CN218605073U - Electronic atomizer - Google Patents

Abstract

The application discloses an electronic atomizer with mutually independent microphone airway and airflow channel, wherein the electronic atomizer comprises a shell, a suction nozzle, an atomized medium carrier and an electric control assembly, the shell is provided with an external air inlet and an external air inlet, and the external air inlet is arranged at the bottom of the shell; the electronic control assembly comprises a shell and a microphone, wherein the shell comprises a microphone mounting seat close to one side of the atomized medium carrier, a containing groove is formed in the microphone mounting seat, and the microphone is arranged in the containing groove; the microphone mounting seat is internally provided with a microphone air passage, two ends of the microphone air passage are respectively communicated with the microphone air inlet hole and the accommodating groove, and the microphone air inlet hole is communicated with an external air inlet hole on the shell; still be provided with at least one airflow channel on the miaow head mount pad, airflow channel and the outside air inlet intercommunication of shell. Through the mode, the air flow can be stably provided, so that the air flow is smoother.

Description

Electronic atomizer

Technical Field

The application relates to the technical field of electronic atomizers, in particular to an electronic atomizer with mutually independent microphone air passages and air flow passages.

Background

The existing electronic atomizer mainly comprises a shell, an atomizing mechanism arranged at the upper part in the shell, a power supply mechanism arranged at the middle part and a microphone arranged at the lower part. The operating principle of the microphone is as follows: through smoking action, form the negative pressure for the pneumatic membrane of miaow head forms the pressure differential, switches on the miaow head switch, drives the heating element work in the control atomization mechanism through power mechanism, and the tobacco juice atomizing forms aerosol, and the user draws the smog in the smog passageway from the suction nozzle. When a user sucks the electronic atomizer, the airflow enters the atomizing mechanism to drive the aerosol to flow to the suction nozzle and be inhaled by the user, besides the microphone switch is conducted. However, because the microphone of the electronic atomizer is arranged in the air inlet channel, air flow cannot be stably provided in the suction process, the air flow is not smooth, smoke is not full, and the suction experience is not good.

SUMMERY OF THE UTILITY MODEL

The main technical problem who solves of this application provides an electronic atomizer that miaow head air flue and air current channel are independent each other, can stably provide the air current for the air current is more smooth and easy.

In order to solve the technical problem, a technical scheme that this application adopted provides an electronic atomizer that miaow head air flue and air current channel are independent each other, electronic atomizer includes: the air conditioner comprises a shell, a fan and a controller, wherein the shell is provided with an external air inlet and an external air inlet, and the external air inlet is arranged at the bottom of the shell; the suction nozzle is arranged at one end, far away from the external air inlet, of the shell; an atomized media carrier mounted within the housing on a side proximate the suction nozzle; the electronic control assembly is mounted on one side, far away from the suction nozzle, of the shell and comprises a shell and a microphone, the shell comprises a microphone mounting seat close to one side of the atomized medium carrier, one end, far away from the atomized medium carrier, of the microphone mounting seat is provided with a containing groove, and the microphone is arranged in the containing groove; the microphone mounting seat is provided with a microphone air inlet hole on the surface, a microphone air passage is arranged in the microphone mounting seat, two ends of the microphone air passage are respectively communicated with the microphone air inlet hole and the accommodating groove, and the microphone air inlet hole is communicated with the external air inlet hole on the shell; the microphone mounting seat is provided with at least one airflow channel, the airflow channel extends from the surface of one end, far away from the atomized medium carrier, of the microphone mounting seat to the surface of one end, close to the atomized medium carrier, of the microphone mounting seat, and the airflow channel is communicated with the external air inlet of the shell.

The microphone mounting seat comprises a housing, a microphone mounting seat, a microphone air inlet, an outer air inlet, a microphone mounting seat, an outer air inlet, a microphone air inlet hole, a microphone mounting seat and a shell, wherein the microphone air inlet hole is arranged on the side wall of the microphone mounting seat, the outer air inlet hole is arranged on the side wall of the shell and in a position corresponding to the microphone air inlet hole.

The microphone mounting seat comprises a microphone mounting seat body, a microphone mounting seat, a microphone air inlet, a sunken groove, a communication cavity and an external air inlet, wherein the sunken groove is formed in the side wall of the microphone mounting seat body, the microphone air inlet is formed in the sunken groove, the sunken groove is matched with the inner wall of the shell to form the communication cavity, and the external air inlet is formed in the side wall of the shell and corresponds to the communication cavity.

The recessed groove is an annular groove arranged along the circumferential direction of the microphone mounting seat.

Wherein, the side wall of the microphone mounting seat is provided with at least one sealing ring at the position at the two sides of the depressed groove, the sealing washer is followed the circumference setting of miaow head mount pad, the sealing washer with the inner wall laminating of shell.

The air flow channel comprises a first longitudinal air passage, a transverse air passage and a second longitudinal air passage which are sequentially communicated, the first longitudinal air passage and the second longitudinal air passage are parallel and staggered, one end of the first longitudinal air passage penetrates through the surface of one end, far away from the atomized medium carrier, of the microphone mounting seat, and one end of the second longitudinal air passage is communicated with the atomized medium carrier.

The electronic control assembly comprises a battery, the shell comprises a battery groove extending from the inner wall of the shell to the bottom of the shell along the microphone mounting seat, and the battery is arranged in the battery groove.

The heating device in the atomized medium carrier is electrically connected with the battery through an electrode piece, and the electrode piece is arranged on the microphone mounting seat in a penetrating manner; the second longitudinal air passage is arranged in the electrode element, one end of the second longitudinal air passage penetrates through the surface of one end, close to the atomized medium carrier, of the electrode element, and the other end of the second longitudinal air passage is located in the electrode element; the transverse air passage is arranged in the microphone mounting seat and penetrates through the electrode piece, the part of the transverse air passage, which is positioned in the microphone mounting seat, is communicated with the first longitudinal air passage, and the part of the transverse air passage, which is positioned in the electrode piece, is communicated with the second longitudinal air passage.

The first longitudinal air passage comprises at least two branch air passages which are arranged in parallel, and the at least two branch air passages are symmetrically arranged along the extending direction of the second longitudinal air passage.

The microphone comprises a microphone mounting seat, a microphone mounting seat and a plurality of airflow channels, wherein the airflow channels are arranged in a plurality and are symmetrically arranged on the microphone mounting seat.

The beneficial effect of this application is: the electronic atomizer comprises a shell, a suction nozzle, an atomized medium carrier and an electric control assembly, wherein the shell is provided with an external air inlet and an external air inlet, and the external air inlet is arranged at the bottom of the shell; the suction nozzle is arranged at one end of the shell far away from the external air inlet; the atomized medium carrier is arranged at one side close to the suction nozzle in the shell; the electric control assembly is arranged on one side, far away from the suction nozzle, of the shell, the electric control assembly comprises a shell and a microphone, the shell comprises a microphone mounting seat close to one side of the atomized medium carrier, a containing groove is formed in one end, far away from the atomized medium carrier, of the microphone mounting seat, and the microphone is arranged in the containing groove; the microphone mounting seat is internally provided with a microphone air passage, two ends of the microphone air passage are respectively communicated with the microphone air inlet hole and the accommodating groove, and the microphone air inlet hole is communicated with an external air inlet hole on the shell; still be provided with at least one airflow channel on the miaow head mount pad, airflow channel extends to the surface that the miaow head mount pad is close to the one end of atomizing medium carrier from the surface of the one end that the miaow head mount pad was kept away from atomizing medium carrier, and airflow channel communicates with the outside air inlet of shell. Through set up outside inlet port and outside air inlet on the shell, wherein the both ends of miaow head air flue communicate with miaow head inlet port and storage tank respectively, miaow head inlet port and the outside inlet port intercommunication on the shell, and outside air inlet sets up in the bottom of shell, airflow channel keeps away from the surface of the one end of atomizing medium carrier from the miaow head mount pad and extends to the surface that miaow head mount pad is close to the one end of atomizing medium carrier, airflow channel communicates with the outside air inlet of shell, consequently miaow head air flue and airflow channel are mutually independent, when miaow head air flue control miaow work, airflow channel can stably provide the air current to atomizing medium carrier in, make the air current more smooth and easy, smog is fuller, suction experience feels better.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of an electronic atomizer with separate microphone airway and airflow channel according to the present application;

FIG. 2 is a schematic view of the electronic atomizer of FIG. 1 with the housing and the mouthpiece removed;

FIG. 3 is a schematic diagram of the structure of an electronic control assembly in the electronic atomizer of FIG. 2;

FIG. 4 is a schematic top view of the electronic control assembly of FIG. 3;

FIG. 5a is a schematic view of the cross-section AA of the electronic control assembly of FIG. 4;

FIG. 5b is a partial schematic detail view of FIG. 5 a;

figure 6a is a schematic view of the BB section of the electronic control assembly of figure 4;

FIG. 6b is a partial schematic detail view of FIG. 6 a;

fig. 7 is a schematic view of a housing of the electronic control unit of fig. 3.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise, the "plural" includes at least two in general, but does not exclude the presence of at least one.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be understood that the terms "comprises," "comprising," or any other variation thereof, as used herein, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of another like element in a process, method, article, or apparatus that comprises the element.

The application provides a miaow head air flue and air current channel mutually independent electronic atomizer. Referring to fig. 1 to 7, in which fig. 1 is a schematic structural view of an embodiment of an electronic atomizer with mutually independent microphone air passages and air flow passages according to the present application, fig. 2 is a schematic structural view of the electronic atomizer of fig. 1 with a housing and a suction nozzle removed, fig. 3 is a schematic structural view of an electronic control assembly in the electronic atomizer of fig. 2, fig. 4 is a schematic structural view of a top view of the electronic control assembly of fig. 3, fig. 5a is a schematic structural view of an AA section of the electronic control assembly of fig. 4, fig. 5b is a detailed partial schematic view of fig. 5a, fig. 6a is a schematic structural view of a BB section of the electronic control assembly of fig. 4, fig. 6b is a detailed partial schematic view of fig. 6a, and fig. 7 is a schematic structural view of a housing in the electronic control assembly of fig. 3. In the present embodiment, the electronic atomizer comprises a housing 10, a suction nozzle 11, an atomized medium carrier 12 and an electric control assembly 13, wherein the housing 10 is provided with an external air inlet 100 and an external air inlet 101, and the external air inlet 101 is arranged at the bottom of the housing 10; the suction nozzle 11 is arranged at one end of the shell 10 far away from the external air inlet 101; an atomized medium carrier 12 is arranged at one side of the shell 10 close to the suction nozzle 11; the electronic control assembly 13 is mounted on a side of the housing 10 away from the mouthpiece 11, the electronic control assembly 13 includes a housing 130 and a microphone 131, the housing 130 includes a microphone mounting seat 132 near a side of the atomized medium carrier 12, referring to fig. 7, a receiving slot 1320 is formed on an end of the microphone mounting seat 132 away from the atomized medium carrier 12, and the microphone 131 is disposed in the receiving slot 1320.

The surface of the microphone mounting seat 132 is provided with a microphone air inlet 1321, the microphone air passage 138 is arranged in the microphone mounting seat 132, two ends of the microphone air passage 138 are respectively communicated with the microphone air inlet 1321 and the accommodating groove 1320, and the microphone air inlet 1321 is communicated with the external air inlet 100 on the shell 10. Therefore, the first airflow P1 can enter from the external air inlet hole 100 on the housing 10 and enter the head air passage 138 through the head air inlet hole 1321, so that the first airflow P1 passing through the head air passage 138 can reach the accommodating groove 1320, and then the head 131 in the accommodating groove 1320 can be activated by the movement of the first airflow P1 inhaled by the user during the suction, so as to control the operation of the electronic atomizer.

In addition, at least one air flow channel 133 is further disposed on the microphone mounting seat 132, the air flow channel 133 extends from the surface of the microphone mounting seat 132 at the end far away from the atomizing medium carrier 12 to the surface of the microphone mounting seat 132 at the end near the atomizing medium carrier 12, and the air flow channel 133 is communicated with the external air inlet 101 of the housing 10. Thus, the second air flow P2 can enter from the external air inlet 101 of the housing 10 and enter the aerosol-generating medium carrier 12 through the air flow channel 133, so that the second air flow P2 can drive the aerosol generated by the atomization of the aerosol-generating medium carrier 12 to flow to the suction nozzle 11 and be inhaled by the user from the air outlet of the suction nozzle 11. Further, an opening 136 is opened at a position corresponding to the external air inlet 101 of the housing 10 at the bottom of the casing 130, a filtering member 137 is disposed in the casing 130, and the filtering member 137 is disposed on the opening 136 and is used for filtering the air flow entering the external air inlet 101. It will be appreciated that by the cooperation of the microphone mounting 132 adjacent to the side of the aerosol carrier 12 and the inner wall of the housing 10, the space within the aerosol carrier 12 can be isolated from the space within the electronic control assembly 13, and the airflow between the aerosol carrier 12 and the electronic control assembly 13 can be prevented from flowing through a path other than the airflow path 133.

In the electronic atomizer of the embodiment of the present application, through set up outside inlet port 100 and outside air inlet 101 on shell 10, wherein the both ends of miaow head air flue 138 communicate with miaow head inlet port 1321 and storage tank 1320 respectively, miaow head inlet port 1321 communicates with outside inlet port 100 on shell 10, and outside air inlet 101 sets up in the bottom of shell 10, airflow channel 133 extends to the surface that the miaow head mount 132 is close to the one end of atomizing medium carrier 12 from the surface of the one end that miaow head mount 132 was kept away from atomizing medium carrier 12, airflow channel 133 communicates with outside air inlet 101 of shell 10, therefore miaow head air flue 138 is mutually independent with airflow channel 133, when the work of first air current P1 control miaow head 131 that gets into miaow head air flue 138, airflow channel 133 can stably provide second air current P2 to atomizing medium carrier 12 in, make the air current more smooth and easy, smog is more full, the suction experience is felt better.

In addition, since the accommodating groove 1320 is formed at the end of the microphone mounting seat 132 away from the atomized medium carrier 12, that is, the opening of the accommodating groove 1320 faces the bottom of the housing 10, when the atomized medium in the atomized medium carrier 12 leaks and flows to the side of the electronic control component 13, the atomized medium does not flow into the accommodating groove 1320 from the opening of the accommodating groove 1320, so as to prevent the atomized medium from invading the microphone 131 in the accommodating cavity, thereby preventing the atomized medium from soaking the microphone 131 and causing abnormal function or malfunction.

Specifically, the microphone air inlet hole 1321 is disposed on the side wall of the microphone mounting seat 132, and the external air inlet hole 100 is disposed on the side wall of the housing 10 at a position corresponding to the microphone air inlet hole 1321. By arranging the external air inlet 100 on the side wall of the housing 10 and the external air inlet 101 on the bottom of the housing 10, the first airflow P1 entering the microphone air passage 138 and the second airflow P2 entering the airflow channel 133 do not interfere with each other, and the airflow stability is ensured.

In one embodiment, a recessed groove 1322 is formed on the side wall of the microphone mounting seat 132, the microphone air inlet hole 1321 is opened in the recessed groove 1322, the recessed groove 1322 and the inner wall of the housing 10 cooperate to form a communication cavity, and the external air inlet hole 100 is disposed on the side wall of the housing 10 at a position corresponding to the communication cavity. Accordingly, the first airflow P1 entering from the external air intake holes 100 on the housing 10 enters the communication cavity formed by the recessed slot 1322 and the inner wall of the housing 10, and since the microphone air intake holes 1321 are opened in the recessed slot 1322, the first airflow P1 entering the communication cavity can stably enter the microphone air passage 138 through the microphone air intake holes 1321.

Specifically, the recessed groove 1322 may be an annular groove provided along the circumferential direction of the head mount 132. By providing an annular groove along the circumferential direction of the microphone mounting seat 132 on the side wall of the microphone mounting seat 132, the communication cavity formed by the recessed groove 1322 and the inner wall of the housing 10 is an annular communication cavity, so that the external air inlet hole 100 and the communication cavity are correspondingly arranged on the side wall of the housing 10 in the installation process.

Further, the side wall of the microphone mounting seat 132 is provided with at least one sealing ring 1323 at positions on two sides of the recessed groove 1322, the sealing ring 1323 is arranged along the circumferential direction of the microphone mounting seat 132, and the sealing ring 1323 is attached to the inner wall of the housing 10. It can be understood that, when the electronic control assembly 13 is integrally installed in the housing 10, the sealing ring 1323 on the microphone mounting seat 132 is in interference fit with the inner wall of the housing 10, the microphone mounting seat 132 is clamped with the inner wall of the housing 10, and at this time, the sealing rings 1323 on both sides of the recessed slot 1322 are tightly attached to the inner wall of the housing 10, so that the sealing performance of the communication cavity formed by the recessed slot 1322 and the inner wall of the housing 10 can be ensured.

Further, the electronic control assembly 13 further includes a battery 134, the housing 130 includes a battery slot 135 extending from the microphone mounting seat 132 to the bottom of the housing 10 along the inner wall of the housing 10, and the battery 134 is disposed in the battery slot 135. The battery 134 is used to power the nebulizing medium carrier 12 and the microphone 131, in particular the battery 134 may be a normal battery or a rechargeable battery.

In one embodiment, there are a plurality of airflow channels 133, and the airflow channels 133 are symmetrically disposed on the microphone mounting seat 132. Through a plurality of airflow channel 133 of symmetry setting, can stably provide the air current for atomizing medium carrier 12 for the air current is more smooth and easy, and smog is fuller, and the suction experience feels better.

For a single airflow channel 133, in an embodiment, the airflow channel 133 includes a first longitudinal air passage 1331, a transverse air passage 1330, and a second longitudinal air passage 1332 that are sequentially connected, the first longitudinal air passage 1331 and the second longitudinal air passage 1332 are parallel and staggered, one end of the first longitudinal air passage 1331 penetrates through a surface of the microphone mounting seat 132 at an end away from the aerosol carrier 12, and one end of the second longitudinal air passage 1332 is connected to the aerosol carrier 12. By providing the airflow channel 133 in the form of the first longitudinal air passage 1331, the transverse air passage 1330 and the second longitudinal air passage 1332 which are communicated in sequence, the airflow can enter the atomizing medium carrier 12 after passing through the first longitudinal air passage 1331 extending in the longitudinal direction, the transverse air passage 1330 extending in the transverse direction and the second longitudinal air passage 1332 extending in the longitudinal direction in sequence, so that the airflow channel 133 forms an independent air supply principle, whistles can be avoided, and the bent airflow channel 133 can play a role in preventing condensation backflow.

Further, the first longitudinal air passage 1331 includes at least two branch air passages 13310, the at least two branch air passages 13310 are arranged in parallel, and the at least two branch air passages 13310 are symmetrically arranged along the extending direction of the second longitudinal air passage 1332. Because the first longitudinal air duct 1331 includes at least two branch air ducts 13310, after at least two air flows respectively enter from the at least two branch air ducts 13310, the air flows are converged into one air flow through the transverse air duct 1330 and the second longitudinal air duct 1332, so that the air flow is more concentrated, the smoke is fuller, and the experience is more comfortable.

Referring to fig. 5, further, the heating device (not shown) in the atomizing medium carrier 12 is electrically connected to the battery 134 through the electrode 1324, and the electrode 1324 is disposed on the microphone mounting seat 132; the second longitudinal air passages 1332 are disposed in the electrode element 1324, one end of the second longitudinal air passages 1332 extends through the surface of the electrode element 1324 at the end near the atomizing medium carrier 12, and the other end of the second longitudinal air passages 1332 is located in the electrode element 1324; the transverse air passages 1330 are disposed inside the microphone mounting seat 132 and pass through the electrode element 1324, the portions of the transverse air passages 1330 inside the microphone mounting seat 132 are communicated with the first longitudinal air passages 1331, and the portions of the transverse air passages 1330 inside the electrode element 1324 are communicated with the second longitudinal air passages 1332. The second longitudinal air passage 1332 is formed in the electrode element 1324, the first longitudinal air passage 1331 is formed in the microphone mounting seat 132, and then the transverse air passage 1330 penetrates through the microphone mounting seat 132 and the electrode element 1324, so that the part of the transverse air passage 1330 in the microphone mounting seat 132 is communicated with the first longitudinal air passage 1331, the part of the transverse air passage 1330 in the electrode element 1324 is communicated with the second longitudinal air passage 1332, and the air flow passage 133 and the electrode element 1324 are matched with each other, so that the structure is simple to realize, and the manufacturing process is more stable.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. An electronic atomizer with mutually independent microphone airway and airflow channel, characterized in that the electronic atomizer comprises:

the air conditioner comprises a shell, a fan and a controller, wherein the shell is provided with an external air inlet and an external air inlet, and the external air inlet is arranged at the bottom of the shell;

the suction nozzle is arranged at one end, far away from the external air inlet, of the shell;

an atomized media carrier mounted within the housing on a side proximate the suction nozzle;

the electronic control assembly is mounted on one side, far away from the suction nozzle, of the shell and comprises a shell and a microphone, the shell comprises a microphone mounting seat close to one side of the atomized medium carrier, one end, far away from the atomized medium carrier, of the microphone mounting seat is provided with a containing groove, and the microphone is arranged in the containing groove;

the surface of the microphone mounting seat is provided with a microphone air inlet hole, a microphone air passage is arranged in the microphone mounting seat, two ends of the microphone air passage are respectively communicated with the microphone air inlet hole and the accommodating groove, and the microphone air inlet hole is communicated with the external air inlet hole on the shell; the microphone mounting seat is provided with at least one airflow channel, the airflow channel extends from the surface of one end, far away from the atomized medium carrier, of the microphone mounting seat to the surface of one end, close to the atomized medium carrier, of the microphone mounting seat, and the airflow channel is communicated with the external air inlet of the shell.

2. The electronic atomizer of claim 1, wherein the head air inlet hole is disposed on a side wall of the head mounting base, and the external air inlet hole is disposed on a side wall of the housing at a position corresponding to the head air inlet hole.

3. The electronic atomizer according to claim 2, wherein a recessed groove is provided on a side wall of the microphone mounting seat, the microphone air inlet hole is provided in the recessed groove, the recessed groove and an inner wall of the housing cooperate to form a communication chamber, and the external air inlet hole is provided on the side wall of the housing at a position corresponding to the communication chamber.

4. The electronic atomizer of claim 3 wherein said recessed channel is an annular channel disposed circumferentially of said head mounting cup.

5. The electronic atomizer according to claim 4, wherein the side wall of the microphone mounting seat is provided with at least one sealing ring at each of two sides of the recessed groove, the sealing rings are arranged along the circumference of the microphone mounting seat, and the sealing rings are attached to the inner wall of the housing.

6. The electronic atomizer according to any one of claims 1 to 5, wherein the airflow channel includes a first longitudinal air passage, a transverse air passage and a second longitudinal air passage that are sequentially communicated, the first longitudinal air passage and the second longitudinal air passage are parallel and staggered, one end of the first longitudinal air passage penetrates through a surface of the microphone mounting seat at an end away from the atomizing medium carrier, and one end of the second longitudinal air passage is communicated with the atomizing medium carrier.

7. The electronic atomizer of claim 6, wherein said electronic control assembly includes a battery, said housing including a battery well extending from said head mount along an inner wall of said housing toward a bottom of said housing, said battery being disposed within said battery well.

8. The electronic atomizer according to claim 7, wherein the heat generating device in the atomized medium carrier is electrically connected to the battery through an electrode member, the electrode member being disposed through the microphone mounting seat; the second longitudinal air passage is arranged in the electrode element, one end of the second longitudinal air passage penetrates through the surface of one end, close to the atomized medium carrier, of the electrode element, and the other end of the second longitudinal air passage is located in the electrode element; the transverse air passage is arranged in the microphone mounting seat and penetrates through the electrode piece, the part of the transverse air passage, which is positioned in the microphone mounting seat, is communicated with the first longitudinal air passage, and the part of the transverse air passage, which is positioned in the electrode piece, is communicated with the second longitudinal air passage.

9. The electronic atomizer of claim 8, wherein said first longitudinal air passage includes at least two branch air passages, said at least two branch air passages are arranged in parallel, and said at least two branch air passages are arranged symmetrically along the extending direction of said second longitudinal air passage.

10. The electronic atomizer of claim 6, wherein said airflow passageway is a plurality of, and wherein said airflow passageways are symmetrically disposed on said head mount.

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