CN217937248U - Atomizer and electronic atomization device - Google Patents

Abstract

The application discloses electron atomizing device and atomizer, electron atomizing device is including dismantling atomizer and the battery pack of connection. The atomizer comprises a plurality of atomizing assemblies; the battery assembly is different from the atomizer in alignment direction, and the different atomization assemblies receive electric energy from the battery assembly. The utility model provides an electronic atomization device and atomizer can provide the aerosol of multiple taste and supply the user's suction to can enrich electronic atomization device's taste, and electronic atomization device changes the easy and simple to handle of different tastes, and the user uses and experiences better.

Description

Atomizer and electronic atomization device

Technical Field

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

Background

An electronic atomization device is a device for atomizing a substrate to be atomized into aerosol, and is widely applied to daily life.

Generally, electronic nebulizers store only one flavor of the substrate to be nebulized. Some users want to change another flavor and need to change the atomizer in the electronic atomizer; alternatively, the atomizer in the electronic atomizer is refilled with liquid. The mode of changing the taste is complex to operate, and the user experience is poor.

SUMMERY OF THE UTILITY MODEL

The application provides an electron atomizing device and atomizer can solve the change and treat the loaded down with trivial details of operation, the poor problem of user experience sense of atomizing matrix taste.

The present application provides a nebulizer comprising a plurality of nebulizing elements, wherein the nebulizer is configured such that, depending on the alignment orientation of the nebulizer with a battery element, different ones of the nebulizing elements receive electrical energy from the battery element.

The atomizer is provided with an accommodating cavity or a plug part and is used for being connected with the battery pack in a plug way; and the cross section of the accommodating cavity or the insertion part is a rotationally symmetrical figure, so that the atomizer has a plurality of alignment positions relative to the battery assembly, and the number of the plurality of alignment positions is the same as that of the plurality of atomization assemblies.

The atomizer comprises a first atomization assembly and a second atomization assembly, the first atomization assembly comprises a first connecting electrode group, and the second atomization assembly comprises a second connecting electrode group; when the atomizer is aligned and plugged with the battery assembly in the first direction, the first connecting electrode group can be electrically connected with the power electrode group of the battery assembly, and when the atomizer is aligned and plugged with the battery assembly in the second direction, the second connecting electrode group can be electrically connected with the power electrode group of the battery assembly.

The atomizer comprises a first connecting electrode, a common connecting electrode and a second connecting electrode, wherein the first connecting electrode and the common connecting electrode form a first connecting electrode group, and the second connecting electrode and the common connecting electrode form a second connecting electrode group; the first connection electrode and the second connection electrode are disposed centrally symmetrically with respect to the common connection electrode.

The atomizer comprises four connecting electrodes, wherein two of the four connecting electrodes form a first connecting electrode group, and the other two connecting electrodes form a second connecting electrode group; the first connecting electrode group and the second connecting electrode group are arranged in a central symmetry mode relative to the center point of the end face of the atomizer.

Wherein, one end of the atomizer is provided with a first air inlet hole and a second air inlet hole, and the first air inlet hole or the second air inlet hole is used for being communicated with an air inlet of the battery pack;

the atomizer is aligned and inserted with the battery assembly in a first direction, and the first air inlet can be communicated with an air inlet of the battery assembly; the atomizer is aligned and spliced with the battery pack in a second direction, and the second air inlet hole can be communicated with the air inlet of the battery pack.

Wherein, first atomizing subassembly and second atomizing subassembly are set up in parallel in the atomizer.

The atomizer also comprises a shell, wherein the shell is provided with a first liquid storage cavity, a first atomizing channel, a second liquid storage cavity and a second atomizing channel;

the first atomizing assembly comprises a first atomizing core, the first atomizing core is respectively communicated with the first liquid storage cavity and the first atomizing channel, and the first atomizing core is used for atomizing a first substrate to be atomized in the first liquid storage cavity;

the second atomization assembly comprises a second atomization core, the second atomization core is communicated with the second liquid storage cavity and the second atomization channel respectively, and the second atomization core is used for atomizing a second substrate to be atomized in the second liquid storage cavity.

The shell is also provided with a first mounting cavity; the first liquid storage cavity and the second liquid storage cavity are arranged on the same side of the first installation cavity side by side and are communicated with the first installation cavity;

the atomizer also comprises a mounting seat which is arranged in the first mounting cavity and is provided with a first air inlet hole and a second air inlet hole; first atomizing core and second atomizing core are the hollow column, and the one end and the first inlet port intercommunication of first atomizing core, the other end and first atomizing passageway intercommunication, the one end and the second inlet port intercommunication of second atomizing core, the other end and second atomizing passageway intercommunication.

Wherein, the casing still has air outlet channel, and first atomizing passageway and second atomizing passageway all communicate with air outlet channel.

Wherein, the shell comprises a main body and a cover body; the side wall of the cover body is sleeved on the outer side of one end of the main body far away from the mounting seat; the main body forms a first liquid storage cavity, a first atomizing channel, a second liquid storage cavity, a second atomizing channel and a first installation cavity; the cover body forms an air outlet channel.

The bottom wall of the first liquid storage cavity, which is far away from the mounting seat, is provided with a first liquid injection hole, and the bottom wall of the second liquid storage cavity, which is far away from the mounting seat, is provided with a second liquid injection hole; the diapire of lid and main part interval set up and be provided with the second sealing member between, and the second sealing member will be first annotates the liquid hole and the liquid hole is sealed with the second, and has the intercommunication chamber with first atomizing passageway, second atomizing passageway and outlet channel intercommunication in the second sealing member.

The application also provides an electronic atomization device, and electronic atomization device includes battery pack and atomizer, and battery pack can dismantle with the atomizer and be connected, and is different according to atomizer and battery pack's alignment position, and battery pack supplies power to different atomization component.

The battery assembly comprises a power electrode group, and the power electrode group is connected with the connecting electrode groups of different atomization assemblies in an aligning manner according to different aligning directions of the atomizer and the battery assembly.

Wherein, one end of the battery component close to the atomizer is also provided with a first sealing element; one end of the atomizer, which is close to the battery component, is provided with a first air inlet and a second air inlet;

the atomizer is aligned and inserted with the battery assembly in a first direction, and the first sealing element is used for sealing a second air inlet hole of the atomizer; the atomizer is aligned with the battery component in a second direction and is inserted, and the second sealing piece is used for sealing the first air inlet hole of the atomizer.

Wherein, first sealing member is the silica gel stopper.

The beneficial effect of this application is:

the application provides an electronic atomization device and atomizer in have contained a plurality of atomization component, and battery pack can supply power to different atomization component according to the alignment position difference of battery pack and atomizer. Different atomizing components can store at least two flavors of substrates to be atomized, so that the electronic atomizing device can provide aerosol with various flavors for a user to suck, and the flavors of the electronic atomizing device are enriched. And when the electronic atomization device is changed into different flavors, only the alignment direction of the battery assembly and the atomizer needs to be adjusted for changing, the operation of changing the flavors is simple and convenient, and the user experience is better.

Drawings

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

Fig. 1 is a schematic structural diagram of an electronic atomization device provided in the present application;

FIG. 2 is a schematic diagram of an exploded view of the electronic atomizer of FIG. 1;

FIG. 3 is a schematic diagram of an atomizer provided herein;

fig. 4 is a schematic structural diagram of a battery assembly provided in the present application;

FIG. 5 is a schematic cross-sectional view of the electronic atomizer of FIG. 1;

FIG. 6 is a bottom view of the atomizer provided herein;

FIG. 7 is a top view of a battery assembly provided herein;

FIG. 8 is another bottom view of the atomizer provided herein;

fig. 9 is another top view of a battery assembly provided herein.

Detailed Description

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

In the following description, for purposes of explanation and not limitation, specific details are set forth such as particular system structures, interfaces, techniques, etc. in order to provide a thorough understanding of the present application.

The term "and/or" herein is merely an association relationship describing an associated object, and means that there may be three relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship. Further, the term "plurality" herein means two or more than two.

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, features defined as "first", "second", and "third" may explicitly or implicitly include at least one of the described features. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specified otherwise. In the embodiment of the present application, all directional indicators (such as up, down, left, right, front, rear \8230;) are used only to explain the relative positional relationship between the components, the motion situation, etc. at a certain posture (as shown in the drawing), and if the certain posture is changed, the directional indicators are 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.

The present application will be described in detail with reference to the drawings and examples.

Please refer to fig. 1, wherein fig. 1 is a schematic structural diagram of an electronic atomizer 10 according to the present application. The electronic atomizer 10 comprises an atomizer 11 and a battery assembly 12, wherein the atomizer 11 is electrically connected with the battery assembly 12. The electronic atomization device 10 may be used for atomization of a liquid substrate to be atomized.

The nebulizer 11 can be used in various fields such as medical nebulization, electronic nebulization, and the like. The atomizer 11 is used for storing a substrate to be atomized and atomizing the substrate to be atomized to generate an aerosol, in the embodiment, the atomizer 11 atomizes the substrate to be atomized and generates the aerosol for a user to inhale, which is taken as an example in the following embodiments.

The battery assembly 12 has a battery (not shown) and a control circuit (not shown) therein for powering the atomizer 11 so that the atomizer 11 can atomize the substrate to be atomized to form an aerosol. The atomizer 11 and the battery assembly 12 are detachably connected, for example, the atomizer 11 is inserted into the battery assembly 12 or the battery assembly 12 is inserted into the atomizer 11, which may be designed according to specific needs. The atomizer 11 provided in the present embodiment may be inserted into the battery assembly 12.

Referring to fig. 2, fig. 2 provides an exploded view of the electronic atomizer 10 of fig. 1.

The nebulizer 11 includes a housing 111, and the housing 111 includes a main body 1111 and a cover 1112. The cover 1112 has a bottom wall and a side wall, the bottom wall of the cover 1112 is connected to the side wall of the cover 1112, and the bottom wall and the two side walls of the cover 1112 form an inner space of the cover 1112. The two side walls of the cover body 1112 are covered on the outer side of one end of the main body 1111 far away from the battery assembly 12 and are clamped with the main body 1111; the bottom wall of the cover 1112 is spaced from the main body 1111, and a second sealing member 112 is disposed between the bottom wall of the cover 1112 and the main body 1111, and the second sealing member 112 seals an end of the main body 1111 away from the battery assembly 12.

The battery assembly 12 includes a housing 121 and a bracket 122. The bracket 122 has a second mounting cavity, the battery and the control circuit are mounted in the second mounting cavity, and the bracket 122 is sleeved in the housing 121.

Referring to fig. 3 and 4, fig. 3 provides a schematic diagram of the atomizer 11, and fig. 4 provides a schematic diagram of the battery assembly 12.

The housing 121 of the battery assembly 12 has a receiving cavity 1221 therein, and the receiving cavity 1221 is disposed at one end of the second mounting cavity close to the atomizer 11. The main body 1111 of the atomizer 11 has a plug part 11111 at an end close to the battery assembly 12, and the plug part 11111 of the main body 1111 is plugged into the accommodating cavity 1221 of the housing 121. In other embodiments, the end of the main body 1111 near the battery assembly 12 may have a receiving cavity 1221, the end of the housing 121 near the atomizer 11 of the battery assembly 12 may have a plug part 11111, and the plug part 11111 of the housing 121 is plugged into the receiving cavity 1221 of the main body 1111.

The cross section of the insertion part 11111 is a rotationally symmetric pattern, that is, the cross section of the insertion part 11111 rotated by an angle around the center of the cross section coincides with the original cross section, so that the atomizer 11 has a plurality of alignment orientations with respect to the battery assembly 12. For example, in the present embodiment, the cross section of the insertion part 11111 is rectangular, and the rotation angle of the rotational symmetry pattern is 180 degrees, that is, the rotational symmetry pattern is a central symmetry pattern, so that the atomizer 11 has two alignment orientations of the first direction and the second direction with respect to the battery assembly 12, for example, the atomizer 11 can have two alignment orientations of the forward direction and the reverse direction with respect to the battery assembly 12. In other embodiments, the cross-section of insert 11111 may be an equilateral triangle, and the rotational angle of the rotationally symmetric pattern is 120 degrees, so that the atomizer 11 has three alignment orientations with respect to the cell assembly 12. The shape of the cross section of the insertion part 11111 is not limited to the above shape, and may be other shapes such as a regular polygon such as a square.

In this embodiment, the cross section of the insertion part 11111 is the same as the cross section of the accommodating cavity 1221, so that the insertion part 11111 can be inserted into the accommodating cavity 1221 and clamped with the accommodating cavity 1221. In other embodiments, the cross section of the plug part 11111 may be different from the cross section of the receiving cavity 1221, for example, the cross section of the receiving cavity 1221 is a square, the cross section of the plug part 11111 is an inscribed circle of the square, or the cross section of the plug part 11111 is a square, and the cross section of the receiving cavity 1221 is a circumscribed circle of the square. The cross section of the insertion part 11111 and the cross section of the accommodating cavity 1221 in this embodiment are both rectangular, so that the insertion part 11111 and the accommodating cavity 1221 can be tightly matched, which is beneficial to the stability of the electronic atomization device 10.

Referring to fig. 5, fig. 5 is a schematic cross-sectional view of the electronic atomization assembly of fig. 1.

The main body 1111 has a first mounting chamber 11112, a first reservoir chamber 11113, a first atomization passage 11114, a second reservoir chamber 11115, and a second atomization passage 11116. Wherein, first stock solution chamber 11113 and second stock solution chamber 11115 can be realized the partition by the separation liquid board, namely first stock solution chamber 11113 and second stock solution chamber 11115 have shared lateral wall. First stock solution chamber 11113 and second stock solution chamber 11115 set up side by side in the same one side of first installation cavity 11112, and all communicate with first installation cavity 11112. The first atomizing channel 11114 is arranged on the bottom wall of the first liquid storage cavity 11113 far away from the battery assembly 12, penetrates through the bottom wall of the first liquid storage cavity 11113 and is surrounded by the first liquid storage cavity 11113; the second atomizing channel 11116 is disposed on the bottom wall of the second liquid storage chamber 11115 far away from the battery assembly 12, and penetrates through the bottom wall of the second liquid storage chamber 11115 and is surrounded by the second liquid storage chamber 11115. The first liquid storage cavity 11113 and the second liquid storage cavity 11115 are stored with two different flavors of substrates to be atomized, namely, each liquid storage cavity is filled with one flavor of substrates to be atomized.

In other embodiments, the number of reservoirs and nebulization channels is not limited to two, but may be more than two, and the number of reservoirs and nebulization channels is the same as the number of the plurality of alignment orientations. The positional relationship between the first reservoir chamber 11113 and the second reservoir chamber 11115 is not limited to the arrangement in parallel, and may be arranged along the axial direction of the nebulizer 11.

In this embodiment, the atomizer 11 further comprises a mounting base 113, a first atomizing assembly 114, and a second atomizing assembly 115. First atomizing assembly 114 and second atomizing assembly 115 are disposed in juxtaposition within atomizer 11. The mounting seat 113 is disposed in the mounting cavity and connected to the main body 1111, for example, by a snap connection. The mounting base 113 has a first air inlet 1131 at one end close to the first liquid storage chamber 11113 and a second air inlet 1132 at one end close to the second liquid storage chamber 11115.

The first atomizing assembly 114 includes a first atomizing core 1141, and the first atomizing core 1141 is disposed in the first liquid storage chamber 11113 and the first mounting chamber 11112, and is mounted on a side of the mounting base 113 departing from the battery assembly 12. The first atomizing core 1141 is used for atomizing the substrate to be atomized in the first reservoir 11113.

The first atomizing core 1141 is hollow and cylindrical, and forms a first air flow channel therein, and the first air flow channel is used for air flow circulation. One end of the first atomizing core 1141 close to the battery assembly 12 is communicated with the first air inlet hole 1131, and one end of the first atomizing core facing away from the battery assembly 12 is communicated with the first atomizing channel 11114, so that the air flow entering the atomizer 11 from the first air inlet hole 1131 flows to the first air flow channel, and the air flow carries the aerosol which is atomized in the first air flow channel to flow to the first atomizing channel 11114, and finally flows out of the atomizer 11 for use by a user.

The first atomizing core 1141 includes a first mounting tube, a first base body, and a first heat generating body. The tube cavity of the first installation tube forms a first air flow passage; a first liquid inlet hole is formed in the first installation pipe and communicated with a pipe cavity of the first installation pipe. The first base body is arranged in a tube cavity of the first installation tube, a first through hole communicated with the first air flow channel is formed in the first base body, the first heating body is arranged in the first base body, and after being powered, the first heating body can convert electric energy into heat energy to heat the substrate to be atomized. The first matrix may be a cotton wick or a porous ceramic tube, such that the first matrix has a porosity that creates a capillary force that is absorbed by the substrate to be atomized. When the substrate to be atomized in the first liquid storage chamber 11113 contacts with the surface of the first substrate through the first liquid inlet hole, the substrate to be atomized on the surface of the first substrate further penetrates into the first substrate under the action of capillary force, so that the first heat-generating body is atomized.

The second atomizing assembly 115 includes a second atomizing core 1151, and the second atomizing core 1151 is disposed in the second reservoir 11115 and the first mounting chamber 11112, and is mounted at an end of the mounting base 113 facing away from the battery assembly 12. The second atomizing core 1151 is used for atomizing the substrate to be atomized in the second liquid storage cavity 11115.

The second atomizing core 1151 has a hollow cylindrical shape, and a second air flow passage for air flow communication is formed inside. One end of the second atomizing core 1151 close to the battery assembly 12 is communicated with the second air inlet 1132, and one end of the second atomizing core away from the battery assembly 12 is communicated with the second atomizing channel 11116, so that the airflow entering the atomizer 11 from the second air inlet 1132 flows to the second airflow channel, the airflow carries the aerosol finished by atomization in the second airflow channel to flow to the second atomizing channel 11116, and finally the aerosol flows out of the atomizer 11 for users to use.

The second atomizing core 1151 includes a second mounting pipe, a second base, and a second heat generating body. The lumen of the second mounting tube forms a second airflow channel; a second liquid inlet hole is formed in the second mounting pipe and communicated with a pipe cavity of the second mounting pipe. The second substrate is arranged in a tube cavity of the second mounting tube, a second through hole communicated with the second airflow channel is formed in the second substrate, the second heating element is arranged in the second substrate, and after power is supplied to the second heating element, electric energy can be converted into heat energy to heat the substrate to be atomized. The second matrix may be a cotton wick or a porous ceramic tube, such that the second matrix has a porosity that creates a capillary force that is absorbed by the substrate to be atomized. When the substrate to be atomized in the second liquid storage cavity 11115 contacts with the surface of the second substrate through the second liquid inlet hole, the substrate to be atomized on the surface of the second substrate further penetrates into the second substrate under the action of capillary force, so that the second heating element atomizes.

The first atomizing core 1141 and the second atomizing core 1151 may have the same or different structures. In this embodiment, the first atomizing core 1141 and the second atomizing core 1151 have the same structure. An air outlet channel 11121 is formed on the bottom wall of the cover 1112, and the air outlet channel 11121 is communicated with the first atomization channel 11114 and the second atomization channel 11116. The second sealing member 112 has a communication cavity 1121 therein for communicating the first atomizing channel 11114 with the second atomizing channel 11116 and the air outlet channel 11121, so that the air flows in the first atomizing channel 11114 and the second atomizing channel 11116 can flow out from the air outlet channel 11121 for users to use.

The bottom wall of the first liquid storage cavity 11113 far away from the mounting seat 113 is provided with a first liquid injection hole 11113a, and the bottom wall of the second liquid storage cavity 11115 far away from the mounting seat 113 is provided with a second liquid injection hole 11115a; the second packing 112 seals the first injection hole 11113a and the second injection hole 11115a, thereby preventing the substrate to be atomized in the first reservoir chamber 11113 and the second reservoir chamber 11115 from flowing out. When the substrate to be atomized needs to be injected, the cover 1112 and the sealing member 112 can be removed from the main body 1111, and the substrate to be atomized is injected into the corresponding liquid storage cavity from the corresponding injection hole.

In other embodiments, the number of the atomizing assemblies, the liquid injection holes and the air inlet holes is not limited to two, and can be more than two; the number of the atomizing assemblies, the liquid injection holes and the air inlet holes is the same as that of the plurality of alignment directions.

In one embodiment, the atomizer 11 may also include a plurality of sub-atomizers, for example, may include a first sub-atomizer and a second sub-atomizer. The sub-atomizers are detachably connected with each other, so that a user can replace one of the sub-atomizers.

Referring to fig. 3-7, fig. 6 provides a bottom view of the atomizer 11 of fig. 3, and fig. 7 provides a top view of the battery assembly 12 of fig. 4. The first atomizing assembly 114 further includes a first connecting electrode set 1142, and the first connecting electrode set 1142 includes two connecting electrodes. The two connecting electrodes of the first connecting electrode group 1142 have opposite polarities, for example, one connecting electrode is a positive electrode, and the other connecting electrode is a negative electrode. The two connection electrodes of the first connection electrode group 1142 are electrically connected to the heating element of the first atomizing core 1141 through the two first connection lines, or are abutted against the electrodes of the first atomizing core 1141 through the pogo pins, respectively.

Second atomizing assembly 115 also includes a second set of connected electrodes 1151, and second set of connected electrodes 1151 includes two connected electrodes. The two connection electrodes of the second connection electrode group 1151 have opposite polarities, for example, one connection electrode is a positive electrode, and the other connection electrode is a negative electrode. The two connection electrodes of the second connection electrode group 1151 may be electrically connected to the heat generating body of the second atomizing core 1151 through two second connection wires, or may be abutted against the electrodes of the second atomizing core 1151 through pogo pins.

End faces of the first connecting electrode group 1142 and the second connecting electrode group 1151 are arranged on an end face of the atomizer 11 for connecting the battery assembly 12, that is, the end faces of the first connecting electrode group 1142 and the second connecting electrode group 1151 are exposed from an end face of the mounting base 113 for connecting the bracket 122, and a central point of the end face of the mounting base 113 for connecting the bracket 122 is O1;

the first connecting electrode group 1142 and the second connecting electrode group 1151 are rotationally symmetric with respect to the O1 point, and a rotation angle of the rotational symmetry with respect to the O1 point is the same as a rotation angle of the cross section of the insertion part 11111, that is, the first connecting electrode group 1142 can be overlapped with the second connecting electrode group 1151 after being rotated 180 degrees with respect to the O1 point.

The battery assembly 12 includes a power electrode group 123, and the power electrode group 123 includes a first power electrode 1231 and a second power electrode 1232. The first power supply electrode 1231 and the second power supply electrode 1232 have opposite polarities, for example, the first power supply electrode 1231 is a positive electrode, and the second power supply electrode 1232 is a negative electrode. The power supply electrode group 123 is connected to two connection electrodes of the battery. The end face of the power electrode group 123 is provided on the end face of the battery pack 12 for connecting to the atomizer 11, that is, the end face of the power electrode group 123 is exposed from the end face of the holder 122 for connecting to the mount 113, and the center point of the end face of the holder 122 for connecting to the mount 113 is O2.

Two power supply electrodes of the power supply electrode group 123 are disposed opposite to two connection electrodes of the first connection electrode group 1142, or two power supply electrodes of the power supply electrode group 123 are disposed opposite to two connection electrodes of the second connection electrode group 1151. In this embodiment, when the atomizer 11 is aligned and plugged with the battery assembly 12 in the first direction, the two power electrodes of the power electrode group 123 are disposed opposite and in contact with the two connection electrodes of the first connection electrode group 1142; when the atomizer 11 is inserted into the battery module 12 in the second direction, the two power supply electrodes of the power supply electrode group 123 are disposed opposite to and in contact with the two connection electrodes of the second connection electrode group 1151.

Accordingly, the battery assembly 12 of the present application can power different atomization assemblies depending on the alignment orientation of the battery assembly 12 with the atomizer 11. The power electrode set 123 is aligned with the connecting electrode sets of different atomizing assemblies according to different alignment orientations. In this embodiment, when the atomizer 11 is aligned and plugged with the battery assembly 12 in the first direction, the battery assembly 12 supplies power to the first atomizing assembly 114, so that the first atomizing core 1141 is electrified to atomize the substrate to be atomized in the first liquid storage cavity 11113 for the user to use; when the atomizer 11 is aligned and plugged with the battery assembly 12 in the second direction, the battery assembly 12 supplies power to the second atomizing assembly 115, so that the second atomizing core 1151 electrically atomizes the substrate to be atomized in the second liquid storage chamber 11115 for the user to use.

The plurality of atomizing assemblies can store at least two flavors of the substrate to be atomized, such that the electronic atomizer 10 can provide a plurality of flavors of aerosol for the user, thereby enriching the flavors of the electronic atomizer 10. Moreover, when the user needs to replace the aerosol with different flavors, the user only needs to adjust the alignment direction of the battery assembly 12 and the atomizer 11 for replacement, so that the replacement operation is simple and convenient, and the user experience is better.

In this embodiment, the two connection electrodes of the first connection electrode group 1142, the two connection electrodes of the second connection electrode group 1151, the first power supply electrode 1231, and the second power supply electrode 1232 are all pins, but in other embodiments, the electrodes are not limited to pins. The number of the connection electrode groups is not limited to two groups in the present embodiment, and may be two or more groups, and the number of the connection electrode groups is the same as the number of the plurality of alignment orientations.

In an embodiment, the number of connection electrodes on the mount 113 may be three, i.e., the first connection electrode group 1142 and the second connection electrode group 1151 have the common connection electrode 116. Specifically, the first connection electrode group 1142 includes the first connection electrode 11421 and the common connection electrode 116, and the second connection electrode group 1151 includes the second connection electrode 11511 and the common connection electrode 116. The common connection electrode 116 is arranged on a central point O1 of the end surface of the mounting base 113, and the first connection electrode 11421 and the second connection electrode 11511 are arranged in rotational symmetry with respect to the center of the common connection electrode 116; the first power supply electrode 1231 is disposed on the center point O2 of the end surface of the holder 122, and the second power supply electrode 1232 is disposed opposite to the first connection electrode 11421 or the second connection electrode 11511.

When the atomizer 11 is aligned and plugged with the battery assembly 12 in the first direction, the first power electrode 1231 is in contact with the common connection electrode 116, and the second power electrode 1232 is opposite to and in contact with the first connection electrode 11421, so that the battery assembly 12 supplies power to the first atomizing core 1141; when the atomizer 11 is aligned and plugged with the battery assembly 12 in the second direction, the first power supply electrode 1231 contacts the common connection electrode 116, and the second power supply electrode 1232 and the second connection electrode 11511 are oppositely disposed and contact, so that the battery assembly 12 supplies power to the second atomizing core 1151. The number of the connection electrodes on the mounting base 113 is only three, and the structure is simple.

In other embodiments, as shown in fig. 8 and 9, the number of the connection electrodes on the mount 113 may be four. Two of the four connection electrodes constitute a first connection electrode group 1142, and the other two of the four connection electrodes constitute a second connection electrode group 1151. The atomizer 11 is inserted in alignment with the battery assembly 12 in a first direction, and two connecting electrodes of the first connecting electrode group are arranged opposite to and in contact with two power supply electrodes of the power supply electrode group 123; the atomizer 11 is inserted in alignment with the battery assembly 12 in the second orientation, and the two connection electrodes of the second connection electrode group 1151 are disposed opposite to and in contact with the power electrode group 123.

In this embodiment, with continued reference to fig. 6 and 7, an air inlet 124 is disposed at an end of the battery assembly 12 close to the atomizer 11, and the air inlet 124 is communicated with the outside atmosphere. Specifically, the housing 121 of the battery assembly 12 has an opening (not shown) that communicates the inside of the housing 121 of the battery assembly 12 with the outside atmosphere, the end of the bracket 122 near the atomizer 11 has a groove, the end of the groove near the edge of the bracket 122 communicates with the inside of the housing 121 of the battery assembly 12, and the groove forms the air inlet 124 of the battery assembly 12.

The first air inlet holes 1131 and the second air inlet holes 1132 are arranged in central symmetry with respect to a central point O1 of an end surface of the mounting base 113, which is used for being connected with the bracket 122, and the air inlet 124 is arranged opposite to the first air inlet holes 1131 or the second air inlet holes 1132. When the atomizer 11 is aligned and plugged with the battery assembly 12 in the first direction, the first air inlet 1131 is opposite to and communicated with the air inlet 124, so that the first air inlet 1131 is communicated with the outside atmosphere, and the outside atmosphere is communicated with the first air flow channel; when the atomizer 11 and the battery assembly 12 are aligned and plugged in the second direction, the second air inlet 1132 is opposite to and communicated with the air inlet 124, so that the second air inlet 1132 is communicated with the external atmosphere, and the external atmosphere is communicated with the second air flow channel.

In the electronic atomization device 10 aligned in one direction, the battery assembly 12 supplies power to the corresponding atomization core, and the airflow flows out from the corresponding atomization channel only through the corresponding airflow channel, so that the electronic atomization device 10 aligned in one direction and corresponding to one taste is realized.

Further, a first sealing member 125 is disposed at an end of the bracket 122 of the battery assembly 12 close to the mounting seat 113. The first seal 125 may be a silicone plug. The first sealing member 125 and the air inlet 124 are arranged centrally symmetrically with respect to a center point O2 of a cross section of the bracket 122 for connection with the mount 113; that is, the first sealing member 125 is disposed corresponding to the second intake holes 1132 or the first intake holes 1131.

The atomizer 11 is aligned and plugged with the battery assembly 12 in a first direction, the first sealing element 125 seals the second air inlet 1132, and the first air inlet 1131 is opposite to and communicated with the air inlet 124; the atomizer 11 is aligned with the battery assembly 12 in a second direction, the second sealing member 112 seals the first air inlet 1131, and the second air inlet 1132 is opposite to and communicated with the air inlet 124. The first sealing member 125 can provide better sealing of the electronic atomizer device 10.

The atomizer 11 is further provided with a first connecting piece 117 and a second connecting piece 118, the first connecting piece 117 and the second connecting piece 118 are arranged on the end face of the mounting base 113 close to the battery pack 12, and the first connecting piece 117 and the second connecting piece 118 are arranged in central symmetry with respect to a central point O1 of the end face of the mounting base 113 for connecting with the bracket 122. The end of the bracket 122 near the atomizer 11 is provided with a third connecting member 126, and the third connecting member 126 is disposed opposite to the first connecting member 117 or the second connecting member 118.

When the atomizer 11 is connected to the battery assembly 12 in the first direction, the first connecting member 117 and the third connecting member 126 are disposed opposite to each other and connected to connect the atomizer 11 to the battery assembly 12; when the atomizer 11 is coupled to the battery assembly 12 in the second orientation, the second coupling member 118 and the third coupling member 126 are disposed opposite to each other and coupled to couple the atomizer 11 to the battery assembly 12.

In this embodiment, the first connecting element 117, the second connecting element 118 and the third connecting element 126 are all magnets, so that the third connecting element 126 can be magnetically attracted and connected when being arranged opposite to the first connecting element 117 or the second connecting element 118.

The above embodiments are merely examples and are not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present disclosure or those directly or indirectly applied to other related technical fields are intended to be included in the scope of the present disclosure.

Claims (16)

1. An atomizer, comprising a plurality of atomizing assemblies; wherein the nebulizer is configured such that different ones of the nebulizer assemblies receive electrical energy from a battery assembly depending on an alignment orientation of the nebulizer with the battery assembly.

2. The atomizer of claim 1, wherein said atomizer has a receiving chamber or a plug portion for plug connection with said battery pack; and the cross section of the accommodating cavity or the plug part is a rotationally symmetrical figure, so that the atomizer has a plurality of alignment orientations relative to the battery assembly.

3. The nebulizer of claim 2, wherein the rotationally symmetric pattern is a centrosymmetric pattern such that the nebulizer has both first and second orientations relative to the battery pack, the nebulizer comprising a first nebulizer assembly comprising a first set of connecting electrodes and a second nebulizer assembly comprising a second set of connecting electrodes; when the atomizer with battery pack aims at with the first direction and pegs graft, first connection electrode group can with battery pack's power electrode group realizes the electricity and connects, works as the atomizer with battery pack aims at with the second direction and pegs graft, second connection electrode group can with battery pack's power electrode group realizes the electricity and connects.

4. A nebulizer as claimed in claim 3, comprising a first connecting electrode, a common connecting electrode and a second connecting electrode, the first connecting electrode and the common connecting electrode constituting the first connecting electrode set, the second connecting electrode and the common connecting electrode constituting the second connecting electrode set; the first connection electrode and the second connection electrode are disposed centrally symmetrically with respect to the common connection electrode.

5. A nebulizer as claimed in claim 3, wherein the nebulizer comprises four connecting electrodes, two of the four connecting electrodes constituting the first connecting electrode set and the other two connecting electrodes constituting the second connecting electrode set; the first connection electrode group and the second connection electrode group are arranged in a central symmetry manner with respect to a center point of an end surface of the atomizer.

6. A nebulizer as claimed in any one of claims 1 to 5, wherein one end of the nebulizer has a first air inlet aperture and a second air inlet aperture, the first or second air inlet aperture being for communication with an air inlet of the battery pack;

the atomizer is aligned and spliced with the battery pack in a first direction, and the first air inlet can be communicated with an air inlet of the battery pack; the atomizer is aligned and inserted with the battery pack in a second direction, and the second air inlet can be communicated with the air inlet of the battery pack.

7. The atomizer of claim 3, wherein said first atomizing assembly and said second atomizing assembly are disposed in juxtaposition within said atomizer.

8. A nebulizer as claimed in claim 3, further comprising:

the atomizing device comprises a shell, a first atomizing device and a second atomizing device, wherein the shell is provided with a first liquid storage cavity, a first atomizing channel, a second liquid storage cavity and a second atomizing channel;

the first atomization assembly comprises a first atomization core, the first atomization core is respectively communicated with the first liquid storage cavity and the first atomization channel, and the first atomization core is used for atomizing a first substrate to be atomized in the first liquid storage cavity;

the second atomization assembly comprises a second atomization core, the second atomization core is communicated with the second liquid storage cavity and the second atomization channel respectively, and the second atomization core is used for atomizing a second to-be-atomized substrate in the second liquid storage cavity.

9. The nebulizer of claim 8, wherein the housing further has a first mounting cavity; the first liquid storage cavity and the second liquid storage cavity are arranged on the same side of the first installation cavity side by side and are communicated with the first installation cavity;

the atomizer further comprises a mounting seat arranged in the first mounting cavity, and the mounting seat is provided with a first air inlet hole and a second air inlet hole; the first atomization core and the second atomization core are both hollow columns, one end of the first atomization core is communicated with the first air inlet hole, the other end of the first atomization core is communicated with the first atomization channel, one end of the second atomization core is communicated with the second air inlet hole, and the other end of the second atomization core is communicated with the second atomization channel.

10. The nebulizer of claim 9, wherein the housing further has an air outlet channel, the first nebulizing channel and the second nebulizing channel both communicating with the air outlet channel.

11. The nebulizer of claim 10, wherein the housing comprises a body and a cap; the side wall of the cover body is sleeved on the outer side of one end of the main body far away from the mounting seat; the main body forms the first liquid storage cavity, the first atomizing channel, the second liquid storage cavity, the second atomizing channel and the first installation cavity; the cover body forms the air outlet channel.

12. The nebulizer of claim 11, wherein the first reservoir has a first liquid injection hole in a bottom wall thereof remote from the mount, and the second reservoir has a second liquid injection hole in a bottom wall thereof remote from the mount; the diapire of lid with the main part interval sets up and is provided with the second sealing member between, the second sealing member will first annotate the liquid hole with the liquid hole is sealed is annotated to the second, just have in the second sealing member with first atomizing passageway the second atomizing passageway with the intercommunication chamber of air outlet channel intercommunication.

13. An electronic atomizer, characterized in that, the electronic atomizer comprises a battery pack and the atomizer of any one of claims 1-12, the battery pack is detachably connected with the atomizer, and the battery pack supplies power to different atomizer assemblies according to different alignment orientations of the atomizer and the battery pack.

14. The electronic atomizer device of claim 13, wherein said battery assembly includes a set of power electrodes that are aligned for connection to a set of connecting electrodes of different ones of said atomizer assemblies depending upon the orientation of said atomizer in alignment with said battery assembly.

15. The electronic atomization device of claim 13 including the atomizer of claim 12, wherein the battery assembly further includes a first seal disposed at an end of the battery assembly proximate the atomizer; one end of the atomizer, which is close to the battery component, is provided with a first air inlet hole and a second air inlet hole;

the atomizer is inserted in the battery component in an aligning manner in a first direction, and the first sealing element is used for sealing the second air inlet hole of the atomizer; the atomizer with battery pack aims at the second direction and pegs graft, the second sealing member is used for sealing the first inlet port of atomizer.

16. The electronic atomizer device of claim 15, wherein said first seal is a silicone plug.

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