[go: up one dir, main page]

WO2023123160A1 - Appareil d'atomisation électronique et atomiseur associé - Google Patents

Appareil d'atomisation électronique et atomiseur associé Download PDF

Info

Publication number
WO2023123160A1
WO2023123160A1 PCT/CN2021/142883 CN2021142883W WO2023123160A1 WO 2023123160 A1 WO2023123160 A1 WO 2023123160A1 CN 2021142883 W CN2021142883 W CN 2021142883W WO 2023123160 A1 WO2023123160 A1 WO 2023123160A1
Authority
WO
WIPO (PCT)
Prior art keywords
liquid
atomization
atomizing
heating element
atomizer
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/CN2021/142883
Other languages
English (en)
Chinese (zh)
Inventor
李光辉
吕铭
姜茹
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shenzhen Smoore Technology Ltd
Original Assignee
Shenzhen Smoore Technology Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shenzhen Smoore Technology Ltd filed Critical Shenzhen Smoore Technology Ltd
Priority to PCT/CN2021/142883 priority Critical patent/WO2023123160A1/fr
Publication of WO2023123160A1 publication Critical patent/WO2023123160A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors

Definitions

  • the invention relates to the field of electronic atomization, in particular to an electronic atomization device and an atomizer thereof.
  • a typical electronic atomization device consists of a heating element, a battery, and a control circuit.
  • the heating element is the core component of the electronic atomization device, and its characteristics determine the atomization effect and user experience.
  • the heating element In order to reduce the hindrance to the atomized gas, the heating element is generally only fixed at two ends, and the middle is in a suspended state. This kind of suspension is easy to fracture under stress for a thin heating element with low strength. Therefore, heating elements such as porous ceramics need a certain thickness to meet the strength requirements, but this will sacrifice the liquid supply capacity of the heating element.
  • the present invention provides an improved electronic atomization device and its atomizer.
  • an atomizer comprising:
  • liquid storage bin for storing a liquid aerosol-generating substrate
  • an atomizing assembly in fluid communication with the liquid storage chamber, including first and second opposing sides;
  • the first abutting portion directly or indirectly abuts against the edge portion of the first side of the atomization assembly
  • the rigid reinforcement directly or indirectly bears against the edge portion of the second side of the atomization assembly, so as to evenly bear the force on the edge portion.
  • the atomization assembly includes a sheet-shaped heating element, the heating element includes a liquid-absorbing surface in fluid communication with the liquid storage chamber and an atomizing surface opposite to the liquid-absorbing surface, the One of the absorbing surface and the atomizing surface is located on the first side, and the other of the absorbing surface and the atomizing surface is located on the second side.
  • the first abutting portion is directly or indirectly abutted against the edge of the heating element on the side where one of the liquid-absorbing surface and the atomizing surface is located, and the rigid reinforcement The other side of the liquid absorbing surface and the atomizing surface of the heating element is held against the edge.
  • the stiffening member includes an opening through which the other of the liquid absorbing surface and the atomizing surface is exposed.
  • the rigid reinforcement includes a sheet-shaped annular body, and the annular body directly or indirectly bears against the other side of the liquid-absorbing surface and the atomizing surface of the heating element. the edge of.
  • the annular body is made of sheet metal, dense ceramics, or hard glue.
  • the annular body is made of thin steel sheet, the thickness of which is less than or equal to 2mm.
  • the atomizing assembly includes a sealing member disposed on the edge of the heating element and exposing the liquid-absorbing surface and the atomizing surface, and the first resisting portion and the rigidity reinforcement The components respectively abut against the heating element via the sealing components.
  • the heating element includes a sheet-like substrate, and the substrate is glass with a micropore array, dense ceramics with a micropore array, or porous ceramics.
  • the atomizer further includes a second abutting portion, and the second abutting portion is directly or indirectly abutted against a side of the rigid reinforcement member away from the atomization assembly.
  • the atomizer includes a longitudinal axis
  • the atomization assembly includes a sheet-shaped heating element, and the plane where the heating element is located is approximately perpendicular to the longitudinal axis;
  • the heating element includes a A liquid-absorbing surface connected to the liquid storage chamber and an atomizing surface opposite to the liquid-absorbing surface, the liquid-absorbing surface is located on the first side, and the atomizing surface is located on the second side.
  • the atomizer includes a lower seat disposed on the second side, the lower seat includes a first support arm and a second support arm arranged at intervals, the first support arm and the second support arm The second support arms are respectively supported on two ends of the rigid reinforcement to form the second resisting portion.
  • an atomization chamber is formed between the first support arm and the second support arm, and the atomization surface communicates with the atomization chamber through air.
  • the atomizer includes an upper base that is buckled and connected above the lower base, and the first resisting portion is formed on the upper base.
  • the first resisting portion includes a liquid lower port that connects the liquid storage bin with the liquid suction surface.
  • the atomizer includes a longitudinal axis
  • the atomization assembly includes a sheet-shaped heating element, and the plane where the heating element is located is roughly parallel to the longitudinal axis;
  • the heating element includes a The liquid-absorbing surface of the liquid storage chamber communicated with the liquid and the atomizing surface opposite to the liquid-absorbing surface, the atomizing surface is on the first side, and the liquid-absorbing surface is located on the second side.
  • the atomizer includes an atomization cavity disposed on the first side of the atomization assembly, the atomization cavity forms an atomization cavity, and the atomization assembly is disposed on On the side wall of the atomization cavity, and the atomization surface communicates with the atomization cavity through air.
  • the rigid reinforcement is buckled on the atomization cavity and exposes the liquid-absorbing surface.
  • the side wall of the atomization chamber is provided with an installation part for installing the atomization assembly and an opening connecting the installation part with the atomization chamber, and the heating element
  • the atomizing surface communicates with the atomizing chamber through the opening.
  • An electronic atomization device including the atomizer in any one of the above items.
  • the beneficial effect of the present invention is that the surrounding of the atomizing component is uniformly stressed by means of the rigid reinforcement to avoid breakage due to excessive stress, and facilitate the development of the atomizing component in the direction of thinning.
  • Fig. 1 is a schematic diagram of the three-dimensional structure of an electronic atomization device in some embodiments of the present invention.
  • FIG. 2 is a schematic diagram of a three-dimensional exploded structure of the electronic atomization device shown in FIG. 1 .
  • FIG. 3 is a schematic cross-sectional structure diagram along the B-B direction of the atomizer of the electronic atomization device shown in FIG. 1 .
  • FIG. 4 is a schematic cross-sectional structure diagram along the A-A direction of the atomizer of the electronic atomization device shown in FIG. 1 .
  • Fig. 5 is a three-dimensional exploded schematic diagram of the atomizer shown in Fig. 1 .
  • Fig. 6 is a schematic diagram of a vertical cross-sectional structure of the atomizer shown in Fig. 1 in a disassembled state.
  • Fig. 7 is a three-dimensional exploded schematic diagram of the atomizing body shown in Fig. 5 .
  • Fig. 8 is a schematic diagram of a longitudinal cross-sectional structure of the atomizing body shown in Fig. 5 in a disassembled state.
  • Fig. 9 is a schematic diagram of a three-dimensional exploded structure of the atomizing body shown in Fig. 5 from another viewing angle.
  • Fig. 10 is a perspective exploded structural diagram of the atomization assembly shown in Fig. 9 .
  • Fig. 11 is a schematic perspective view of the three-dimensional structure of an electronic atomization device in other embodiments of the present invention.
  • FIG. 12 is a schematic diagram of a three-dimensional exploded structure of the electronic atomization device shown in FIG. 11 .
  • Fig. 13 is a schematic diagram of the A-A sectional structure of the atomizer shown in Fig. 12 .
  • Fig. 14 is a schematic diagram of the B-B cross-sectional structure of the atomizer shown in Fig. 12 .
  • Fig. 15 is a schematic diagram of the three-dimensional exploded structure of the atomizer shown in Fig. 12 .
  • Fig. 16 is a schematic diagram of the cross-sectional structure along A-A direction of the atomizer shown in Fig. 12 in a disassembled state.
  • Fig. 17 is a schematic diagram of the B-B cross-sectional structure of the atomizer shown in Fig. 12 in a disassembled state.
  • Fig. 18 is a schematic diagram of the three-dimensional exploded structure of the atomizing body shown in Fig. 15 .
  • Fig. 19 is a schematic diagram of the cross-sectional structure of the atomizing body shown in Fig. 15 along the direction of A-A in a disassembled state.
  • Fig. 20 is a perspective exploded structural diagram of the atomizing body shown in Fig. 15 from another perspective.
  • FIG. 21 is a schematic diagram of the three-dimensional structure of the electrode shown in FIG. 19 .
  • Fig. 22 is a perspective exploded structural diagram of the atomization assembly shown in Fig. 18 .
  • the electronic atomization device may be in the form of a hand-held rod-shaped structure for the user to inhale the aerosol.
  • the electronic atomization device may include an atomizer 1 and a power supply device 2 matched with the atomizer 1 .
  • the atomizer 1 can be used to store and heat atomized liquid aerosol-generating substrates such as medicinal liquid, and export the aerosol.
  • the power supply unit 2 can be used to supply power to the atomizer 1 .
  • both the atomizer 1 and the power supply device 2 can be approximately elliptical cylindrical, and both are mechanically and electrically connected together along the axial direction.
  • the atomizer 1 and the power supply unit 2 can be detachably connected together by magnetic attraction. It can be understood that the atomizer 1 and the power supply device 2 are not limited to be elliptical columnar, they may also be columnar with a circular, racetrack or irregular cross-section, or non-column.
  • the atomizer 1 may include an atomizer body 10 and a housing 20 sleeved on the atomizer body 10 along the longitudinal axis X,
  • the atomizing body 10 and the casing 20 together define a liquid storage space for storing the liquid aerosol generating substrate.
  • the atomizing body 10 is used to heat the liquid aerosol generating substrate in the liquid storage space to generate aerosol
  • the housing 20 is used to protect the atomizing body 10 and export the mixture of aerosol and air.
  • the liquid storage space may include a liquid storage bin 214 formed between the outer wall of the atomizing body 10 and the inner wall of the housing 20 and a lower liquid channel formed in the atomizing body 10.
  • the bin 214 is used to store the liquid aerosol-generating substrate, and the lower liquid channel is used to deliver the liquid in the liquid storage bin 214 to the atomizing assembly 13 .
  • the housing 20 may include a flat housing 21 with an opening 212 at one end, an air outlet 210 at one end, and a guide tube that communicates with the air outlet 210 at one end and extends toward the opening 212 of the housing 21 at the other end.
  • Air pipe 22 the end of the air guide pipe 22 is inserted in the atomizing main body 10 to lead out the mist generated when the atomizing main body 10 works.
  • An annular liquid storage bin 214 is defined between the inner wall of the casing 21 and the outer wall of the air guide pipe 22 .
  • the opening 212 allows the atomizer body 10 to be inserted into the casing 20 .
  • a buckle structure 216 can also be provided inside the opening end of the housing 21 to buckle with the atomizing main body 10 inserted into the opening end of the housing 21 .
  • the atomizing main body 10 may be symmetrical on the front side and the rear side, and also symmetrical on the left side and the right side, so as to facilitate molding and subsequent assembly.
  • the atomizing body 10 may include a lower base body 11, an upper base body 12 snap-connected with the lower base body 11, an atomization assembly 13 sandwiched between the lower base body 11 and the upper base body 12, and spaced apart A pair of electrodes 14 penetrate through the lower base body 11 and are respectively electrically connected to the atomizing assembly 13 .
  • the atomizing main body 10 is not limited to a symmetrical structure, and an asymmetrical structure is also applicable.
  • the atomization assembly 13 can be arranged horizontally, that is, it is arranged in a manner that the plane on which it is located is perpendicular to the longitudinal axis X of the atomization main body 10 .
  • the lower seat body 11 can be formed integrally with hard plastic material, and it is preferably symmetrical to the front and rear, and symmetrical to the left and right, so as to facilitate manufacture and subsequent assembly.
  • the lower seat body 11 may include a substantially elliptical base 111, a first support arm 112 erected at the first end of the top surface of the base 111 in the direction of the long axis, and a first support arm 112 erected on the top of the base 111. face the second support arm 113 at the second end.
  • the first support arm 112 and the second support arm 113 together press against the atomization assembly 13 from the lower side of the atomization assembly 13 to form a lower side abutment portion (second abutment portion) of the atomization assembly 13 .
  • a chamber 110, the atomization chamber 110 is used for mixing the aerosol atomized by the atomization assembly 13 with the air inhaled from the outside, and carried away by air flow.
  • the base 111 may include an air inlet channel 1110 located in the middle and penetrating up and down, and a pair of mounting holes 1112 penetrating up and down. .
  • the first support arm 112 may include a first support portion 1121 and a first resisting portion 1122 extending upward from the top surface of the first support portion 1121 away from the second support arm 113 .
  • the first supporting part 1121 is used to support one end of the atomization assembly 13
  • the first locking hole 1120 is formed on the first resisting part 1122 to be locked with the upper base body 12 .
  • the second supporting arm 113 may include a second supporting portion 1131 and a second resisting portion 1132 extending upward from a top surface of the second supporting portion 1131 away from the first supporting arm 112 .
  • the second supporting portion 1131 is used to support the other end of the atomization assembly 13
  • the second resisting portion 1132 is formed with a first locking hole 1130 for locking with the upper base body 12 .
  • the first support portion 1121 and the second support portion 1131 may respectively include a pair of first ventilation grooves 1123 extending transversely on the top surface and a pair of second ventilation grooves extending longitudinally formed on the inner surface. 1125, the pair of first air exchange slots 1123 communicate with the pair of second air exchange slots 1125 respectively, the end of each first air exchange slot 1123 away from the atomization chamber 110 is exposed to the outside of the atomization assembly 13, and It communicates with the lower end of the corresponding third ventilation groove 1225 of the upper base body 12 .
  • the upper base body 12 can be formed integrally with a hard plastic material, and the front and rear sides can be symmetrical, and the left and right sides can also be symmetrical.
  • the upper base body 12 may include a main body portion 121 and a pressing portion 122 disposed under the main body portion 121 .
  • the body portion 121 may include a pair of lower liquid ports 1210 and an air outlet channel 1212 .
  • the air outlet channel 1212 may be located in the middle of the top of the body portion 121 and arranged longitudinally.
  • the pair of lower liquid ports 1210 can be respectively disposed on two opposite sides of the air outlet channel 1212 and arranged along the longitudinal direction.
  • the body portion 121 may further include a confluence portion 1214 in some embodiments.
  • the collection part 1214 is located below the pair of lower liquid ports 1210, and communicates with the pair of lower liquid ports 1210 respectively, so that the liquid aerosol-generating substrate in the liquid storage bin 214 can be as shown by the arrow N in FIG.
  • the direction flows into the converging portion 1214 .
  • the air outlet channel 1212 is used for communicating with the lower end of the air guide pipe 22 of the casing 20 .
  • the collecting portion 1214 and the pair of lower liquid ports 1210 together form the above-mentioned lower liquid channel.
  • the body portion 121 may further include a pair of air guide grooves 1216 (as shown in FIG. 4 ), the pair of air guide grooves 1216 are respectively formed on two opposite side outer walls of the body portion 121, and are formed by the upper Extend down.
  • the pair of air guide grooves 1216 together with the housing 21 define an air guide channel that communicates the atomization chamber 110 with the air outlet channel 1212 (the arrow M in FIG. 4 indicates the gas flow direction).
  • the resisting portion 122 may include an annular resisting portion 1220 in some embodiments, and the resisting portion 1220 is pressed against the upper side of the edge of the atomizing assembly 13 to form the upper resisting portion of the atomizing assembly 13 (the first abutting portion), which clamp and fix the atomizing assembly 13 together with the lower abutting portion (the first support portion 1121 and the second support portion 1131 ) of the atomization assembly 13 on the lower base body.
  • the middle part of the resisting part 1220 includes a lower liquid port 1222 that penetrates up and down and faces the liquid absorption surface of the atomization assembly 13.
  • the lower liquid port 1222 communicates with the collection part 1214 of the body part 121 and is located at 1214 , so that the liquid aerosol-generating substrate in the collection part 1214 can flow to the liquid-absorbing surface of the atomization component 13 .
  • the lower liquid opening 1222 may be in the shape of a rectangle, and its size is adapted to the liquid absorption surface of the atomization assembly 13 .
  • the resisting portion 122 may include an inner frame 1224 formed on the bottom surface of the resisting portion 1220 and surrounding the lower liquid port 1222 and an outer frame 1226 formed on the periphery of the bottom surface of the resisting portion 1220.
  • the inner frame 1224 is used for lateral
  • the outer frame 1226 is used to resist against the inside of the seal 132 of the atomization assembly 13 and laterally against the outside of the seal 132 .
  • the abutment portion 1220 may include a pair of ventilation holes 1221 penetrating up and down.
  • the pair of ventilation holes 1221 are directly opposite to the seal 132 of the atomization assembly 13 , and connect the lower side of the abutment portion 1220 to the bottom of the abutment portion 1220.
  • the converging part 1214 located on the upper side of the resisting part 1220 is connected to exchange air in the liquid storage tank when the liquid pressure of the liquid storage tank is too low, so as to realize the gas-liquid balance in the liquid storage tank.
  • the upper surface of the resisting portion 1220 constitutes a bottom wall of the liquid storage bin, on which, in some embodiments, a pair of ventilation tubes 1223 are respectively arranged corresponding to the pair of ventilation holes 1221 .
  • the pair of ventilation tubes 1223 communicate with the pair of ventilation holes 1221 respectively, and the axis of the pair of ventilation tubes 1223 is perpendicular to the liquid-absorbing surface of the heating element 131, so that the ventilation opening at the end of the ventilation tube 1223 protrudes above the
  • the upper surface of the resisting portion 1220 ie, the bottom wall of the liquid storage chamber
  • the vertical distance from the ventilation opening to the liquid-absorbing surface of the heating element 131 is preferably greater than the vertical distance from the ventilation opening to the upper surface of the resisting portion 1220 .
  • the upper surface of the resisting portion 1220 may be a flat surface arranged horizontally.
  • the ventilation tube 1223 can be integrally formed with the resisting portion 1220 in some embodiments.
  • the central through hole of the ventilation tube 1223 adopts a stepped hole design, and the diameter of the first hole segment on the side close to the abutting portion 1220 is larger than the aperture diameter of the second hole segment on the side away from the abutting portion 1220 .
  • the diameter of the first hole segment is 0.5-1 mm, and the diameter of the second hole segment is 0.2-0.6 mm.
  • the length of the ventilation tube 1223 is 0.8-1.5 mm.
  • a pair of third ventilation grooves 1225 extending longitudinally may be formed on the inner wall of the peripheral frame 1226 close to each ventilation hole 1221 , and the lower surface of the resisting portion 1220 is correspondingly formed with
  • the air exchange hole 1221 communicates with the third air exchange slot 1225 to form a fourth air exchange slot 1227 .
  • the second ventilation slot 1125, the first ventilation slot 1123, the third ventilation slot 1225, the fourth ventilation slot 1227, the ventilation hole 1221 and the ventilation tube 1223 are connected in sequence to form the ventilation of the atomizer 1. aisle.
  • the illustrated atomizer 1 includes four ventilation passages distributed near the four corners of the atomization assembly 13, it is not limited to four, and less than four or more than four are also applicable. It can be increased or decreased according to the specific situation.
  • An arc-shaped embedded part 1228 is extended downwards from the lower end surfaces of the two opposite side walls of the peripheral frame 1226 close to the pair of ventilation holes 1221 respectively, so as to respectively embedded in the first support part 1121 and the second support part of the lower seat body 11 1131 on the upper surface.
  • the upper surfaces of the first support portion 1121 and the second support portion 1131 are respectively formed with a pair of arc-shaped insertion grooves 1126 for the ends of the insertion portion 1228 to be embedded, and the two ends of each insertion groove 1126 are respectively connected to the corresponding pair of the first exchange.
  • the air grooves 1123 are connected (as shown in FIG. 7 ).
  • the atomizing assembly 13 may include a sheet-shaped heating element 131 and a soft seal 132 bonded to the edge of the heating element 131.
  • the heating element 131 may include a The liquid-absorbing surface and the atomizing surface located at the lower side 134 and opposite to the liquid-absorbing surface, when the sealing member 132 is combined with the edge of the heating element 131, both the liquid-absorbing surface and the atomizing surface are exposed.
  • the heating element 131 may include a sheet base 1311 and a heating layer 1312 formed on the bottom surface of the base 1311 .
  • the base body 1311 can be made of glass or dense ceramics with a micropore array, and can also be made of sheet-shaped porous ceramics.
  • the substrate 1311 may include an upper surface and a lower surface that are flat and parallel to each other, wherein the middle area of the upper surface forms a liquid absorption surface, and the middle area of the lower surface forms an atomization surface.
  • the thickness of the base body 1311 may be 0.1-10 mm in some embodiments. In some cases, the thickness of the base body 1311 may be 0.1-1 mm.
  • the porosity of the substrate 1311 may range from 0.2 to 0.8 in some embodiments, and the surface tension of the aerosol-generating substrate it is compatible with may range from 38 to 65 mN/m in some embodiments.
  • the heating element 131 is not limited to be in the shape of a rectangular sheet, and it can also be in the shape of a square sheet, a circular sheet, an oval sheet, a track-shaped sheet, a special-shaped sheet, and other shapes in some embodiments.
  • the soft seal 132 may be in the shape of a rectangular ring, so that the upper liquid-absorbing surface and the lower atomizing surface of the heating element 131 are exposed.
  • the soft seal 132 can be wrapped around the periphery of the heating element 131, and the inner wall surface is formed with a groove 1320 for the edge of the heating element 131 to be embedded, so that the upper side of the edge of the heating element 131, Both the lower side and the outer side are covered by the sealing member 132, which can prevent liquid leakage on the one hand, and protect the heating element 131 from being crushed on the other hand.
  • the soft seal 132 further includes a slot 1322 formed on a frame, so that the heating element 131 can be inserted into the seal 132 .
  • the soft seal 132 can also be integrally injection molded with the heating element 131 .
  • the sealing member 132 can also be formed by splicing two or more structures.
  • the atomizing body 10 also includes a rigid reinforcement 15 in some embodiments, and the rigid reinforcement 15 may include a rectangular ring-shaped body.
  • materials that are not easily brittle and can withstand large forces can be used, such as metal sheets, dense ceramics, hard glue, preferably metal sheets, such as steel sheets SUS-316L (food grade), the thickness range is 0.1-0.5 mm (preferably, the thinner the better if the strength meets the requirements).
  • Two ends of the annular body of the rigid reinforcement 15 are respectively supported by the first support arm 112 and the second support arm 113 to support the atomization assembly 13 .
  • the four frames of the annular body of the rigid reinforcement 15 are respectively supported under the four frames of the seal 132 of the atomization assembly 13 , so that the heating element 131 of the atomization assembly 13 is stressed evenly around and avoids excessive stress and breakage. When the soft seal 132 of the atomization assembly 13 is stressed evenly, the sealing performance is better.
  • the central through hole 150 of the annular body of the rigid reinforcement 15 forms an opening for exposing the atomizing surface of the heating element 131 .
  • the soft sealing member 132 may include a pair of arc-shaped first limiting protrusions 1321, which are respectively formed on the outer walls of two opposite frames of the sealing member 132. .
  • a pair of arc-shaped second limiting protrusions are respectively provided on the outer sides of the two opposite sides of the rigid reinforcement 15 .
  • the inner sides of the two opposite sides of the rigid reinforcement 15 are concavely formed with an arc-shaped avoidance groove 152 to provide avoidance space for the installation of the pair of electrodes 14 .
  • the atomizing body 10 may further include a sealing sleeve 16 , which is placed on the upper part of the upper base 12 to realize a liquid-tight seal between the upper base 12 and the inner wall of the housing 20 .
  • a pair of lower liquid holes 160 and an air passage hole 162 may be formed on the top wall of the sealing sleeve 16 in some embodiments. 162 communicates with the air outlet channel 1212 of the upper base body 12 correspondingly.
  • the electronic atomization device may be in the form of a hand-held rod-shaped structure for the user to inhale the aerosol.
  • the electronic atomization device may include an atomizer 1a and a power supply device 2a matched with the atomizer 1a.
  • the atomizer 1a can be used to store and heat atomized liquid aerosol-generating substrates such as medicinal liquid, and to export the aerosol.
  • the power supply unit 2a can be used to power the atomizer 1a.
  • the atomizer 1a and the power supply device 2a may both be substantially elliptical cylindrical, and both are mechanically and electrically connected together along the axial direction.
  • the atomizer 1a and the power supply unit 2a can be detachably connected together by means of magnetic attraction. It can be understood that the atomizer 1a and the power supply unit 2a are not limited to being elliptical columns, they may also be columns with circular, racetrack or irregular cross-sections, or non-columnar shapes.
  • the atomizer 1a in some embodiments may include an atomizing body and a casing 20a sleeved on the atomizing body, and a reservoir is formed between the atomizing body and the casing 20a.
  • Liquid space 70a The liquid storage space 70a is used to accommodate the liquid aerosol generating substrate, the atomizing body is used to heat the liquid aerosol generating substrate in the liquid storage space 70a to generate aerosol and mix the aerosol with the outside air, and the housing 20a is also used to Export the mixture of aerosol and air and protect the atomized body.
  • the housing 20a may include an elongated flat shell 21a and an air duct 22a in some embodiments.
  • One end (lower end) of the elongated flat housing 21a has an opening 212a, and the other end (upper end) has an air outlet 210a.
  • One end of the air guide pipe 22a communicates with the air outlet 210a, and the other end extends toward the opening 212a of the housing 21a.
  • the air guide pipe 22a can be integrally formed with the shell 21a, and its end is inserted into the atomizing main body to lead out the mist generated when the atomizing main body works.
  • the shape of the housing 21a is not limited to the one shown in the figure, and other shapes such as a square tube shape and a cylindrical shape are also applicable.
  • the end of the casing 21a provided with the air outlet hole 210a may be flattened to form a suction nozzle.
  • the atomizing body is inserted into the casing 20a through the opening 212a along the longitudinal direction, and the opening 212a is blocked to realize the sealing of the liquid storage space 70a.
  • the inside of both ends of the open end of the shell 21a is also provided with a locking groove 216a to engage with the atomizing body inserted into the shell 21a to prevent the atomizing body from falling out of the shell 20a.
  • the housing 21a may include a first side wall 211a , a second side wall 213a , a third side wall 215a and a fourth side wall 217a sequentially connected in the circumferential direction.
  • the first sidewall 211a and the third sidewall 215a may be arc-shaped in some embodiments, and are respectively located at two ends of the short axis of the cross-section of the housing 21a, and have a relatively small curvature.
  • the second sidewall 213a and the fourth sidewall 217a may be arc-shaped in some embodiments, and are respectively located at two ends of the long axis of the cross-section of the housing 21a, and have relatively large curvatures.
  • the atomizing body may include a columnar atomizing seat 10a, an atomizing assembly 30a arranged on one side of the atomizing seat 10a, and a card for fixing the atomizing assembly 30a on the atomizing seat 10a
  • the atomizing seat 10a is used to form the skeleton of the atomizing body, and to form airflow channels and conductive channels.
  • the atomizing assembly 30a is used for heating and atomizing the liquid in the liquid storage space 70a, and releasing the mist into the atomizing seat 10a.
  • the first sealing member 50a is used to seal the gap between the upper part of the atomizing seat 10a and the air guide pipe 22a, and is also used to form a ventilation channel together with the atomizing seat 10a.
  • the second sealing member 60a is used to seal the escape hole 1250a on the side wall of the atomizing seat 10a.
  • the atomizing seat 10a may include a base 11a, a cylindrical atomizing chamber 12a disposed longitudinally on the top of the base 11a, and a cylindrical connecting chamber 13a disposed on the top of the atomizing chamber 12a.
  • the base 11a can be used to close the opening 212a of the housing 20a, provide electrical connection for the atomization assembly 30a, and introduce outside air into the atomization cavity 12a.
  • the atomizing chamber 12a can form an atomizing chamber 120a, and can be installed on the atomizing chamber 12a to communicate with the atomizing chamber 120a.
  • the connecting chamber 13a can be used to communicate the atomizing chamber 120a with the air duct 22a of the casing 20a, to partition the liquid storage space 70a, and to ventilate the liquid storage space 70a.
  • the base 11a in some embodiments may include a base body 111a with a substantially elliptical cross section, a sealing ring 112a sleeved on the base body 111a, and a pair of electrodes integrally formed in the base body 111a. 113a.
  • the base body 111a and the sealing ring 112a are used to close the opening 212a of the housing 20a, and the pair of electrodes 113a are used to electrically connect the atomizing assembly 30a to the positive and negative electrodes of the power supply device 2a respectively.
  • each electrode 113a can be integrally made by bending elastic conductive materials such as metal sheets, which can include a U-shaped first electrode fixed in the base body 111a with the middle part exposed to the bottom surface of the base body 111a.
  • the base 11a in some embodiments may also include an air intake channel 114a passing through the base body 111a, a guide structure 115a arranged on the top surface of the base body 111a and near the air outlet of the air intake channel 114a And a pair of buckle arms 116a respectively disposed on two opposite ends of the top surface of the base body 111a.
  • the air intake passage 114a is used to allow outside air to enter the atomization cavity 120a
  • the guide structure 115a is used to guide the airflow to the atomization assembly 30a.
  • the pair of locking arms 116a are used to respectively engage with the two locking slots 216a of the housing 21a.
  • the cross section of the air inlet channel 114a may be rectangular in some embodiments, thereby forming a longitudinal slit, which includes an air inlet section 1141a located at the lower part, an air outlet section 1143a located at the upper part, and connecting the air inlet section 1141a and the air outlet section 1143a
  • the cross-sectional area of the air inlet section 1141a is larger than the cross-sectional area of the air outlet section 1143a, so that the inhaled gas is accelerated when it flows out through the air outlet section 1143a, and can be better blown to the atomization assembly 30a .
  • the guide structure 115a may include a guide surface 1151a located directly above the air outlet of the air outlet section 1143a, and the guide surface 1151a may be a plane inclined toward the atomization assembly 30a.
  • the cross-section of the air intake channel 114a is not limited to a rectangle, and it can also be in the shape of a long runway, a long ellipse, etc., or a columnar slit such as a circle or a square.
  • the atomizing cavity 12a may be cylindrical in some embodiments, and may be integrally formed on the top surface of the base body 111a along the longitudinal direction.
  • the atomizing chamber 12a may include a first side wall 121a, a second side wall 123a, a third side wall 125a and a fourth side wall 127a connected in sequence in the circumferential direction, and these side walls together define a substantially
  • the atomizing chamber 120a is in the shape of a cuboid.
  • the first side wall 121a, the second side wall 123a and the fourth side wall 127a of the atomization chamber 12a are respectively opposite to the first side wall 211a, the second side wall 213a and the fourth side wall 217a of the housing 21a, and each has intervals, and these intervals are interconnected.
  • the first sidewall 121a, the second sidewall 123a, and the fourth sidewall 127a may each include a flat outer surface in some embodiments.
  • the outer wall surface of the third side wall 125a of the atomization cavity 12a can be closely attached to the inner wall surface of the third side wall 215a of the shell 21a of the housing 20a, and an escape hole 1250a penetrating through the thickness direction is opened on it (as shown in the figure 20).
  • the escape hole 1250a is used to facilitate the mold clamping the electrode 113a during the integral injection molding process of the atomizing seat 10a, and the second sealing member 60a is sealed in the avoidance hole 1250a to prevent liquid from leaking into the atomizing chamber 120a.
  • the outer wall surface of the third side wall 125a may be arc-shaped, so as to better adhere to the inner wall surface of the third side wall 215a of the housing 21a.
  • the first side wall 121a of the atomization chamber 12a may include a receiving groove 1210a for accommodating the atomizing assembly 30a in some embodiments, and a receiving groove 1210a for connecting the receiving groove 1210a to the atomizing chamber 120a. connected to the opening 1212a.
  • the receiving groove 1210a can be formed by the outer surface of the first side wall 121a being recessed toward the direction away from the first side wall 211a of the shell 21a, and the bottom of the groove is against the inner edge of the atomization assembly 30a, forming a A resisting part of the atomization assembly 30a.
  • the opening 1212a may be formed in the middle of the bottom of the receiving groove 1210a, so that the bottom of the receiving groove 1210a is ring-shaped.
  • the shape and size of the opening 1212a can be adapted to the shape and size of the atomizing surface of the atomizing assembly 30a, so that the groove bottom of the receiving groove 1210a is against the entire edge of the atomizing assembly 30a, and the atomizing assembly 30a The entire atomizing surface of is exposed in the atomizing chamber 120a.
  • the second conductive end 1132a of the electrode 113a of the base 11a protrudes into the opening 1212a and elastically contacts the atomizing assembly 30a.
  • the outer surfaces of the second side wall 123a and the fourth side wall 127a can be respectively provided with locking platforms 122a for locking with the locking member 40a.
  • the outer surface of the first side wall 121a may be planar in some embodiments.
  • the connection cavity 13a in some embodiments may include a first side wall 131a , a second side wall 133a , a third side wall 135a and a fourth side wall 137a sequentially connected in the circumferential direction.
  • the first side wall 131a, the second side wall 133a, the third side wall 135a and the fourth side wall 137a together define a cylindrical cavity 130a for the first sealing member 50a to be embedded in.
  • the connecting cavity 13a can be integrally formed on the top of the atomizing cavity 12a along the longitudinal direction, and its third side wall 135a is on a vertical plane with the third side wall 125a of the atomizing cavity 12a.
  • the distance from the first side wall 131a to the third side wall 135a of the connecting cavity 13a is greater than the distance from the first side wall 121a to the third side wall 125a of the atomizing cavity 12a.
  • the outer wall surfaces of the first side wall 131a and the third side wall 135a are respectively pressed against the inner surfaces of the first side wall 211a and the second side wall 213a of the housing 21a, separating the liquid storage space 70a into a The collection part 71a located below the connecting cavity 13a and the liquid storage bin 72a located above the connecting cavity 13a.
  • the collection part 71a is formed by the space between the atomization cavity 12a and the first side wall 211a, the second side wall 213a and the fourth side wall 217a of the housing 21a, and surrounds the atomization cavity 12a in a C shape.
  • the second side wall 133a and the fourth side wall 137a of the connection cavity 13a are respectively opposite to the second side wall 213a and the fourth side wall 217a of the housing 21a, and respectively form two intervals, the two intervals
  • the collecting part 71a is connected with the liquid storage chamber 72a to respectively form a first liquid lower port 73a and a second liquid lower port 74a through which the liquid enters the collecting part 71a from the liquid storage chamber 72a.
  • a step 132a may be provided at the junction between the connecting cavity 13a and the atomizing cavity 12a, and the top surface of the step is formed with a first gas guide with capillary force that communicates with the atomizing cavity 120a and extends horizontally.
  • Slot 1320a the third side wall 135a of the connection cavity 13a may include a longitudinally extending second air guide groove 1351a with capillary force formed on the inner surface, and the lower end of the second air guide groove 1351a is connected to the first The air guide grooves 1320a are connected.
  • the third side wall 135a may further include a third air guide groove 1353a extending longitudinally on the outer surface and having a capillary force, and passing through the third side wall 135a to form the third air guide groove 1353a
  • the air guide hole 1352a communicated with the second air guide groove 1351a.
  • the upper end of the third air guide groove 1353a communicates with the liquid storage chamber 72a of the liquid storage space 70a.
  • the first air guide groove 1320a, the second air guide groove 1351a, the air guide hole 1352a and the third air guide groove 1353a together form the air exchange channel of the atomizer 1a, so as to realize the gas-liquid balance in the liquid storage space 70a.
  • the first sealing member 50a may be made of soft material such as silicone in some embodiments, and may include a cylindrical body 51a and a flange 53a formed on the upper edge of the cylindrical body 51a.
  • the outer diameter of the cylindrical body 51a is adapted to the inner diameter of the cavity 130a of the connecting cavity 13a, so that the cylindrical body 51a can be tightly plugged in the cavity 130a along the axial direction.
  • the lower end surface of the cylindrical body 51a is tightly abutted against the top surface of the step 132a.
  • the cylindrical body 51a includes a through central through hole 510a for communicating with the atomizing chamber 120a after the air guide tube 22a of the housing 20a is inserted.
  • the first sealing member 60a is also made of soft material such as silica gel, and is in the shape of a block.
  • the atomization assembly 30a may include a sheet-shaped heating element 31a and a square-shaped soft seal 32a bonded to the periphery of the sheet-shaped heating element 31a.
  • the sheet-shaped heating element 31a may be in the shape of a square sheet in some embodiments, and may include a sheet-shaped base 311a and a heating layer 312a formed on the bottom surface of the base 311a.
  • the substrate 311a can be glass or dense ceramics with a micropore array, or sheet-shaped porous ceramics.
  • the sealing member 32a can also be integrally injection molded with the heating element 31a. In some other embodiments, the sealing member 32a can also be formed by splicing two or more structures.
  • the atomization assembly 30a may be arranged in a direction parallel to the longitudinal axis of the atomization chamber 12a.
  • the buckle 40a can be formed integrally with a metal sheet, which includes a buckle body 41a with an opening 410a and a buckle body 41a connected to two opposite sides of the buckle body 41a respectively.
  • the buckle body 41a is pressed against the outside of the atomization assembly 30a, and the first buckle arm 42 and the second buckle arm 43a are respectively buckled on the side wall of the atomization cavity 12a, and the atomization assembly 30a is fastened on the atomizer
  • the liquid absorption surface of the atomization assembly 13 is exposed to the liquid storage space 70a through the opening 410a.
  • the four frames of the buckle body 41a respectively correspond to the four frames of the sealing member 32a of the atomization assembly 30a, so that the heating element 31a of the atomization assembly 30 is stressed evenly around and avoids excessive stress and breakage.
  • the buckle body 41a also functions as a reinforcement for the heating element 31a.

Landscapes

  • Special Spraying Apparatus (AREA)

Abstract

Appareil d'atomisation électronique et atomiseur (1) associé, l'atomiseur comprenant un réservoir (214), une première partie de butée et un élément de renforcement rigide (15). Le réservoir (214) est utilisé pour stocker une matrice de génération d'aérosol ; un ensemble d'atomisation (13) est relié au réservoir (214) d'une manière de guidage de liquide, et comprend un premier côté et un second côté opposés l'un à l'autre ; la première partie de butée vient directement ou indirectement en butée contre la partie de bord du premier côté de l'ensemble d'atomisation (13) ; et l'élément de renforcement rigide (15) vient directement ou indirectement en butée contre la partie de bord du second côté de l'ensemble d'atomisation (13), de sorte que la partie de bord peut supporter uniformément une force. Dans le dispositif d'atomisation, la périphérie de l'ensemble d'atomisation (13) supporte uniformément une force au moyen de l'élément de renforcement rigide (15), empêchant ainsi l'ensemble d'atomisation (13) d'être cassé en raison d'une contrainte excessive, et facilitant le développement de l'ensemble d'atomisation (13) dans une direction d'amincissement.
PCT/CN2021/142883 2021-12-30 2021-12-30 Appareil d'atomisation électronique et atomiseur associé Ceased WO2023123160A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/CN2021/142883 WO2023123160A1 (fr) 2021-12-30 2021-12-30 Appareil d'atomisation électronique et atomiseur associé

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/CN2021/142883 WO2023123160A1 (fr) 2021-12-30 2021-12-30 Appareil d'atomisation électronique et atomiseur associé

Publications (1)

Publication Number Publication Date
WO2023123160A1 true WO2023123160A1 (fr) 2023-07-06

Family

ID=86997021

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2021/142883 Ceased WO2023123160A1 (fr) 2021-12-30 2021-12-30 Appareil d'atomisation électronique et atomiseur associé

Country Status (1)

Country Link
WO (1) WO2023123160A1 (fr)

Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108185536A (zh) * 2018-02-13 2018-06-22 深圳麦克韦尔股份有限公司 电子烟及其雾化器
KR20190098550A (ko) * 2018-02-14 2019-08-22 주식회사 케이에이치바텍 전자담배
CN209361070U (zh) * 2018-10-22 2019-09-10 上海暖友实业有限公司 一种蒸汽眼罩
CN210275886U (zh) * 2019-07-19 2020-04-10 常州市派腾电子技术服务有限公司 雾化组件、雾化器及气溶胶发生装置
CN210520094U (zh) * 2019-06-24 2020-05-15 深圳哈卡科技有限公司 雾化器及电子烟
CN211020994U (zh) * 2019-09-29 2020-07-17 深圳麦克韦尔科技有限公司 电子雾化装置及其雾化器
CN111657556A (zh) * 2020-05-15 2020-09-15 深圳麦克韦尔科技有限公司 发热组件及加热雾化装置
CN111713741A (zh) * 2019-03-19 2020-09-29 深圳市爱卓依科技有限公司 烟弹及具有该烟弹的电子烟
CN112315027A (zh) * 2020-08-31 2021-02-05 深圳麦克韦尔科技有限公司 一种电子雾化装置及其雾化器、雾化芯
CN112772979A (zh) * 2021-01-20 2021-05-11 深圳市华诚达精密工业有限公司 高强度的雾化组件和雾化装置
CN113115986A (zh) * 2021-04-21 2021-07-16 东莞市阿尔法电子科技有限公司 雾化芯及烟弹
CN113679107A (zh) * 2021-07-16 2021-11-23 深圳麦克韦尔科技有限公司 雾化组件及电子雾化装置

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108185536A (zh) * 2018-02-13 2018-06-22 深圳麦克韦尔股份有限公司 电子烟及其雾化器
KR20190098550A (ko) * 2018-02-14 2019-08-22 주식회사 케이에이치바텍 전자담배
CN209361070U (zh) * 2018-10-22 2019-09-10 上海暖友实业有限公司 一种蒸汽眼罩
CN111713741A (zh) * 2019-03-19 2020-09-29 深圳市爱卓依科技有限公司 烟弹及具有该烟弹的电子烟
CN210520094U (zh) * 2019-06-24 2020-05-15 深圳哈卡科技有限公司 雾化器及电子烟
CN210275886U (zh) * 2019-07-19 2020-04-10 常州市派腾电子技术服务有限公司 雾化组件、雾化器及气溶胶发生装置
CN211020994U (zh) * 2019-09-29 2020-07-17 深圳麦克韦尔科技有限公司 电子雾化装置及其雾化器
CN111657556A (zh) * 2020-05-15 2020-09-15 深圳麦克韦尔科技有限公司 发热组件及加热雾化装置
CN112315027A (zh) * 2020-08-31 2021-02-05 深圳麦克韦尔科技有限公司 一种电子雾化装置及其雾化器、雾化芯
CN112772979A (zh) * 2021-01-20 2021-05-11 深圳市华诚达精密工业有限公司 高强度的雾化组件和雾化装置
CN113115986A (zh) * 2021-04-21 2021-07-16 东莞市阿尔法电子科技有限公司 雾化芯及烟弹
CN113679107A (zh) * 2021-07-16 2021-11-23 深圳麦克韦尔科技有限公司 雾化组件及电子雾化装置

Similar Documents

Publication Publication Date Title
US20230000165A1 (en) Atomizer and aerosol generating device
CN211379632U (zh) 电子雾化装置及其雾化器
CN110169602A (zh) 电子雾化装置及其雾化器和用于雾化器的雾化壳体
WO2022179300A2 (fr) Ensemble de chauffage, atomiseur et dispositif d'atomisation électronique
CN114794578A (zh) 发热组件、雾化器及电子雾化装置
CN114794577A (zh) 发热组件、雾化器及电子雾化装置
WO2022040935A1 (fr) Dispositif d'atomisation électronique
WO2023124515A1 (fr) Ensemble de chauffage, atomiseur et dispositif d'atomisation électronique
US20220175027A1 (en) Electronic atomizing device and atomizer thereof
WO2023070978A1 (fr) Atomiseur
WO2022179233A1 (fr) Ensemble corps chauffant, atomiseur et dispositif d'atomisation électronique
CN114762538B (zh) 电子雾化装置及其雾化器
WO2022179299A2 (fr) Ensemble de chauffage, atomiseur et dispositif d'atomisation électronique
WO2023123160A1 (fr) Appareil d'atomisation électronique et atomiseur associé
US20240349813A1 (en) Electronic atomization device and atomizer thereof
WO2020232676A1 (fr) Dispositif d'atomisation électronique et atomiseur associé, structure d'étanchéité et procédé d'assemblage d'atomiseur
CN114762539A (zh) 电子雾化装置及其雾化器
WO2023123165A1 (fr) Appareil de vaporisation électronique et vaporisateur associé
CN116584703B (zh) 一种气溶胶生成装置
WO2022040866A1 (fr) Appareil d'atomisation électronique et atomiseur associé
CN223040941U (zh) 雾化器及电子雾化装置
WO2023123166A1 (fr) Dispositif d'atomisation électronique et atomiseur associé
CN116210971A (zh) 雾化组件及电子雾化装置
WO2023123248A1 (fr) Dispositif d'atomisation électronique et atomiseur associé
CN219422219U (zh) 雾化装置

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 21969526

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 21969526

Country of ref document: EP

Kind code of ref document: A1