the suction port 26 of the atomizer 2.
  • Two preset times M or one continuous blowing time is greater than or equal to the fourth preset time, plug and unplug the atomizer 2 from the atomization host 1 for several times, and finally insert it into the atomization host 1, and start the electronic atomization device 100, the user can puff normally.
  • the user can directly inhale normally after putting it in the mouth, which can improve the user experience.
  • the method for starting the electronic atomization device 100 includes:
  • S4 Determine that the number of consecutive blowing times is greater than or equal to the second preset number of times M or the duration of one continuous blowing is greater than or equal to the fourth preset time, wherein M ⁇ 2.
  • Starting the electronic atomization device 100 can better prevent children from starting the electronic atomization device 100 by plugging and unplugging the atomizer 2 into the atomization host 1 for multiple times by mistake, and better achieve the purpose of preventing accidental touch.
  • the time interval between inserting the atomizer 2 into the atomizer host 1 for the first time and the blowing action of the user is less than the sixth preset time. In this way, the electronic atomization device 100 can be prevented from being continuously plugged and unplugged after a period of time after air blowing, and the purpose of preventing accidental touches can be better achieved.
  • the time interval between inserting the atomizer 2 into the atomizer host 1 before the air blowing action and the air blowing action of the user is less than the seventh preset time. This can prevent the electronic atomization device 100 from being activated by blowing air at intervals after a period of time and continuously plugging and unplugging after a period of time after inserting the atomizer 2 , so as to better achieve the purpose of preventing accidental touches.
  • the sixth preset time is 1-10s, for example, the sixth preset time may be 2s, 3s, 4s, 5s, 6s, 7s, 8s or 9s and so on.
  • the seventh preset time is 1-10s, for example, the seventh preset time may be 2s, 3s, 4s, 5s, 6s, 7s, 8s or 9s and so on.
  • the interval between two adjacent air blows is less than the eighth preset time. It can be understood that when obtaining the number of consecutive air blows by the user, the interval between two adjacent air blows is less than the eighth preset time, and the number of adjacent two air air blows is recorded in the count, and the count is added by 2, When the interval between two adjacent times is greater than or equal to the eighth preset time, the latter of the two adjacent times needs to start counting from 1 again. In this way, it is possible to better prevent children from activating the electronic atomization device 100 due to multiple accidental touches and blowing air for a long time, and better achieve the purpose of preventing accidental touches.
  • the eighth preset time may be 1-10s.
  • the eighth preset time may be 2s, 3s, 4s, 5s, 6s, 7s, 8s or 9s and so on.
  • the nebulizer 2 has an atomizing chamber 24 and an air suction port 26 communicating with the atomizing chamber 24, and the atomizing host 1 has an air inlet passage 111 communicating with the atomizing chamber 24 and an air inlet 26 communicating with the atomizing chamber 24.
  • the air inlet 114 connected to the air passage 111, the air inlet passage 111 is provided with a positive pressure sensor 13, and obtaining the number of times the user blows continuously or a continuous blowing time includes: obtaining the number of times the user continuously blows or blowing continuously through the positive pressure sensor 13 One continuous blow time. Specifically, when the user blows air, the positive pressure sensor 13 detects a positive pressure signal.
  • the positive pressure sensor 13 After the user blows air, the positive pressure sensor 13 cannot detect the positive pressure signal, and the positive pressure sensor 13 detects the positive pressure signal. It is simple and convenient to obtain the blowing time of the user, and obtain the number of blowing times of the user through the number of positive pressure signals detected by the positive pressure sensor 13 .
  • the positive pressure sensor 13 It is installed in the atomizing host 1, which has a hidden effect on children and has a higher protection level for children.
  • FIG. 6 there is a bracket 17 inside the atomizer main housing 11 , and an air inlet chamber 112 is defined between the bracket 17 and the atomizer 2 , and an air inlet hole communicating with the air inlet chamber 112 and the air inlet passage 111 is provided on the bracket 17 171 , the positive pressure sensor 13 is arranged in the air intake passage 111 and facing the air intake hole 171 , and there is a sealing silicone 18 between the positive pressure sensor 13 and the bracket 17 .
  • a baffle 19 is disposed inside the intake passage 111 , and the positive pressure sensor 13 is disposed on the baffle 19 .
  • the atomizer 2 when the user is going to use the electronic atomization device 100, insert the atomizer 2 into the atomization host 1, blow air first, set two consecutive air blows or one blow for 2 seconds, pass through the bracket 17, the sealing silicone 18, Arriving at the positive pressure sensor 13, it captures the change in air pressure and converts it into a frequency change, so that the control module of the circuit board 13 can convert and issue instructions, so that the negative pressure sensor 12 is in a standby state; then plug and unplug the atomizer 2, However, after the second electrical connector 16 of the atomizer host 1 senses the plugging action of the atomizer 2, it is transmitted to the circuit board 13, and then transmitted to the negative pressure sensor 12 together with the command sensed by the positive pressure sensor 13, and can only be started by working together. The negative pressure sensor 12 turns on the working mode, at this moment, the user can take a breath normally.
  • the positive pressure sensor 13 and the negative pressure sensor 12 are integrated into one body.
  • the starting method further includes:
  • the ninth preset time is 5-10 minutes, for example, the ninth preset time may be 5 minutes, 6 minutes, 7 minutes, 8 minutes, 9 minutes or 10 minutes.
  • references to the terms “one embodiment,” “some embodiments,” “exemplary embodiments,” “example,” “specific examples,” or “some examples” are intended to mean that the implementation A specific feature, structure, material, or characteristic described by an embodiment or example is included in at least one embodiment or example of the present application.
  • schematic representations of the above terms do not necessarily refer to the same embodiment or example.
  • the specific features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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Abstract

L'invention concerne un procédé de démarrage de dispositif d'atomisation électronique (100) et un dispositif d'atomisation électronique (100). Le dispositif d'atomisation électronique (100) comprend une unité principale d'atomisation (1) et un atomiseur (2). Le procédé de démarrage comprend les étapes consistant à : acquérir le nombre de fois où l'atomiseur (2) est inséré consécutivement dans l'unité principale d'atomisation (1) ; déterminer que le nombre de fois où l'atomiseur (2) est inséré consécutivement dans l'unité principale d'atomisation (1) est supérieur ou égal à un premier nombre prédéfini N, N ≥ 2 ; et démarrer le dispositif d'atomisation électronique (100).
PCT/CN2023/073583 2022-01-27 2023-01-28 Procédé de démarrage de dispositif d'atomisation électronique et dispositif d'atomisation électronique WO2023143523A1 (fr)

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CN202210101083.8 2022-01-27
CN202210101083.8A CN116548679A (zh) 2022-01-27 2022-01-27 电子雾化装置的启动方法及电子雾化装置

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CN (1) CN116548679A (fr)
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