CN216568358U - Atomizer and electronic atomization device - Google Patents

Abstract

The utility model relates to an atomizer and an electronic atomization device, wherein the atomizer comprises: the atomizing device comprises a base, a first atomizing device and a second atomizing device, wherein an atomizing channel is formed on the base; the heating net is arranged on the base and is integrally formed with the base; and the oil guide piece is arranged on the base, one surface of the heating net is in contact with the oil guide piece, and the other surface of the heating net faces the atomizing channel. In the atomizer, one side of the heating net is provided with the oil guide part, the other side of the heating net is provided with the atomizing channel, liquid in the oil guide part is atomized through the heating net, and smoke formed by atomization penetrates through the heating net to enter the atomizing channel. Like this, need not form the atomizing core through winding the heater on leading oily piece earlier, also need not set up atomizing core support, but directly form the atomizer through the cooperation of base, heating screen and leading oily piece, simplify overall structure. And the heating net and the base are integrally formed, the base connected with the heating net can be formed through the same die, the manufacturing and processing technology is simplified, and the actual application is facilitated.

Description

Atomizer and electronic atomization device

Technical Field

The utility model relates to the technical field of electronic atomization, in particular to an atomizer and an electronic atomization device.

Background

The aerosol is a colloidal dispersion system formed by dispersing small solid or liquid particles in a gas medium, and the aerosol can be absorbed by a human body through a respiratory system, so that a novel alternative absorption mode is provided for a user, for example, an atomization device which can bake and heat herbal aerosol generating substrates to generate the aerosol is applied to different fields, and the aerosol which can be inhaled is delivered to the user to replace the conventional product form and absorption mode.

Typically, the aerosol generating substrate is heated by an atomiser, for heating a liquid aerosol generating substrate, the liquid aerosol generating substrate may be received by a porous ceramic and atomisation is then achieved by heating the porous ceramic. However, the heating wire for heating the porous ceramic needs to be attached to the bottom of the porous ceramic, and the atomizer is complex in manufacturing and processing technology and inconvenient to use in practice.

SUMMERY OF THE UTILITY MODEL

Accordingly, it is necessary to provide an atomizer and an electronic atomizing device for solving the problem of complicated manufacturing process of the conventional atomizer.

An atomizer, comprising:

the atomizing device comprises a base, wherein an atomizing channel is formed on the base;

the heating net is arranged on the base and is integrally formed with the base; and

lead oily piece, it locates to lead oily piece on the base, the one side of heating net with lead oily piece contact, the another side orientation of heating net atomizing passageway.

In the atomizer, one side of the heating net is provided with the oil guide part, the other side of the heating net is provided with the atomizing channel, liquid in the oil guide part is atomized through the heating net, and smoke formed by atomization passes through the heating net to enter the atomizing channel. Like this, need not form the atomizing core through winding the heater on leading oily piece earlier, also need not set up atomizing core support, but directly form the atomizer through the cooperation of base, heating screen and leading oily piece, simplify overall structure. And the heating net and the base are integrally formed, the base connected with the heating net can be formed through the same die, the manufacturing and processing technology is simplified, and the actual application is facilitated.

In one embodiment, the base is a ceramic piece, and the heating net and the ceramic piece are integrally sintered.

In one embodiment, the base is not oil conducting.

In one of them embodiment, the heating network includes interconnect's fitting part and suspension portion, fitting part pre-buried connect in on the base, suspension portion one side is towards atomizing passageway, suspension portion opposite side exposes for the surface of base, lead oil spare and locate on the base and with suspension portion contact.

In one embodiment, the base is provided with a through hole communicated with the atomizing channel, one side of the suspension part, which faces away from the atomizing channel, faces the through hole, and the oil guide part covers the through hole and is in contact with the suspension part.

In one embodiment, the oil guide is embedded in the through hole.

In one embodiment, the atomizer further comprises a cover, and the cover abuts against one side of the oil guide opposite to the heating net and is matched and connected with the base.

In one embodiment, a plurality of the heat generating nets are arranged on the base along a direction parallel to the circumferential direction of the atomizing channel, and a plurality of suspended parts of the plurality of the heat generating nets are all in contact with the oil guide.

In one embodiment, the oil guiding member is wound on the base, and the oil guiding member covers all of the suspended portions of the heat generating network.

The utility model provides an electronic atomization device, includes housing assembly and above-mentioned atomizer, be formed with stock solution chamber and airflow channel in the housing assembly, the atomizer assemble in the stock solution intracavity, the atomizing passageway with airflow channel communicates.

Drawings

FIG. 1 is a schematic cross-sectional view of an electronic atomizer in accordance with an embodiment of the present invention;

FIG. 2 is an exploded view of the electronic atomizer shown in FIG. 1;

FIG. 3 is an exploded view of the atomizer of the electronic atomizer shown in FIG. 2;

FIG. 4 is a partially exploded schematic view of the electronic atomizer of FIG. 1;

FIG. 5 is a schematic diagram of the electronic atomizer of FIG. 4 in a further exploded view;

fig. 6 is a schematic view of the heating net in the atomizer shown in fig. 3.

100. An atomizer; 10. a base; 11. an atomizing channel; 12. a main body section; 13. a through hole; 14. assembling the sections; 30. a heat generating net; 31. a first conductive filament; 33. a second conductive filament; 332. a connecting section; 334. an outward expansion section; 35. a first frame; 37. a second frame; 50. an oil guide member; 70. a housing; 72. a via hole; 200. an electronic atomization device; 210. a housing assembly; 211. a base; 212. a liquid storage cavity; 213. a housing; 214. a housing; 216. an airflow duct; 217. an air flow channel; 218. connecting sleeves; 230. a suction nozzle.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the utility model.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1, in one embodiment of the utility model, there is provided a nebulizer 100, the nebulizer 100 being for heating and nebulizing a liquid aerosol-generating substrate, such as heating and nebulizing tobacco smoke, or other medical liquid, and not being limited thereto.

The atomizer 100 comprises a base 10, a heating net 30 and an oil guide piece 50, wherein an atomization channel 11 is formed on the base 10, the heating net 30 and the oil guide piece 50 are both arranged on the base 10, one surface of the heating net 30 is in contact with the oil guide piece 50, and the other surface of the heating net 30 faces the atomization channel 11. When the atomizer 100 works, the atomizer is accommodated in the liquid storage cavity 212, the oil guide member 50 can absorb liquid in the liquid storage cavity 212, then the liquid on the oil guide member 50 is heated and atomized through the heating net 30, and finally, the atomized smoke can pass through the heating net and enter the atomization channel 11 to complete liquid atomization. In this way, one side of the heating net 30 is provided with the oil guiding member 50, the other side of the heating net 30 is provided with the atomizing channel 11, the liquid in the oil guiding member 50 is atomized through the heating net 30, and the atomized smoke passes through the heating net 30 and enters the atomizing channel 11. Thus, the atomization core is formed without winding the heating wire on the oil guide 50, and the atomizer 100 is formed directly by matching the base 10, the heating net 30 and the oil guide 50 without arranging an atomization core bracket, so that the whole structure is simplified.

Optionally, the oil guide 50 is an oil guide cotton, which can effectively absorb liquid; alternatively, the oil guide 50 is made of porous ceramic, and the porosity of the porous ceramic is about 40% -75%, so that the oil guide can effectively absorb liquid.

In some embodiments, the heating net 30 and the base 10 are integrally formed, and the base 10 connected with the heating net 30 can be formed by the same mold, so that the manufacturing process is simplified, and the practical application is facilitated. Further, the base 10 is a ceramic piece, on one hand, when the heating net is arranged on the ceramic piece for atomization heating, the ceramic piece is high temperature resistant, is not easy to burn and does not affect the atomization taste; on the other hand, after the base 10 is made of a ceramic piece, the heating net 30 can be integrally sintered with the ceramic piece, so that the heating net 30 and the ceramic piece can be integrally formed.

Further, the base 10 does not lead the oil setting, can not adsorb liquid in the base 10, only leads liquid to heating net 30 department through leading oil piece 50, and heating net 30 can in time atomize the liquid of leading in the oil piece 50, prevents to lead to electron atomizing device 200 oil leakage because the absorption is stored with liquid in the base 10. In addition, when the base 10 is made of a ceramic material, the ceramic material is not oil-conductive, so that the ceramic material is prevented from being brittle and easily broken after adsorbing liquid, and the service life of the ceramic base 10 can be prolonged. Alternatively, the susceptor 10 is an oil-tight ceramic made of alumina or zirconia.

In some embodiments, the heating net 30 has a suspension portion and an assembly portion connected to each other, the assembly portion is pre-embedded and connected to the base 10, one side of the suspension portion faces the atomizing channel 11, the other side of the suspension portion is exposed relative to the outer surface of the base 10, and the oil guiding element 50 is disposed on the base 10 and contacts with the suspension portion. In the process of manufacturing the base 10, the assembly portion of the heating net 30 is embedded in the molding material, and then the molding material is cured to form the base 10, and the heating net 30 and the base 10 can be integrally connected and molded.

Further, the base 10 is provided with a through hole 13 communicating with the atomizing channel 11, one side of the suspension portion facing away from the atomizing channel 11 faces the through hole 13, and the oil guide 50 covers the through hole 13 and contacts with the suspension portion. In this way, by forming the through hole 13 communicating with the atomizing passage 11 in the base 10, the suspended portion is exposed to the outer surface of the base 10 through the through hole 13, and then the oil guide 50 covers the through hole 13 to be in contact with the suspended portion.

In some embodiments, the oil guide 50 is embedded in the through hole 13, and the oil guide 50 is only required to be automatically installed in the through hole 13 from the side part during assembly, so that the assembly mode is simplified, and the automatic assembly is facilitated. Specifically, the base 10 is provided with an atomizing channel 11 along a first direction, the base 10 is provided with a through hole 13 along a second direction intersecting with the first direction, the through hole 13 is communicated between the atomizing channel 11 and the outside, one side of the heating element faces the atomizing channel 11, the other side of the heating element faces the through hole 13, and the oil guide element 50 is assembled in the through hole 13 and contacts with the heating element. Thus, the atomizing passage 11 is opened in the base 10 in a first direction, the through-hole 13 is opened in a second direction intersecting the first direction, and the oil guide 50 is provided in the through-hole 13. In the assembling process, the oil guide piece 50 is directly arranged in the through hole 13 only from the side surface of the base 10 in the second direction, complex assembling action is not needed, automatic assembling can be carried out on a production line, and assembling efficiency is improved.

Further, the atomizer 100 further includes a cover 70, and the cover 70 abuts against a side of the oil guide 50 facing away from the heat generating net 30 and is coupled to the base 10, so that the oil guide 50 is blocked by the cover 70 and the oil guide 50 is prevented from falling out of the through hole 13. Optionally, the housing 70 is opened with a through hole 72 facing the oil guide 50 to allow the liquid to enter the oil guide 50 through the through hole 72.

In some embodiments, a plurality of heat generating nets 30 are disposed on the base 10 in a direction parallel to the circumferential direction of the atomizing passage 11, and a plurality of suspended portions of the plurality of heat generating nets 30 are in contact with the oil guide 50. That is to say, lay a plurality of heating networks 30 in the axial of one year atomizing passageway 11 on base 10, lead oily 50 and a plurality of heating networks 30 all contact setting simultaneously, adsorb oily liquid in leading oily 50 like this, lead the liquid in oily 50 through a plurality of heating networks 30 heating, and then from the heating network 30 department of each direction of atomizing passageway 11 circumference production smog, can atomize liquid more evenly, form the smog that the taste is more even.

Optionally, the oil guiding member 50 is wound on the base 10, and the oil guiding member 50 covers the suspended portion of all the heat generation networks 30, on one hand, the oil guiding member 50 is fixed on the base 10 by winding, on the other hand, the oil guiding member 50 covers all the heat generation networks 30 in the winding process, so that liquid can be supplied to all the heat generation networks 30, and the effect of atomizing from multiple directions is achieved.

Still alternatively, the oil guiding member 50 includes a plurality of oil guiding members 50, one oil guiding member 50 is disposed at the suspended portion of each heat generation network 30, and the plurality of oil guiding members 50 are used to supply liquid to the plurality of heat generation networks 30, and the arrangement manner of the oil guiding members 50 is not limited herein.

In one embodiment of the present invention, a heating screen 30 is provided, the heating screen 30 being used in an atomizer 100 for heating an atomized aerosol-generating substrate, such as tobacco tar, to form an aerosol for inhalation by a user.

The heating net 30 includes first conductive threads 31 and second conductive threads 33, the first conductive threads 31 are configured to extend along a first direction, the second conductive threads 33 are configured to extend along a second direction intersecting the first direction, and intersect and connect with the first conductive threads 31, so that the first conductive threads 31 and the second conductive threads 33 intersect and connect to form the heating net 30, and at least one of the first conductive threads 31 and the second conductive threads 33 is heated after being electrified, so as to heat the atomized aerosol generating substrate. It is understood that when at least one of the first conductive wires 31 and the second conductive wires 33 has a large resistance, heat is generated after the power is applied.

In addition, the intersection of the first conductive wire 31 and the second conductive wire 33 is arranged in a round angle manner, so that a sharp corner is not formed at the intersection of the first conductive wire 31 and the second conductive wire 33, and the phenomenon that the heating net 30 is broken when being punched and formed due to the sharp corner at the connection of the first conductive wire 31 and the second conductive wire 33 is avoided, so that the heating net 30 can be manufactured by a stamping process without forming the heating net 30 by an etching process, and the processing and production efficiency is improved.

Specifically, the heating net 30 is manufactured by punch forming, and the heating net 30 does not need to be manufactured by etching, so that the processing and production efficiency is improved. It should be noted that, since the first conductive wires 31 and the second conductive wires 33 in the heating net 30 have a small size (less than 1mm), they can be manufactured by a precise stamping process. Also, since the first conductive threads 31 and the second conductive threads 33 are small in size, the structures of the first conductive threads 31 and the second conductive threads 33 have a great influence on whether the punching can be successfully performed. The utility model discloses the people has adopted the punching press technology shaping to generate heat net 30 fairly at the research and development in-process to improve the structure of generating heat net 30, so that the structure of generating heat net 30 can adapt to stamping forming technology, adopted stamping forming technology to make generating heat net 30, improved production efficiency.

In some embodiments, the first conductive filaments 31 are disposed in a wave shape, and the first conductive filaments 31 have a relatively high resistance and can generate heat after being electrically conducted. Moreover, the wavy first conductive wires 31 are convenient for punch forming, and stress concentration caused by sharp corners can be avoided, so that the punch forming effect is not influenced. Further, the width of the first conductive wire 31 is smaller than 0.13mm, and the width of the first conductive wire 31 is set to be smaller, so that the resistivity of the first conductive wire 31 can be improved, and further, heat generation after conduction is facilitated. Specifically, the width of the first conductive threads 31 is 0.11 mm.

Further, the first conductive wires 31 are provided with a plurality of first conductive wires 31, and the plurality of first conductive wires 31 are arranged at intervals along the second direction and are connected with the second conductive wires 33 in an intersecting manner. Thus, the plurality of first conductive wires 31 are arranged, the heating area is increased, and the atomization effect is improved. Meanwhile, the plurality of first conductive threads 31 are connected with the second conductive threads 33 in an intersecting manner, and the plurality of first conductive threads 31 are connected through the second conductive threads 33, so that the heating net 30 is connected into a whole.

In some embodiments, the second conductive filament 33 includes a connecting section 332 and a flaring section 334, one end of the connecting section 332 in the second direction intersects with the first conductive filament 31, and the other end of the connecting section 332 in the second direction is connected with the flaring section 334. Also, the width of the flared section 334 in the first direction is greater than the width of the connecting section 332 in the first direction. When the heating net 30 is mounted on the base 10 of the atomizer 100, the heating net 30 comes into contact with the oil guide 50 to heat the liquid absorbed in the atomizing oil guide 50. Therefore, the flared section 334 is disposed in the second conductive filament 33, so that the width of the second conductive filament 33 passing through the flared section 334 is larger, the contact area between the second conductive filament 33 and the oil guide 50 is increased, the second conductive filament 33 can effectively support the oil guide 50, and the reliability of the assembly of the oil guide 50 is improved.

Further, the second conductive threads 33 are provided in plural, and the plural second conductive threads 33 are arranged at intervals along the first direction and cross-connected with the first conductive threads 31, so that the plural first conductive threads 31 and the plural second conductive threads 33 cross-connected with each other to form the heating net 30. Wherein the plurality of first conductive wires 31 and the plurality of first conductive wires 31 are connected to each other to form the heating net 30 to contact the oil guide 50 and support the oil guide 50. Meanwhile, each first conductive wire 31 is wave-shaped, has a large resistance, and can generate heat after being electrified, so that the liquid in the atomized oil guide piece 50 can be heated.

In some embodiments, the heating net 30 further includes a first frame 35 and a second frame 37, and opposite ends of each of the first conductive wires 31 are respectively connected to the first frame 35 and the second frame 37, so as to support the first conductive wires 31 through the first frame 35 and the second frame 37. In addition, the first frame 35 and the second frame 37 are respectively used for being connected with the positive electrode pin and the negative electrode pin, which is equivalent to the positive electrode pin being connected with the first frame 35, and the negative electrode pin being connected with the second frame 37, so that the positive electrode pin and the negative electrode pin are electrically connected with the heating grid 30, and are respectively connected with the positive electrode and the negative electrode of the electric core through the positive electrode pin and the negative electrode pin, and further supply power to the heating grid 30.

Specifically, the first frame 35 and the second frame 37 are the above-mentioned assembling portions, and need to be pre-embedded and connected in the base 10, and the first conductive wire 31 and the second conductive wire 33 are intersected and connected to form the above-mentioned suspended portion, so as to support and contact the oil-guiding member 50.

In an embodiment of the present invention, an electronic atomization device 200 is further provided, where the electronic atomization device 200 includes a housing assembly 210 and an atomizer 100, a liquid storage cavity 212 and an airflow channel 217 are formed in the housing assembly 210, the atomizer 100 is assembled in the liquid storage cavity 212, and the atomization channel 11 is communicated with the airflow channel 217. The reservoir 212 contains a liquid aerosol-generating substrate, for example, a tobacco tar, and the atomizer 100 is used to atomize the tobacco tar and form an aerosol in the atomizing passage 11, with the resulting aerosol flowing from the atomizing passage 11 into the air flow passage 217 of the housing assembly 210 for inhalation by a user.

In some embodiments, housing assembly 210 includes a base 211 and a housing 213, housing 213 includes a housing 214 and a gas flow tube 216 coupled to housing 214, housing 214 is coupled to base 211 and encloses a reservoir 212, and nebulizer 100 is mounted to base 211 and positioned within reservoir 212; the airflow pipe 216 is provided with an airflow channel 217 extending through along the axial direction thereof, the airflow pipe 216 is disposed in the housing 214, one end of the airflow pipe 216 along the axial direction thereof is connected to the housing 214, and the other end of the airflow pipe 216 along the axial direction thereof is butted with the end of the base 10 provided with the atomization channel 11. An airflow tube 216 is disposed within the housing 214 of the housing 213, and during assembly, the airflow tube 216 is abutted against the base 10, such that an airflow channel 217 in the airflow tube 216 is communicated with the nebulizing channel 11 in the base 10, allowing smoke formed in the nebulizing channel 11 to flow from the airflow channel 217 to the outside for inhalation by a user.

Further, the housing assembly 210 further includes a connecting sleeve 218, the base 10 includes a main body section 12 and a mounting section 14 connected to each other, the atomization passage 11 extends through the main body section 12 and the mounting section 14, one end of the connecting sleeve 218 is sleeved outside the mounting section 14, and the other end of the connecting sleeve 218 is sleeved outside one end of the airflow pipe 216 facing the base 10. The base 10 is provided with a main body section 12 and an assembly section 14, the main body section 12 is used for providing the heating network 30, and the assembly section 14 and the airflow pipe 216 are sleeved and connected through a connecting sleeve 218, so that the airflow pipe 216 and the base 10 can be effectively butted to prevent air leakage. Optionally, the connection sleeve 218 is a silicone sleeve, which has good sealing performance.

In some embodiments, the electronic atomization device 200 further includes a suction nozzle 230, the suction nozzle 230 is sleeved on the housing 214, an air outlet channel is disposed in the suction nozzle 230, the air outlet channel is in butt joint with the air flow channel 217, and the smoke enters the air flow channel 217 from the atomization channel 11 and finally flows into the mouth of the user from the air outlet channel, so that the smoke is inhaled by the user.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (10)

1. An atomizer, characterized in that it comprises:

the atomizing device comprises a base, wherein an atomizing channel is formed on the base;

the heating net is arranged on the base and is integrally formed with the base; and

lead oily piece, it locates to lead oily piece on the base, the one side of heating net with lead oily piece contact, the another side orientation of heating net atomizing passageway.

2. The atomizer of claim 1, wherein said base is a ceramic piece and said heat generating network is integrally sintered with said ceramic piece.

3. A nebulizer as claimed in claim 1 or 2, wherein the base is made of an oil-impermeable material.

4. The atomizer of claim 1, wherein the heating network has an assembly portion and a suspension portion that interconnect, the assembly portion is pre-buried connect in on the base, suspension portion one side is towards the atomizing passageway, suspension portion opposite side is relative the surface of base exposes, lead oil spare locate on the base and with suspension portion contact.

5. The atomizer according to claim 4, wherein the base has a through hole communicating with the atomizing passage, a side of the suspension portion facing away from the atomizing passage faces the through hole, and the oil guide member covers the through hole and contacts with the suspension portion.

6. The atomizer of claim 5, wherein said oil-conducting member is embedded in said through-hole.

7. The atomizer of claim 6, further comprising a cover abutting a side of said oil guide facing away from said heat generating network and coupled to said base.

8. The atomizer according to claim 4 or 5, wherein a plurality of said heat generating nets are provided on said base in a direction parallel to a circumferential direction of said atomizing passage, and a plurality of said suspended portions of said plurality of said heat generating nets are each in contact with said oil guide.

9. The atomizer of claim 8, wherein said oil-conducting member is wound around said base and covers all of said suspended portion of said heat-generating network.

10. An electronic atomizer, comprising a housing assembly and the atomizer of any one of claims 1-9, wherein a liquid storage cavity and an air flow channel are formed in the housing assembly, the atomizer is assembled in the liquid storage cavity, and the atomization channel is communicated with the air flow channel.

Images