WO2021097646A1 - Dispositif d'atomisation - Google Patents

Dispositif d'atomisation Download PDF

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Publication number
WO2021097646A1
WO2021097646A1 PCT/CN2019/119358 CN2019119358W WO2021097646A1 WO 2021097646 A1 WO2021097646 A1 WO 2021097646A1 CN 2019119358 W CN2019119358 W CN 2019119358W WO 2021097646 A1 WO2021097646 A1 WO 2021097646A1
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WO
WIPO (PCT)
Prior art keywords
opening
groove
bracket
heating element
channel
Prior art date
Application number
PCT/CN2019/119358
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English (en)
Chinese (zh)
Inventor
付尧
阳祖刚
陶兴明
张金
冯舒婷
Original Assignee
深圳雾芯科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
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
Priority to PCT/CN2019/119358 priority Critical patent/WO2021097646A1/fr
Publication of WO2021097646A1 publication Critical patent/WO2021097646A1/fr

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F47/00Smokers' requisites not otherwise provided for

Definitions

  • the present disclosure generally relates to a vaporization device, and in particular, to an electronic device that provides an aerosol.
  • an electronic cigarette is an electronic product that heats and atomizes a vaporizable solution and generates an aerosol for users to inhale.
  • an electronic cigarette product includes a casing, an oil storage chamber, an atomization chamber, a heating component, an air inlet, an air flow channel, an air outlet, a power supply device, a sensing device, and a control device.
  • the oil storage chamber is used to store vaporizable solution
  • the heating component is used to heat and atomize the vaporizable solution and generate aerosol.
  • the air inlet and the atomizing chamber communicate with each other, and provide air to the heating assembly when the user inhales.
  • the aerosol generated by the heating element is first generated in the atomization chamber, and then inhaled by the user through the air flow channel and the air outlet.
  • the power supply device provides the power required by the heating element, and the control device controls the heating time of the heating element according to the user's inhalation action detected by the sensing device.
  • the outer shell covers the above-mentioned components.
  • Existing electronic cigarette products can use sensors to detect the user's inhalation action.
  • the sensor In order to detect the airflow, the sensor has a part communicating with the airflow channel. Vaporizable solution or condensed liquid may infiltrate the part where the sensor communicates with the airflow channel during use by the user, and cause the sensor to malfunction or fail.
  • the existing electronic cigarette products do not consider the pressure balance of the oil storage chamber.
  • the oil storage chamber is generally designed to be completely sealed to prevent the vaporizable solution from overflowing.
  • the vaporizable solution in the oil storage chamber is continuously consumed and reduced, so that the pressure in the oil storage chamber becomes smaller and a negative pressure is formed.
  • the negative pressure makes it difficult for the gasifiable solution in the oil storage chamber to evenly flow to the heating component, so that the heating component does not uniformly adsorb the gasifiable solution.
  • the temperature of the heating element rises, there will be a high probability of empty burning and a burnt smell, resulting in a bad user experience.
  • the proposed atomization device includes a main body shell, a first bracket, a connecting piece, and a second bracket.
  • the main body housing includes a receiving part.
  • the first bracket is disposed in the main body shell and includes a first groove, a second groove, a third groove, and a first opening adjacent to the second groove.
  • the connecting piece is disposed in the first groove of the first bracket and includes a first opening.
  • the second bracket is arranged in the third groove of the first bracket.
  • the first opening of the connector extends along the direction of the first axis, and the first opening of the first bracket extends along the direction of the second axis.
  • the first axis and the second axis do not overlap.
  • the proposed atomization device includes a main body shell, a first bracket and a connecting piece.
  • the first bracket is disposed in the main body shell and includes a first groove, a second groove, and a first opening adjacent to the second groove.
  • the connecting piece is disposed in the first groove and includes a first opening. The extending direction of the first opening of the connecting piece does not pass through the first opening of the first bracket.
  • FIG. 1 illustrates a schematic diagram of an atomization device assembly according to some embodiments of the present disclosure.
  • FIGS. 2A and 2B illustrate exploded views of cigarette cartridges according to some embodiments of the present disclosure.
  • 3A and 3B illustrate perspective views of the upper cover of the heating element according to some embodiments of the present disclosure.
  • 3C illustrates a perspective view of the channel in the upper cover of the heating assembly according to some embodiments of the present disclosure.
  • 3D and 3E illustrate perspective views of the upper cover of the heating element according to some embodiments of the present disclosure.
  • FIG. 3F illustrates a perspective view of the channel in the upper cover of the heating assembly according to some embodiments of the present disclosure.
  • FIGS. 4A and 4B illustrate cross-sectional views of cigarette cartridges according to some embodiments of the present disclosure.
  • 5A and 5B illustrate exploded views of the main body of the atomization device according to some embodiments of the present disclosure.
  • FIG. 6 illustrates a perspective view of the upper sensor cover and the power supply assembly bracket according to some embodiments of the disclosure.
  • FIG. 7A illustrates a cross-sectional view of the main body of the atomization device according to some embodiments of the present disclosure.
  • FIG. 7B illustrates a cross-sectional view of the main body of the atomization device according to some embodiments of the present disclosure.
  • first feature on or on the second feature may include embodiments in which the first feature and the second feature are formed in direct contact, and may also include additional features that may be formed on An embodiment between the first feature and the second feature so that the first feature and the second feature may not be in direct contact.
  • present disclosure may repeat reference numerals and/or letters in each example. This repetition is for the purpose of simplification and clarity, and does not in itself indicate the relationship between the various embodiments and/or configurations discussed.
  • FIG. 1 illustrates a schematic diagram of an atomization device assembly according to some embodiments of the present disclosure.
  • the atomization device 100 may include a cartridge 100A and a main body 100B.
  • the cartridge 100A and the main body 100B can be designed as a whole.
  • the cartridge 100A and the main body 100B can be designed as two separate components.
  • the cartridge 100A may be designed to be removably combined with the main body 100B.
  • the cartridge 100A may be designed to be partially housed in the main body 100B.
  • the main body 100B may contain various components. Although not drawn in FIG. 1, the main body 100B may include conductive spring pins, sensors, circuit boards, light guide components, buffer components, power components (such as but not limited to batteries or rechargeable batteries), power component brackets, motors, and chargers.
  • the plate and the like can be used for components required for the operation of the atomizing device 100.
  • Various components that may be included in the main body 100B will be described with reference to FIGS. 5A and 5B in subsequent paragraphs.
  • the main body 100B can provide power to the cartridge 100A.
  • the power supplied by the main body 100B to the cartridge 100A can heat the gasifiable material stored in the cartridge 100A.
  • the gasifiable material may be a liquid.
  • the gasifiable material can be a solution.
  • the gasifiable material may also be referred to as e-liquid.
  • Smoke oil is edible.
  • FIGS. 2A and 2B illustrate exploded views of cigarette cartridges according to some embodiments of the present disclosure.
  • the cigarette cartridge 100A includes a mouthpiece 1, a sealing member 2, a cartridge housing 3, an upper cover sealing component 4, a heating component upper cover 5, a sealing component 6, a heating component 7, and Heating component base 8.
  • the bottom surface of the heating element 7 may have a heating circuit (not shown in the figure). In some embodiments, the heating circuit may be partially disposed inside the heating element 7 (not shown in the figure).
  • the cigarette holder cover 1 is arranged on the cartridge housing 3.
  • the cigarette holder cover 1 covers a part of the cartridge shell 3.
  • the cigarette holder cover 1 exposes a part of the cartridge shell 3.
  • the cigarette holder cover 1 may be made of an opaque material, and the part of the cartridge shell 3 covered by the cigarette holder cover 1 cannot be seen from the outside of the cigarette holder cover 1.
  • the cigarette holder cover 1 may be made of a transparent material, and the part of the cartridge shell 3 covered by the cigarette holder cover 1 can be seen from the outside of the cigarette holder cover 1.
  • the top of the cigarette holder cover 1 has an opening 1h.
  • the cigarette holder cover sealing assembly 2 is arranged between the cigarette holder cover 1 and the cartridge shell 3.
  • the cigarette holder cover sealing assembly 2 can prevent liquid from leaking into the gap between the cigarette holder cover 1 and the cartridge housing 3.
  • the cigarette holder cover sealing assembly 2 can prevent liquid from flowing from the opening 1 h to the surface of the cartridge housing 3 along the gap between the cigarette holder cover 1 and the cartridge housing 3.
  • the cartridge shell 3 includes a tube 3t inside.
  • the tube 3t extends from the opening 3h of the cartridge housing 3 to the upper cover sealing assembly 4.
  • the tube 3t extends from the opening 3h to the upper cover 5 of the heating assembly.
  • the tube 3t can be seen from the cartridge housing 3.
  • the tube 3t cannot be seen from the outside of the cartridge housing 3.
  • a part of the tube 3t can be seen from the outside of the cartridge housing 3.
  • a part of the tube 3t is blocked by the cigarette holder cover 1 and cannot be seen from the outside of the cartridge 100A.
  • the upper cover sealing assembly 4 may have multiple openings.
  • the upper cover 5 of the heating assembly may have a plurality of openings.
  • the number of openings of the upper cover sealing assembly 4 and the number of openings of the upper cover 5 of the heating assembly may be the same.
  • the number of openings of the upper cover sealing assembly 4 and the number of openings of the upper cover 5 of the heating assembly may be different.
  • the number of openings of the upper cover sealing assembly 4 may be less than the number of openings of the upper cover 5 of the heating assembly.
  • the number of openings of the upper cover sealing assembly 4 may be more than the number of openings of the upper cover 5 of the heating assembly.
  • the upper cover sealing assembly 4 may have elasticity. In some embodiments, the upper cover sealing assembly 4 may have flexibility. In some embodiments, the upper cover sealing component 4 may include silica gel. In some embodiments, the upper cover sealing assembly 4 may be made of silica gel.
  • the upper cover 5 of the heating element may have a surface 5s1 and a surface 5s2 opposite to the surface 5s1.
  • the upper cover 5 of the heating element may have buckle portions 5d1 and 5d2.
  • the heating element base 8 may have buckle portions 8d1 and 8d2.
  • the upper cover 5 of the heating element and the base 8 of the heating element can be coupled by the buckle portions 5d1, 5d2, 8d1 and 8d2.
  • the upper cover 5 of the heating element and the base 8 of the heating element can be mechanically combined by the snap parts 5d1, 5d2, 8d1 and 8d2.
  • the upper cover 5 of the heating element and the base 8 of the heating element can be removably combined by the snap parts 5d1, 5d2, 8d1 and 8d2.
  • the upper cover sealing assembly 4 can cover a part of the upper cover 5 of the heating assembly.
  • the upper cover sealing assembly 4 may surround a part of the upper cover 5 of the heating assembly.
  • the upper cover sealing assembly 4 can expose a part of the upper cover 5 of the heating assembly.
  • the sealing component 6 may cover a part of the heating component 7.
  • the sealing component 6 may surround a part of the heating component 7.
  • the sealing component 6 can expose a part of the heating component 7.
  • the sealing component 6 may have elasticity. In some embodiments, the sealing component 6 may have flexibility. In some embodiments, the sealing component 6 may include silica gel. In some embodiments, the sealing component 6 may be made of silica gel. The sealing assembly 6 can withstand high temperatures. In some embodiments, the sealing component 6 has a melting point greater than 350 degrees Celsius.
  • the sealing assembly 6 has an opening 6h
  • the heating assembly 7 has a groove 7c.
  • the opening 6h may expose at least a part of the groove 7c.
  • the upper cover sealing assembly 4 may have an extended portion 4t.
  • the extension portion 4t extends into a channel in the upper cover 5 of the heating assembly.
  • the mouthpiece cover 1 and the cartridge case 3 may be made of the same material. In some embodiments, the cigarette holder cover 1 and the cartridge housing 3 may be made of different materials.
  • the side of the cartridge shell 3 includes a groove 3r. After the cigarette holder cover 1 and the cigarette holder cover sealing assembly 2 are assembled to the cartridge housing 3, the groove 3r is still visible.
  • the cartridge case 3 has a non-circular cross section.
  • the cartridge housing 3 may include a plastic material.
  • the cartridge housing 3 may be made of plastic material.
  • the cartridge housing 3 may be made of a transparent plastic material.
  • a band 3b is included near the bottom end of the cartridge case 3.
  • the strip 3b can be made of the same material as the cartridge shell 3.
  • the strip 3b can be made of a different material from the cartridge shell 3.
  • the strip 3b may include a metallic material.
  • the strip 3b may be made of a metal material.
  • the strip 3b may be made of a transparent material.
  • the strip 3b may be made of an opaque material.
  • the heating element base 8 includes metal pads 8m1, 8m2, 8m3, and 8m4.
  • the metal pads 8m1 and 8m2 are electrically connected to the pins of the heating assembly 7.
  • Metal pads 8m1 and 8m2 can be used to provide power for heating components.
  • the metal pads 8m3 and 8m4 enable the cartridge 100A to be detachably coupled to the magnetic component provided in the main body 100B.
  • 3A and 3B illustrate perspective views of the upper cover of the heating element according to some embodiments of the present disclosure.
  • 3C illustrates a perspective view of the channel in the upper cover of the heating assembly according to some embodiments of the present disclosure.
  • the upper cover 5 of the heating element has openings 5h1, 5h2, 5h3 and 5h4 on the surface 5s1.
  • the opening 5h1 extends into the upper cover 5 of the heating assembly and forms a passage (for example, the passage 5c1 shown in FIG. 4A).
  • the opening 5h2 extends into the upper cover 5 of the heating assembly and forms a passage (for example, the passage 5c2 shown in FIG. 4A).
  • the opening 5h3 extends into the upper cover 5 of the heating assembly and forms a passage (for example, the passage 5c3 shown in FIG. 4A).
  • the opening 5h4 extends into the upper cover 5 of the heating assembly and forms a passage (for example, the passage 5v shown in FIG. 4A).
  • the upper cover 5 of the heating assembly may have more channels. In some embodiments, the upper cover 5 of the heating assembly may have fewer passages.
  • the upper cover 5 of the heating assembly has columnar portions 5w1 and 5w2.
  • a groove 5r1 is defined between the columnar portions 5w1 and 5w2.
  • the groove 5r1 is in fluid communication with the opening 5h1.
  • the groove 5r1 is in fluid communication with the channel 5c1 (see FIG. 4A) of the upper cover 5 of the heating assembly.
  • the groove 5r1 is in fluid communication with the atomization chamber 8C (see FIG. 4A).
  • the upper cover 5 of the heating assembly has an opening 5h5 on the surface 5s2.
  • the opening 5h4 penetrates the upper cover 5 of the heating element from the surface 5s1 to the opening 5h5 of the surface 5s2 to form a channel 5v.
  • the center point of the opening 5h4 and the center point of the opening 5h5 may be aligned with each other in the vertical direction. In some embodiments, the center point of the opening 5h4 and the center point of the opening 5h5 may not be aligned in the vertical direction.
  • the opening 5h4 on the surface 5s1 has a diameter d1.
  • the opening 5h5 on the surface 5s2 has a diameter d2.
  • the diameter d1 is different from the diameter d2.
  • the diameter d1 is smaller than the diameter d2.
  • the diameter d1 may be the same as the diameter d2.
  • the diameter d1 is approximately in the range of 0.3 mm to 0.4 mm.
  • the diameter d1 is approximately in the range of 0.4 mm to 0.6 mm.
  • the inner diameter of the channel 5v gradually increases in the direction from the surface 5s1 to the surface 5s2. In some embodiments, the inner diameter of the channel 5v monotonically increases in the direction from the surface 5s1 to the surface 5s2. In some embodiments, the inner wall of the channel 5v includes a smooth surface.
  • the shaft 5x passes through the center point of the opening 5h4 and the center point of the opening 5h5.
  • the axis 5x is substantially perpendicular to the surface 5s1.
  • the angle ⁇ is in the range of 3° to 4°.
  • the angle ⁇ is in the range of 4° to 5°.
  • the angle ⁇ is in the range of 5° to 6°.
  • the angle ⁇ is in the range of 6° to 7°.
  • the angle ⁇ is in the range of 7° to 10°.
  • 3D and 3E illustrate perspective views of the upper cover of the heating element according to some embodiments of the present disclosure.
  • FIG. 3F illustrates a perspective view of the channel in the upper cover of the heating assembly according to some embodiments of the present disclosure.
  • the upper cover 5 of the heating assembly may have a channel 5v.
  • the channel 5v may include a first part 5v1 and a second part 5v2.
  • the first part 5v1 and the second part 5v2 are in fluid communication with each other.
  • the channel 5v may include more parts that communicate with each other.
  • the first portion 5v1 extends along the direction of the axis 5x1
  • the second portion 5v2 extends along the direction of the axis 5x2.
  • the axis 5x1 is substantially perpendicular to the surface 5s1.
  • the axis 5x2 is substantially perpendicular to the surface 5s1.
  • the axis 5x1 and the axis 5x2 do not overlap each other.
  • the opening 5h4 and the opening 5h5 do not overlap in the direction perpendicular to the surface 5s1.
  • the first part 5v1 extends from the opening 5h4 on the surface 5s1 to the inside of the upper cover 5 of the heating assembly.
  • the first part 5v1 extends a distance h2 from the surface 5s1 toward the surface 5s2.
  • the distance h2 is smaller than the distance h1 between the surface 5s1 and the surface 5s2.
  • the first part 5v1 has a bottom surface 5s3 inside the upper cover 5 of the heating assembly, and the bottom surface 5s3 has a diameter d3.
  • the diameter d1 is different from the diameter d3. In some embodiments, the diameter d1 is smaller than the diameter d3. In some embodiments, the diameter d1 may be the same as the diameter d3. In some embodiments, the inner diameter of the first portion 5v1 gradually increases from the surface 5s1 to the bottom surface 5s3. In some embodiments, the inner diameter of the first portion 5v1 monotonically increases in the direction from the surface 5s1 to the bottom surface 5s3. In some embodiments, the inner wall of the first portion 5v1 includes a smooth surface.
  • the second portion 5v2 may have a uniform inner diameter. In some embodiments, the inner diameter of the second portion 5v2 is the same as the diameter of the opening 5h5. In some embodiments, the inner diameter of the second portion 5v2 may be different from the diameter of the opening 5h5.
  • the distance h3 there is a distance h3 between the connection between the second portion 5v2 and the first portion 5v1 and the bottom surface 5s3.
  • the distance h3 is not zero.
  • the ratio of the distance h3 to the distance h2 is in the range of 0.1 to 0.5. In some embodiments, the ratio of the distance h3 to the distance h2 is in the range of 0.5 to 0.9.
  • the upper cover 5 of the heating assembly has an opening 5h5 on the surface 5s2.
  • the air flow can reach the opening 5h4 on the surface 5s1 from the opening 5h5 through the second portion 5v2 and the first portion 5v1.
  • FIGS. 4A and 4B illustrate cross-sectional views of cigarette cartridges according to some embodiments of the present disclosure.
  • the mouthpiece cover 1 has an opening 1h.
  • the cartridge case 3 has a tube 3t extending from the opening 1h to the upper cover sealing assembly 4.
  • the tube 3t, the upper cover sealing assembly 4 and the cartridge housing 3 define a liquid storage compartment 20.
  • the gasifiable material can be stored in the liquid storage tank 20.
  • the tube 3t may have a part extending into the channel 5c1.
  • the tube 3t may have an uneven outer diameter. As shown in FIG. 4A, a part of the tube 3t extending into the channel 5c1 has a smaller outer diameter.
  • the tube 3t may have an uneven inner diameter. As shown in FIG. 4A, a part of the tube 3t extending into the channel 5c1 has a smaller inner diameter.
  • the tube 3t is coupled to the channel 5c1 through the opening 5h1 of the upper cover 5 of the heating assembly.
  • the tube 3t is in fluid communication with the channel 5c1 through the opening 5h1 of the upper cover 5 of the heating assembly.
  • the channel 5c1 is isolated from the liquid storage tank 20 by a pipe 3t.
  • the upper cover sealing assembly 4 can expose the openings 5h1, 5h2, and 5h3 of the upper cover 5 of the heating assembly.
  • the upper cover sealing assembly 4 does not cover the openings 5h1, 5h2, and 5h3 of the upper cover 5 of the heating assembly.
  • the upper cover sealing assembly 4 does not block the channels 5c1, 5c2, and 5c3.
  • the channel 5c2 is in fluid communication with the groove 7c of the heating assembly 7.
  • the channel 5c3 is in fluid communication with the groove 7c of the heating assembly 7.
  • the e-liquid stored in the liquid storage tank 20 can flow into the groove 7c through the channel 5c2.
  • the e-liquid stored in the liquid storage tank 20 can flow into the groove 7c through the channel 5c3.
  • the groove 7c of the heating assembly 7 is in fluid communication with the liquid storage compartment 20.
  • the e-liquid can fully contact the heating assembly 7 in the groove 7c.
  • the heating circuit on the surface or inside of the heating component 7 can heat the e-liquid and generate aerosol.
  • An atomization chamber 8C is defined between the heating element base 8 and the heating element 7.
  • the heating assembly 7 is partially exposed in the atomization chamber 8C.
  • the aerosol generated by heating by the heating element 7 is formed in the atomizing chamber 8C.
  • the aerosol generated by heating by the heating element 7 is ingested by the user through the tube 3t and the opening 1h.
  • the tube 3t is in fluid communication with the atomization chamber 8C.
  • the groove 5r1 (see FIG. 3A) is in fluid communication with the atomizing chamber 6C.
  • the upper cover sealing assembly 4 can cover the opening 5h4 of the upper cover 5 of the heating assembly.
  • the upper cover sealing assembly 4 can block the passage 5v.
  • the upper cover 5 of the heating assembly has a blocking member 5p.
  • the barrier 5p isolates the tube 3t from the groove 7c of the heating assembly 7.
  • the barrier 5p isolates the channel 5c1 from the groove 7c of the heating assembly 7.
  • the condensed liquid may slip off the tube 3t.
  • the blocking member 5p prevents the condensed liquid slipped from the tube 3t from contacting the heating element 7.
  • the blocking member 5p can prevent the condensed liquid that slips from polluting the heating assembly 7.
  • the stopper 5p can prevent the slipped condensed liquid from changing the taste of the aerosol.
  • the blocking member 5p can prevent the condensed liquid from slipping to the high-temperature heating element and causing liquid spattering.
  • the stopper 5p can prevent the splashed liquid from scalding the user.
  • FIG. 4A shows the air flow 8f from the atomization chamber 8C to the liquid storage tank 20.
  • the opening 5h4 is tightly integrated with the upper cover sealing assembly 4, and the e-liquid in the liquid storage compartment 20 will not leak out from the channel 5v.
  • the vaporizable solution in the liquid storage tank 20 is continuously consumed and reduced, so that the pressure in the liquid storage tank 20 gradually decreases.
  • negative pressure may be generated.
  • the decrease of the pressure in the liquid storage tank 20 may make it difficult for the volatile solution to flow to the groove 7c of the heating element 7 through the channels 5c1 and 5c2.
  • the high-temperature heating element 7 may dry and produce a burnt smell.
  • the above-mentioned problem can be improved by the channel 5v provided in the upper cover 5 of the heating element.
  • the channel 5v provided in the upper cover 5 of the heating assembly is in fluid communication with the atomization chamber 8C, and can balance the pressure in the liquid storage tank 20.
  • the pressure in the atomization chamber 8C is approximately equal to one atmosphere.
  • the pressure in the liquid storage tank 20 is gradually less than one atmospheric pressure.
  • the pressure difference between the atomization chamber 8C and the liquid storage tank 20 causes the airflow 8f to reach the junction between the opening 5h4 and the upper cover sealing assembly 4 from the atomization chamber 8C via the channel 5v.
  • the air flow 8f can partially push the upper cover sealing assembly 4 away.
  • the air flow 8f can cause partial deformation of the upper cover sealing assembly 4.
  • the air flow 8f can enter the liquid storage tank 20 through the gap created by the deformation of the upper cover sealing assembly 4.
  • the airflow 8f entering the liquid storage tank 20 can increase the pressure in the liquid storage tank 20.
  • the air flow 8f entering the liquid storage compartment 20 can balance the pressure between the liquid storage compartment 20 and the atomization chamber 8C.
  • the upper cover 5 of the heating assembly may be additionally provided with a channel having the same function as the channel 5v.
  • the upper cover 5 of the heating element may also be provided with a ventilation channel near the opening 5h3.
  • the channel 5v has an appearance with a narrow top and a wide bottom.
  • the appearance of the channel 5v has many advantages.
  • the 5v channel with narrow top and wide bottom can accelerate the change of air flow.
  • the velocity of the air flow 8f leaving the narrow opening of the channel 5v (5h4) is faster than that of entering the wide opening 5v of the channel (5h5).
  • the accelerated air flow 8f can better open the upper cover sealing assembly 4, and increase the efficiency of pressure balance between the liquid storage tank 20 and the atomization chamber 8C.
  • Fig. 4B shows a cross-sectional view of a cartridge according to another embodiment of the present disclosure.
  • the upper cover 5 of the heating assembly includes a channel 5v composed of a first part 5v1 and a second part 5v2 (refer to FIG. 3F). Since the connection between the second part 5v2 and the first part 5v1 is separated by a distance h3 from the bottom surface 5s3, the bottom of the first part 5v1 forms a groove for storing liquid.
  • the air flow 8f pushes open the upper cover sealing assembly 4, if a small amount of e-liquid leaks into the channel 5v from the opening 5h4 along the gap 201, the groove at the bottom of the first part 5v1 can store the leaked e-liquid and reduce The probability that the smoke oil flows into the main body 100B to cause damage to the electronic components.
  • the first part 5v1 of the channel 5v also has a narrow top and a wide bottom.
  • the appearance of the first part 5v1 can increase the efficiency of pressure balance between the liquid storage tank 20 and the atomization chamber 8C.
  • 5A and 5B illustrate exploded views of the main body of the atomization device according to some embodiments of the present disclosure.
  • the main body 100B includes a sensor holder 9, a connector 10, a sensor 11, a circuit board 12, a flat cable 13, a vibrator 14, a charging assembly 15, a circuit board holder 16, a buffer assembly 17, a power supply assembly 18, a sealing assembly 19, and a frame member 20 , Conductive pins 21, magnetic components 22, power component bracket 23, and main body shell 24.
  • the sensor bracket 9 can be arranged in the groove 23r3 of the power supply assembly bracket 23.
  • the sensor holder 9 has a groove 9r on one side.
  • the sensor 11 may be arranged in the groove 9r.
  • the sensor holder 9 has an opening 9h on the other side.
  • the opening 9h is in fluid communication with the opening 10h1 of the connector 10 (see FIG. 7B).
  • the opening 9h is in fluid communication with the opening 23h1 of the power assembly bracket 23 (see FIGS. 6 and 7B).
  • the sensor 11 can sense the airflow generated when the user inhales through the opening 9h.
  • the connecting piece 10 is disposed in the groove 23r1 on the top of the power assembly bracket 23.
  • the connecting member 10 may include a silicone material.
  • the connecting member 10 may include a flexible material.
  • the connector 10 can provide sealing and cushioning functions.
  • the opening direction of the groove 9r is different from the opening direction of the groove 23r1.
  • the opening direction of the groove 9r and the opening direction of the groove 23r1 may be substantially perpendicular to each other.
  • the angle between the opening direction of the groove 9r and the opening direction of the groove 23r1 is in the range of 85° to 95°.
  • the top surface of the connecting member 10 has openings 10h2 and 10h3, and there is an opening 10h1 between the openings 10h2 and 10h3.
  • the bottom surface of the connecting member 10 has grooves 10r1 and 10r2, and there is an opening 10h4 between the grooves 10r1 and 10r2.
  • a set of conductive pins 21 can be respectively disposed in the grooves 10r1 and 10r2, and exposed through the openings 10h2 and 10h3. The conductive pins 21 can provide power to the heating assembly 7 in the cartridge 100A.
  • the opening 10h1 penetrates the connector 10 and forms a channel.
  • the opening 10h1 penetrates the connecting piece 10 and forms an opening 10h4 on the other side of the connecting piece 10.
  • the opening 10h1 and the opening 10h4 communicate with each other and form a channel.
  • the sensor 11 can sense the airflow generated when the user inhales through the passage between the opening 10h1 and the opening 10h4.
  • the sensor 11 is arranged on the circuit board 12, and the circuit board 12 includes a controller 121.
  • the circuit board 12 is disposed between the circuit board support 16 and the power component support 23.
  • the controller 121 may be a microprocessor.
  • the controller 121 may be a programmable integrated circuit.
  • the controller 121 may be a programmable logic circuit.
  • the arithmetic logic in the controller 121 cannot be changed after the controller 121 is manufactured.
  • the arithmetic logic in the controller 121 can be programmed and changed after the controller 121 is manufactured.
  • the circuit board 12 may also include memory (not shown in the figure).
  • the memory can be integrated in the controller 121. In some embodiments, the memory can be provided separately from the controller 121.
  • the controller 121 may be electrically connected with the sensor 11.
  • the controller 121 may be electrically connected with the conductive component 21.
  • the controller 121 can be electrically connected to the power supply assembly 18.
  • the controller 121 can control the power component 18 to output power to the conductive component 21.
  • the controller 121 detects a change in air pressure
  • the controller 121 can control the power component 20 to output power to the conductive component 21.
  • the controller 121 detects a negative pressure
  • the controller 121 can control the power component 20 to output power to the conductive component 21.
  • the controller 121 determines that the air pressure detected by the sensor 11 is lower than a threshold, the controller 121 can control the power supply component 18 to output power to the conductive component 21.
  • the controller 121 can control the power component 18 to output power to the conductive component 21.
  • the controller 121 determines that the amplitude of the sound wave detected by the sensor 11 is higher than a threshold, the controller 121 can control the power supply component 18 to output power to the conductive component 21.
  • the vibrator 14 may be electrically connected to the controller 121. In some embodiments, the vibrator 14 is electrically connected to the controller 121 on the circuit board 12 via a flat cable 13.
  • the controller 121 can control the vibrator 14 to produce different somatosensory effects. In some embodiments, when the user inhales for more than a certain period of time, the controller 121 can control the vibrator 14 to vibrate to remind the user to stop inhaling. In some embodiments, when the user charges the atomization device 100, the controller 121 may control the vibrator 14 to vibrate to indicate that the charging has started. In some embodiments, when the charging of the atomizing device 100 has been completed, the controller 121 may control the vibrator 14 to vibrate to indicate that the charging has been completed.
  • the charging assembly 15 is arranged at the bottom of the main body casing 24. One end of the charging assembly 15 is exposed through the opening 24h of the main body casing 24.
  • the power supply assembly 18 can be charged via the charging assembly 15.
  • the charging assembly 15 includes a USB interface.
  • the charging component 15 includes a USB Type-C interface.
  • the power supply assembly 18 can be arranged in the power supply assembly bracket 23.
  • the buffer component 17 can be disposed on the surface 18s of the power supply component 18.
  • the buffer assembly 17 can be disposed between the power supply assembly 18 and the main body casing 24.
  • the buffer component 17 can directly contact the surface 18s of the power supply component 18 and the inner wall of the main body shell 24.
  • an additional buffer component can be disposed between the power component 18 and the power component bracket 23.
  • the power supply assembly 18 may be a battery. In some embodiments, the power supply assembly 18 may be a rechargeable battery. In some embodiments, the power supply assembly 18 may be a disposable battery.
  • the frame member 20 is fixed around 23 p around the upper end of the power supply assembly bracket 23.
  • the frame member 20 can increase the friction between the power supply assembly bracket 23 and the main body housing 24.
  • the frame member 20 can fix the power supply assembly bracket 23 in the main body casing 24.
  • the frame member 20 can avoid the displacement of the components in the main body shell 24 caused by the insertion/removal process of the power supply assembly 18 and the charging cable.
  • the frame member 20 may comprise plastic material.
  • the frame member 20 may include a metal material.
  • the connecting piece 10 is disposed in the groove 23r1 on the top of the power assembly bracket 23.
  • the sealing component 19 is disposed in the groove 23 c of the power supply component bracket 23.
  • the magnetic component 22 is arranged on the top of the power component bracket 23.
  • the magnetic component 22 may be a permanent magnet.
  • the magnetic component 22 may be an electromagnet.
  • the magnetic component 22 itself is magnetic. In some embodiments, the magnetic component 22 does not become magnetic until it is energized.
  • the main body shell 24 includes a light-transmitting component 24i.
  • the light-transmitting component 24i may include one or more holes penetrating the main body shell 24.
  • the light-transmitting component 24i may exhibit a substantially circular shape.
  • the light-transmitting component 24i may exhibit a substantially rectangular shape.
  • the light-transmitting component 24i may have a symmetrical appearance.
  • the light-transmitting component 24i may have an asymmetrical appearance. The light emitted by one or more light-emitting components (not shown) on the circuit board 12 is visible through the light-transmitting component 24i.
  • FIG. 6 illustrates a perspective view of the upper sensor cover and the power supply assembly bracket according to some embodiments of the disclosure.
  • the opening 10h1 of the connecting member 10 penetrates the connecting member 10 along the direction of the axis 10x.
  • the connector 10 has an extension portion 10p and a ring portion 10b.
  • the extension portion 10p has flexibility.
  • the ring portion 10b has flexibility.
  • the connecting piece 10 is assembled with the power supply assembly bracket 23, the extension portion 10 p and the ring portion 10 b pass through the opening 23 h 2 on the power supply assembly bracket 23.
  • the ring portion 10b has a larger diameter than the opening 23h2.
  • the connecting member 10 and the power supply assembly bracket 23 can be fixed to each other.
  • the connecting member 10 can be fixed to the power supply assembly bracket 23 via the ring portion 10b.
  • the power supply bracket 23 includes an opening 23h1 and a groove 23r2.
  • the opening 23h1 is adjacent to the groove 23r2.
  • the opening 23h1 penetrates the power supply assembly bracket 23 along the direction of the axis 23x.
  • the groove 23r2 can temporarily store the e-liquid leaking from the cartridge 100A, and the groove 23r2 can temporarily store the condensate leaking from the cartridge 100A.
  • the groove 23r2 can reduce the chance of e-liquid or condensate contacting the electronic components in the main body 100B.
  • the groove 23r2 can reduce the chance of malfunction of the electronic components in the main body 100B due to e-liquid or condensate.
  • FIG. 7A illustrates a cross-sectional view of the main body of the atomization device according to some embodiments of the present disclosure.
  • the main body 100B has a receiving portion 24r, which can be used to store a part of the cartridge 100A.
  • the conductive component 21 can contact the metal pads 8m1 and 8m2 at the bottom of the cartridge 100A, thereby supplying power to the heating component 7.
  • an airflow 11f is generated inside the main body 100B.
  • the air flow 11f leaves the connecting piece 10 through the opening 10h1 of the connecting piece 10.
  • the air flow 11f enters the receiving portion 24r of the main body 100B through the opening 10h1 of the connector 10.
  • the airflow 11f can be detected by the sensor 11, and then the controller 121 starts to supply the electric current to the heating element 7.
  • FIG. 7B illustrates a cross-sectional view of the main body of the atomization device according to some embodiments of the present disclosure.
  • the power supply assembly bracket 23 has a groove 23r2 near the connector 10. If the e-liquid or condensate in the cartridge 100A leaks into the main body 100B along the opening 10h1, the groove 23r2 can temporarily contain the liquid to prevent the liquid from directly contacting the sensor 11 or other electronic components.
  • the sensor holder 9 has a groove 9r1.
  • the opening of the groove 9r1 and the extending direction of the opening 10h1 are the same.
  • the opening of the groove 9r1 and the extending direction of the opening 23h1 are the same.
  • the extending direction of the opening 23h1 of the power supply assembly bracket 23 passes through the groove 9r1.
  • the groove 9r1 can temporarily contain liquid to prevent the liquid from contacting the sensor 11 through the opening 9h of the sensor bracket 9. If the e-liquid or condensate in the cartridge 100A leaks into the main body 100B along the opening 10h1, the groove 9r1 can temporarily contain the liquid to prevent the liquid from contacting other electronic components inside the main body 100B.
  • the sensor bracket 9 and the power component bracket 23 jointly define a trench 9r2.
  • the opening of the trench 9r2 faces the direction of the opening 10h1.
  • the trench 9r2 extends in the direction of the axis 9x.
  • the axis 9x and the axis 23x do not overlap.
  • the axis 9x and the axis 10x do not overlap.
  • the trench 9r2 can temporarily contain the liquid to prevent the liquid from contacting the sensor 11 through the opening 9h of the sensor bracket 9. If the e-liquid or condensate in the cartridge 100A leaks into the main body 100B along the opening 10h1, the trench 9r2 can temporarily contain the liquid to prevent the liquid from contacting other electronic components inside the main body 100B.
  • the bottom surface of the groove 23r2 and the bottom surface of the groove 9r1 may be on the same plane. In some embodiments, the bottom surface of the groove 23r2 and the bottom surface of the groove 9r1 are not on the same plane. In some embodiments, the bottom surface of the groove 23r2 is separated from the bottom surface of the groove 9r1 by a distance 9d1.
  • the bottom surface of the groove 9r1 and the bottom surface of the trench 9r2 may be on the same plane. In some embodiments, the bottom surface of the groove 9r1 and the bottom surface of the trench 9r2 are not on the same plane. In some embodiments, the bottom surface of the groove 9r1 is separated from the bottom surface of the trench 9r2 by a distance 9d2.
  • the bottom surface of the groove 23r2 is separated from the bottom surface of the trench 9r2 by a distance (9d1+9d2).
  • the bottom surface of the groove 23r2 and the bottom surface of the groove 9r1 are not coplanar, which can bring many advantages.
  • the bottom surface of the groove 9r1 and the bottom surface of the trench 9r2 are not coplanar, which can bring many advantages.
  • the bottom surface of the groove 23r2 and the bottom surface of the groove 9r1 are not coplanar, so that the e-liquid or condensate that enters the main body 100B through the opening 10h1 needs several changes in direction to reach the opening 9h.
  • the bottom surface of the groove 23r2 and the bottom surface of the groove 9r1 are not coplanar, which can reduce the probability of failure of the sensor 11.
  • the bottom surface of the groove 9r1 and the bottom surface of the trench 9r2 are not coplanar, so that the e-liquid or condensate that enters the body 100B through the opening 10h1 needs several changes in direction to reach the opening 9h.
  • the bottom surface of the groove 9r1 and the bottom surface of the trench 9r2 are not coplanar, which can reduce the failure probability of the sensor 11.
  • spatially relative terms for example, “below”, “below”, “lower”, “above”, “upper”, “lower”, “left”, “right” and the like can be The simplicity of description is used herein to describe the relationship between one component or feature and another component or feature as illustrated in the figure.
  • the spatial relative terms are intended to cover different orientations of the device in use or operation.
  • the device can be oriented in other ways (rotated by 90 degrees or in other orientations), and the spatial relative descriptors used herein can also be interpreted accordingly. It should be understood that when a component is referred to as being “connected to” or “coupled to” another component, it can be directly connected or coupled to the other component, or intervening components may be present.
  • the terms “approximately”, “substantially”, “substantially” and “about” are used to describe and consider small variations. When used in conjunction with an event or situation, the term may refer to an example in which the event or situation occurs precisely and an example in which the event or situation occurs in close proximity. As used herein with respect to a given value or range, the term “about” generally means within ⁇ 10%, ⁇ 5%, ⁇ 1%, or ⁇ 0.5% of the given value or range. Ranges can be expressed herein as from one end point to another end point or between two end points. Unless otherwise specified, all ranges disclosed herein include endpoints.
  • substantially coplanar may refer to two surfaces located within a few micrometers ( ⁇ m) along the same plane, for example, within 10 ⁇ m, within 5 ⁇ m, within 1 ⁇ m, or within 0.5 ⁇ m located along the same plane.
  • ⁇ m micrometers
  • the term may refer to a value within ⁇ 10%, ⁇ 5%, ⁇ 1%, or ⁇ 0.5% of the average value of the stated value.
  • the terms “approximately”, “substantially”, “substantially” and “about” are used to describe and explain small changes.
  • the term may refer to an example in which the event or situation occurs precisely and an example in which the event or situation occurs in close proximity.
  • the term when used in combination with a value, can refer to a range of variation less than or equal to ⁇ 10% of the stated value, for example, less than or equal to ⁇ 5%, less than or equal to ⁇ 4%, less than or equal to ⁇ 3% , Less than or equal to ⁇ 2%, less than or equal to ⁇ 1%, less than or equal to ⁇ 0.5%, less than or equal to ⁇ 0.1%, or less than or equal to ⁇ 0.05%.
  • the difference between two values is less than or equal to ⁇ 10% of the average value of the value (for example, less than or equal to ⁇ 5%, less than or equal to ⁇ 4%, less than or equal to ⁇ 3%, less than Or equal to ⁇ 2%, less than or equal to ⁇ 1%, less than or equal to ⁇ 0.5%, less than or equal to ⁇ 0.1%, or less than or equal to ⁇ 0.05%), then the two values can be considered “substantially” or " About” is the same.
  • substantially parallel can refer to a range of angular variation less than or equal to ⁇ 10° relative to 0°, for example, less than or equal to ⁇ 5°, less than or equal to ⁇ 4°, less than or equal to ⁇ 3°, Less than or equal to ⁇ 2°, less than or equal to ⁇ 1°, less than or equal to ⁇ 0.5°, less than or equal to ⁇ 0.1°, or less than or equal to ⁇ 0.05°.
  • substantially perpendicular may refer to an angular variation range of less than or equal to ⁇ 10° relative to 90°, for example, less than or equal to ⁇ 5°, less than or equal to ⁇ 4°, less than or equal to ⁇ 3°, Less than or equal to ⁇ 2°, less than or equal to ⁇ 1°, less than or equal to ⁇ 0.5°, less than or equal to ⁇ 0.1°, or less than or equal to ⁇ 0.05°.
  • the two surfaces can be considered coplanar or substantially coplanar if the displacement between two surfaces is equal to or less than 5 ⁇ m, equal to or less than 2 ⁇ m, equal to or less than 1 ⁇ m, or equal to or less than 0.5 ⁇ m, then the two surfaces can be considered coplanar or substantially coplanar if the displacement between any two points on the surface relative to the plane is equal to or less than 5 ⁇ m, equal to or less than 2 ⁇ m, equal to or less than 1 ⁇ m, or equal to or less than 0.5 ⁇ m, then the surface can be considered to be flat or substantially flat .
  • the terms "conductive,””electricallyconductive,” and “conductivity” refer to the ability to transfer current. Conductive materials generally indicate those materials that exhibit little or zero resistance to current flow. One measure of conductivity is Siemens/meter (S/m). Generally, the conductive material is a material with a conductivity greater than approximately 10 4 S/m (for example, at least 10 5 S/m or at least 10 6 S/m). The conductivity of a material can sometimes change with temperature. Unless otherwise specified, the electrical conductivity of the material is measured at room temperature.
  • a/an and “said” may include plural indicators.
  • a component provided “on” or “above” another component may cover the case where the former component is directly on the latter component (for example, in physical contact with the latter component), and one or more A situation where an intermediate component is located between the previous component and the next component.

Abstract

L'invention concerne un dispositif d'atomisation (100), le dispositif d'atomisation (100) comprenant un corps principal (100B), une coque (24), un premier support (23), un second support (9) et un élément de liaison (10). L'élément de liaison (10) est pourvu d'une ouverture (10h1), le premier support (23) est pourvu d'une ouverture (23h1), et une direction d'extension (10x) de l'ouverture (10h1) de l'élément de liaison (10) ainsi qu'une direction d'extension (23x) de l'ouverture (23h1) du premier support (23) ne se chevauchent pas.
PCT/CN2019/119358 2019-11-19 2019-11-19 Dispositif d'atomisation WO2021097646A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/CN2019/119358 WO2021097646A1 (fr) 2019-11-19 2019-11-19 Dispositif d'atomisation

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/CN2019/119358 WO2021097646A1 (fr) 2019-11-19 2019-11-19 Dispositif d'atomisation

Publications (1)

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WO2021097646A1 true WO2021097646A1 (fr) 2021-05-27

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WO (1) WO2021097646A1 (fr)

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CN209090052U (zh) * 2018-08-28 2019-07-12 深圳市合元科技有限公司 电子烟
CN110313647A (zh) * 2019-07-30 2019-10-11 深圳雾芯科技有限公司 一种雾化装置
CN110353320A (zh) * 2019-08-27 2019-10-22 深圳雾芯科技有限公司 一种雾化装置
CN209769001U (zh) * 2019-03-13 2019-12-13 常州市派腾电子技术服务有限公司 烟弹及电子烟
CN111165878A (zh) * 2019-11-19 2020-05-19 深圳雾芯科技有限公司 一种雾化装置
CN111165879A (zh) * 2019-11-19 2020-05-19 深圳雾芯科技有限公司 一种雾化装置

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US20190142070A1 (en) * 2006-10-18 2019-05-16 Rai Strategic Holdings, Inc. Tobacco-containing smoking article
CN203897285U (zh) * 2014-03-10 2014-10-29 惠州市吉瑞科技有限公司 电子烟
US9986769B1 (en) * 2017-02-24 2018-06-05 Lily Liu Atomizer for an electronic cigarette
CN209090052U (zh) * 2018-08-28 2019-07-12 深圳市合元科技有限公司 电子烟
CN109512037A (zh) * 2018-12-26 2019-03-26 深圳麦克韦尔股份有限公司 电子烟雾化装置
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