CN113115989A

CN113115989A - Seasoning component and electronic atomization device

Info

Publication number: CN113115989A
Application number: CN202110384629.0A
Authority: CN
Inventors: 文治华; 陈厚林; 别海涛
Original assignee: Shenzhen Smoore Technology Ltd
Current assignee: Shenzhen Smoore Technology Ltd
Priority date: 2020-12-07
Filing date: 2021-04-09
Publication date: 2021-07-16
Also published as: CN113287794A

Abstract

The application provides a seasoning component and an electronic atomization device, wherein the electronic atomization device comprises an air outlet part, a first aerosol channel, a second aerosol channel and a first heating component; the first aerosol channel and the second aerosol channel are positioned between the air outlet and the air outlet part of the atomizer, and the aerosol generated by the atomizer passes through at least one of the first aerosol channel and the second aerosol channel to reach the air outlet part; the first heating component is used for heating the seasoning component. The flavoring part is heated by the first heating part, so that the release amount of the flavoring material in the flavoring part is adjusted, the adjustment of the concentration of the flavoring material in the aerosol at the air outlet part is realized, the fragrance of the flavoring material sucked by a user is stable, and the problem of serious fragrance release attenuation of the flavoring material in the flavoring part can be improved.

Description

Seasoning component and electronic atomization device

Technical Field

The application relates to the technical field of atomizers, in particular to a seasoning component and an electronic atomizing device.

Background

The aerosol generated by the combustion of tobacco contains various carcinogenic substances, which can cause great harm to the health of human bodies, and the aerosol can also cause harm to the bodies of people around when being diffused in the air, so that the electronic atomization device is produced at the same time. The electronic atomization device has similar appearance and taste as common cigarettes, but generally does not contain harmful ingredients such as tar and suspended particles in the cigarettes. In the market, nicotine satisfaction and good mouth feel are the core competitiveness of electronic nebulizing devices.

The existing electronic atomization device generally has short plates with low nicotine release amount, serious attenuation and poor taste, and can not enable users to obtain good satisfaction.

Disclosure of Invention

In view of this, the present application provides a flavoring component and an electronic atomization device to solve the technical problems of low nicotine release and serious attenuation in the prior art.

In order to solve the above technical problem, a first technical solution provided by the present application is: an electronic atomizer device is provided, comprising an atomizer and a flavor element; the atomizer is used for atomizing a substrate to be atomized to generate aerosol, and comprises an atomizing cavity and an air outlet communicated with the atomizing cavity, and the aerosol flows out of the air outlet; the flavor component comprises a flavor material; the electronic atomization device further comprises an air outlet part, a first aerosol channel, a second aerosol channel and a first heating part; the first aerosol channel and the second aerosol channel are positioned between the air outlet of the atomizer and the air outlet part, and the aerosol generated by the atomizer passes through at least one of the first aerosol channel and the second aerosol channel to reach the air outlet part; the first heating component is used for heating the seasoning component.

Wherein the flavoring material is disposed in the first aerosol passage.

The aerosol heating device further comprises a controller, wherein the controller controls the heating temperature of the first heating part according to the detected suction times so as to adjust the release amount of the flavoring material and enable the concentration of the flavoring material in the aerosol at the air outlet part to be uniform.

Wherein the temperature adjusting range of the first heating component is 10-380 ℃.

The electronic atomization device further comprises a shell, and the shell forms a containing cavity for containing the atomizer and the flavoring component; the seasoning component is arranged in the first aerosol channel, and the air outlet part and the shell are integrally formed.

The end part of the seasoning part close to the air outlet part is arranged at an interval with the air outlet part, an aerosol mixing area is formed between the end part of the seasoning part and the air outlet part, and the aerosol in the first aerosol channel and the aerosol in the second aerosol channel enter the air outlet part after being mixed in the aerosol mixing area.

Wherein the flavor component comprises a sleeve and a flavor material disposed within the sleeve; an air outlet part is formed at one end part of the sleeve; a cavity is formed between the seasoning material and the air outlet part; the side wall of the sleeve is provided with an air collecting hole corresponding to the cavity; the part of the sleeve provided with the seasoning material is arranged in the first aerosol passage; the aerosol in the second aerosol channel passes through the air collecting hole and is mixed with the aerosol in the first aerosol channel at the cavity, and then enters the air outlet part.

The seasoning device comprises a casing, wherein the casing is provided with a seasoning component mounting cavity, a part of the casing, which is provided with the seasoning material, of the first heating component is accommodated in the seasoning component mounting cavity formed by the casing, and a communication cavity is formed between the outer surface of the casing, which corresponds to the air holding hole, and the seasoning component mounting cavity; the second aerosol channel is communicated with the cavity through the communicating cavity and the air collecting hole.

The sleeve is provided with a plurality of air collecting holes which are arranged around the circumference of the sleeve at intervals; the communicating cavity is formed between the outer surface of the sleeve corresponding to the plurality of air receiving holes and the seasoning component mounting cavity.

Wherein a sealing element is arranged between the outer surface of the sleeve corresponding to the plurality of air collecting holes and the seasoning component mounting cavity to prevent the aerosol entering the cavity from the second aerosol passage from leaking.

Wherein, the atomizer, the flavor part with set up side by side between the second aerosol passageway, the second aerosol passageway set up in the flavor part is kept away from one side of atomizer.

Wherein, the gas outlet is arranged at one end of the side wall of the atomizer far away from the gas outlet part.

Wherein the flavouring material comprises a nicotine flavour.

In order to solve the above technical problem, a second technical solution provided by the present application is: providing a flavor component comprising a sleeve and a flavor material disposed within the sleeve; the first end of the sleeve forms an air outlet part; a cavity is formed between the seasoning material and the air outlet part; the side wall of the sleeve is provided with an air collecting hole corresponding to the cavity.

Wherein, the device further comprises a resistance absorbing material which is arranged in the sleeve and is positioned at the first end; the flavoring material is disposed at the second end of the sleeve.

The sleeve is provided with a plurality of air collecting holes which are arranged at intervals around the circumference of the sleeve.

The beneficial effect of this application: different from the prior art, the electronic atomization device comprises an air outlet part, a first aerosol channel, a second aerosol channel and a first heating part; the first aerosol channel and the second aerosol channel are positioned between the air outlet and the air outlet part of the atomizer, and the aerosol generated by the atomizer passes through at least one of the first aerosol channel and the second aerosol channel to reach the air outlet part; the first heating component is used for heating the seasoning component. The flavoring part is heated by the first heating part, so that the release amount of the flavoring material in the flavoring part is adjusted, the adjustment of the concentration of the flavoring material in the aerosol at the air outlet part is realized, the fragrance of the flavoring material sucked by a user is stable, and the problem of serious fragrance release attenuation of the flavoring material in the flavoring part can be improved.

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 a first embodiment of an electronic atomization device provided in the present application;

FIG. 2 is a schematic cross-sectional view of an atomizer in a first embodiment of an electronic atomizing device provided herein;

FIG. 3 is a schematic view of the aerosol flow in the aerosol passage of a first embodiment of the electronic atomization device provided herein;

FIG. 4 is a schematic view of a first embodiment of an electronic atomizer according to the present disclosure;

FIG. 5 is a schematic view of a change in state of an adjustment member in a first embodiment of an electronic atomizer device according to the present disclosure;

FIG. 6 is a schematic structural diagram of a second embodiment of an electronic atomizer device according to the present application;

FIG. 7 is a schematic view of the aerosol flow in the aerosol passage of a second embodiment of the electronic atomization device provided herein;

FIG. 8 is a schematic structural diagram of a third embodiment of an electronic atomizer device according to the present application;

FIG. 9 is a schematic view of the aerosol flow in the aerosol passage of a third embodiment of the electronic atomization device provided in the present application;

FIG. 10 is a schematic diagram of a flavor element of a third embodiment of an electronic atomization device provided in the present application;

fig. 11 is a schematic view of aerosol flow in an aerosol passage of a fourth embodiment of an electronic atomization device provided in the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be noted that the following examples are only illustrative of the present application, and do not limit the scope of the present application. Likewise, the following examples are only some examples and not all examples of the present application, and all other examples obtained by a person of ordinary skill in the art without any inventive work are within the scope of the present application.

The terms "first", "second" and "third" in this application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any indication of the number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise. All directional indications (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the movement, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indication is changed accordingly. The terms "comprising" and "having" and any variations thereof in the embodiments of the present application are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or may alternatively include other steps or elements inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Fig. 1 is a schematic structural diagram of an electronic atomization device according to a first embodiment of the present disclosure.

The electronic atomization device can be used for atomizing liquid substrates such as nicotine-containing solution and liquid medicine. The electronic atomizer device comprises an atomizer 1, a power supply assembly 2 and a flavor element 3 connected to each other.

The atomizer 1 is used to store a liquid substrate and atomize the liquid substrate to form an aerosol which can be inhaled by a user. The atomizer 1 is particularly useful for atomizing liquids and generating aerosols for different fields, such as medical, electronic aerosolization devices, etc.; in one embodiment, the atomizer 1 may be used in an electronic aerosolization device for atomizing an aerosol substrate to be atomized and generating an aerosol for inhalation by an aspirator, as exemplified in the following embodiments; of course, in other embodiments, the atomizer 1 can also be applied to a hair spray apparatus for atomizing hair spray for hair styling; or applied to medical equipment for treating upper and lower respiratory diseases to atomize medical drugs.

The power supply module 2 includes a battery 21, a controller 22, and an airflow sensor (not shown); the battery 21 is used to power the nebulizer 1 so that the nebulizer 1 can nebulize a liquid substrate to form an aerosol; the controller 22 is used for controlling the atomizer 1 to work; the airflow sensor is used for detecting airflow change in the electronic atomization device so as to start the electronic atomization device.

The atomizer 1, the power supply assembly 2 and the seasoning component 3 can be integrally arranged or detachably connected and designed according to specific requirements. The positional relationship of the atomizer 1, the power supply module 2 and the flavor element 3 is not limited in the embodiments of the present invention. For example, the atomizer 1 is arranged coaxially with the flavor element 3, and the atomizer 1 is arranged side by side with the power supply module 2; alternatively, the atomizer 1 is provided in parallel with the seasoning unit 3 and the power supply unit 2.

The flavor element 3 comprises a flavoring material comprising one or more volatile flavor substances, the flavor substances being one or more of tobacco, tobacco flavors, menthol, wintergreen, peppermint, herbal flavors, fruit flavors, nut flavors, wine flavors, and combinations thereof. The user can select the flavoring material according to the preference of the user. At present, the flavoring material which accounts for the most in the market is nicotine spice, so that the electronic atomization device is closer to true cigarette smoking when a user sucks the electronic atomization device, and the satisfaction of the user is improved. For example, the flavor element 3 may be a so-called flavor cartridge, and the flavor element 3 may be a cigarette that does not burn when heated. In this embodiment, the flavor element 3 is a so-called flavor cartridge.

Fig. 2 is a schematic cross-sectional view of an atomizer according to a first embodiment of an electronic atomizer according to the present application.

The atomizer 1 comprises an atomizing housing 10 and an atomizer 11, wherein the atomizer 11 comprises an atomizing base 111 and an atomizing core 112; the atomizing base 111 is provided on the atomizing housing 10, and the atomizing core 112 is mounted on the atomizing base 111.

An air outlet channel 13 and a liquid storage bin 14 are arranged in the atomizing housing 10, the liquid storage bin 14 surrounds the air outlet channel 13, and an air outlet 12 of the air outlet channel 13 is formed at one end of the atomizing housing 10. The liquid storage bin 14 is used for storing liquid, the liquid storage bin 14 can be made of metal such as aluminum, stainless steel and the like, can also be made of plastic, and only needs to be capable of storing liquid to be atomized without reacting with the liquid to cause the liquid to deteriorate; the shape and size of the liquid storage bin 14 are not limited and can be designed as required.

The atomizing base 111 is located on a side of the liquid storage bin 14 away from the air outlet 12. Specifically, the atomizing housing 10 forms a receiving groove at a side of the liquid storage chamber 14 away from the air outlet 12, and the atomizing base 111 is disposed in the receiving groove. The atomizing base 111 includes an atomizing top base 113 and an atomizing base 114. The atomizing top mount 113 and the atomizing base mount 114 may be connected by a snap-fit structure. For example, a protrusion may be provided on the atomizing top base 113, and a slot may be provided on the atomizing base 114; or a protrusion is arranged on the atomizing base 114, and a clamping groove is arranged on the atomizing top base 113. The atomizing base 111 can be made of ceramic, stainless steel or other alloys, and only needs to play a supporting role; the shape and size of the atomizing base 111 are not limited and can be designed as desired.

An atomizing cavity 115 is formed between the atomizing top seat 113 and the atomizing bottom seat 114, and specifically, an atomizing cavity 115 is formed between the atomizing surface of the atomizing core 112 and the atomizing bottom seat 114. The atomization chamber 115 communicates with the air outlet passage 13. The two ends of the atomizing core 112 are overlapped on the atomizing base 111, and the middle part of the atomizing core 112 is suspended in the atomizing cavity 115. The atomizing core 112 is at least partially received in the atomizing head 113, and the atomizing head 113 is disposed between the reservoir 14 and the atomizing core 112. The atomizing top seat 113 is provided with a first lower liquid channel 116 and a second lower liquid channel 117; one end of the first lower liquid channel 116 and one end of the second lower liquid channel 117 are communicated with the liquid storage bin 14, and the other end of the first lower liquid channel 116 and the second lower liquid channel 117 are connected with the atomizing core 112, so that aerosol to be atomized in the liquid storage bin 14 is guided to the atomizing core 112 through the first lower liquid channel 116 and the second lower liquid channel 117. The atomizing base 114 is provided with an air inlet passage 118, and the air inlet passage 118 is communicated with the atomizing cavity 115, so that the air inlet passage 118 is communicated with the outside and the atomizing cavity 115. The air inlet channel 118, the atomizing chamber 115 and the air outlet channel 13 form an air flow channel of the atomizer 1.

The atomizing core 112 includes a heat generating member and a porous member. The liquid in the liquid storage chamber 14 enters the atomizing core 112 through the first lower liquid passage 116 and the second lower liquid passage 117, and the porous member guides the liquid to be atomized to the atomizing surface of the heat generating member by using the capillary force of the porous member, and the heat generating member is used for heating and atomizing the liquid. Wherein, the porous piece can be cotton core or ceramic, and is selected according to the requirement.

Fig. 3 is a schematic view illustrating the flow of aerosol in an aerosol passage of a first embodiment of an electronic atomizer according to the present invention.

Referring to fig. 1 and 3, the electronic atomization device further comprises a housing 4, a regulating member 5, an aerosol passage 6 and a driving assembly 7. The housing 4 forms a containing cavity 40, and the atomizer 1, the power supply assembly 2, the seasoning component 3, the adjusting component 5, the aerosol channel 6 and the driving component 7 are arranged in the containing cavity 40. An air outlet 41 is formed at one end of the housing 4, which is convenient for a user to suck the atomized aerosol.

Wherein, the aerosol channel 6 is connected with the atomizing cavity 115 and the air outlet part 41 of the atomizer 1; the aerosol channel 6 branches into a first aerosol channel 61 and a second aerosol channel 62 at the air outlet 12 of the air outlet channel 13 of the atomizer 1. That is, the aerosol channel 6 comprises a first aerosol channel 61 and a second aerosol channel 62, the first aerosol channel 61 and the second aerosol channel 62 are located between the air outlet 12 of the atomizer 1 and the air outlet 41, and the aerosol generated by the atomizer 1 passes through at least one of the first aerosol channel 61 and the second aerosol channel 62 to the air outlet 41.

Further, a flavoring material is provided in the first aerosol passage 61. In this embodiment, the flavor element 3 is disposed in the first aerosol passage 61. The first aerosol passage 61 allows the aerosol generated by the atomizer 1 to pass through the flavor part 3 to the gas outlet portion 41; the second aerosol passage 62 allows the aerosol generated by the nebulizer 1 to directly reach the air outlet 41. It will be appreciated that the aerosol passage 6 may be branched at the air outlet of the atomizer 1 to form a first aerosol passage 61 and a second aerosol passage 62; or the aerosol can be divided into a first aerosol channel 61 and a second aerosol channel 62 within a certain distance from the air outlet of the atomizer 1, and the specific distance is designed according to the requirement. The diversion point of the aerosol passage 6 is designed as required, and the application does not limit the diversion point.

An aerosol mixing area is formed between the end part of the seasoning part 3 close to the air outlet part 41 and the air outlet part 41, and the aerosol in the first aerosol channel 61 and the aerosol in the second aerosol channel 62 enter the air outlet part 41 after being mixed in the aerosol mixing area. That is, the aerosol in the first aerosol passage 61 and the aerosol in the second aerosol passage 62 are mixed outside the flavor part 3, and the mixed aerosol enters the air outlet portion 41 to be inhaled by the user.

Referring to fig. 1, specifically, the accommodating cavity 40 formed by the housing 4 includes an atomizing installation cavity 43 and a main body installation cavity 44, and a cavity wall is shared between the atomizing installation cavity 43 and the main body installation cavity 44. The seasoning component 3 and the atomizer 1 are arranged in the atomizing installation cavity 43; that is, the electronic atomizer has a housing chamber for housing the atomizer 1 and the flavor part 3, and the housing chamber is the atomizing mounting chamber 43. The atomizer 1 is coaxially arranged with the seasoning component 3, and the air outlet part 41 is arranged at one end of the seasoning component 3 far away from the atomizer 1. The power supply assembly 2 and the driving assembly 7 are arranged in the main body installation cavity 44; that is, the drive assembly 7, the battery 21, and the controller 22 are disposed in the main body mounting chamber 44. Atomizer 1, flavor part 3 and battery 21, controller 22, drive assembly 7 are kept apart through the chamber wall that atomizing installation cavity 43 and main part installation cavity 44 share, can avoid the aerosol that atomizer 1 atomizing was waited to atomize the matrix and is produced to get into main part installation cavity 44 in, and then avoid the influence to drive assembly 7, battery 21, controller 22 behind the aerosol condensation. It will be appreciated that the common chamber wall of the atomising mounting chamber 43 and the body mounting chamber 44 need not completely separate the entire atomiser 1, flavouring component 3 from the batteries 21, controller 22, drive assembly 7, as long as the aerosol passage 6 is completely separated from the batteries 21, controller 22, drive assembly 7.

The electronic atomization device further comprises a support 45, and the support 45 is arranged in the atomization installation cavity 43. The holder 45 encloses a cavity for the placement of the flavouring element 3.

A second aerosol channel 62 is formed between the support 45 and the wall of the atomizing mounting chamber 43, that is, a second aerosol channel 62 is formed between the wall of the atomizing mounting chamber 43 and the side wall of the flavor part 3, and the second aerosol channel 62 is located in the atomizing mounting chamber 43. The second aerosol passage 62 is disposed parallel to the seasoning part 3 and is disposed at a side of the seasoning part 3. The end of the second aerosol channel 62 close to the atomizer 1 is an air inlet, and the end close to the air outlet 41 is an air outlet.

In one embodiment, the air outlet 12 of the air outlet channel 13 of the atomizer 1 faces the flavor element 3, and the aerosol generated by atomization of the atomizer 1 directly enters the flavor element 3. A gap 15 exists between the atomizer 1 and the seasoning component 3, the second aerosol channel 62 is disposed at a side of the seasoning component 3, that is, the second aerosol channel 62 and the air outlet 12 of the air outlet channel 13 of the atomizer 1 are disposed in a staggered manner, the second aerosol channel 62 is communicated with the air outlet channel 13 through the gap 15, and the second aerosol channel 62 extends towards a direction close to the air outlet 41. In specific implementation, the second aerosol channel 62 may extend in a direction close to the air outlet portion 41 in a straight line, and the second aerosol channel 62 may also extend in a direction close to the air outlet portion 41 in a curved or spiral manner, only by extending the second aerosol channel 62 to the air outlet portion 41. In the present embodiment, the second aerosol passage 62 extends in a straight line in a direction close to the air outlet 41, and the air inlet of the second aerosol passage 62 faces the same direction as the length direction of the flavor part 3 and faces the atomizer 1 side.

The regulating member 5 is adapted to vary the amount of aerosol reaching the outlet portion 41 via the second aerosol channel 62. The manner of changing the amount of aerosol reaching the outlet portion 41 via the second aerosol channel 62 may be to change the size of the inlet opening of the second aerosol channel 62, to change the size of the outlet opening of the second aerosol channel 62, or to change the size of the airflow channel in the middle portion of the second aerosol channel 62. That is, the regulating member 5 may be disposed at the air inlet of the second aerosol passage 62, and change the amount of aerosol entering the second aerosol passage 62, and further change the amount of aerosol entering the air outlet 41 through the second aerosol passage 62; the regulating member 5 can also be arranged at the air outlet of the second aerosol passage 62 to change the amount of the aerosol entering the air outlet part 41 through the second aerosol passage 62; the regulating member 5 may also be disposed at an intermediate position of the second aerosol passage 62 to change the amount of aerosol entering the outlet portion 41 through the second aerosol passage 62; the specific arrangement of the adjusting member 5 is selected as required. In the present embodiment, the adjusting member 5 adjusts the amount of the aerosol reaching the air outlet 41 through the second aerosol passage 62 by adjusting the amount of the aerosol entering at the air inlet of the second aerosol passage 62, and the matching relationship between the adjusting member 5 and other structures will be described below. If the adjusting member 5 is disposed at the air outlet or the middle position of the second aerosol passage 62, the connection relationship between the adjusting member 5 and other structures needs to be changed accordingly.

Through hole 421 is opened to the chamber wall of atomizing installation cavity 43 below the plane of air inlet place of second aerosol passageway 62, and the extending direction of through hole 421 is perpendicular with the air inlet orientation of second aerosol passageway 62 promptly, and through hole 421 will atomize installation cavity 43 and main part installation cavity 44 intercommunication. The adjusting member 5 is partially disposed in the through hole 421 and partially disposed in the body mounting cavity 44. The part of regulating part 5 sets up in through-hole 421, and the size of regulating part 5 and the size cooperation setting of through-hole 421 make atomizing installation cavity 43 and main part installation cavity 44 keep apart, avoid atomizing installation cavity 43 in the good aerosol of atomizer 1 atomizing get into main part installation cavity 44. Since the regulating member 5 is partially disposed in the through hole 421, the regulating member 5 moves in the extending direction of the through hole 421. Because the extending direction of the through hole 421 is perpendicular to the direction of the air inlet of the second aerosol channel 62, the adjusting part 5 moves along the through hole 421 to the direction close to the atomizing installation cavity 43, that is, the moving direction of the adjusting part 5 is perpendicular to the direction of the air inlet of the second aerosol channel 62, the air inlet of the second aerosol channel 62 can be covered, the size of the air inlet of the second aerosol channel 62 can be changed, and the aerosol quantity of the aerosol atomized by the atomizer 1 entering the air outlet portion 41 through the second aerosol channel 62 can be adjusted. In one embodiment, the through hole 421 is of the same height as the gap 15 between the atomizer 1 and the flavor element 3, so that the regulating member 5 can be partially inserted into the gap 15 between the atomizer 1 and the flavor element 3, thereby better covering the air inlet opening of the second aerosol passage 62.

Fig. 4 is a schematic partial enlarged structural view of a first embodiment of an electronic atomization device according to the present application.

The adjuster 5 includes a moving portion 51 and a catching portion 52. The movable portion 51 and the clamping portion 52 are fixedly connected together by screws, adhesives, a buckle structure and the like, or the movable portion 51 and the clamping portion 52 are integrally formed. Wherein, the moving part 51 is partially arranged in the through hole 421 and partially arranged in the main body installation cavity 44; the cross section of the moving part 51 can be rectangular, circular or other shapes, and is selected according to the requirement, and only the pressure regulating part 5 is needed to block the through hole 421, so that aerosol is prevented from entering the main body installation cavity 44; in the present embodiment, the cross-sectional shape of the moving portion 51 is rectangular. The snap-in portion 52 is provided in the body mounting cavity 44. The clamping part 52 is used for connecting the driving component 7, and the driving component 7 provides driving force to move the adjusting piece 5; the size of the clamping portion 52 is larger than that of the moving portion 51, and the clamping portion 52 can be clamped on the wall of the main body installation cavity 44 near the through hole 421. In another embodiment, one end of the clamping portion 52 extends out of the housing 4, and the user can push or pull the clamping portion 52 to move the adjusting member 5 toward or away from the seasoning part 3, so as to adjust the amount of aerosol reaching the air outlet portion 41 through the second aerosol passage 62.

In this embodiment, the adjusting member 5 is moved by the driving force provided by the driving assembly 7. The controller 22 is also used for controlling the operation of the driving assembly 7. That is, the controller 22 controls the operation of the driving assembly 7, and the driving assembly 7 provides a driving force to the regulating member 5 to move the regulating member 5, thereby changing the amount of aerosol reaching the air outlet portion 41 through the second aerosol passage 62.

The driving assembly 7 comprises a motor 71 and a turntable 72. The turntable 72 is connected with the motor 71, and the adjusting piece 5 is connected with the turntable 72; the motor 71 applies a driving force to move the rotary disc 72, and the rotary disc 72 moves to drive the adjusting member 5 to move, so that the adjusting member 5 gradually shields the air inlet of the second aerosol channel 62, and the amount of the aerosol reaching the air outlet part 41 through the second aerosol channel 62 is adjusted.

In the present embodiment, the adjusting member 5 further includes an elastic member 53, and the elastic member 53 is used to restore the adjusting member 5 to the original position when the motor 71 stops applying the driving force. In one embodiment, the resilient member 53 is a spring. The spring is sleeved on the moving part 51, one end of the spring is fixed on the clamping part 52, and the other end of the spring is fixed on one side, close to the driving assembly 7, of the cavity wall of the main body installation cavity 44. The spring setting position and the fixing manner are not limited as long as the force for restoring the original position can be applied to the adjusting member 5.

In other embodiments, the elastic member 53 may be an elastic member, a rubber band, or other elastic member capable of restoring its original shape, and may be selected as needed. The other end of the elastic member 53 may not be fixed but may abut against the wall of the main body installation chamber 44 near one end of the through hole 421 near the drive unit 7; the size of the elastic member 53 is larger than that of the through hole 421, and the elastic member 53 is not inserted into the through hole 421 with the movement of the moving part 51. The other end of the elastic member 53 may be fixed to the housing 4, and the elastic member 53 may extend in the same direction as the adjusting member 5. The connection relationship of the elastic member 53 to other structures is selected as desired.

In another embodiment, the elastic member 53 is not required to be arranged on the adjusting member 5, and the adjusting member 5 applies a driving force to gradually block the air inlet of the second aerosol passage 62 through the driving assembly 7; that is, the driving assembly 7 drives the adjusting member 5 to move toward the direction close to the flavoring element 3, and the rotation direction of the motor 71 is the first direction. After the air inlet of the second aerosol passage 62 is completely shielded by the adjusting piece 5, when the air inlet needs to be opened, the driving assembly 7 applies driving force to gradually open the air inlet of the second aerosol passage 62; that is, the driving assembly 7 drives the adjusting member 5 to move in a direction away from the seasoning component 3, and the rotation direction of the motor 71 is a second direction, and the second direction is opposite to the first direction.

The electronic atomising device also comprises a memory (not shown) in which are stored parameter information including a preset value of the flavouring material that can be extracted by the flavouring component 3, and the concentration of the flavouring material corresponding to the number of extractions. The memory transmits the parameter information to the controller 22, the controller 22 compares the pumping times detected by the airflow sensor with the parameter information, and controls the current output to the driving assembly 7 so as to control the driving force of the driving assembly 7 to the adjusting piece 5, adjust the moving speed of the adjusting piece 5 moving towards the position close to the flavoring part 3, realize the adjustment of the size of the air inlet of the second aerosol channel 62, further realize the adjustment of the amount of the aerosol reaching the air outlet part 41 through the second aerosol channel 62, and adjust the concentration of the flavoring material in the pumping process, so that the concentration of the flavoring material in the pumping process is uniform.

Please refer to fig. 5, which is a schematic diagram illustrating a state change of an adjusting member in a first embodiment of an electronic atomization device according to the present application.

In the initial period of operation (flavouring component 3 not being drawn), the air inlet of the second aerosol passage 62 is fully open, i.e. the air inlet of the second aerosol passage 62 is not obscured by the mouthpiece 5. Along with the work of the atomizer 1, the aroma in the flavoring material released by the flavoring part 3 is gradually attenuated, the controller 22 controls the voltage of the output driving assembly 7 to be gradually increased, the driving force of the driving assembly 7 to the adjusting part 5 is gradually increased, the moving speed of the adjusting part 5 towards the position close to the flavoring part 3 is gradually increased, the adjusting part 5 shields the air inlet of the second aerosol channel 62, the size of the air inlet is gradually reduced to be closed, the aerosol quantity of the aerosol atomized by the atomizer 1 entering the air outlet part 41 through the second aerosol channel 62 is gradually reduced, meanwhile, the aerosol quantity of the aerosol atomized by the atomizer 1 entering the air outlet part 41 through the flavoring part 3 is gradually increased, the concentration of the flavoring material in the suction process is close to uniformity, and the problem that the release attenuation of the flavoring material in the prior art is serious is solved.

In the first embodiment, the electronic atomization device includes the air outlet portion 41, the regulating member 5, and the controller 22; and has a housing chamber housing the atomizer 1 and the flavor element 3, the flavor element 3 comprising a flavor material capable of releasing a fragrance. The air outlet part 41 is communicated with the air outlet channel 13 through an aerosol channel 6, and the aerosol channel 6 is divided into a first aerosol channel 61 and a second aerosol channel 62 between the air outlet 12 of the air outlet channel 13 of the atomizer 1 and the air outlet part 41; the first aerosol passage 61 enables the aerosol generated by the atomizer 1 to pass through the seasoning component 3, takes away the fragrance of the seasoning material in the seasoning component 3, and reaches the air outlet part 41; the second aerosol passage 62 allows the aerosol generated by the nebulizer 1 to directly reach the air outlet 41; the amount of aerosol reaching the outlet portion 41 via the second aerosol passage 62 can be varied by means of the regulating member 5. By arranging the second aerosol channel 62 and adjusting the amount of the aerosol reaching the air outlet part 41 through the second aerosol channel 62 by the adjusting part 5, the aerosol shunting is dynamically controlled, so that the fragrance of the seasoning material sucked by a user is stable and uniform, the user obtains good satisfaction, the problem of serious fragrance release attenuation of the seasoning material in the seasoning part can be solved, the product competitiveness is improved, and economic benefits are created.

It can be understood that the atomizer 1 and the flavoring component 3 can be arranged side by side, and the arrangement positions of the air outlet 12 of the atomizer 1, the adjusting part 5 and the driving component 7 are changed correspondingly, so that the adjusting part 5 can adjust the amount of the aerosol reaching the air outlet 41 through the second aerosol channel 62, and the aerosol shunting can be dynamically controlled, so that the fragrance of the flavoring material sucked by a user is stable and uniform; the specific structure of the atomizer 1 and the flavor element 3, as well as the arrangement of the first aerosol passage 61 and the second aerosol passage 62, are as described in the second embodiment of the electronic atomizer device.

Referring to fig. 6 and 7, fig. 6 is a schematic structural diagram of a second embodiment of an electronic atomizer provided in the present application, and fig. 7 is a schematic structural diagram of an aerosol flow in an aerosol channel of the second embodiment of the electronic atomizer provided in the present application.

In the second embodiment, the same as the first embodiment is that: the aerosol inlet and the aerosol outlet are divided into a first aerosol channel and a second aerosol channel between the air outlet and the air outlet part of the air outlet channel of the atomizer; the difference from the first embodiment is that: the atomizer and the flavoring component are arranged at different positions, the air outlet of the atomizer is arranged at different positions, and the adjusting modes for adjusting the concentration of the flavoring material in the aerosol at the air outlet part are different.

The electronic atomizer device includes a housing 1, an atomizer 2, a seasoning component 3, an air outlet 4, a battery 5, a controller 6, and an airflow sensor 7. In this embodiment, the flavor element 3 is a so-called flavor cartridge.

The casing 1 forms an accommodation chamber 10, and the atomizer 2, the seasoning component 3, the battery 5, the controller 6 and the airflow sensor 7 are disposed in the accommodation chamber 10 formed by the casing 1. The atomizer 2 is used for atomizing a substrate to be atomized to generate aerosol, the atomizer 2 comprises an atomizing cavity (not shown) and a gas outlet 20 communicated with the atomizing cavity, and the aerosol atomized by the atomizer 2 flows out from the gas outlet 20. The flavouring component 3 comprises a flavouring material; optionally, the flavouring material comprises a nicotine flavour. The atomizer 2, the battery 5 and the airflow sensor 7 are electrically connected with the controller 6, and the controller 6 controls the battery 5 to output an operating voltage to the atomizer 2 according to the detection information of the airflow sensor 7, so that the atomizer 2 operates. The user draws aerosol through the air outlet 4. The air outlet 4 and the housing 1 may be integrally formed, or may be fixed together by means of adhesive or the like.

Specifically, the housing cavity 10 formed by the housing 1 includes an atomizing mounting cavity 11, a flavoring component mounting cavity 12, a battery mounting cavity 13, a controller mounting cavity 14 and an airflow sensor mounting cavity 15. Atomizer 2 sets up in atomizing installation cavity 11, and the part of flavouring 3 sets up in the part installation cavity 12 of flavouring, and battery 5 sets up in battery installation cavity 13, and controller 6 sets up in controller installation cavity 14, and airflow sensor 7 sets up in airflow sensor installation cavity 15.

In the present embodiment, the atomizer 2, the flavouring part 3 and the battery 5 are arranged side by side; that is, the atomizing attachment chamber 11, the seasoning component attachment chamber 12, and the battery attachment chamber 13 are arranged side by side. The air outlet part 4 is arranged right above the seasoning component 3, and the airflow sensor 7 is arranged right below the seasoning component 3; that is, the airflow sensor installation chamber 15 is provided directly below the seasoning unit installation chamber 12. It is understood that the specific location of the airflow sensor 7 can be designed as required, and the airflow sensor 7 can sense the airflow change during the suction process. The controller 6 is arranged on one side of the airflow sensor 7 far away from the seasoning component 3, and the controller 6 is arranged on one side of the atomizer 2 and one side of the battery 5 far away from the air outlet part 4; that is, the controller mounting cavity 14 is provided on the side of the atomizer mounting cavity 11, the airflow sensor mounting cavity 15, and the battery mounting cavity 13 away from the air outlet portion 4.

The gas outlet 4 communicates with the gas outlet 20 via an aerosol channel 8, and the aerosol channel 8 is divided between the gas outlet 20 and the gas outlet 4 into a first aerosol channel 81 and a second aerosol channel 82. That is, the aerosol channel 8 comprises a first aerosol channel 81 and a second aerosol channel 82, the first aerosol channel 81 and the second aerosol channel 82 are located between the air outlet 20 of the atomizer 2 and the air outlet 4, and the aerosol generated by the atomizer 2 passes through at least one of the first aerosol channel 81 and the second aerosol channel 82 to the air outlet 4.

Further, a seasoning material is provided in the first aerosol passage 81. In this embodiment, the flavor element 3 is disposed in the first aerosol passage 81. The first aerosol passage 81 allows the aerosol generated by the atomizer 2 to pass through the flavor part 3 to the gas outlet 4; the second aerosol passage 82 allows the aerosol generated by the nebulizer 2 to directly reach the air outlet 4. That is, after the aerosol atomized by the atomizer 2 flows out from the air outlet 20, a part of the aerosol flows through the flavoring material of the flavoring element 3 and reaches the air outlet 4, and a part of the aerosol does not pass through the flavoring element 3 and directly reaches the air outlet 4.

In this embodiment, the atomizer 2, the seasoning component 3, and the second aerosol passage 82 are arranged side by side, and the second aerosol passage 82 is arranged on one side of the seasoning component 3 away from the atomizer 2. In one embodiment, the cavity wall of the flavoring component mounting cavity 12 and the cavity wall of the battery mounting cavity 13 are arranged at intervals, that is, a gap exists between the cavity wall of the flavoring component mounting cavity 12 and the cavity wall of the battery mounting cavity 13; a second aerosol channel 82 is formed in a gap between the cavity wall of the seasoning component mounting cavity 12 and the cavity wall of the battery mounting cavity 13, one end of the formed second aerosol channel 82 is communicated with the air outlet 20 of the atomizer 2, and the other end of the formed second aerosol channel 82 is communicated with the air outlet 4. In another embodiment, the wall portion of the flavoring component mounting cavity 12 is shared with the wall of the battery mounting cavity 13, a second aerosol channel 82 is formed by providing a through hole on the shared wall along the length direction of the electronic atomization device, and one end of the second aerosol channel 82 is communicated with the air outlet 20 of the atomizer 2, and the other end is communicated with the air outlet 4. The second aerosol passage 82 may be arranged according to the requirement, which is not limited in the present application.

In an embodiment, the structure of the atomizer 2 of the second embodiment may be identical to that of the atomizer of the first embodiment, that is, the air outlet 20 of the atomizer 2 is located at one end of the atomizer 2 close to the air outlet 4 and is located at the top of the atomizer 2. Since the air inlets of the first aerosol channel 81 and the second aerosol channel 82 are located at one end far away from the air outlet 4, in order to communicate the air outlet 20 of the atomizer 2 with the air inlets of the first aerosol channel 81 and the second aerosol channel 82, a gap exists between the outer surface of the atomizer 2 and the inner surface of the atomizer mounting cavity 11 to form an air passage, so that the atomized aerosol of the atomizer 2 enters the aerosol channel 8.

In another embodiment, the atomizer 2 of the second embodiment has substantially the same structure as the atomizer of the first embodiment except that the air outlet 20 and the air inlet of the atomizer 2 are disposed at different positions. The air outlet 20 of the atomizer 2 is arranged at one end of the side wall of the atomizer 2 far away from the air outlet 4; the air inlet of the atomizer 2 is arranged at one end of the atomizer 2 close to the air outlet part 4, and is positioned at the top of the atomizer 2.

It can be understood that the air inlet of the atomizer 2 of the second embodiment may be disposed in the same manner as in the first embodiment, and the air outlet 20 is disposed at one end of the sidewall of the atomizer 2 away from the air outlet 4, so as to save the space of the air outlet channel in the first embodiment and increase the space of the liquid storage chamber, thereby increasing the amount of the liquid storage for storing the substrate to be atomized. The air inlet arrangement of the atomizer 2 of the second embodiment is designed as required, and the present application does not limit this.

Because the air inlets of the first aerosol channel 81 and the second aerosol channel 82 are located at one end far away from the air outlet part 4, the air outlet 20 of the atomizer 2 is arranged at one end, far away from the air outlet part 4, of the side wall of the atomizer 2, so that the path of the aerosol atomized by the atomizer 2 entering the first aerosol channel 81 and the second aerosol channel 82 can be shortened, the generation of condensate is reduced, the aerosol amount at the air outlet part 4 is increased, and the use experience of a user is improved.

Further, an aerosol mixing area 83 is formed between the end of the flavor element 3 close to the air outlet 4 and the air outlet 4, and the aerosol in the first aerosol channel 81 and the aerosol in the second aerosol channel 82 enter the air outlet 4 after being mixed in the aerosol mixing area 83. That is, the aerosol in the first aerosol passage 81 and the aerosol in the second aerosol passage 82 are mixed outside the flavor part 3, and the mixed aerosol enters the air outlet 4 to be inhaled by the user.

The electronic atomization device further comprises a first heating part 9, wherein the first heating part 9 is used for heating the flavoring part 3 and adjusting the aroma concentration of the flavoring material in the aerosol at the air outlet part 4; and the first heating member 9 is electrically connected to the controller 6. The first heating member 9 is disposed in a seasoning unit installation chamber 12 formed in the housing 1. Further, the first heating member 9 comprises a housing chamber 93 housing the flavouring member 3.

In the present embodiment, the first heating member 9 includes a metal pipe 94, a heating member 91. The metal tube 94 has a receiving cavity 93; it is understood that the inner space of the metal tube 94 forms the containing chamber 93, and the seasoning unit 3 is disposed in the inner space of the metal tube 94. A heating member 91 disposed around the outer surface of the metal pipe 94 for heating the seasoning unit 3 to adjust the amount of fragrance release of the seasoning material; the heating member 91 is one of a flexible circuit board, a thick film, and a metal heating sheet. In order to improve the heating efficiency of the heating member 91, the heating member 91 is attached to the outer surface of the metal pipe 94.

Specifically, the heating member 91 may be a sheet-like structure. The electronic atomizing device includes a plurality of heating members 91, and a plurality of heating members 91 are arranged around the circumference interval of the seasoning part 3, and the interval distance is designed according to the heating efficiency of the heating members 91. The seasoning component 3 is at least partially (the part of the seasoning component 3 provided with seasoning materials) arranged in a cavity formed by the plurality of heating components 91; that is, the part of the seasoning component 3 provided with the seasoning material is accommodated in the cavity formed by the enclosure of the plurality of heating components 91, and the part of the seasoning component 3 not provided with the seasoning material may be arranged in the cavity formed by the enclosure of the plurality of heating components 91 or arranged outside the cavity formed by the enclosure of the plurality of heating components 91.

The heating member 91 may have a ring-shaped structure and is disposed around the seasoning unit 3. In one embodiment, the electronic atomizing device includes a plurality of heating members 91, each heating member 91 is disposed around the circumference of the seasoning part 3, and the plurality of heating members 91 are disposed at intervals along the length direction of the seasoning part 3, the interval distance being designed according to the heating efficiency of the heating members 91; the part of the seasoning component 3 provided with the seasoning material is accommodated in the cavity formed by the enclosure of the plurality of heating components 91, and the part of the seasoning component 3 not provided with the seasoning material can be arranged in the cavity formed by the enclosure of the plurality of heating components 91 or arranged outside the cavity formed by the enclosure of the plurality of heating components 91. In another embodiment, the electronic atomizing device includes a heating element 91, the heating element 91 is disposed around the flavoring element 3, a portion of the flavoring element 3, which is provided with the flavoring material, is received in a cavity defined by the heating element 91, and a portion of the flavoring element 3, which is not provided with the flavoring material, may be disposed in the cavity defined by the heating element 91 or disposed outside the cavity defined by the heating element 91.

The electronic atomization device further comprises a heat insulation sheet 92, wherein the heat insulation sheet 92 is arranged in the seasoning component mounting cavity 12 and is positioned on one side of the first heating component 9 away from the seasoning component 3; the heat insulating sheet 92 is spaced apart from the first heating member 9 to form an air heat insulation between the heat insulating sheet 91 and the first heating member 9, thereby reducing the heat loss of the heating member 91 in the first heating member 9 and improving the heating efficiency of the heating member 91.

In order to achieve a better heat insulation effect, the heat insulation sheet 92 has an annular structure and is of an integral structure; the first heating member 9 is completely disposed in the accommodating cavity surrounded by the heat insulating sheet 92. The specific structures of the first heating member 9 and the heat insulating sheet 92 are designed as required, the first heating member 9 can heat the flavoring material in the flavoring member 3, and the heat insulating sheet 92 can insulate heat. It is understood that the thermal spacers 92 are an alternative configuration.

It will be appreciated that the first heating member 9 is disposed in the seasoning unit housing 12 together with the seasoning unit 3. A fixing mechanism 121 is arranged on the cavity wall of the seasoning component mounting cavity 12 to fix the first heating component 9 and the heat insulation sheet 92; the seasoning component mounting cavity 12 is further provided with a fixing seat 122, the seasoning component 3 is arranged in the accommodating cavity 93 formed by enclosing the metal tube 94 of the first heating component 9, the seasoning component 3 is fixed through the fixing seat 122, and the first heating component 9 and the heat insulation sheet 92 are fixed again through the fixing seat 122. Namely, one end of the seasoning component 3 is fixed by the fixing seat 122; one end of the first heating member 9 and the heat insulating sheet 92 is fixed to the fixing mechanism 121, and the other end is fixed to the fixing base 122.

The controller 6 is electrically connected to the heating member 91 in the first heating member 9, and the controller 6 controls the heating temperature of the heating member 91 in the first heating member 9 according to the number of puffs detected by the airflow sensor 7 to adjust the fragrance emission amount of the flavoring material so that the fragrance concentration of the flavoring material in the aerosol at the air outlet 4 is kept uniform with the continued operation of the atomizer 1.

It will be appreciated that the flavour release of the flavouring material in the flavouring component 3 varies at different temperatures; the higher the temperature, the more the fragrance release of the flavouring material in the flavouring component 3. As the suction continues, the aroma of the flavouring material in the flavouring component 3 gradually decays. The fragrance release amount of the seasoning material is controlled by adjusting the heating temperature of the heating element 91; and the aerosol part atomized by the atomizer 2 does not need to pass through the seasoning component 3, so that the fragrance concentration of the seasoning material in the aerosol at the air outlet part 4 is adjusted, and further, the fragrance concentration of the seasoning material in the aerosol sucked by a user is kept uniform in the suction process.

In particular, in the initial phase of operation, the flavouring element 3 is not sucked and the flavouring material in the flavouring element 3 is not consumed. At this time, at a lower temperature, the flavoring material of the flavoring element 3 can release a fragrance with a larger concentration, so that the aerosol part atomized by the atomizer 2 enters the air outlet part 4 without passing through the flavoring element 3, enters the second aerosol passage 82 and reaches the aerosol mixing area 83, and the purpose of diluting the fragrance concentration of the flavoring material is achieved to a certain extent.

As the suction is applied, the flavouring material in the flavouring component 3 is consumed. At this time, the fragrance concentration which can be released by the seasoning material of the seasoning component 3 is gradually reduced, and the fragrance concentration which can be released by the seasoning material of the seasoning component 3 is further increased by increasing the heating temperature of the heating component 91; by making the part of the aerosol atomized by the atomizer 2 enter the air outlet 4 without passing through the flavor element 3 into the second aerosol passage 82 and then into the aerosol mixing area 83, a negative pressure is generated in the aerosol mixing area 83, so that the flavor material of the flavor element 3 located in the first aerosol passage 81 is more likely to release a fragrance.

By providing the first aerosol passage 81 and the second aerosol passage 82, the aerosol atomized by the atomizer 1 partly passes through the flavor element 3 in the first aerosol passage 81 to reach the aerosol mixing area 83, and partly passes through the second aerosol passage 82 to reach the aerosol mixing area 83; the aerosol in the first aerosol passage 81 and the aerosol in the second aerosol passage 82 are mixed in the aerosol mixing area 83, so that the effective release of the fragrance of the seasoning material can be improved, and the taste and satisfaction of the aerosol can be further improved. Simultaneously, through setting up heating member 91 in first heating member 9, the heating temperature of dynamic adjustment heating member 91 to with the cooperation of second aerosol passageway 82, realize that the fragrance concentration of the material of flavouring among the suction process is close even, solve among the prior art problem that the release of the material fragrance of flavouring is unstable, the decay is serious.

Further, the electronic atomizer further includes a memory (not shown) in which parameter information including a preset value of the flavoring element 3 to be smoked and a concentration of the flavoring material corresponding to the number of puffs are stored. The memory transmits the parameter information to the controller 6, and the controller 6 compares the number of times of suction detected by the airflow sensor 7 with the parameter information and controls the heating temperature of the heating member 91 in the first heating member 9 according to the comparison result. The temperature of the heating member 91 in the first heating member 9 is adjusted within a range of 10 ℃ to 380 ℃.

Referring to fig. 8-10, fig. 8 is a schematic structural diagram of a third embodiment of an electronic atomizer provided in the present application, fig. 9 is a schematic structural diagram of an aerosol flowing in an aerosol passage of the third embodiment of the electronic atomizer provided in the present application, and fig. 10 is a schematic structural diagram of a flavor component of the third embodiment of the electronic atomizer provided in the present application.

In the third embodiment, the same as the first embodiment is that: the aerosol inlet and the aerosol outlet are divided into a first aerosol channel and a second aerosol channel between the air outlet and the air outlet part of the air outlet channel of the atomizer; the difference from the first embodiment is that: the atomizer and the flavoring component are arranged at different positions, the air outlet of the atomizer is arranged at different positions, and the adjusting modes for adjusting the concentration of the flavoring material in the aerosol at the air outlet part are different.

The electronic atomizer device includes a housing 1, an atomizer 2, a seasoning component 3, an air outlet 4, a battery 5, a controller 6, and an airflow sensor 7. In this embodiment, the flavor element 3 is a so-called heated non-burning tobacco rod.

The flavouring component 3 comprises a sleeve 31 and a flavouring material 36 disposed within the sleeve 31, a first end of the sleeve 31 forming the outlet 4; a cavity 32 is present between the flavouring material 36 and the outlet 4; the sleeve 31 is provided with a cable hole 33 on the side wall corresponding to the cavity 32. Optionally, the flavoring material 36 includes a nicotine flavor.

In particular, the flavouring component 3 further comprises a wicking material 37 disposed within the sleeve 31 and at a first end; a flavouring material 36 is provided at the second end of the sleeve 31. That is, the air outlet 4 is provided with the suction resistant material 37 to improve the use experience of the user; a wicking material 37 and a flavoring material 36 are disposed at each end of the sleeve 31, respectively, with a cavity 32 between the wicking material 37 and the flavoring material 36.

It is understood that the absorption-resistant material 37 may be disposed at the air outlet 4, or may be disposed at a side of the air outlet 4 adjacent to the flavoring material 36; flavoring material 36 may be disposed at one end of sleeve 31 or may be disposed in the middle of sleeve 31. Specifically, the positions of the suction resistant material 37 and the seasoning material 36 are designed as needed, and only the cavity 32 is formed between the seasoning material 36 and the air outlet 4.

The sleeve 31 is provided with a plurality of air receiving holes 33, and the plurality of air receiving holes 33 are arranged around the sleeve 31 at intervals in the circumferential direction. The arrangement mode of the air collecting holes 33 can be designed according to needs, and the outside can be communicated with the cavity 32 only through the air collecting holes 33.

The casing 1 forms an accommodation chamber 10, and the atomizer 2, the seasoning component 3, the battery 5, the controller 6 and the airflow sensor 7 are disposed in the accommodation chamber 10 formed by the casing 1. The atomizer 2 is used for atomizing the substrate that waits to atomize and produces aerosol, and atomizer 2 includes atomizing chamber and the gas outlet 20 with atomizing chamber intercommunication, and the good aerosol of atomizer 2 atomizing flows out from gas outlet 20. The atomizer 2, the battery 5 and the airflow sensor 7 are electrically connected with the controller 6, and the controller 6 controls the battery 5 to output an operating voltage to the atomizer 2 according to the detection information of the airflow sensor 7, so that the atomizer 2 operates. The user draws aerosol through the air outlet 4.

Specifically, the housing cavity 10 formed by the housing 1 includes an atomizing mounting cavity 11, a flavoring component mounting cavity 12, a battery mounting cavity 13, a controller mounting cavity 14 and an airflow sensor mounting cavity 15. The atomizer 2 is arranged in the atomization installation cavity 11; the part of the sleeve 31 of the flavouring part 3 in which the flavouring material 36 is provided is arranged in the flavouring part mounting cavity 12, that is to say the part of the flavouring part 3 in which the flavouring material 36 is provided is arranged in the flavouring part mounting cavity 12; the battery 5 is arranged in the battery mounting cavity 13; the controller 6 is arranged in the controller installation cavity 14; the airflow sensor 7 is disposed in the airflow sensor mounting cavity 15.

It will be appreciated that when a user inhales the aerosol directly through the air outlet 4, the part of the flavouring member 3 provided with the flavouring material 36 is disposed in the flavouring member mounting cavity 12, and the air outlet 4 formed at the end of the flavouring member 3 is disposed outside the flavouring member mounting cavity 12 for the user to inhale; it is also possible to provide a mouthpiece portion on the housing 1, the mouthpiece portion being in communication with the air outlet portion 4, the entire flavor component 3 being disposed in the flavor component mounting chamber 12, and the user inhaling the aerosol through the mouthpiece portion.

In the present embodiment, the atomizer 2, the flavouring part 3 and the battery 5 are arranged side by side; that is, the atomizing attachment chamber 11, the seasoning component attachment chamber 12, and the battery attachment chamber 13 are arranged side by side. The airflow sensor 7 is arranged right below the seasoning component 3; that is, the airflow sensor installation chamber 15 is provided directly below the seasoning unit installation chamber 12. It is understood that the specific location of the airflow sensor 7 can be designed as required, and the airflow sensor 7 can sense the airflow change during the suction process. The controller 6 is arranged on one side of the airflow sensor 7 far away from the seasoning component 3, and the controller 6 is arranged on one side of the atomizer 2 and one side of the battery 5 far away from the air outlet part 4; that is, the controller mounting cavity 14 is provided on the side of the atomizer mounting cavity 11, the airflow sensor mounting cavity 15, and the battery mounting cavity 13 away from the air outlet portion 4.

Further, a seasoning material is provided in the first aerosol passage 81. In this embodiment, the portion of the sleeve 31 of the flavouring component 3 in which the flavouring material 36 is disposed in the first aerosol passage 81. The first aerosol passage 81 allows the aerosol generated by the atomizer 2 to pass through the seasoning material 36 to the gas outlet 4; the second aerosol passage 82 allows the aerosol generated by the nebulizer 2 to directly reach the air outlet 4. That is, after the aerosol atomized by the atomizer 2 flows out from the air outlet 20, a part of the aerosol flows through the flavoring material 36 and reaches the air outlet 4, and a part of the aerosol does not pass through the flavoring material 36 and directly reaches the air outlet 4. Further, the aerosol in the second aerosol passage 82 passes through the air collecting hole 33 to be mixed with the aerosol in the first aerosol passage 81 in the cavity 32, and then enters the air outlet 4.

Specifically, a communication cavity 34 is formed between the outer surface of the sleeve 31 of the seasoning component 3 corresponding to the air receiving hole 33 and the seasoning component mounting cavity 12; the second aerosol passage 82 is communicated with the cavity 32 through the communicating cavity 34 and the air receiving holes 33. That is, the aerosol in the second aerosol passage 82 enters the cavity 32 after passing through the communicating cavity 34 and the air collecting hole 33, is mixed with the aerosol in the first aerosol passage 81 at the cavity 32, and enters the air outlet 4 after being mixed, so as to be inhaled by the user; that is, the aerosol in the first aerosol passage 81 and the aerosol in the second aerosol passage 82 are mixed within the seasoning part 3. In one embodiment, the sleeve 31 is provided with a plurality of cable holes 33, and the plurality of cable holes 33 are arranged around the sleeve 31 at intervals in the circumferential direction; a communication cavity 34 is formed between the outer surface of the sleeve 31 corresponding to the plurality of air receiving holes 33 and the seasoning component mounting cavity 12, the communication cavity 34 is arranged around the circumference of the sleeve 31, and the aerosol in the second aerosol passage 82 flows along the circumference of the sleeve 31 through the communication cavity 34 and enters the cavity 32 through the air receiving holes 33. In another embodiment, the air holes 33 are arranged only at the outlet of the sleeve 31 corresponding to the second aerosol passage 82, and a communication cavity 34 is formed between the outer surface of the sleeve 31 corresponding to the air holes 33 and the seasoning component mounting cavity 12; in this case, one or more air receiving holes 33 may be provided to allow the aerosol in the second aerosol passage 82 to enter the cavity 32.

Further, a seal 35 is provided between the outer surface of the sleeve 31 and the flavor element mounting cavity 12 to prevent leakage of the aerosol from the second aerosol passage 82 into the cavity 32. When the cable holes 33 are provided only at the outlet of the sleeve 31 corresponding to the second aerosol passage 82, the sealing member 35 is provided between the outer surface of the cable holes 33 and the seasoning unit installation chamber 12. When the sleeve 31 is provided with a plurality of air holes 33, the plurality of air holes 33 are arranged around the sleeve 31 at intervals in the circumferential direction, and a sealing element 35 is arranged between the outer surface of the sleeve 31 corresponding to the plurality of air holes 33 and the seasoning component mounting cavity 12; that is, the sealing member 35 is disposed between the outer surface of the air receiving hole 33 and the flavor component mounting chamber 12, and the sealing member 35 is disposed around the circumference of the sleeve 31 and forms the communicating chamber 34 communicating with the second aerosol passage 82. The sealing element 35 can be designed according to the arrangement of the air receiving holes 33, so that the aerosol entering the cavity 32 from the second aerosol passage 82 can be prevented from leaking.

In an embodiment, the structure of the atomizer 2 of the third embodiment may be identical to that of the atomizer of the first embodiment, that is, the air outlet 20 of the atomizer 2 is located at one end of the atomizer 2 close to the air outlet 4 and is located at the top of the atomizer 2. Since the air inlets of the first aerosol channel 81 and the second aerosol channel 82 are located at one end far away from the air outlet 4, in order to communicate the air outlet 20 of the atomizer 2 with the air inlets of the first aerosol channel 81 and the second aerosol channel 82, a gap exists between the outer surface of the atomizer 2 and the inner surface of the atomizer mounting cavity 11 to form an air passage, so that the atomized aerosol of the atomizer 2 enters the aerosol channel 8.

In another embodiment, the atomizer 2 of the third embodiment has substantially the same structure as the atomizer of the first embodiment except that the air outlet 20 and the air inlet of the atomizer 2 are disposed at different positions. The air outlet 20 of the atomizer 2 is arranged at one end of the side wall of the atomizer 2 far away from the air outlet 4; the air inlet of the atomizer 2 is arranged at one end of the atomizer 2 close to the air outlet part 4, and is positioned at the top of the atomizer 2. It can be understood that the air inlet of the atomizer 2 of the third embodiment may be disposed in the same manner as in the first embodiment, and the air outlet 20 is disposed at one end of the sidewall of the atomizer 2 away from the air outlet 4, so as to save the space of the air outlet channel in the first embodiment and increase the space of the liquid storage chamber, thereby increasing the amount of the liquid storage for storing the substrate to be atomized. The air inlet arrangement of the atomizer 2 of the third embodiment is designed as required, and is not limited in this application.

The electronic atomization device further comprises a first heating component 9, wherein the first heating component 9 is used for heating the flavoring component 3 and adjusting the aroma concentration of the flavoring material 36 in the aerosol at the air outlet 4; and the first heating member 9 is electrically connected to the controller 6. The first heating member 9 is disposed in a seasoning unit installation chamber 12 formed in the housing 1. Further, the first heating member 9 comprises a housing chamber 93 housing the flavouring member 3.

In the present embodiment, the first heating member 9 includes a metal pipe 94, a heating member 91. The metal tube 94 has a receiving cavity 93; it will be appreciated that the inner space of the metal tube 94 forms a receiving chamber 93, and the portion of the sleeve 31 of the flavouring member 3 in which the flavouring material 36 is disposed in the inner space of the metal tube 94. A heating member 91 is provided around the outer surface of the metal pipe 94 for heating the seasoning unit 3 to adjust the amount of fragrance released from the seasoning material 36; the heating member 91 is one of a flexible circuit board, a thick film, and a metal heating sheet. In order to improve the heating efficiency of the heating member 91, the heating member 91 is attached to the outer surface of the metal pipe 94.

Specifically, the heating member 91 may be a sheet-like structure. The electronic atomizing device includes a plurality of heating members 91, and a plurality of heating members 91 are arranged around the circumference interval of the seasoning part 3, and the interval distance is designed according to the heating efficiency of the heating members 91. The seasoning unit 3 is at least partially (the part of the seasoning unit 3 where the seasoning material 36 is provided) disposed in a cavity surrounded by the plurality of heating members 91; that is, the part of the seasoning component 3 provided with the seasoning material 36 is accommodated in the cavity formed by the enclosure of the plurality of heating components 91, and the part of the seasoning component 3 not provided with the seasoning material 36 may be arranged in the cavity formed by the enclosure of the plurality of heating components 91 or arranged outside the cavity formed by the enclosure of the plurality of heating components 91.

The heating member 91 may have a ring-shaped structure and is disposed around the seasoning unit 3. In one embodiment, the electronic atomizing device includes a plurality of heating members 91, each heating member 91 is disposed at a circumference of the seasoning part 3, and each heating member 91 is disposed at an interval along a length direction of the seasoning part 3, the interval distance being designed according to a heating efficiency of the heating member 91; the part of the seasoning component 3 provided with the seasoning material 36 is accommodated in the cavity formed by the enclosure of the plurality of heating components 91, and the part of the seasoning component 3 not provided with the seasoning material 36 can be arranged in the cavity formed by the enclosure of the plurality of heating components 91 or arranged outside the cavity formed by the enclosure of the plurality of heating components 91. In another embodiment, the electronic atomizing device includes a heating element 91, the heating element 91 is disposed around the flavoring element 3, a portion of the flavoring element 3 where the flavoring material 36 is disposed is received in a cavity defined by the heating element 91, and a portion of the flavoring element 3 where the flavoring material 36 is not disposed may be disposed in the cavity defined by the heating element 91 or may be disposed outside the cavity defined by the heating element 91.

In order to achieve a better heat insulation effect, the heat insulation sheet 92 has an annular structure and is of an integral structure; the heating member 91 is completely disposed in a receiving cavity defined by the heat insulating sheet 92. The specific structures of the first heating member 9 and the heat insulating sheet 92 are designed as required, and the first heating member 9 can heat the flavoring material 36 in the flavoring member 3, and the heat insulating sheet 92 can insulate heat. It is understood that the thermal spacers 92 are an alternative configuration.

It will be appreciated that the first heating member 9 is disposed in the flavouring member mounting cavity 12 together with the portion of the sleeve 31 of the flavouring member 3 in which the flavouring material is disposed. A fixing mechanism 121 is arranged on the cavity wall of the seasoning component mounting cavity 12 to fix the first heating component 9 and the heat insulation sheet 92; the seasoning component mounting cavity 12 is further provided with a fixing seat 122, the seasoning component 3 is arranged in the accommodating cavity 93 formed by enclosing the metal tube 94 of the first heating component 9, the seasoning component 3 is fixed through the fixing seat 122, and the first heating component 9 and the heat insulation sheet 92 are fixed again through the fixing seat 122. Namely, one end of the seasoning component 3 is fixed by the fixing seat 122; one end of the first heating member 9 and the heat insulating sheet 92 is fixed to the fixing mechanism 121, and the other end is fixed to the fixing base 122.

The controller 6 is electrically connected to the heating member 91 in the first heating member 9, and the controller 6 controls the heating temperature of the heating member 91 in the first heating member 9 according to the number of puffs detected by the airflow sensor 7 to adjust the fragrance emission amount of the flavoring material 36 so that the fragrance concentration of the flavoring material 36 in the aerosol at the air outlet 4 is kept uniform with the continued operation of the atomizer 1.

It will be appreciated that the amount of fragrance released by the flavouring material 36 in the flavouring component 3 varies at different temperatures; the higher the temperature, the more fragrance released from the flavouring material 36 in the flavouring component 3. As the suction continues, the aroma of the flavouring material 36 in the flavouring component 3 gradually decays. The fragrance release amount of the seasoning material 36 is controlled by adjusting the heating temperature of the heating member 91; and the atomized aerosol part of the atomizer 2 does not need to pass through the flavoring component 3, so as to adjust the fragrance concentration of the flavoring material 36 in the aerosol at the air outlet 4, and further ensure that the fragrance concentration of the flavoring material 36 in the aerosol sucked by a user is kept uniform in the suction process.

In particular, in the initial phase of operation, the flavouring element 3 is not sucked and the flavouring material 36 in the flavouring element 3 is not consumed. At this time, at a lower temperature, flavoring material 36 of flavoring element 3 may release a fragrance with a greater concentration, so that the aerosol portion atomized by atomizer 2 enters air outlet 4 without passing through flavoring material 36, enters second aerosol channel 82, and then enters cavity 32, thereby achieving the purpose of diluting the fragrance concentration of flavoring material 36 to a certain extent.

As the suction progresses, flavouring material 36 in flavouring component 3 is subsequently consumed. At this time, the fragrance concentration which can be released by the seasoning material 36 of the seasoning component 3 is gradually reduced, and the fragrance concentration which can be released by the seasoning material 36 of the seasoning component 3 is further increased by increasing the heating temperature of the heating component 91; by not passing the aerosol portion atomized by atomizer 2 through flavouring material 36 into second aerosol passage 82 and into air outlet 4 after reaching cavity 32, a negative pressure is created in cavity 32, so that flavouring material 36 located in first aerosol passage 81 is more likely to release a fragrance.

By providing the first aerosol passage 81 and the second aerosol passage 82, the aerosol atomized by the atomizer 1 partially reaches the cavity 32 through the flavoring material 36 in the first aerosol passage 81, and partially reaches the cavity 32 through the second aerosol passage 82 and the vent hole 33; the aerosol in the first aerosol passage 81 and the aerosol in the second aerosol passage 82 are mixed in the cavity 32, which can promote the effective release of the fragrance of the flavoring material 36, and thus promote the taste and satisfaction of the aerosol. Meanwhile, through the arrangement of the heating member 91 in the first heating member 9, the heating temperature of the heating member 91 is dynamically adjusted, and the second aerosol passage 82 is matched, so that the fragrance concentration of the seasoning material 36 in the suction process is close to uniformity, and the problems of unstable fragrance release and serious attenuation of the seasoning material 36 in the prior art are solved.

Further, the electronic atomizer device further includes a memory (not shown) in which parameter information is stored, the parameter information including a preset value of the amount of flavoring material 36 that can be sucked by the flavoring unit 3 and the number of times of suction. The memory transmits the parameter information to the controller 6, and the controller 6 compares the number of times of suction detected by the airflow sensor 7 with the parameter information and controls the heating temperature of the heating member 91 in the first heating member 9 according to the comparison result. The temperature of the heating member 91 in the first heating member 9 is adjusted within a range of 10 ℃ to 380 ℃.

Fig. 11 is a schematic view of aerosol flowing in an aerosol passage of a fourth embodiment of an electronic atomizing device according to the present application.

In the fourth embodiment, the difference from the first embodiment is that: the seasoning elements differ in their structure.

In the fourth embodiment, the arrangement mode of the atomizer, the relative position relationship between the atomizer and the flavoring component and the second aerosol passage, and the arrangement mode of the adjusting component are the same as those in the first embodiment, and are not described again. The structure of the seasoning unit in the fourth embodiment is the same as that of the seasoning unit in the third embodiment, and thus, the description thereof is omitted.

The atomizer 2 is coaxially arranged with the seasoning component 3, and the atomizer 2 is arranged at the end part of the seasoning component 3; a gap is formed between the atomizer 2 and the flavoring element 3; the air inlet of the second aerosol passage 82 and the air outlet 20 of the atomizer 2 are arranged in a staggered manner, and the second aerosol passage 82 is communicated with the air outlet 20 through a gap; the second aerosol passage 82 is arranged parallel to the flavouring component 3, and the air inlet of the second aerosol passage 82 is oriented substantially the same as the length of the flavouring component 3. The aerosol in the first aerosol passage 81 and the aerosol in the second aerosol passage 82 are mixed in the cavity 32 and then enter the outlet 4.

It can be understood that the manner of dynamically adjusting the aroma concentration of the flavoring material in the aerosol at the air outlet part can be to change the heating temperature of the flavoring material of the first heating part on the flavoring part, or to change the amount of the aerosol reaching the air outlet part through the second aerosol channel, so that the user can stably absorb the aroma of the flavoring material; the atomizer and the seasoning component can be arranged side by side or coaxially; the aerosol of the first aerosol passage and the aerosol of the second aerosol passage may be mixed within the flavor element or may be mixed outside the flavor element, with corresponding changes in the structure of the flavor element as desired. The above modes can be combined at will and selected according to the needs.

The electronic atomization device comprises an air outlet part, a first aerosol channel, a second aerosol channel and a first heating part; the first aerosol channel and the second aerosol channel are positioned between the air outlet and the air outlet part of the atomizer, and the aerosol generated by the atomizer passes through at least one of the first aerosol channel and the second aerosol channel to reach the air outlet part; the first heating component is used for heating the seasoning component. The flavoring part is heated by the first heating part, so that the release amount of the flavoring material in the flavoring part is adjusted, the adjustment of the concentration of the flavoring material in the aerosol at the air outlet part is realized, the fragrance of the flavoring material sucked by a user is stable, and the problem of serious fragrance release attenuation of the flavoring material in the flavoring part can be improved.

The above description is only a part of the embodiments of the present application, and not intended to limit the scope of the present application, and all equivalent devices or equivalent processes that can be directly or indirectly applied to other related technologies, which are made by using the contents of the present specification and the accompanying drawings, are also included in the scope of the present application.

Claims

1. An electronic atomizer device comprising an atomizer and a flavor element; the atomizer is used for atomizing a substrate to be atomized to generate aerosol, and comprises an atomizing cavity and an air outlet communicated with the atomizing cavity, and the aerosol flows out of the air outlet; the seasoning component comprises a seasoning material, and is characterized in that:

the electronic atomization device comprises an air outlet part;

the electronic atomization device comprises a first aerosol channel and a second aerosol channel, the first aerosol channel and the second aerosol channel are positioned between an air outlet of the atomizer and the air outlet part, and aerosol generated by the atomizer passes through at least one of the first aerosol channel and the second aerosol channel to reach the air outlet part;

the electronic atomization device comprises a first heating part, and the first heating part is used for heating the seasoning part.

2. The electronic atomization device of claim 1 wherein the flavor material is disposed in the first aerosol passage.

3. The electronic atomizer device according to claim 2, further comprising a controller for controlling the heating temperature of said first heating member in response to the detected number of puffs to adjust the amount of said flavoring material released to provide a uniform concentration of said flavoring material in said aerosol at said outlet.

4. The electronic atomizer device of claim 3, wherein the temperature adjustment range of said first heating member is from 10 ℃ to 380 ℃.

5. The electronic atomization device of claim 2 further comprising a housing forming a receiving chamber that receives the atomizer and the flavor member; the seasoning component is arranged in the first aerosol channel, and the air outlet part and the shell are integrally formed.

6. The electronic atomizer device according to claim 5, wherein the end of the flavor member proximate to the outlet portion is spaced from the outlet portion to form an aerosol mixing region, and wherein the aerosol in the first aerosol channel and the aerosol in the second aerosol channel enter the outlet portion after mixing in the aerosol mixing region.

7. The electronic atomizing device of claim 2, wherein the flavor member includes a sleeve and a flavor material disposed within the sleeve; an air outlet part is formed at one end part of the sleeve; a cavity is formed between the seasoning material and the air outlet part; the side wall of the sleeve is provided with an air collecting hole corresponding to the cavity;

the part of the sleeve provided with the seasoning material is arranged in the first aerosol passage; the aerosol in the second aerosol channel passes through the air collecting hole and is mixed with the aerosol in the first aerosol channel at the cavity, and then enters the air outlet part.

8. The electronic atomizing device according to claim 7, further comprising a housing, wherein the first heating member and a portion of the sleeve in which the flavoring material is disposed are received in a flavoring member mounting cavity formed in the housing, and a communication cavity is formed between an outer surface of the sleeve corresponding to the air receiving hole and the flavoring member mounting cavity; the second aerosol channel is communicated with the cavity through the communicating cavity and the air collecting hole.

9. The electronic atomizing device according to claim 8, wherein a plurality of air holes are formed in the sleeve, and are arranged around the sleeve at intervals in the circumferential direction; the communicating cavity is formed between the outer surface of the sleeve corresponding to the plurality of air receiving holes and the seasoning component mounting cavity.

10. The electronic atomizing device according to claim 9, wherein a sealing member is disposed between an outer surface of the sleeve corresponding to the plurality of air holes and the flavor member installation cavity to prevent the aerosol from leaking from the second aerosol passage into the cavity.

11. The electronic atomizing device of claim 2, wherein the atomizer, the flavor component, and the second aerosol passage are disposed side-by-side, and the second aerosol passage is disposed on a side of the flavor component remote from the atomizer.

12. The electronic atomizer device according to claim 11, wherein the air outlet is disposed at an end of the side wall of the atomizer away from the air outlet.

13. The electronic atomization device of claim 1 wherein the flavor material comprises a nicotine flavor.

14. A flavor element comprising a sleeve and a flavor material disposed within the sleeve; the first end of the sleeve forms an air outlet part; a cavity is formed between the seasoning material and the air outlet part; the side wall of the sleeve is provided with an air collecting hole corresponding to the cavity.

15. The flavor element of claim 14, further comprising a wicking material disposed within the sleeve at the first end; the flavoring material is disposed at the second end of the sleeve.

16. The flavor element of claim 14, wherein the sleeve has a plurality of orifices disposed therein, the plurality of orifices being circumferentially spaced around the sleeve.