WO2022142982A1 - Boîtier de sortie d'aérosol, support d'atomiseur, ensemble sortie d'aérosol et dispositif d'atomisation électronique - Google Patents

Boîtier de sortie d'aérosol, support d'atomiseur, ensemble sortie d'aérosol et dispositif d'atomisation électronique Download PDF

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Publication number
WO2022142982A1
WO2022142982A1 PCT/CN2021/134850 CN2021134850W WO2022142982A1 WO 2022142982 A1 WO2022142982 A1 WO 2022142982A1 CN 2021134850 W CN2021134850 W CN 2021134850W WO 2022142982 A1 WO2022142982 A1 WO 2022142982A1
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WO
WIPO (PCT)
Prior art keywords
mist outlet
outlet pipe
protrusion
mist
intake end
Prior art date
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PCT/CN2021/134850
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English (en)
Chinese (zh)
Inventor
王慧
徐升阳
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深圳雾芯科技有限公司
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Publication of WO2022142982A1 publication Critical patent/WO2022142982A1/fr

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F47/00Smokers' requisites not otherwise provided for
    • 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
    • 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
    • A24F40/42Cartridges or containers for inhalable precursors
    • 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
    • A24F40/46Shape or structure of electric heating means
    • 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
    • A24F40/90Arrangements or methods specially adapted for charging batteries thereof

Definitions

  • the present application relates to the technical field of electronic atomization equipment, and in particular, to a mist outlet housing, an atomizer bracket, a mist outlet assembly, and an electronic atomization device.
  • small liquid droplets will be formed in the mist outlet channel due to condensation, oil frying, insufficient sealing or siphon, etc., and the small liquid droplets will accumulate in the mist outlet channel due to the liquid tension and cannot be discharged.
  • the small liquid droplets will enter the user's mouth from the mist outlet, or when the electronic atomization device is instantly inverted or shaken upside down, the small liquid droplets will be thrown out from the outlet of the mist outlet, resulting in liquid leakage. .
  • the present application aims to solve at least one of the technical problems existing in the prior art.
  • the present application proposes a mist outlet housing for an electronic atomization device, the mist outlet housing can effectively improve the problem of liquid leakage of the electronic atomization device and the problem of the user inhaling liquid droplets.
  • the present application also proposes an atomizer bracket for an electronic atomization device, the atomizer bracket can effectively improve the problem of liquid leakage of the electronic atomization device and the problem of users inhaling liquid droplets.
  • the present application also proposes a mist discharge assembly for an electronic atomization device, the mist discharge assembly can effectively improve the problem of liquid leakage of the electronic atomization device and the problem of the user inhaling liquid droplets.
  • the present application also proposes an electronic atomization device having the above-mentioned mist discharge assembly.
  • a mist outlet housing for an electronic atomization device, the mist outlet housing includes: a mist outlet pipe and a drainage structure, and the drainage structure is provided on the mist outlet pipe and is suitable for The droplets accumulated at the inlet end of the mist outlet pipe are led out of the mist outlet pipe from the inlet end.
  • the mist outlet housing for an electronic atomization device of the present application According to the mist outlet housing for an electronic atomization device of the present application, the problem of liquid leakage of the electronic atomization device and the problem of users inhaling liquid droplets can be effectively improved.
  • the drainage structure is disposed close to the intake end.
  • the drainage structure includes a first protrusion, and at least part of the first protrusion is located outside the mist outlet pipe and is provided on an end face of the air intake end.
  • At least two first protrusions are arranged along the circumference of the intake end, and there is a first interval between two adjacent first protrusions.
  • the circumferential dimension of at least one of the first spaces is greater than or equal to one quarter of the circumferential dimension of the intake end.
  • the radially inner side surface of the first protrusion is flush with the inner wall of the intake end or inwardly protrudes beyond the inner wall of the intake end.
  • a drainage groove is formed at the connection between the first protrusion and the end face of the intake end, the drainage groove penetrates the radial inner side of the first protrusion, and the drainage groove penetrates the At least one side of the first protrusion along the circumferential direction of the mist outlet pipe, and/or one end of the first protrusion along the axial direction of the mist outlet pipe that is away from the gas outlet end of the mist outlet pipe .
  • the drainage structure includes a second protrusion, and at least part of the second protrusion is disposed in the intake end.
  • At least two second protrusions are arranged along the circumference of the intake end, and there is a second interval between two adjacent second protrusions.
  • the circumferential dimension of at least one of the second spaces is greater than or equal to one quarter of the circumferential dimension of the intake end.
  • an end of the second protrusion away from the air outlet end of the mist outlet pipe is flush with the end face of the air inlet end, or beyond the end face of the air inlet end and away from the air outlet end of the mist outlet pipe side of the outlet end.
  • the drainage structure includes a helical structure disposed on the inner wall of the intake end, the helical structure extending to the end face of the intake end, or beyond the end face of the intake end and away from the The side of the outlet end of the mist outlet pipe.
  • the helical structure is a helical protrusion or a helical groove.
  • the mist outlet casing further includes a casing body, a cavity is formed in the casing body, the mist outlet pipe is arranged in the cavity, the casing body, the mist outlet pipe and
  • the drainage structure is an integral molded part.
  • the electronic atomization device includes a mist outlet pipe
  • the atomizer support includes: a support body and a drainage structure
  • the The bracket body has a mist outlet cavity suitable for being inserted into and communicated with the air inlet end of the mist outlet pipe
  • the drainage structure is arranged on the bracket body and at least partially located in the mist outlet chamber, the drainage structure
  • the liquid droplets accumulated at the intake end are adapted to be led out of the mist outlet pipe from the intake end.
  • the problem of liquid leakage of electronic atomization device and the problem of user inhalation of droplets can be effectively improved.
  • the drainage structure is a third protrusion disposed in the mist outlet chamber, and the third protrusion is suitable for abutting fit and/or clearance fit with the intake end.
  • the number of the third protrusions is at least two and arranged along the circumference of the intake end, and there is a third interval between two adjacent third protrusions.
  • the circumferential dimension of at least one of the third spaces is greater than or equal to one quarter of the circumferential dimension of the intake end.
  • the radially inner side surface of the third protrusion is flush with the inner wall of the intake end or inwardly protrudes beyond the inner wall of the intake end.
  • the third protrusion is adapted to be located at the axial outer side of the end face of the intake end.
  • the third protrusion is suitable for abutting with the intake end, or there is a third gap between at least part of the third protrusion and the end surface of the intake end, and the The third gap penetrates through the radially inner side surface of the third protrusion, and penetrates at least one side of the third protrusion along the circumferential direction of the mist outlet pipe.
  • the third protrusion extends toward the air outlet end of the mist outlet pipe to exceed the end face of the air inlet end.
  • the drainage structure and the stent body are integrally formed.
  • the drainage structure is a drainage needle provided on the bracket body and extending into the intake end.
  • the bracket body includes a guide baffle located on a side of the mist outlet chamber away from the mist outlet pipe, and the drainage needle is provided on the guide baffle.
  • the mist outlet assembly includes: a mist outlet pipe, an atomizer bracket, and a drainage structure
  • the atomizer bracket includes a bracket body
  • the support body has a mist outlet cavity suitable for being inserted into and communicated with the inlet end of the mist outlet pipe
  • the drainage structure is suitable for removing the liquid droplets accumulated at the inlet end from the inlet end. Lead out the mist outlet pipe.
  • the mist discharge assembly for electronic atomization device of the present application the problem of liquid leakage of electronic atomization device and the problem of user inhalation of liquid droplets can be effectively improved.
  • the drainage structure is disposed close to the intake end.
  • the drainage structure is provided on at least one of the mist outlet pipe and the stent body.
  • the drainage structure includes a groove and a fourth protrusion axially inserted into the groove, and a fourth gap is formed between the groove and the fourth protrusion; the One of the groove and the fourth protrusion is arranged in the mist outlet cavity, and the other is arranged in the mist outlet pipe.
  • the fourth protrusion has a first part and a second part in the axial direction, the first part is inserted into the groove, and the dimension of the first part in the circumferential direction is smaller than that of the second part in the circumferential direction Circumferential dimensions.
  • the fourth gap is formed at at least one of the space between the second part and the axial end of the second part close to the first part and the end face of the intake end.
  • the mist outlet casing further includes a casing body, the mist outlet pipe is arranged in the casing body, and the casing body has a liquid storage cavity outside the mist outlet pipe, so
  • the support body has a liquid supply cavity located outside the mist outlet cavity, the liquid storage cavity is communicated with the liquid supply cavity, and the mist outlet assembly further includes an atomizer, and the atomizer is connected to the supply chamber.
  • the liquid chamber and the mist outlet chamber are respectively communicated.
  • the electronic atomization device includes: a body assembly; and a mist discharge assembly, the mist discharge assembly is mounted on the body assembly and is used according to the embodiment of the third aspect of the present application. It is used in the mist discharge component of electronic atomization equipment.
  • the mist discharge assembly for the electronic atomization device according to the third aspect, the problem of liquid leakage of the electronic atomization device and the problem of user inhalation of droplets can be effectively improved.
  • FIG. 1 is a cross-sectional view of a mist outlet housing according to Embodiment 1 of the present application;
  • Figure 2 is a perspective view of the mist output housing shown in Figure 1;
  • FIG. 3 is a cross-sectional view at an angle of the mist outlet housing shown in FIG. 1 used for the mist outlet assembly;
  • FIG. 4 is a cross-sectional view of the mist outlet housing shown in FIG. 1 used in another angle of the mist outlet assembly;
  • FIG. 5 is a schematic diagram of a modified example of the mist output housing shown in FIG. 1;
  • FIG. 6 is a cross-sectional view of the mist outlet housing used for the mist outlet assembly according to the second embodiment of the present application.
  • FIG. 7 is a cross-sectional view of the mist outlet housing used for the mist outlet assembly according to the third embodiment of the present application.
  • FIG. 8 is a cross-sectional view of an angle of the atomizer bracket used for the mist output assembly according to the fourth embodiment of the present application.
  • FIG. 9 is a cross-sectional view of the atomizer bracket shown in FIG. 8 used for another angle of the mist outlet assembly;
  • Fig. 10 is a partial enlarged view of the mist outlet assembly shown in Fig. 9;
  • Figure 11 is a perspective view of the nebulizer holder shown in Figure 8.
  • Figure 12 is a cross-sectional view of the nebulizer holder shown in Figure 11;
  • FIG. 13 is a cross-sectional view of the atomizer bracket used for the mist output assembly according to the fifth embodiment of the present application.
  • Figure 15 is a partial cross-sectional view of the mist evacuation assembly shown in Figure 14 from another angle;
  • Figure 16 is a perspective view of the nebulizer holder shown in Figure 15;
  • Figure 17 is a cross-sectional view of the nebulizer holder shown in Figure 16;
  • FIG. 18 is a cross-sectional view of an electronic atomization device according to Embodiment 7 of the present application.
  • the electronic atomization device as an electronic cigarette as an example
  • the flue gas after the flue gas is generated, it cools in the airway to form small liquid droplets. After accumulation, it slides down to the nozzle under the influence of gravity. Due to the tension of the liquid, the sediment does not fall down at the nozzle. It is brought into the mouth or thrown out of the cartridge, resulting in liquid leakage.
  • fume atomization produces frying oil, condensate or leakage caused by insufficient sealing, which remains in the atomization chamber to form liquid accumulation. The force climbs up to the airway under the negative pressure generated by the suction, and the frying oil is smaller than the aerosol droplets rising with the airflow, which may cause suction leakage.
  • the present application proposes a mist outlet housing 1 , an atomizer bracket 2 , a mist outlet assembly 100 and an electronic atomization device 1000 for an electronic atomization device 1000 , so as to solve the problem of electronic atomization to a certain extent.
  • the specific type of the electronic atomization device 1000 according to the embodiment of the present application is not limited, for example, it may be an electronic cigarette, a medical atomizer 4 or other atomization products.
  • mist discharge housing 1 for the electronic atomization device 1000 according to the embodiment of the present application.
  • the mist outlet housing 1 includes: a mist outlet pipe 11 and a drainage structure 3 .
  • the drainage structure 3 is arranged on the mist outlet pipe 11 and is suitable for removing the liquid droplets accumulated at the air inlet end 111 of the mist outlet pipe 11 .
  • the mist pipe 11 is drawn out from the intake end 111 . In this way, the small liquid droplets accumulated at the inlet end 111 of the mist outlet pipe 11 can be discharged from the inlet end 111 to the outside of the mist outlet pipe 11 under the action of the drainage structure 3 , so that the small liquid droplets can be prevented from being discharged from the mist outlet.
  • the drainage structure 3 is provided on the mist outlet pipe 11 and is suitable for drawing the droplets accumulated at the inlet end 111 of the mist outlet pipe 11 out of the mist outlet pipe 11 from the inlet end 111" as a broad understanding, That is to say, the small liquid droplets deposited at the intake end 111 of the mist outlet pipe 11 can be not only under the action of the drainage structure 3, but also accompanied by the self-gravity action of the small droplets, so that the small droplets can drain from the intake end. 111 is discharged to the outside of the mist outlet pipe 11 .
  • the drainage structure 3 has a guiding function, a tension breaking function, etc., the above-mentioned technical effects can be achieved, so the specific structure of the drainage structure 3 is not limited.
  • the mist outlet casing 1 further includes a casing body 10 , a cavity is formed in the casing body 10 , the mist outlet pipe 11 is arranged in the cavity, the casing body 10 , the mist outlet
  • the tube 11 and the drainage structure 3 are integrally formed. Therefore, there is no need for separate assembly and connection, the processing and manufacturing are convenient, the structural reliability is high, and the structural strength is good, and the housing body 10 can also be used to protect the mist tube 11 .
  • the drainage structure 3 and the mist outlet pipe 11 may also be separate parts that are assembled and connected, such as clamping, screwing, bonding, welding, and the like.
  • the drainage structure 3 is disposed close to the intake end 111 of the mist outlet pipe 11 , that is, the distance between the drainage structure 3 and the air outlet end 112 of the mist outlet pipe 11 It is greater than the distance between the drainage structure 3 and the intake end 111 of the mist outlet pipe 11 . Therefore, the distance between the drainage structure 3 and the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be shortened, so that the drainage structure 3 can better exert the above-mentioned drainage function under the premise of being smaller in size, thereby Processing can be simplified and structural complexity can be reduced.
  • the present application is not limited to this, and the drainage structure 3 can also be provided in the entire mist outlet pipe 11 and extend along the entire length direction of the mist outlet pipe 11 , etc., so as to achieve the function of drainage.
  • the specific structure of the drainage structure 3 is not limited, and the following is an example to introduce respectively.
  • the drainage structure 3 includes a first protrusion 31 , and at least part of the first protrusion 31 is located outside the mist outlet pipe 11 and is provided on the end face of the air inlet end 111 of the mist outlet pipe 11 . That is to say, at least part of the first protrusion 31 is located outside the mist outlet pipe 11 and is connected to the axial end face of the inlet end 111 of the mist outlet pipe 11 , so as not to affect the structure of the mist outlet pipe 11 and facilitate processing.
  • a space (for example, a side wall surface of the first protrusion 31) can be formed between At the first interval S1 shown in FIG. 1 ), the tension of the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be broken by this space, so that the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be broken by this space.
  • the liquid droplets are sucked into the space, and flow out of the mist pipe 11 from the air inlet end 111 of the mist outlet pipe 11 , thus playing a reliable and effective drainage function.
  • first protrusions 31 are arranged along the circumferential direction of the intake end 111 , and there is a first interval S1 between two adjacent first protrusions 31 . Therefore, processing is facilitated, and since the first interval S1 is formed between the adjacent first protrusions 31 and the end face of the intake end 111 , the first interval S1 can better inhale the intake air accumulated in the mist outlet pipe 11 . droplets at the end 111, so that the droplets flow out of the mist pipe 11 from the air inlet end 111 of the mist outlet pipe 11 more effectively, and play a reliable and effective drainage effect.
  • the number of the first protrusions 31 is not limited, and can be set according to actual requirements, such as two, three, four, five and so on.
  • the circumferential dimension of at least one first interval S1 is greater than or equal to a quarter of the circumferential dimension of the intake end 111 of the mist outlet pipe 11 .
  • the circumferential dimension of the first interval S1 can be set It is 0.25 times, 0.3 times, 0.35 times, 0.4 times and so on of the circumferential dimension of the intake end 111 of the mist outlet pipe 11 . Therefore, it can be ensured that the size of the first interval S1 is large enough to more reliably suck in the droplets accumulated at the intake end 111 of the mist outlet pipe 11 , so that the droplets can be more effectively removed from the intake air of the mist outlet pipe 11 .
  • the end 111 flows out of the mist tube 11, which plays a role of reliable and effective drainage.
  • the present application is not limited to this, and the specific size of the first interval S1 can also be specifically set according to actual requirements, which is not limited here.
  • the circumferential dimension of the first interval S1 along the axial direction of the mist outlet pipe 11 can be set in a constant form (ie, a constant cross-sectional structure), a gradual change form, or a form with several sudden changes. It is not limited here.
  • the maximum circumferential dimension of the first interval S1 may be set to be greater than or equal to a quarter of the circumferential dimension of the intake end 111 of the mist outlet pipe 11, so as to ensure that the for reliable and effective drainage.
  • the radially inner side surface of the first protrusion 31 is flush with the inner wall of the intake end 111 or protrudes inwardly (ie, radially inner side) beyond the inner wall of the intake end 111 .
  • the "radial direction” mentioned herein refers to the radial direction of the mist outlet pipe 11
  • the “circumferential direction” refers to the circumferential direction of the mist outlet pipe 11.
  • the mist outlet pipe 11 is not limited to a circular pipe. , it can also be an approximate circular tube or a polygonal section tube, and so on.
  • the radial inner side of the first protrusion 31 may be on the same plane as the inner wall of the intake end 111 of the mist outlet pipe 11 , and a part of the first protrusion 31 may also be along the radial direction of the mist outlet pipe 11 . It protrudes inward beyond the inner wall of the intake end 111 .
  • the radially inner side surface of the first protrusion 31 may also be located on the radially outer side of the inner wall of the intake end 111 .
  • the thickness of the first protrusion 31 in the radial direction of the mist outlet pipe 11 may gradually change, or suddenly change, or remain unchanged along the axial direction of the mist outlet pipe 11; the thickness of the first protrusion 31 may be greater than, or less than or equal to the wall thickness of the mist outlet pipe 11 .
  • the thickness of the first protrusion 31 in the radial direction of the mist outlet pipe 11 is equal to the wall thickness of the mist outlet pipe 11
  • the radial outer side of the first protrusion 31 is the same as the thickness of the mist outlet pipe 11 .
  • the outer wall of the intake end 111 is flush, and the radially inner side surface of the first protrusion 31 is flush with the inner wall of the intake end 111 of the mist outlet pipe 11 .
  • the inner wall of the first protrusion 31 may be a smooth surface, but is not limited thereto.
  • a drainage groove S2 is formed at the connection between the first protrusion 31 and the end surface of the intake end 111 , that is, at least part of the drainage groove S2 is located in the first protrusion
  • the rest of the drainage groove S2 may not be located at the connection between the first protrusion 31 and the end face of the intake end 111 , for example, it may be distributed in any part of the entire first protrusion 31 . Location.
  • the drainage groove S2 penetrates the radial inner side of the first protrusion 31 , and the drainage groove S2 penetrates at least one side of the first protrusion 31 along the circumferential direction of the mist outlet pipe 11 , and/or penetrates the edge of the first protrusion 31 .
  • the axial end of the mist outlet pipe 11 is away from the gas outlet end 112 of the mist outlet pipe 11 . Therefore, the droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be sucked into the drainage groove S2, and flow out of the mist outlet pipe 11 from the intake end 111 of the mist outlet pipe 11 along the drainage groove S2, so as to ensure reliable and safe operation. Effective drainage.
  • the drainage structure 3 includes a second protrusion 32 , and at least a part of the second protrusion 32 is disposed in the intake end 111 of the mist outlet pipe 11 . That is to say, at least part of the second protrusion 32 is located in the mist outlet pipe 11 and is connected to the inner wall of the air inlet end 111 of the mist outlet pipe 11, so as to facilitate processing.
  • the inner wall of the air inlet end 111 of the mist outlet pipe 11 is not connected to the second protrusion 32 and is adjacent to the second protrusion 32, a space can be formed between it and the side wall surface of the second protrusion 32 (for example, At the second interval S3 described later), the tension of the droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be destroyed by this space, so that the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 The liquid droplets are sucked into the space, and flow out of the mist pipe 11 from the air inlet end 111 of the mist outlet pipe 11 , thereby playing a reliable and effective drainage function.
  • the second protrusions 32 are arranged along the circumferential direction of the intake end 111 , and there is a second interval S3 between two adjacent second protrusions 32 . Therefore, processing is convenient, and since the second space S3 is formed between the adjacent second protrusions 32 and the inner wall of the air inlet end 111 , the second space S3 can better inhale the air accumulated in the mist outlet pipe 11 . droplets at the end 111, so that the droplets flow out of the mist pipe 11 from the air inlet end 111 of the mist outlet pipe 11 more effectively, and play a reliable and effective drainage effect. It should be noted that the number of the second protrusions 32 is not limited, and can be set according to actual requirements, such as two, three, four, five and so on.
  • the circumferential dimension of at least one second interval S3 is greater than or equal to a quarter of the circumferential dimension of the intake end 111 .
  • the circumferential dimension of the second interval S3 may be set to the mist outlet pipe 11 . 0.25 times, 0.3 times, 0.35 times, 0.4 times, and so on, of the circumferential dimension of the intake end 111 . Therefore, it can be ensured that the size of the second interval S3 is large enough to more reliably suck in the droplets accumulated at the intake end 111 of the mist outlet pipe 11 , so that the droplets can be more effectively removed from the intake air of the mist outlet pipe 11 .
  • the end 111 flows out of the mist tube 11, which plays a role of reliable and effective drainage.
  • the present application is not limited to this, and the specific size of the second interval S3 can also be specifically set according to actual requirements, which is not limited here.
  • the circumferential dimension of the second interval S3 along the axial direction of the mist outlet pipe 11 can be set in a constant form (ie, a constant cross-sectional structure), a gradual change form, or a form with several sudden changes. It is not limited here.
  • the maximum circumferential dimension of the second interval S3 can be set to be greater than or equal to a quarter of the circumferential dimension of the intake end 111 of the mist outlet pipe 11, so as to ensure that the for reliable and effective drainage.
  • the end of the second protrusion 32 away from the air outlet end 112 of the mist outlet pipe 11 is flush with the end face of the air inlet end 111 , or is beyond the end face of the air inlet end 111 and away from the air outlet end of the mist outlet pipe 11 . side of end 112.
  • the “axial direction” described herein refers to the axial direction of the mist outlet pipe 11 .
  • the end face of the second protrusion 32 away from the air outlet end 112 of the mist outlet pipe 11 may be on the same plane as the end face of the air inlet end 111 of the mist outlet pipe 11, and the second protrusion 32 may also have A part extends along the axial direction of the mist outlet pipe 11 to beyond the end face of the intake end 111 to be located outside the mist outlet pipe 11 .
  • a more effective drainage effect can be achieved.
  • the radial thickness of the second protrusions 32 can be set in a constant form (ie, an equal thickness structure), a gradual change form, or a form with several sudden changes along the axial direction of the mist outlet pipe 11 .
  • the radially inner side surface of the second protrusion 32 may be a smooth surface, or an uneven surface, such as a sawtooth surface, and the like.
  • the air intake end 111 of the air outlet flows out of the mist pipe 11, which plays a reliable and effective role in drainage.
  • the second protrusion 32 may have a second gap S4 , the second gap S4 runs through both ends of the second protrusion 32 along the axial direction of the mist outlet pipe 11 .
  • the second protrusion 32 and between the second protrusion 32 and the inner wall of the mist outlet pipe 11 may not have the above-mentioned second gap S4.
  • the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be sucked into the second gap S4, and flow out of the mist pipe 11 from the intake end 111 of the mist outlet pipe 11 along the second gap S4, so that the Reliable and effective drainage.
  • the drainage structure 3 includes a helical structure 33 disposed on the inner wall of the intake end 111 , and the helical structure 33 extends to the end face of the intake end 111 , or beyond the end face of the intake end 111 and away from the mist outlet pipe
  • the helical structure 33 is a helical protrusion or a helical groove
  • the spiral protrusion can extend to the end face of the intake end 111, or beyond
  • the spiral structure 33 is a spiral groove
  • the spiral groove can extend to the end face of the air inlet end 111 .
  • the tension of the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be destroyed by the helical structure 33, so that the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be destroyed by the tension force. It can flow along the helical structure 33 , so that the mist pipe 11 flows out from the air inlet end 111 of the mist outlet pipe 11 , and plays a role of reliable and effective drainage.
  • the electronic atomization device 1000 includes a mist outlet pipe 11
  • the atomizer bracket 2 includes a bracket body 20 and a drainage structure 3
  • the bracket body 20 has an air intake end suitable for being connected to the mist outlet pipe 11 .
  • 111 is inserted into and communicated with the mist outlet chamber 21
  • the drainage structure 3 is provided on the bracket body 20 and is suitable for drawing the liquid droplets accumulated at the inlet end 111 of the mist outlet pipe 11 out of the mist pipe 11 from the inlet end 111 .
  • the small liquid droplets accumulated at the inlet end 111 of the mist outlet pipe 11 can be discharged from the inlet end 111 to the outside of the mist outlet pipe 11 under the action of the drainage structure 3, for example, into the mist outlet chamber 21, Therefore, the problem of small liquid droplets being sucked out or leaking from the air outlet 112 of the mist outlet pipe 11 can be avoided, thereby improving the liquid leakage problem of the electronic atomization device 1000 to a certain extent, and the user can remove the small liquid in the mist outlet pipe 11 to a certain extent. Problems with beads being sucked into the mouth.
  • the drainage structure 3 is provided on the bracket body 20 and is suitable for drawing the droplets accumulated at the intake end 111 of the mist outlet pipe 11 out of the mist pipe 11 from the intake end 111" as a broad understanding, and also That is to say, the small liquid droplets deposited at the inlet end 111 of the mist outlet pipe 11 can be not only under the action of the drainage structure 3, but also accompanied by the self-gravity action of the small droplets, so that the small droplets can drain from the air inlet end 111. It is discharged to the mist outlet chamber 21 .
  • the drainage structure 3 has a guiding function, a tension breaking function, etc., the above-mentioned technical effects can be achieved, so the specific structure of the drainage structure 3 is not limited.
  • the drainage structure 3 is located in the mist outlet cavity 21 , so that the drainage structure 3 can be disposed close to the intake end 111 of the mist outlet pipe 11 . That is to say, the distance between the drainage structure 3 and the air outlet end 112 of the mist outlet pipe 11 is greater than the distance between the drainage structure 3 and the air inlet end 111 of the mist outlet pipe 11 . Therefore, the distance between the drainage structure 3 and the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be shortened, so that the drainage structure 3 can better exert the above-mentioned drainage function under the premise of being smaller in size, thereby Processing can be simplified and structural complexity can be reduced.
  • the drainage structure 3 and the stent body 20 are integrally formed. Therefore, there is no need for separate assembly and connection, the processing and manufacturing are convenient, and the structural reliability is high and the structural strength is good.
  • the present application is not limited to this.
  • the drainage structure 3 and the bracket body 20 may also be separate parts and assembled and connected, such as snap connection, screw connection, bonding, welding and so on.
  • the specific structure of the drainage structure 3 is not limited, and the following is an example to introduce respectively.
  • the drainage structure 3 is the third protrusion 34 provided on the mist outlet chamber 21 , that is, the third protrusion 34 is provided on the inner wall of the mist outlet chamber 21 , wherein the third protrusion
  • the protrusion 34 is suitable for abutting fit and/or clearance fit with the intake end 111 of the mist outlet pipe 11 , that is to say, the third protrusion 34 and the intake end 111 of the mist outlet pipe 11 may be in abutment fit; or It is a clearance fit; it can also be a clearance fit and abutment fit.
  • the third protrusion 34 can be used to cooperate with the air inlet end 111 to make the droplets accumulated at the air inlet end 111 of the mist outlet pipe 11 flow out of the mist outlet pipe 11 from the air inlet end 111 of the mist outlet pipe 11 . Play a reliable and effective drainage role.
  • the third protrusion 34 is adapted to be located at the axial outer side of the end face of the intake end 111 of the mist outlet pipe 11 , that is, the third protrusion 34 does not protrude into the intake end 111 , nor does it fit into the peripheral wall of the intake end 111 .
  • the assembly of the mist outlet pipe 11 and the atomizer bracket 2 is facilitated.
  • the cooperation between the third protrusion 34 and the air inlet end 111 can be used to make the droplets accumulated at the air inlet end 111 of the mist outlet pipe 11 flow out of the mist outlet pipe 11 from the air inlet end 111 of the mist outlet pipe 11 . for reliable and effective drainage.
  • the third protrusion 34 is suitable for entering the mist outlet pipe 11
  • the end face of the gas end 111 abuts and fits.
  • the third protrusion 34 may only abut and fit with the end face of the air inlet end 111 of the mist outlet pipe 11 , and there is no fitting gap with the end face of the air inlet end 111 .
  • a part of the third protrusion 34 may also be in abutting fit with the end face of the intake end 111 , and another part in clearance fit with the end face of the intake end 111 .
  • the space around the abutting and fitting position and the position of the clearance fit can be used to break the tension of the droplets accumulated at the intake end 111 , so as to inhale the droplets and accumulate at the intake end 111 of the mist outlet pipe 11 .
  • the liquid droplets flow out of the mist pipe 11 from the intake end 111 of the mist outlet pipe 11, and play a reliable and effective drainage role.
  • the third protrusion 34 is located at the axial outer side of the end face of the intake end 111 of the mist outlet pipe 11, in other specific examples, as shown in FIG. 10 , at least part of the third protrusion 34 is connected to the intake air.
  • the third gap S6 penetrates the radially inner side surface of the third protrusion 34 and penetrates at least one side of the third protrusion 34 along the circumferential direction of the mist outlet pipe 11 .
  • the droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be sucked into the third gap S6, and flow out of the mist pipe 11 from the intake end 111 of the mist outlet pipe 11 along the third gap S6, so that the Reliable and effective drainage.
  • the gap between the mist pipe 11 and the atomizer bracket 2 can be defined by the gap between the mist pipe 11 and the atomizer bracket 2.
  • the end face of the third protrusion 34 facing the mist outlet pipe 11 can be processed to be non-planar. For example, extending from the middle to both sides away from the mist outlet pipe 11, or processing the end face of the air inlet end 111 of the mist outlet pipe 11 to be non-planar, etc., can ensure both abutment and clearance fit.
  • the third protrusion 34 may also be at least partially in clearance fit with the rest of the intake end 111 , for example, the third protrusion 34 extends toward the air outlet end 112 of the mist outlet pipe 11 to exceed the intake end 111, at this time, the third protrusion 34 can be located in the lumen of the mist outlet pipe 11 or in the peripheral wall of the mist outlet pipe 11.
  • the peripheral wall of the air inlet end 111 has a groove 36, The three protrusions 34 are inserted into the grooves 36 and fit with the grooves 36 in a clearance fit.
  • the third protrusions 34 are the same as the fourth protrusions 37 in the sixth embodiment. Therefore, the position of the clearance fit can also be used to destroy the accumulation.
  • the tension of the droplets at the inlet end 111 is used to inhale the droplets, so that the droplets accumulated at the inlet end 111 of the mist outlet pipe 11 flow out of the mist outlet pipe 11 from the inlet end 111 of the mist outlet pipe 11, starting from for reliable and effective drainage.
  • the third protrusions 34 are arranged along the circumferential direction of the intake end 111 , and there is a third interval S5 between two adjacent third protrusions 34 . Therefore, processing is convenient, and since the third space S5 is formed between the adjacent third protrusions 34, the third space S5 can better inhale the droplets accumulated at the air intake end 111 of the mist outlet pipe 11, In order to make the liquid droplets flow out of the mist pipe 11 from the air inlet end 111 of the mist outlet pipe 11 more effectively, the effect of reliable and effective drainage is achieved. It should be noted that the number of the third protrusions 34 is not limited, and can be set according to actual requirements, such as two, three, four, five and so on.
  • the circumferential dimension of the at least one third interval S5 is greater than or equal to a quarter of the circumferential dimension of the intake end 111 .
  • the circumferential size of the third interval S5 may be set to be 0.25 times, 0.3 times, 0.35 times, 0.4 times, etc., of the circumferential size of the intake end 111 of the mist outlet pipe 11 . Therefore, it can be ensured that the size of the third interval S5 is large enough to more reliably inhale the droplets accumulated at the intake end 111 of the mist outlet pipe 11 , so that the droplets can be more effectively removed from the intake air of the mist outlet pipe 11 .
  • the end 111 flows out of the mist tube 11, which plays a role of reliable and effective drainage.
  • the present application is not limited to this, and the specific size of the third interval S5 can also be specifically set according to actual requirements, which is not limited here.
  • the circumferential dimension of the third interval S5 along the axial direction of the mist outlet pipe 11 can be set in a constant form (ie, a constant cross-sectional structure), a gradual change form, or a form with several sudden changes. It is not limited here.
  • the maximum circumferential dimension of the third interval S5 may be set to be greater than or equal to a quarter of the circumferential dimension of the intake end 111 of the mist outlet pipe 11, so as to ensure that the for reliable and effective drainage.
  • the radially inner side surface of the third protrusion 34 is flush with the inner wall of the intake end 111 or protrudes inwardly (i.e., radially inner side) beyond the inner wall of the intake end 111 .
  • the “radial direction” mentioned herein refers to the radial direction of the mist outlet pipe 11 . That is to say, the radial inner side of the third protrusion 34 may be on the same plane as the inner wall of the intake end 111 of the mist outlet pipe 11 , and a part of the third protrusion 34 may also be along the radial direction of the mist outlet pipe 11 . It protrudes inward beyond the inner wall of the intake end 111 .
  • the present application is not limited thereto, and in other embodiments of the present application, the radially inner side surface of the third protrusion 34 may also be located on the radially outer side of the inner wall of the intake end 111 .
  • the thickness of the third protrusion 34 in the radial direction of the mist outlet pipe 11 may gradually change, or suddenly change, or remain unchanged along the axial direction of the mist outlet pipe 11; the thickness of the third protrusion 34 may be greater than, or less than or equal to the wall thickness of the mist outlet pipe 11 . These are not limited.
  • the bracket body 20 includes a guide baffle 23 located on the side of the mist outlet chamber 21 away from the mist outlet pipe 11 , and the guide baffle 23 has a first perpendicular to each other.
  • the atomizer 4 is located on the side of the guide baffle 23 away from the mist outlet pipe 11 , and the mist generated by the atomizer 4 crosses the two sides of the guide baffle 23 in the first direction.
  • the side side enters the mist outlet chamber 21, and then enters the mist outlet pipe 11 through the mist outlet chamber 21.
  • Each cavity side wall 24 is provided with a first third protrusion 34 on each cavity side wall 24 respectively.
  • the drainage structure 3 is a drainage needle 35 disposed on the bracket body 20 and extending into the intake end 111 . Therefore, it can also play the role of breaking the tension of the liquid droplets accumulated in the intake end 111 , and introduce the liquid droplets into the mist chamber 21 .
  • the bracket body 20 includes a guide baffle 23 located on the side of the mist outlet chamber 21 away from the mist outlet pipe 11 , and the drainage needle 35 is provided on the guide baffle twenty three. Therefore, on the one hand, the drainage needle 35 is fixed, so that the drainage needle 35 can extend into the lumen of the mist tube 11 , and on the other hand, the drainage needle 35 can absorb the heat radiation of the atomizer 4 and be connected with the inside of the mist outlet tube 11 . A large temperature difference is maintained, thereby destroying the tension sealing phenomenon of the condensate in the intake end 111 , so that the tension of the droplets at the intake end 111 is destroyed and flows into the mist chamber 21 .
  • the atomizer 4 is located on the side of the deflector baffle 23 away from the mist outlet pipe 11, and the mist generated by the atomizer 4 crosses the two sides of the deflector baffle 23 into the mist outlet chamber 21, and then passes through the mist outlet 21.
  • the mist outlet chamber 21 enters the mist outlet pipe 11 .
  • the drainage needle 35 can be a metal piece, such as a nail, and extends into and out of the mist tube 11 by about 3mm-4mm.
  • One end of the nail has a disc-shaped cup head and is located on the deflector baffle 23, which can absorb the mist 4, such as the heat radiation of the heating wire, so that the temperature of the nail and the temperature in the mist outlet pipe 11 are very different, thereby destroying the tension sealing phenomenon of the condensate, so that the tension of the droplet at the intake end 111 is destroyed.
  • Mist chamber 21 can be a metal piece, such as a nail, and extends into and out of the mist tube 11 by about 3mm-4mm.
  • One end of the nail has a disc-shaped cup head and is located on the deflector baffle 23, which can absorb the mist 4, such as the heat radiation of the heating wire, so that the temperature of the nail and the temperature in the mist outlet pipe 11 are very different, thereby destroying the tension sealing phenomenon of the condensate, so that the tension of
  • the mist outlet assembly 100 includes: a mist outlet pipe 11 , an atomizer bracket 2 , and a drainage structure 3 .
  • the atomizer bracket 2 includes a bracket body 20 , and the bracket body 20 has a structure suitable for The inlet end 111 of the mist pipe 11 is inserted into and communicated with the mist outlet chamber 21 , and the drainage structure 3 is suitable for drawing the droplets accumulated at the inlet end 111 of the mist outlet pipe 11 out of the mist pipe 11 from the inlet end 111 .
  • the small liquid droplets accumulated at the inlet end 111 of the mist outlet pipe 11 can be discharged from the inlet end 111 to the outside of the mist outlet pipe 11 under the action of the drainage structure 3, for example, into the mist outlet chamber 21, Therefore, the problem of small liquid droplets being sucked out or leaking from the air outlet 112 of the mist outlet pipe 11 can be avoided, thereby improving the liquid leakage problem of the electronic atomization device 1000 to a certain extent, and the user can remove the small liquid in the mist outlet pipe 11 to a certain extent. Problems with beads being sucked into the mouth.
  • the drainage structure 3 is suitable for drawing the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 out of the mist pipe 11 from the intake end 111" as a broad understanding, that is to say, the accumulation at the mist outlet
  • the small liquid droplets at the air inlet end 111 of the pipe 11 can be discharged from the air inlet end 111 to the mist outlet chamber 21 not only under the action of the drainage structure 3, but also accompanied by the self-gravity action of the small droplets.
  • the drainage structure 3 has a guiding function, a tension breaking function, etc., the above-mentioned technical effects can be achieved, so the specific structure of the drainage structure 3 is not limited.
  • the drainage structure 3 is disposed near the intake end 111 of the mist outlet pipe 11 . That is to say, the distance between the drainage structure 3 and the air outlet end 112 of the mist outlet pipe 11 is greater than the distance between the drainage structure 3 and the air inlet end 111 of the mist outlet pipe 11 . Therefore, the distance between the drainage structure 3 and the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 can be shortened, so that the drainage structure 3 can better exert the above-mentioned drainage function under the premise of being smaller in size, thereby Processing can be simplified and structural complexity can be reduced.
  • the present application is not limited to this, and the drainage structure 3 can also be provided in the entire mist outlet pipe 11 and extend along the entire length direction of the mist outlet pipe 11 , etc., so as to achieve the function of drainage.
  • the drainage structure 3 is provided on at least one of the mist outlet pipe 11 and the bracket body 20 . That is to say, the drainage structure 3 can be only provided on the mist outlet pipe 11 (for example, the above-mentioned first embodiment to the third embodiment); it can also be only provided on the bracket body 20 (for example, the above-mentioned embodiment four to the fifth embodiment); or A part may be provided on the mist outlet pipe 11, and the rest may be provided on the bracket body 20 (for example, the sixth embodiment described below). Thus, it can meet different actual needs. For example, when the drainage structure 3 is only provided on the mist outlet pipe 11, the existing atomizer bracket can be used.
  • the existing mist outlet housing can be used, thereby reducing the cost to a certain extent.
  • the droplet discharge effect can be improved.
  • the mist outlet casing 1 further includes a casing body 10 , the mist outlet pipe 11 is arranged in the casing body 10 , and the casing body 10 has a mist outlet outside the mist outlet pipe 11 .
  • the liquid storage chamber 12, the support body 20 has a liquid supply chamber 22 located outside the mist outlet chamber 21, the liquid storage chamber 12 is communicated with the liquid supply chamber 22, and the mist outlet assembly 100 also includes an atomizer 4, and the atomizer 4 is connected to the supply chamber 22.
  • the liquid chamber 22 and the mist outlet chamber 21 are communicated respectively. Therefore, the liquid in the liquid storage chamber 12 can flow to the atomizer 4 through the liquid supply chamber 22 (for example, the hollow arrow in FIG.
  • the atomized mist can flow out through the mist outlet chamber 21 to the atomizer 4 . into the mist outlet pipe 11, and then discharged to the outside of the mist outlet housing 1 through the gas outlet end 112 of the mist outlet pipe 11 (for example, the hollow arrow in FIG. 15 indicates the mist flow direction).
  • the atomizer 4 may include components such as an atomization cavity 41 , a heating element 43 , and an air intake channel 42 , which will not be repeated here.
  • the mist outlet assembly 100 may further include a base 5, a sealing cover 7, etc., the atomizer 4 is fixedly installed between the base 5 and the atomizer bracket 2, and the sealing cover 7 is sealed in the mist
  • the base 5 may have a The air inlet 51 that communicates with the air inlet passage 42 of the atomizer 4, and the electrical connection member 6 that is electrically connected to the heating member 43, etc., are not limited here.
  • the specific structure of the drainage structure 3 is not limited, and an example is introduced below.
  • the drainage structure 3 includes a groove 36 and a fourth protrusion 37 inserted in the groove 36 in the axial direction, and there is a fourth gap S7 between the groove 36 and the fourth protrusion 37;
  • One of the groove 36 and the fourth protrusion 37 is arranged in the mist outlet chamber 21 , and the other is arranged in the mist outlet pipe 11 .
  • FIG. 14 shows an example in which the groove 36 is provided on the mist outlet pipe 11, and the fourth protrusion 37 is provided on the inner wall of the mist outlet chamber 21, so that the fourth gap S7 can be used to destroy the inlet and outlet accumulated in the mist outlet pipe 11.
  • the tension of the droplets at the gas end 111 is used to suck the droplets into the fourth gap S7, and then flow into the mist outlet chamber 21 along the fourth protrusion 37, so that the liquid accumulated at the inlet end 111 of the mist outlet pipe 11
  • the droplets flow out of the mist outlet pipe 11 from the air inlet end 111 of the mist outlet pipe 11 , and play a role of reliable and effective drainage.
  • the fourth protrusion 37 is provided in the mist outlet pipe 11
  • the case where the groove 36 is provided in the mist outlet chamber 21 is also similar, which will not be repeated here.
  • the fourth protrusion 37 has a first part 371 and a second part 372 in the axial direction, the first part 371 is inserted into the groove 36 , and the size of the first part 371 in the circumferential direction is smaller than that of the second part 372 along the circumference Circumferential dimension, so that the fourth gap S7 can be formed.
  • the fourth gap S7 between the first part 371 and the groove 36 can be used to draw the liquid droplets accumulated at the intake end 111 of the mist outlet pipe 11 out of the intake end 111;
  • the second portion 372 leads the droplets drawn from the air inlet 111 into the mist chamber 21 more reliably, and the fourth protrusion 37 has high structural reliability and can stably guide the droplets to flow.
  • the fourth gap S7 is formed at at least one of the axial ends of the portion 372 close to the first portion 371 and the end surface of the intake end 111 . Therefore, the fourth gap S7 is easily formed, and better effects of tension breaking and drainage can be ensured.
  • the thickness of the first portion 371 in the radial direction of the mist outlet pipe 11 may be greater than, equal to, or smaller than the thickness of the second portion 372 in the radial direction of the mist outlet pipe 11 , so as to meet different practical needs.
  • the size of the drainage groove S2, the second gap S4, the third gap S6, and the fourth gap S7 described herein are not limited, for example, they can be 0.2mm-0.3mm, so that the siphon action can be used to destroy them reliably.
  • the droplet tension is used to draw the droplets at the intake end 111 out of the mist pipe 11 from the intake end 111 .
  • the radially inner side surface of the fourth protrusion 37 is flush with the inner wall of the intake end 111 or protrudes inwardly (ie, radially inner side) beyond the inner wall of the intake end 111 .
  • the “radial direction” mentioned herein refers to the radial direction of the mist outlet pipe 11 . That is to say, the radial inner side of the fourth protrusion 37 may be on the same plane as the inner wall of the intake end 111 of the mist outlet pipe 11 , and a part of the fourth protrusion 37 may also be along the radial direction of the mist outlet pipe 11 . It protrudes inward beyond the inner wall of the intake end 111 .
  • the present application is not limited thereto, and in other embodiments of the present application, the radially inner side surface of the fourth protrusion 37 may also be located on the radially outer side of the inner wall of the intake end 111 .
  • the thickness of the fourth protrusion 37 in the radial direction of the mist outlet pipe 11 may gradually change, or suddenly change, or remain unchanged along the axial direction of the mist outlet pipe 11 ;
  • the thickness of the four protrusions 37 may be greater than, or less than, or equal to the wall thickness of the mist outlet pipe 11 .
  • the electronic atomization device 1000 may include: a body assembly 200 and a mist discharge assembly 100 .
  • the mist discharge assembly 100 is installed on the body assembly 200 and is an electronic atomization device according to any one of the present application. 1000 of the mist out assembly 100.
  • the body assembly 200 can be used to set control switches, electronic control devices, power supply devices 91, induction devices 92, etc., thereby reducing the structural complexity of the fogging assembly 100, and the body assembly 200 can be used to facilitate hand-held use by users.
  • the body assembly 200 and the mist outlet assembly 100 can be detachably connected, so as to meet the requirement of the user to replace the mist outlet assembly 100 and use one body assembly 200 all the time, thereby reducing the usage cost of the user.
  • the present application is not limited to this, and in other embodiments, the fuselage assembly 200 and the mist outlet assembly 100 may also be fixedly connected.
  • the body assembly 200 when the body assembly 200 includes an electronic control device, a power supply device 91, etc., after the body assembly 200 and the mist outlet assembly 100 are assembled in place, the body assembly 200 can be combined with the atomizer in the mist outlet assembly 100.
  • the atomizer 4 is electrically connected, for example, it can be connected through contacts, so that the power supply device 91 can supply power and control to the atomizer 4 .
  • the fuselage assembly 200 may include an exterior casing, that is, the fuselage casing 8 , and the fuselage casing 8 may have an air intake through hole 81 , and the fuselage assembly 200 is assembled with the mist outlet assembly 100 . After being in place, the air inlet through hole 81 can communicate with the air inlet 51 on the base 5 in the mist outlet assembly 100 , so as to meet the air intake requirement of the atomizer 4 .
  • the specific structure of the electronic atomization device 1000 is not limited, and an example is introduced below.
  • the electronic atomizing device 1000 is an electronic cigarette
  • the body assembly 200 is a cigarette rod, and includes a body casing 8
  • the body casing 8 has a power supply device 91 , an induction device 92 and The electronic control device
  • the power supply device 91 can be a rechargeable battery
  • the sensing device 92 is a microphone device.
  • the microphone device can sense the user's action to notify the electronic control device to start the atomizer 4
  • the smoke is supplied from the mist outlet pipe 11 to the outside.

Abstract

L'invention concerne un boîtier de sortie d'aérosol (1), un support d'atomiseur (2), un ensemble sortie d'aérosol (100), et un dispositif d'atomisation électronique (1000). Le boîtier de sortie d'aérosol comprend : un tuyau de sortie d'aérosol (11) et une structure de guidage d'écoulement (3). La structure de guidage d'écoulement (3) est disposée sur le tuyau de sortie d'aérosol et est appropriée pour guider des gouttes de liquide accumulées au niveau d'une extrémité d'entrée d'air (111) du tuyau de sortie d'aérosol hors du tuyau de sortie d'aérosol à partir de l'extrémité d'entrée d'air.
PCT/CN2021/134850 2020-12-31 2021-12-01 Boîtier de sortie d'aérosol, support d'atomiseur, ensemble sortie d'aérosol et dispositif d'atomisation électronique WO2022142982A1 (fr)

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CN202011627799.9 2020-12-31
CN202011627799.9A CN114680380A (zh) 2020-12-31 2020-12-31 出雾壳体、雾化器支架、出雾组件以及电子雾化设备

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WO2018019051A1 (fr) * 2016-07-29 2018-02-01 林光榕 Atomiseur de cigarette électronique
CN207040877U (zh) * 2017-05-26 2018-02-27 深圳市合元科技有限公司 具有防污结构的电子烟雾化器以及电子烟
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CN110301673A (zh) * 2018-08-17 2019-10-08 深圳雾芯科技有限公司 一种雾化装置及其电子烟
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CN111213912A (zh) * 2020-02-18 2020-06-02 桐乡清锋科技有限公司 一种电子烟用无铅超声雾化器
CN210695958U (zh) * 2019-08-30 2020-06-09 深圳映卓科技有限公司 一种电子烟雾化器的冷凝液回收结构
CN210869890U (zh) * 2019-08-27 2020-06-30 广州市奇雾科技文化发展有限公司 具有防漏液功能的电子雾化器
CN214759115U (zh) * 2020-12-31 2021-11-19 深圳雾芯科技有限公司 出雾壳体、雾化器支架、出雾组件以及电子雾化设备

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018019051A1 (fr) * 2016-07-29 2018-02-01 林光榕 Atomiseur de cigarette électronique
CN207040877U (zh) * 2017-05-26 2018-02-27 深圳市合元科技有限公司 具有防污结构的电子烟雾化器以及电子烟
CN110301673A (zh) * 2018-08-17 2019-10-08 深圳雾芯科技有限公司 一种雾化装置及其电子烟
CN208909137U (zh) * 2018-09-25 2019-05-31 深圳雾芯科技有限公司 一种电子烟雾化装置及电子烟
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CN111213912A (zh) * 2020-02-18 2020-06-02 桐乡清锋科技有限公司 一种电子烟用无铅超声雾化器
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