CN217958743U - Electronic atomization device - Google Patents

Abstract

The application provides an electronic atomization device. The electronic atomization device comprises a support, an elastic conductive piece and a control board, wherein the support comprises a base body and an installation frame arranged on one side of the base body; the elastic conductive piece is arranged on the substrate, the first end of the elastic conductive piece is exposed out of the installation frame, and the second end of the elastic conductive piece is exposed out of one side of the substrate, which is far away from the installation frame, and is used for elastically abutting against the atomizing core; the control panel sets up in the installation frame and the first end of butt shell fragment to be connected with the electrically conductive piece electricity of elasticity. In this way, the electronic atomization device that this application provided realizes that the reliability of the electrically conductive route between atomizing core and the control panel is higher and the assembly is more convenient, weak point consuming time.

Description

Electronic atomization device

Technical Field

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

Background

The aerosol generated by burning the substrate to be atomized contains dozens of carcinogens, such as tar, which can cause great harm to human health, and the aerosol is diffused in the air to form harmful substances, so that the surrounding population can also cause harm to the human body after inhaling the harmful substances. Therefore, electronic atomization devices have come to meet the needs of some users.

In the prior art, an electronic atomizer mainly comprises an atomizer and a power supply assembly. Wherein, the atomizing core in the atomizer is mainly used for heating atomizing the matrix that waits to atomize and produce aerosol, and power supply unit provides the power for the atomizer. The atomizing core is connected with the main control board in the power supply assembly through the welding wire in the electric connection process, so that the possibility of insufficient welding exists, the time consumed by welding is long, and the production cost of the electronic atomizing device is high.

SUMMERY OF THE UTILITY MODEL

The application mainly provides an electronic atomization device to solve the reliability that atomizing core and main control panel electricity are connected not high and make the problem of long time of the worker.

In order to solve the above technical problem, a first technical solution provided by the present application is: an electronic atomization device is provided, which comprises a bracket, an elastic conductive piece and a control panel. The support comprises a base body and a mounting frame arranged on one side of the base body; the elastic conductive piece is arranged on the substrate, a first end of the elastic conductive piece is exposed out of the installation frame, and a second end of the elastic conductive piece is exposed out of one side of the substrate, which is far away from the installation frame, and is used for elastically abutting against the atomizing core; the control panel sets up in installation frame and the first end of the electrically conductive piece of butt elasticity to be connected with the electrically conductive piece electricity of elasticity.

The elastic conductive piece is an elastic piece, the elastic piece comprises a first elastic piece, a second elastic piece and a fastening section connected between the first elastic piece and the second elastic piece, the fastening section is embedded and fixed on the base body, the first elastic piece is exposed out of the installation frame, and the second elastic piece is exposed out of one side of the base body, which deviates from the installation frame.

The first elastic sheet section comprises a first extending part and a first abutting part which are connected in a bending mode, the first extending part is further connected to one end of the fastening section, and the first abutting part is used for receiving abutting force applied by the control plate along the first direction;

the second elastic piece section comprises a second extending part and a second abutting part which are connected in a bending mode, the second extending part is further connected to the other end of the fastening section, and the second abutting part is used for receiving abutting force applied by the atomizing core along the second direction;

wherein the second direction is perpendicular to the first direction.

Wherein, the control panel is buckled on the installation frame along the first direction.

Wherein, the fastening section is of a bending structure.

Wherein, the elastic conductive piece is a spring needle.

The electronic atomization device further comprises an atomization seat and an atomization core, the atomization seat is connected with the support to form an atomization cavity, and the atomization core is arranged in the atomization cavity; wherein, the support still includes the supporting part that sets up on the base member, and the supporting part is pressed and is held fixed atomizing core on the atomizing seat, and the second end of the electrically conductive piece of elasticity extends to the atomizing chamber and butt atomizing core to the electric connection atomizing core.

Wherein, the supporting part includes two at least support arms, and the support arm still is equipped with spacing lateral wall towards the terminal surface of atomizing core, and the terminal surface of support arm is pressed and is held atomizing core, and the spacing lateral wall of two at least support arms carries out the side direction spacing to atomizing core.

Wherein, the supporting arm is also clamped with the atomizing base.

Wherein, still be equipped with the hydrops groove on the base member, one side of support arm still is equipped with the drainage groove, and drainage groove intercommunication hydrops groove extends to the terminal surface of support arm.

The beneficial effect of this application: be different from prior art, this application provides an electron atomizing device. Through be provided with elasticity electrically conductive piece on the base member at the support, and make the first end that elasticity electrically conductive piece expose in the installation frame, so that the first end elasticity butt that control panel and elasticity electrically conductive piece, can realize the electric connection of control panel and elasticity electrically conductive piece, and the second end that elasticity electrically conductive piece can be used to elasticity butt atomizing core, thereby can realize the electrically conductive route between control panel and the atomizing core, it is connected through the bonding wire electricity between former atomizing core and the control panel to have cancelled, and elasticity electrically conductive piece's both ends difference elasticity butt control panel and atomizing core, it is short when the assembly, and the reliability of realizing electrically conductive route is higher, therefore the electronic atomization device that this application provided realizes that the reliability of electrically conductive route between atomizing core and the control panel is higher and the assembly is more convenient, it is short consuming time.

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 any inventive work.

FIG. 1 is a schematic structural diagram of an embodiment of an electronic atomizer provided herein;

FIG. 2 is a schematic cross-sectional view of the electronic atomizing device shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the region B in FIG. 2;

FIG. 4 is a schematic view of an assembly structure of a holder and an elastic conductive member in the electronic atomizing device shown in FIG. 2;

FIG. 5 is a schematic view of the structure of the resilient conductive member of FIG. 4;

FIG. 6 is a schematic view of the assembly of the holder and the resilient conductive member of FIG. 4 from another perspective;

fig. 7 is a schematic structural view of an atomizing base in the electronic atomizing device shown in fig. 2.

Detailed Description

The following describes in detail the embodiments of the present application with reference to the drawings attached hereto.

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

The 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. In the embodiment of the present application, all the directional indicators (such as upper, lower, left, right, front, and rear … …) are used only to explain the relative positional relationship between the components, the movement, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly. Furthermore, the terms "include" and "have," as well as any variations thereof, 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 but may alternatively include other steps or elements not expressly listed or 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 inventor of the application discovers that in the electronic atomization device in the prior art, the ejector pin is adopted to support the atomization core, the ejector pin is connected with the heating element and then communicated with the control panel through the conducting wire, and the welding wire connection mode has the problems of welding rosin joint and long manufacturing time in the welding wire process.

In order to solve and to generate heat and be connected between piece and the control panel and have the rosin joint and make the problem of long duration of worker, this application embodiment provides an electron atomizing device. The electronic atomization device provided in the embodiments of the present application is described in detail below.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of an embodiment of an electronic atomization device provided in the present application, and fig. 2 is a schematic cross-sectional structural diagram of the electronic atomization device shown in fig. 1.

The electronic atomisation device 1 may be used for atomising liquid substrates and also in different fields, such as medical, cosmetic, electronic aerosolisation and the like. The electronic atomization device 1 comprises a shell 100, an atomization seat 200, an atomization core 400, a power supply assembly 300 and a liquid storage bin 500.

The power supply module 300 is disposed in the casing 100, the atomizing base 200 and the atomizing core 400 are disposed in the liquid storage chamber 500, and the liquid storage chamber 500 is inserted into one end of the casing 100.

In this embodiment, the atomizing base 200 is disposed in the liquid storage bin 500 from the open end of the liquid storage bin 500, and the inner wall of the liquid storage bin 500 cooperates with the atomizing base 200 to form a liquid storage cavity 501, the liquid storage cavity 501 is used for storing a substrate to be atomized, and the substrate to be atomized can be liquid substrates such as liquid medicine, plant grass leaf liquid, and the like. The liquid storage bin 500 is further provided with an air outlet pipe 510, one end of the air outlet pipe 510, which faces the atomizing base 200, is connected to the atomizing base 200, and the air outlet pipe 510 is used for conveying aerosol formed after the substrate to be atomized is atomized to a pipe orifice at the other end.

Referring to fig. 3, fig. 3 is an enlarged structural diagram of a region B in fig. 2.

The atomizing core 400 is used to heat atomize a substrate to be atomized to form an aerosol. The atomizing core 400 includes a liquid guiding member 41 and a heat generating member 42 disposed on the liquid guiding member 41, the liquid guiding member 41 guides the substrate to be atomized in the liquid storage cavity 501 to the heat generating member 42, and the heat generating member 42 operates to atomize the substrate to be atomized to generate aerosol. The liquid guide 41 may be a porous matrix. The heating member 42 may be a metal film, a metal mesh, a metal wire, or the like, and the shape and structure are not limited. In the present embodiment, the heat generating member 42 may be an S-shaped metal film.

The power module 300 includes a holder 30, an elastic conductive member 31, a control board 32, a battery 33, and the like.

Support 30 towards the one end and the atomizing seat 200 fixed connection of atomizing seat 200, and then form atomizing chamber 43, atomizing core 400 sets up in atomizing chamber 43, and the piece 42 that generates heat generates aerosol in this atomizing chamber 43, and outlet duct 510 communicates atomizing chamber 43 to derive aerosol.

Referring to fig. 4, fig. 4 is a schematic view of an assembly structure of the bracket and the elastic conductive member in the electronic mist atomizing device shown in fig. 2.

The holder 30 includes a base 301 and a mounting frame 302 provided on one side of the base 301. In this embodiment, the base body 301 and the mounting frame 302 are integrally formed. In other alternative embodiments, the mounting frame 302 is fixedly attached to one end of the base 301.

In an embodiment, the mounting frame 302 has a mounting frame 3021 and an accommodating frame 3022, a microphone (not shown) is mounted in the mounting frame 3021, the microphone is an airflow sensing switch, and when a sensing surface of the airflow sensing switch senses a negative pressure, the microphone is turned on, so as to implement electrical on-off control. The microphone is provided with an electrode post 320 for electrical connection with the control board 32. When the microphone senses the negative pressure, the microphone is communicated with the control board 32, so that the control board 32 controls the atomizing core 400 to work. The microphone can be in a cylindrical structure or other shapes, and is designed according to actual requirements. The housing frame 3022 houses a battery 33, and electrodes on the battery 33 are electrically connected to the control board 32 to supply power to the atomizing core 400.

The mounting frame 302 lateral wall is provided with buckle structure 3023, makes the control panel 32 and the electrode column 320 counterpoint installation back of miaow head, is fixed in the mounting frame 302 with the control panel 32 through buckle structure 3023 on, prevents that the control panel 32 from taking place the displacement and leading to contact failure. The control panel 32 is fixed through the buckle, can make control panel 32 realize automatic assembly, has improved production efficiency.

The control board 32 is disposed on the mounting frame 302 and abuts against one end of the elastic conductive member 31, so as to electrically connect with the elastic conductive member 31.

In this embodiment, the elastic conductive member 31 is partially embedded and fixed in the base 301. Specifically, the first end 311 of the elastic conductive member 31 is exposed to the mounting frame 302, so that the elastic conductive member 31 is in contact connection with the control board 32; the second end 312 of the elastic conductive member 31 is exposed at the side of the base 301 away from the mounting frame 302, so that the elastic conductive member 31 is in contact with the atomizing core 400 or is connected with the atomizing core 400 through another electrode connecting member.

The elastic conductive member 31 has conductivity, and the material of the elastic conductive member 31 may be manganese steel, phosphor bronze, brass, or other conductive materials, which is not limited herein.

Alternatively, the elastic conductive member 31 may also be disposed on one side of the base 301, for example, it is disposed on a sidewall of the base 301 and exposed outside the sidewall.

Referring to fig. 5, fig. 5 is a schematic structural view of the elastic conductive member in fig. 4.

In one embodiment, the elastic conductive member 31 is an elastic sheet, and the elastic sheet is partially embedded and fixed in the substrate 301 by injection molding or embedding. The elastic piece includes a first elastic piece 313, a second elastic piece 314, and a fastening section 315 connected between the first elastic piece 313 and the second elastic piece 314, the fastening section 315 is embedded and fixed in the substrate 301, the first elastic piece 313 is exposed on the mounting frame 302, that is, the first end 311 of the elastic conductive member 31 is the first elastic piece 313, and the second elastic piece 314 is exposed on the side of the substrate 301 away from the mounting frame 302, that is, the second end 312 of the elastic conductive member 31 is the second elastic piece 314. The fastening section 315 has a bent structure to increase the contact area between the fastening section 315 and the substrate 301, so as to be embedded and fixed in the substrate 301 better.

The first elastic segment 313 includes a first extending portion 3132 and a first abutting portion 3131, the first extending portion 3132 is further connected to one end of the fastening section 315, the first abutting portion 3131 abuts against the control board 32 for electrically connecting with the control board 32, and the first abutting portion 3131 is connected to the first extending portion 3132 in a bending manner, so as to further increase the elastic degree of the first abutting portion 3131 relative to the fastening section 315, so as to improve the reliability of the abutting between the first abutting portion 3131 and the control board 32.

The second elastic segment 314 includes a second extending portion 3142 and a second abutting portion 3141, the second extending portion 3142 is further connected to the other end of the fastening section 315, the second abutting portion 3141 abuts against the heating element 42 for electrically connecting with the heating element 42 of the atomizing core 400, and the second abutting portion 3141 is connected to the second extending portion 3142 in a bending manner to further increase the elastic degree of the second abutting portion 3141 relative to the fastening section 315, so as to improve the abutting reliability of the second abutting portion 3141 and the atomizing core 400.

After the electronic atomization device 1 is installed, the first abutting portion 3131 receives an abutting force applied by the control board 32 in the first direction; the second abutting portion 3141 receives the abutting force applied in the second direction by the atomizing core 400; in this embodiment, the second direction is substantially perpendicular to the first direction. In other embodiments, the second direction may be the same direction as the first direction, or the included angle between the second direction and the first direction may be an acute angle or an obtuse angle.

The first extension 3132 functions to support the first abutting portion 3131 and to cushion the first abutting portion 3131 from a force in the first direction from the control plate 32. The second extending portion 3142 functions to support the second abutting portion 3141 and to buffer the second abutting portion 3141 from receiving a force in the second direction from the atomizing core 400. This ensures stable conduction while increasing the durability of the elastic conductive member 31.

In this embodiment, the first direction is a direction in which the control plate 32 is fastened to the mounting frame 302, that is, when the control plate 32 is fastened to the mounting frame 302 along the first direction, the control plate is also abutted against the first abutting portion 3131; the second direction is an insertion direction in which the liquid storage bin 500 is inserted into the housing 100. It should be understood that the first direction and the second direction are related to the position arrangement among the control board 32, the elastic conductive member 31 and the atomizing core 400, and in other embodiments, the first direction may not be perpendicular to the second direction, which is determined by the position arrangement of the control board 32, the elastic conductive member 31 and the atomizing core 400.

In this embodiment, in order to facilitate the contact connection between the two ends of the elastic conductive member 31 and the heating member 42 and the control board 32 of the atomizing core 400, the heating member 42 and the control board 32 of the atomizing core 400 are directly conducted.

In one embodiment, the fastening section 315 includes a first connection portion 3151, a second connection portion 3152, and a bending portion 3153. The first connection portion 3151 and the second connection portion 3152 are connected to each other and vertically disposed, and a bending portion 3153 is disposed at one side of the first connection portion 3151. The second elastic segment 314 is disposed toward the atomizing core 400, and the first connection 3151 is disposed toward the control plate 32. That is, the second spring segment 314 and the first connection 3151 are disposed in opposite directions. The second extending portion 3142 of the second elastic segment 314 is fixedly connected to the bending portion 3153 and perpendicular to the same. The first connection portion 3151, the second connection portion 3152 and the bending portion 3153 are fixedly connected and integrally formed. The first bullet section 313 and the second bullet section 314 are respectively arranged at two sides of the first connection portion 3151, and the second connection portion 3152 is connected with one end of the first connection portion 3151 far away from the first bullet section 313 and the second bullet section 314. The first connection portion 3151 is provided with a connection hole 316, and a fixing member (not shown) is inserted into the connection hole 316 to fixedly connect the fastening section 315 and the base 301.

In this embodiment, there are two elastic conductive members 31, and portions of the elastic conductive members 31 are embedded in the base 301, and the two elastic conductive members 31 are disposed at intervals and insulated from each other. The two ends of the elastic conductive member 31 are respectively abutted against the heating member 42 and the control board 32 for directly conducting the heating member 42 and the control board 32, thereby reducing the connection of wires and simplifying the production process. The two elastic conductive members 31 are insulated from each other to prevent a short circuit. In other alternative embodiments, the elastic conductive member 31 may also be fixed to the outer side of the substrate 301, the first end 311 of the elastic conductive member 31 is exposed to the mounting frame 302, and the second end 312 of the elastic conductive member 31 is exposed to a side of the substrate 301 away from the mounting frame 302.

In other embodiments, the elastic conductive member 31 may also be a pogo pin, which is disposed on the base 301 and has two ends respectively exposed at two sides of the base 301 to elastically abut against the heat generating member 42 and the control board 32, respectively.

Referring to fig. 6, fig. 6 is a schematic view of an assembly structure of the bracket and the elastic conductive member in fig. 4 from another perspective.

In an embodiment, the bracket 30 further includes a supporting portion 3011 disposed on the base 301, the supporting portion 3011 presses and fixes the atomizing core 400 on the atomizing base 200, and the second end 312 of the elastic conductive member 31 extends to the atomizing cavity 43 and abuts against the heating member 42 of the atomizing core 400, so as to electrically connect to the heating member 42 of the atomizing core 400.

Wherein, the supporting portion 3011 includes two at least support arms 340, two support arms 340 are relative and the interval sets up, support arm 340 still is equipped with spacing lateral wall 341 towards the terminal surface of atomizing core 400, the terminal surface pressure of support arm 340 holds atomizing core 400, spacing lateral wall 341 of two at least support arms 340 carries out the side direction spacing to atomizing core 400 to rectify the position of atomizing core 400 relative to support arm 340, and then make atomizing core 400 aim at with the second end of the electrically conductive piece 31, realize stable electricity and connect.

In this embodiment, the end surface of the supporting arm 340 and the end surface of the limiting side wall 341 form an L-shaped groove, and the bottom surface of the L-shaped groove is tightly attached to the atomizing surface 411 of the atomizing core 400 to support the atomizing core 400; the side surfaces of the L-shaped slot laterally limit the side walls of the atomizing core 400.

In other embodiments, the support portion 3011 may also be an annular wall disposed on one side of the base 301, where the annular wall abuts against the atomizing core 400 and circumferentially limits the atomizing core 400.

As shown in fig. 3, a first clamping portion 342 is disposed on a side of the supporting arm 340 opposite to the limiting sidewall 341, and a second clamping portion 23 matched with the first clamping portion 342 is disposed on an inner side surface of the atomizing base 200.

Referring to fig. 7, fig. 7 is a schematic structural view of an atomizing base of the electronic atomizing device shown in fig. 2.

In one embodiment, the atomizing base 200 includes an annular sidewall 22 and a top cover 21 disposed at one end of the annular sidewall. Wherein, the top cover 21 is disposed at one end of the annular sidewall 22 away from the bracket 30. The top cover 21 is provided with an air outlet 211 and a lower liquid outlet 212, and the air outlet 211 and the lower liquid outlet 212 are arranged at intervals. Wherein, one end of the air outlet pipe 510 close to the atomizing base 200 is inserted into the air outlet 211. Specifically, one end of the air outlet pipe 510 close to the atomizing base 200 is tightly connected to the air outlet 211 through a sealing member (not shown). The lower liquid port 212 communicates with the liquid storage chamber 501. The inner wall surface of annular lateral wall 22, the lateral surface that top cap 21 is close to annular lateral wall 22 and the terminal surface cooperation that support 30 is close to atomizing seat 200 form atomizing chamber 43, atomizing core 400 sets up in atomizing chamber 43 and covers down liquid mouth 212, so that the treat atomizing matrix of storage in stock solution chamber 501 transmits the drain 41 in atomizing core 400, generate heat in atomizing core 400 piece 42 set up in the lateral surface that drain 41 keeps away from top cap 21, generate heat piece 42 promptly and set up in the surface of drain 41 towards support 30, atomizing core 400 sets up the surface that generates heat piece 42 and regards as atomizing face 411.

The atomizing chamber 43 is communicated with the air outlet pipe 510 through the air outlet 211, so that the aerosol generated by heating and atomizing the substrate to be atomized in the atomizing chamber 43 is transmitted to the mouth of a user through the air outlet 211 and the air outlet pipe 510.

As shown in fig. 3, in an embodiment, two grooves are formed on the inner wall surface of the annular sidewall 22, and the two grooves are disposed opposite to each other, and the grooves serve as the second engaging portion 23. One side that two support arms 340 kept away from the axis of outlet duct 510 all is provided with the boss as first joint portion 342, and atomizing seat 200 passes through boss and recess matching joint with support 30. In order to facilitate the assembly of the atomizing base 200 and the bracket 30, a surface of the boss away from the supporting arm 340 is an inclined surface, and a distance between one end of the inclined surface close to the atomizing surface 411 and the supporting arm 340 is smaller than a distance between one end of the inclined surface away from the atomizing surface 411 and the supporting arm 340. In other alternative embodiments, a boss is disposed on an inner wall surface of the annular side wall 22, the boss serves as the second clamping portion 23, and a groove is disposed on a side of the two support arms 340 away from each other, and the groove serves as the first clamping portion 342.

In one embodiment, the liquid accumulation groove 3012 is further formed in the base body 301, the drainage groove 343 is further formed in one side of the support arm 340, and the drainage groove 343 is communicated with the liquid accumulation groove 3012 and extends to the end face of the support arm 340. And the drainage groove 343 is a semi-communicating groove and communicates the end face of the support arm 340 with the effusion groove 3012. The drainage grooves 343 have a capillary action, and drain and suck back the substrate to be atomized or the condensate leaking from the liquid guide 41. Liquid loading slot 3012 is used to store the substrate to be atomized or the condensate leaking from liquid guide 41. In the present embodiment, the supporting arm 340 is partially disposed in the base body 301, and in other alternative embodiments, the supporting arm 340 may be disposed on the end surface of the base body 301 close to the atomizing core 400. The drainage groove 343 is a semi-communicating groove, and communicates the end surface of the support arm 340 with the side surface of the support arm 340, which is back to the first clamping portion 342. In a preferred embodiment, the support arm 340 is partially disposed within the base 301.

The application provides an electronic atomization device. Through be provided with elasticity electrically conductive piece on the base member at the support, and make the first end that elasticity electrically conductive piece expose in the installation frame, so that the first end elasticity butt that control panel and elasticity electrically conductive piece, can realize the electric connection of control panel and elasticity electrically conductive piece, and the second end that elasticity electrically conductive piece can be used to elasticity butt atomizing core, thereby can realize the electrically conductive route between control panel and the atomizing core, it is connected through the bonding wire electricity between former atomizing core and the control panel to have cancelled, and elasticity electrically conductive piece's both ends difference elasticity butt control panel and atomizing core, it is short when the assembly, and the reliability of realizing electrically conductive route is higher, therefore the electronic atomization device that this application provided realizes that the reliability of electrically conductive route between atomizing core and the control panel is higher and the assembly is more convenient, it is short consuming time.

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 are included in the scope of the present disclosure.

Claims (10)

1. An electronic atomization device, comprising:

the bracket comprises a base body and a mounting frame arranged on one side of the base body;

the elastic conductive piece is arranged on the base body, a first end of the elastic conductive piece is exposed out of the mounting frame, and a second end of the elastic conductive piece is exposed out of one side of the base body, which is far away from the mounting frame, and is used for elastically abutting against the atomizing core;

the control board is arranged on the installation frame and abutted against the first end of the elastic conductive piece so as to be electrically connected with the elastic conductive piece.

2. The electronic atomization device of claim 1, wherein the elastic conductive member is a spring plate, the spring plate includes a first spring segment, a second spring segment, and a fastening segment connected between the first spring segment and the second spring segment, the fastening segment is embedded and fixed in the substrate, the first spring segment is exposed at the mounting frame, and the second spring segment is exposed at a side of the substrate away from the mounting frame.

3. The electronic atomization device of claim 2, wherein the first spring segment includes a first extension portion and a first abutting portion, the first extension portion is connected to one end of the fastening segment, and the first abutting portion is configured to receive an abutting force applied by the control plate along a first direction;

the second elastic piece section comprises a second extending part and a second abutting part which are connected in a bending mode, the second extending part is further connected to the other end of the fastening section, and the second abutting part is used for receiving abutting force applied by the atomizing core along a second direction;

wherein the second direction is perpendicular to the first direction.

4. The electronic atomizer of claim 3, wherein said control plate snaps onto said mounting frame in said first direction.

5. The electronic atomizing device of claim 2, wherein the fastening section is of a bent structure.

6. The electronic atomizing device of claim 1, wherein the resilient conductive member is a pogo pin.

7. The electronic atomization device of claim 1, further comprising an atomization seat and an atomization core, wherein the atomization seat is connected with the support to form an atomization cavity, and the atomization core is disposed in the atomization cavity;

the support is arranged on the base body, the support is pressed and fixed on the atomizing base, the second end of the elastic conductive piece extends to the atomizing cavity and abuts against the atomizing core, and the atomizing core is electrically connected with the second end of the elastic conductive piece.

8. The electronic atomization device of claim 7, wherein the support portion includes at least two support arms, the support arms further include a limit sidewall on an end surface facing the atomization core, the end surface of the support arms presses the atomization core, and the limit sidewalls of the at least two support arms laterally limit the atomization core.

9. The electronic atomizing device of claim 8, wherein the support arm is further snap-fitted to the atomizing mount.

10. The electronic atomizing device according to claim 8, wherein a liquid collecting tank is further disposed on the base, and a drainage tank is further disposed on one side of the supporting arm, and the drainage tank communicates with the liquid collecting tank and extends to an end surface of the supporting arm.

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