CN116268610A - Atomizing device - Google Patents

Abstract

An atomizing device includes a housing assembly and a handle assembly. The container shell assembly comprises a first shrinking wall and a second shrinking wall, wherein the first shrinking wall is provided with a plurality of first mounting holes distributed at intervals along the circumferential direction, and the second shrinking wall is provided with a plurality of second mounting holes distributed at intervals along the circumferential direction. The handle assembly includes a third side wall and a fourth side wall. The inner wall of the third side wall is provided with a plurality of first installation protrusions distributed at intervals along the circumferential direction. The inner wall of the fourth side wall is provided with a plurality of second installation protrusions distributed at intervals along the circumferential direction. The first mounting protrusions are locked in the corresponding first mounting holes, and the second mounting protrusions are locked in the corresponding second mounting holes. The invention improves the structural strength of the atomization device after assembly and improves the anti-falling effect.

Description

Atomizing device

Technical Field

The present invention relates to an atomizing device configured to atomize a substance into a gaseous state by means of heating.

Background

The atomizing device in the related art is generally assembled from two or more housing components. After prolonged use, the connection between the housing components is prone to loosening. In addition, the housing assembly is even prone to falling off when the atomizing device is dropped onto the ground or is impacted by other external forces.

How to improve the structural strength of the atomization device after assembly is a technical problem of the person skilled in the art.

Disclosure of Invention

The invention aims to provide an atomization device with high structural strength.

In order to achieve the above purpose, the invention adopts the following technical scheme: an atomizing device, comprising:

a housing assembly including a first housing portion including a body portion including a first sidewall, a second sidewall opposite the first sidewall, and a slot between the first sidewall and the second sidewall; the first side wall is provided with an arc-shaped first inward shrinking wall, and the first inward shrinking wall is provided with a plurality of first mounting holes distributed at intervals along the circumferential direction; the second side wall is provided with an arc-shaped second inward shrinking wall, and the second inward shrinking wall is provided with a plurality of second mounting holes distributed at intervals along the circumferential direction; and

the handle assembly comprises a shell assembly, wherein the shell assembly comprises a handle part and a second shell part connected with the handle part, the second shell part comprises a third side wall, a fourth side wall opposite to the third side wall, a connecting wall connecting the third side wall and the fourth side wall, and an arc-shaped groove jointly surrounded by the third side wall, the fourth side wall and the connecting wall; the inner wall of the third side wall is provided with a plurality of first mounting protrusions protruding into the arc-shaped groove, and the plurality of first mounting protrusions are distributed at intervals along the circumferential direction; the inner wall of the fourth side wall is provided with a plurality of second mounting protrusions protruding into the arc-shaped groove, and the second mounting protrusions are distributed at intervals along the circumferential direction;

The first inward shrinking wall and the second inward shrinking wall are accommodated in the arc-shaped groove, the first installation protrusions are locked in the corresponding first installation holes, and the second installation protrusions are locked in the corresponding second installation holes.

As a further improved technical scheme of the invention, the first mounting protrusions are uniformly distributed along the circumferential direction; the plurality of second mounting protrusions are evenly distributed along the circumferential direction.

As a further improved technical scheme of the invention, the body part comprises a circular opening positioned in the middle of the body part, and the plurality of first mounting protrusions, the plurality of first mounting holes, the plurality of second mounting protrusions and the plurality of second mounting holes are all distributed in a radial equidistant surrounding array with the same diameter.

As a further improved technical scheme of the invention, the first shell part comprises a mounting cavity and an atomizing nozzle positioned at one side of the mounting cavity;

the containment assembly includes a heating assembly at least partially located in the first housing portion;

the atomization device further comprises a liquid storage bin assembly detachably assembled in the mounting cavity, wherein the liquid storage bin assembly comprises a liquid storage bin shell, liquid storage cotton detachably mounted in the liquid storage bin shell and an end cover matched with the liquid storage bin shell to limit the liquid storage cotton; the heating component is configured to heat the liquid storage bin component so as to atomize substances adsorbed in the liquid storage cotton into a gaseous state and flow out of the atomizing nozzle.

As a further improved technical scheme of the invention, the first shell part comprises an annular groove communicated with the mounting cavity, the containing shell component comprises a first sealing piece arranged in the annular groove, and the liquid storage bin component part penetrates through the first sealing piece to enable the first sealing piece to be sleeved on the liquid storage bin component.

As a further improved technical scheme of the invention, the heating assembly comprises a heating element and a second sealing piece surrounding the heating element, wherein the second sealing piece is a sealing soft rubber;

the first housing portion includes an atomizing nozzle and a first mounting wall at a bottom of the atomizing nozzle, and the second seal is at least partially sandwiched between the first mounting wall and the boss.

As a further development of the invention, the first housing part comprises a second mounting wall, on which a part of the annular groove is formed, and a third mounting wall, which is provided with a first mounting through hole, into which the second sealing part is partially inserted.

As a further improved technical scheme of the invention, the first shell part is provided with a convex column protruding out of the third installation wall, the convex column is provided with a second installation through hole communicated with the first installation through hole, the first installation through hole penetrates through the third installation wall to one side, and the second installation through hole penetrates through the convex column to the other side;

The heating assembly comprises a third sealing piece connected with the second sealing piece, the third sealing piece is sealing soft rubber, and the third sealing piece is inserted into the first mounting through hole and/or the second mounting through hole.

As a further improved technical scheme of the invention, the heating assembly comprises a fourth sealing element connected with the third sealing element, the fourth sealing element is sealing soft rubber, and the fourth sealing element is inserted into the second mounting through hole.

As a further improved technical scheme of the invention, the heating element is a piezoelectric ceramic electronic atomization working component.

As a further improved technical solution of the present invention, the housing assembly includes a heating assembly at least partially located in the first housing portion, the heating assembly including a heating element, a first wire and a second wire connected to the heating element, and a first conductive sheet and a second conductive sheet connected to the first wire and the second wire, respectively;

the second shell part comprises an extension convex part protruding into the arc-shaped groove, and the first conductive sheet and the second conductive sheet are fixed on the extension convex part;

the handle assembly further comprises a battery assembly, wherein the battery assembly is assembled on the shell assembly and comprises a mounting seat, a built-in circuit board arranged on the mounting seat, a battery arranged on the mounting seat and electrically connected with the built-in circuit board, and a first conductive terminal and a second conductive terminal electrically connected with the built-in circuit board;

Wherein the first conductive terminal is in contact with the first conductive sheet, and the second conductive terminal is in contact with the second conductive sheet.

As a further improved technical scheme of the invention, the handle part comprises an inner space and a mounting opening communicated with the inner space, and the arc-shaped groove is communicated with the inner space; the battery assembly is assembled in the interior space from the mounting aperture.

As a further improved technical scheme of the invention, the first conductive sheet comprises a first contact part, and the first conductive terminal comprises a first elastic arm which is abutted against the first contact part;

the second conductive sheet comprises a second contact portion, and the second conductive terminal comprises a second elastic arm abutted against the second contact portion.

As a further improved technical scheme of the invention, the extension convex part comprises a first wall part, a second wall part opposite to the first wall part and a containing groove positioned between the first wall part and the second wall part; the first contact part and the second contact part are respectively positioned at two sides of the accommodating groove and are exposed in the accommodating groove;

The mounting seat comprises a butt joint boss, the butt joint boss comprises a first outer side surface and a second outer side surface opposite to the first outer side surface, the first elastic arm protrudes out of the first outer side surface, and the second elastic arm protrudes out of the second outer side surface;

the butt joint boss is inserted into the accommodating groove.

Compared with the prior art, the container shell assembly and the handle assembly are assembled together, wherein the first mounting protrusions are locked in the corresponding first mounting holes, and the second mounting protrusions are locked in the corresponding second mounting holes, so that the structural strength of the assembled atomizing device is improved, and the anti-falling effect is improved.

Drawings

Fig. 1 is a schematic perspective view of an atomizing device according to the present disclosure in one embodiment.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a front view of fig. 1.

Fig. 4 is a right side view of fig. 1.

Fig. 5 is a partially exploded perspective view of fig. 1 with the first housing portion separated.

Fig. 6 is a schematic perspective view of the first housing part shown in fig. 5 at another angle.

Fig. 7 is a schematic perspective view of the first housing part shown in fig. 5 at a further angle.

Fig. 8 is a schematic perspective view of the second housing portion of fig. 5.

Fig. 9 is a partially enlarged view of the circled portion F in fig. 8.

Fig. 10 is a schematic perspective view of the cartridge assembly and first seal of fig. 5.

Fig. 11 is a front view of the cartridge housing of fig. 10.

Fig. 12 is a left side view of the cartridge housing of fig. 10.

Fig. 13 is a right side view of the cartridge housing of fig. 10.

Fig. 14 is a partially exploded perspective view of fig. 1.

Fig. 15 is a partially exploded perspective view of the alternative embodiment of fig. 1.

Fig. 16 is a schematic perspective view of the cartridge assembly, the first seal, the heating assembly, and the battery assembly when connected together.

Fig. 17 is a partially exploded perspective view of fig. 16.

Fig. 18 is a perspective view of the mount of fig. 17.

Fig. 19 is a perspective view of a portion of the battery assembly separated from the heating assembly.

Fig. 20 is a partial enlarged view of the circled portion C in fig. 19.

Fig. 21 is an exploded perspective view of a portion of the battery assembly of fig. 19, wherein the first conductive terminal and the second conductive terminal are both separated from the built-in circuit board.

Fig. 22 is another angled and further exploded perspective view of fig. 19.

Fig. 23 is an exploded perspective view of the alternative angle of fig. 22.

Fig. 24 is a further exploded isometric view of the cartridge assembly, the first seal, and the heating assembly of fig. 23 removed.

Fig. 25 is an exploded front view of a portion of the elements of fig. 1.

Fig. 26 is a schematic cross-sectional view taken along line A-A of fig. 2.

Fig. 27 is a partially enlarged view of the circled portion D in fig. 26.

Fig. 28 is a schematic cross-sectional view taken along line B-B of fig. 3.

Fig. 29 is a partial enlarged view of the circled portion E in fig. 28.

Detailed Description

Exemplary embodiments of the present invention will be described in detail below with reference to the accompanying drawings. If there are several specific embodiments, the features in these embodiments can be combined with each other without conflict. When the description refers to the accompanying drawings, the same numbers in different drawings denote the same or similar elements, unless otherwise specified. What is described in the following exemplary embodiments does not represent all embodiments consistent with the invention; rather, they are merely examples of apparatus, articles, and/or methods that are consistent with aspects of the invention as set forth in the claims.

The terminology used in the present invention is for the purpose of describing particular embodiments only and is not intended to limit the scope of the present invention. As used in the specification and claims of the present invention, the singular forms "a," "an," or "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that words such as "first," "second," and the like, used in the description and in the claims of the present invention, do not denote any order, quantity, or importance, but rather are names used to distinguish one feature from another. Likewise, the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. Unless otherwise indicated, the terms "front," "rear," "upper," "lower," and the like are used herein for convenience of description and are not limited to a particular location or to a spatial orientation. The word "comprising" or "comprises", and the like, is an open-ended expression, meaning that elements appearing before "comprising" or "including", encompass the elements appearing after "comprising" or "including", and equivalents thereof, and not exclude that elements appearing before "comprising" or "including", may also include other elements. In the present invention, if a plurality of the above-mentioned components are present, the meaning of the above-mentioned components is two or more.

Referring to fig. 1 to 29, the present invention discloses an atomization device 100, and the atomization device 100 can be applied to different fields, such as medical drug atomizers, electronic cigarettes, etc., according to different situations. In the illustrated embodiment of the invention, the aerosolization device 100 includes a handle assembly 10, a housing assembly 20 assembled to the handle assembly 10, and a cartridge assembly 30 removably assembled to the housing assembly 20.

Referring to fig. 5 and 10-14, in the illustrated embodiment of the invention, the cartridge assembly 30 includes a cartridge housing 31, a liquid storage cotton 32 detachably mounted in the cartridge housing 31, and an end cap 33 cooperating with the cartridge housing 31 to limit the liquid storage cotton 32.

The cartridge housing 31 includes a first body portion 311, a protruding portion 312 protruding to one side of the first body portion 311, and a mounting opening 313 opposite to the protruding portion 312. The first body portion 311 is provided with a first receiving cavity 3111 communicating with the mounting opening 313, a first arc-shaped wall 3112 located at one side (e.g., top) of the first receiving cavity 3111, and a second arc-shaped wall 3113 located at the other opposite side (e.g., bottom) of the first receiving cavity 3111. The protruding portion 312 is provided with a second accommodating chamber 3121 communicating with the first accommodating chamber 3111 and an air outlet 3120 communicating with the second accommodating chamber 3121. In the illustrated embodiment of the present invention, the protruding portion 312 is integrally extended from the bottom of the first body 311. The boss 312 is provided with a swivel hinge circular surface 3122 and an annular protrusion 3123 protruding to one side of the boss 312.

The liquid storage cotton 32 is accommodated in the first accommodating chamber 3111 and the second accommodating chamber 3121 from the mounting opening 313. The liquid storage cotton 32 is used for adsorbing substances (such as liquid substances). The liquid storage cotton 32 is exposed to the air outlet 3120. In one embodiment of the present invention, the liquid storage cotton 32 is a polymer fiber oil storage cotton with a net nest structure. The end cap 33 is sealingly secured to the cartridge housing 31 to close the mounting opening 313. In one embodiment of the present invention, the end cap 33 is a soft sealing cap. The end cap 33 is provided with a protruding positioning rib 331.

In contrast to the related art, the cartridge assembly 30 of the present invention is detachably assembled to the housing assembly 20, thereby facilitating the disassembly, cleaning and replacement of the cartridge assembly 30. In addition, by providing the end cap 33 detachably assembled on the liquid storage bin housing 31, the liquid storage cotton 32 in the liquid storage bin assembly 30 can be easily detached, cleaned and replaced. By the design of the invention, the liquid storage bin assembly 30 can be repeatedly disassembled for cleaning and filled with different medicaments or other solutions, so that the maintenance convenience of the liquid storage bin assembly 30 is greatly improved.

As shown in fig. 5 to 7, 16, 17 and 19, the housing assembly 20 includes a first substantially circular housing portion 21 and a heating assembly 22 at least partially mounted in the first housing portion 21. The first housing part 21 includes a body part 211, a mounting chamber 210 penetrating the body part 211 toward one end (e.g., upward or obliquely upward), and an atomizing nozzle 212 located at one side of the mounting chamber 210 and protruding from the body part 211. The body portion 211 includes a circular opening 2110 at a central portion thereof, a first mounting wall 2111 at a bottom of the atomizing nozzle 212, a second mounting wall 2112 at an outer portion of the circular opening 2110 and extending in a radial direction, a third mounting wall 2113 at an outer portion of the circular opening 2110 and extending in a radial direction, and a boss 2114 protruding from the third mounting wall 2113. The body 211 further includes a positioning groove 2119 disposed at the top of the second mounting wall 2112, and the positioning groove 2119 is configured to receive the positioning protrusion 331.

Referring to fig. 14, 26 and 27, the housing assembly 20 includes a first sealing member 23 disposed in the mounting cavity 210, and the first sealing member 23 is mounted on the body 211. In the illustrated embodiment of the invention, the body portion 211 is provided with an annular groove 2115 communicating with the mounting chamber 210, and the first seal 23 is mounted in the annular groove 2115. In the illustrated embodiment of the invention, the first sealing member 23 is in a frame shape, and the liquid storage bin assembly 30 partially penetrates through the first sealing member 23 to realize sealing mounting on the housing assembly 20.

As shown in fig. 26 and 27, the third mounting wall 2113 is provided with a first mounting through hole 2113a, the boss 2114 is provided with a second mounting through hole 2114a communicating with the first mounting through hole 2113a, the first mounting through hole 2113a penetrates the third mounting wall 2113 to one side, and the second mounting through hole 2114a penetrates the boss 2114 to the other side.

As shown in fig. 5 to 7, the body 211 further includes a first sidewall 213, a second sidewall 214 opposite to the first sidewall 213, and a slot 215 between the first sidewall 213 and the second sidewall 214. The first side wall 213 is provided with an arc-shaped first shrink wall 2131, and the first shrink wall 2131 is provided with a plurality of first mounting holes 2130 distributed at intervals along the circumferential direction. The second side wall 214 is provided with an arc-shaped second shrinking wall 2141, and the second shrinking wall 2141 is provided with a plurality of second mounting holes 2140 distributed at intervals along the circumferential direction. In other words, the first tapered wall 2131 has a smaller thickness than the first sidewall 213, and the second tapered wall 2141 has a smaller thickness than the second sidewall 214. Preferably, in the illustrated embodiment of the present invention, the plurality of first mounting holes 2130 are uniformly distributed along the circumferential direction, and each first mounting hole 2130 is equally spaced from the center of the circular opening 2110 in the radial direction. Similarly, the plurality of second mounting holes 2140 are uniformly distributed along the circumferential direction, and each second mounting hole 2140 is equally spaced from the center of the circular opening 2110 in the radial direction. In the illustrated embodiment of the invention, each first mounting hole 2130 is radially equidistant from the center of the circular opening 2110 as are each second mounting hole 2140.

Referring to fig. 17, 19, 20, 26 and 27, the heating assembly 22 includes a heating element 221, a second sealing member 222 surrounding the heating element 221, a third sealing member 223 connected to the second sealing member 222, a fourth sealing member 224 connected to the third sealing member 223, a wire 225 connected to the heating element 221, and a conductive sheet 226 connected to the wire 225. In the illustrated embodiment of the present invention, the generic concepts of the first seal 23, the second seal 222, the third seal 223, and the fourth seal 224 are sealing elements.

In the illustrated embodiment of the present invention, the heating element 221 is a piezoceramic electronic atomization device, the heating element 221 is sleeved on the annular raised strip 3123 of the liquid storage bin assembly 30, and the heating element 221 is used to heat the liquid storage cotton 32 after being electrified, so as to atomize the adsorbed substance in the liquid storage cotton 32 into a gaseous state, and the gaseous substance flows out from the atomizing nozzle 212.

Referring to fig. 26 and 27, in the illustrated embodiment of the invention, the second sealing member 222 is a multi-layer sealing soft rubber, and the second sealing member 222 is at least partially clamped between the first mounting wall 2111 and the boss 312 to achieve sealing.

The third sealing member 223 is a multi-layer ring-shaped sealing soft rubber, and the third sealing member 223 is inserted into the first mounting through hole 2113a of the second mounting wall 2112 and/or the second mounting through hole 2114a of the boss 2114 to realize sealing.

The fourth sealing member 224 is a multi-layer sealing soft rubber with annular structure, and the fourth sealing member 224 is at least partially inserted into the second mounting through hole 2114a of the boss 2114 to realize sealing.

The first, second, third and fourth seals 23, 222, 223, 224 provided in the present invention can provide a high degree of sealing against leakage, as compared to the related art.

Referring to fig. 19 and 20, in the illustrated embodiment of the present invention, the wire 225 passes through the third sealing member 223 and the fourth sealing member 224 to extend to the outside of the fourth sealing member 224. In the illustrated embodiment of the invention, the wires 225 include a first wire 225a and a second wire 225b.

The conductive sheet 226 includes a first conductive sheet 226a and a second conductive sheet 226b. The first conductive sheet 226a includes a first contact portion 226a1, a first bent portion 226a2 bent outward from the top of the first contact portion 226a1, a first fastening portion 226a3 bent from the first bent portion 226a2, a first fixing portion 226a4 extending from the first contact portion 226a1, a first adjustment portion 226a5 bent from the first fixing portion 226a4 toward the second conductive sheet 226b, and a first connection portion 226a6 extending from the first adjustment portion 226a 5. In the illustrated embodiment of the present invention, the first contact portion 226a1, the first bent portion 226a2, and the first fastening portion 226a3 together form a U-shape, and the first contact portion 226a1 is located inside the first fastening portion 226a3 and is parallel to the first fastening portion 226a 3. The first fastening portion 226a3 is configured to be fastened to the handle assembly 10. The first contact portion 226a1 has a flat plate shape. The first connection portion 226a6 is provided with a first fixing hole 226a7 for receiving the first wire 225 a. The first connection portion 226a6 is fixedly connected to the first wire 225a by crimping (e.g., riveting). So arranged, the first wire 225a is not connected to the first connection portion 226a6 by a complicated manner such as soldering, thereby saving costs. In the illustrated embodiment of the present invention, the extending direction of the first fixing hole 226a7 is perpendicular to the wall surface of the first adjusting portion 226a 5. The first adjustment portion 226a5 can perform a limiting function when the first wire 225a is inserted into the first fixing hole 226a7.

Similarly, the second conductive sheet 226b includes a second contact portion 226b1, a second bent portion 226b2 bent outward from the top of the second contact portion 226b1, a second holding portion 226b3 bent from the second bent portion 226b2, a second fixing portion 226b4 extending from the second contact portion 226b1, a second adjustment portion 226b5 bent from the second fixing portion 226b4 toward the first conductive sheet 226a, and a second connection portion 226b6 extending from the second adjustment portion 226b 5. In the illustrated embodiment of the present invention, the second contact portion 226b1, the second bent portion 226b2, and the second fastening portion 226b3 together form a U-shape, and the second contact portion 226b1 is located inside the second fastening portion 226b3 and is parallel to the second fastening portion 226b 3. The second fastening portion 226b3 is configured to be fixed to the handle assembly 10. The second contact portion 226b1 has a flat plate shape. The second connection portion 226b6 is provided with a second fixing hole 226b7 for receiving the second wire 225 b. The second connection portion 226b6 is fixedly connected to the second conductive wire 225b by crimping (e.g., riveting). So arranged, the second conductive wire 225b is not connected to the second connection portion 226b6 by a complicated manner such as soldering, thereby saving costs. In the illustrated embodiment of the present invention, the extending direction of the second fixing hole 226b7 is perpendicular to the wall surface of the second adjusting portion 226b 5. The second adjusting portion 226b5 can perform a limiting function when the second wire 225b is inserted into the second fixing hole 226b7.

In the illustrated embodiment of the invention, the first conductive sheet 226a and the second conductive sheet 226b are symmetrically disposed. The distance between the first contact portion 226a1 and the second contact portion 226b1 is greater than the distance between the first connection portion 226a6 and the second connection portion 226b 6. So configured, on the one hand, it is advantageous to maintain the distance between the first contact portion 226a1 and the second contact portion 226b1, thereby facilitating contact with the abutted conductive terminal; on the other hand, the first connection portion 226a6 and the second connection portion 226b6, which are close to each other, are advantageous to be connected to the first conductive line 225a and the second conductive line 225b, respectively.

Referring to fig. 15, the handle assembly 10 includes a battery assembly 40 and a housing assembly 50 to which the battery assembly 40 is coupled. In the illustrated embodiment of the invention, the battery assembly 40 is at least partially inserted into the housing assembly 50.

The housing assembly 50 includes a handle portion 51, a second housing portion 52 coupled to the handle portion 51, and a tail cap 53 mated to the handle portion 51. The tail cap 53 is provided with a number of jaws 531.

As shown in fig. 5, 8, 9 and 15, in the illustrated embodiment of the present invention, the handle portion 51 is substantially cylindrical and includes an inner space 511, a mounting hole 512 communicating with the inner space 511, a button mounting hole 513 communicating with the inner space 511, and a slot 514 communicating with the inner space 511. In the illustrated embodiment of the invention, the mounting opening 512 is located at the bottom of the handle portion 51, the button mounting hole 513 is located at the upper end and the front of the handle portion 51, and the slot 514 is located at the back of the handle portion 51. After the battery assembly 40 is received in the inner space 511 from the mounting hole 512, the tail cap 53 is mounted and fixed on the handle portion 51, wherein the claw 531 of the tail cap 53 is clamped on the inner wall of the handle portion 51. In the illustrated embodiment of the present invention, the handle portion 51 is provided with a protrusion 515, and the button mounting hole 513 penetrates the protrusion 515.

The second housing 52 is substantially C-shaped and includes a third side wall 521, a fourth side wall 522 opposite to the third side wall 521, a connecting wall 523 connecting the third side wall 521 and the fourth side wall 522, an arc-shaped groove 520 surrounded by the third side wall 521, the fourth side wall 522 and the connecting wall 523, and an extension protrusion 524 protruding from the connecting wall 523 into the arc-shaped groove 520. The arc-shaped groove 520 communicates with the inner space 511. As shown in fig. 9 and 29, the extending protrusion 524 includes a first wall portion 5241, a second wall portion 5242 opposite to the first wall portion 5241, and a receiving groove 5240 between the first wall portion 5241 and the second wall portion 5242. The first wall portion 5241 is provided with a first holding groove 5243 for fixing the first fixing portion 226a 4. The second wall portion 5242 is provided with a second holding groove 5244 for fixing the second fixing portion 226b 4. The first contact portion 226a1 and the second contact portion 226b1 are located at both sides of the receiving groove 5240 and are exposed in the receiving groove 5240.

In the illustrated embodiment of the present invention, the inner wall of the third side wall 521 is provided with a plurality of first mounting protrusions 5211 protruding into the arc-shaped groove 520, and the plurality of first mounting protrusions 5211 are circumferentially spaced apart. Preferably, in the illustrated embodiment of the present invention, the plurality of first mounting protrusions 5211 are uniformly distributed along the circumferential direction.

Similarly, the inner wall of the fourth sidewall 522 is provided with a plurality of second mounting protrusions 5221 protruding into the arc-shaped groove 520, and the plurality of second mounting protrusions 5221 are circumferentially spaced apart. Preferably, in the illustrated embodiment of the present invention, the plurality of second mounting protrusions 5221 are uniformly distributed along the circumferential direction.

After assembly, the first housing portion 21 and the second housing portion 52 are fastened and fixed together, the third side wall 521 covers the first retracted wall 2131, and the first mounting protrusions 5211 are fastened in the corresponding first mounting holes 2130; the fourth side wall 522 covers the second retracted wall 2141, and the second mounting protrusions 5221 are locked in the corresponding second mounting holes 2140.

The first mounting protrusions 5211, the first mounting holes 2130, the second mounting protrusions 5221 and the second mounting holes 2140 in the present invention all adopt radial equidistant circumferential array layout. The force of the fixing structure is uniformly directed to the center (i.e. the center of the circular opening 2110), and the fixing structure with ordered number arrangement can uniformly distribute the external force, reduce the risk of cracking and even falling of the container assembly 20 caused by the damage of the external force, and play a role of high anti-falling.

Referring to fig. 15 to 18, the battery assembly 40 includes a mounting base 41, a built-in circuit board 42 mounted on the mounting base 41, a battery 43 mounted on the mounting base 41 and electrically connected to the built-in circuit board 42, a conductive terminal 44 electrically connected to the built-in circuit board 42, and a vibration-proof pad 45 mounted on the bottom of the mounting base 41.

In the illustrated embodiment of the present invention, the mounting seat 41 includes a first base 411, a second base 412, a first baffle 413, a second baffle 414, and a docking boss 415 integrally extending from the first base 411 to a position away from the second base 412. The abutment boss 415 includes a first outer side 4151, a second outer side 4152 opposite the first outer side 4151, a first open slot 4153 extending through a middle portion of the first outer side 4151, a second open slot 4154 extending through a middle portion of the second outer side 4152, a first fixing slot 4155 extending through the abutment boss 415 and in communication with the first open slot 4153, and a second fixing slot 4156 extending through the abutment boss 415 and in communication with the second open slot 4154. The extending direction of the first fixing slot 4155 is perpendicular to the first open groove 4153. The second fixing slot 4156 extends in a direction perpendicular to the second open groove 4154.

The first base 411 includes a first mounting groove 4110, a plurality of latch arms 4111 protruding from the first mounting groove 4110, a limit post 4112 located at two sides of the first mounting groove 4110, and a support post 4113 for supporting the built-in circuit board 42. The mounting block 41 further includes a third baffle 416 coupled to the abutment boss 415. The first mounting groove 4110 is located between the first baffle 413 and the third baffle 416.

The second base 412 includes a second mounting groove 4120, a plurality of first clasps 4121 located on one side of the second mounting groove 4120, and a plurality of second clasps 4122 located on the other side of the second mounting groove 4120. In the illustrated embodiment of the invention, the first holding claw 4121 and the second holding claw 4122 are both arc-shaped. The second mounting groove 4120 is located between the first baffle 413 and the second baffle 414. The second baffle 414 also has a fixing groove 4140 on its inner wall surface, which communicates with the second mounting groove 4120. The second mounting groove 4120 is configured to receive the battery 43. The first holding claw 4121 and the second holding claw 4122 are used for abutting against the battery 43 to prevent the battery 43 from falling off.

Referring to fig. 17, 19 and 21-24, the built-in circuit board 42 includes a plurality of latching holes 421 matching with the latching arms 4111 and a limiting groove 422 matching with the limiting post 4112. The built-in circuit board 42 further includes an electrical connector 423 (e.g., type C receptacle connector) provided on the built-in circuit board 42, a push button switch 424 provided on the built-in circuit board 42, and a conductive metal sheet (not shown) provided at one end of the built-in circuit board 42. The electrical connector 423 corresponds to the slot 514 of the handle portion 51, i.e. the electrical connector 423 is exposed from the slot 514 of the handle portion 51. The button switch 424 corresponds to the button mounting hole 513. In the illustrated embodiment of the invention, the push button switch 424 and the electrical connector 423 are located on opposite sides of the built-in circuit board 42, respectively.

As shown in fig. 23 and 24, the battery assembly 40 further includes a first connection terminal 46 electrically connected to the built-in circuit board 42, a second connection terminal 47 electrically connected to the built-in circuit board 42, and a spring 48 connected to the second connection terminal 47. In the illustrated embodiment of the invention, the first connection terminal 46 is a positive terminal and the second connection terminal 47 is a negative terminal.

In the illustrated embodiment of the present invention, the first connection terminal 46 includes a first metal plate 461, a first mounting portion 462, and a first bridge portion 463 connecting the first metal plate 461 and the first mounting portion 462. In the illustrated embodiment of the invention, the first connection terminal 46 has a substantially U-shape, wherein the first mounting portion 462 is located at one end of the first connection terminal 46, and the first metal piece 461 is located at the other end of the first connection terminal 46. The first metal sheet 461 is parallel to the first mounting portion 462, and the first bridge portion 463 is perpendicular to the first metal sheet 461 and the first mounting portion 462. The first mounting portion 462 is electrically connected to the built-in circuit board 42. In the illustrated embodiment of the present invention, the built-in circuit board 42 includes a first conductive hole 425, and the first mounting part 462 is inserted into the first conductive hole 425 to be electrically connected with the built-in circuit board 42.

The second connection terminal 47 includes a second metal piece 471, a second mounting portion 472, and a second bridging portion 473 connecting the second metal piece 471 and the second mounting portion 472. In the illustrated embodiment of the invention, the second connection terminal 47 is substantially U-shaped, wherein the second mounting portion 472 is located at one end of the second connection terminal 47, and the second metal sheet 471 is located at the other end of the second connection terminal 47. The second metal sheet 471 is parallel to the second mounting portion 472, and the second bridging portion 473 is perpendicular to the second metal sheet 471 and the second mounting portion 472. The spring 48 is in contact with the second metal sheet 471. Preferably, the spring 48 is fixed to the second metal plate 471. The second mounting portion 472 is electrically connected to the built-in circuit board 42. In the illustrated embodiment of the present invention, the built-in circuit board 42 includes a second conductive via 426, and the second mounting part 472 is inserted into the second conductive via 426 to be electrically connected with the built-in circuit board 42.

In the illustrated embodiment of the invention, the battery 43 is a cylindrical battery that includes a positive electrode 431 and a negative electrode 432. The positive electrode 431 of the battery 43 is in contact with the first metal plate 461, and the negative electrode 432 of the battery 43 is in contact with the second metal plate 471. So configured, the battery 43 is capable of powering the electronic components on the built-in circuit board 42. In the illustrated embodiment of the invention, the first metal sheet 461 is abutted against the first baffle 413 and exposed in the second mounting groove 4120. The second metal plate 471 is fixed in the fixing groove 4140 of the second baffle 414, and the spring 48 protrudes into the second mounting groove 4120.

In the illustrated embodiment of the present invention, the electrical connector 423 is connected to the battery 43 through the built-in circuit board 42, the first connection terminal 46, and the second connection terminal 47. So configured, the battery 43 may be charged by inserting a mating plug connector into the electrical connector 423 and upon energizing. In addition, the connection mode between the battery 43 and the present invention is advantageous in that the first connection terminal 46 and the second connection terminal 47 are improved to be stably connected to the positive electrode 431 and the negative electrode 432 of the battery 43, so that the electrical performance is continuously stable.

Referring to fig. 19 to 21 and 29, in the illustrated embodiment of the invention, the conductive terminals 44 include a first conductive terminal 44a and a second conductive terminal 44b. The first conductive terminal 44a and the second conductive terminal 44b are respectively in contact with the conductive metal sheet (not shown) on the built-in circuit board 42.

The first conductive terminal 44a includes a first base 44a1, a first claw 44a2 integrally extending from one end of the first base 44a1, and a first elastic arm 44a3 rotatably bent from the other end of the first base 44a 1. The first claw 44a2 is provided with a first holding groove 44a4 and a plurality of first abutment teeth 44a5 exposed in the first holding groove 44a 4. The first retaining groove 44a4 is configured to partially receive the built-in circuit board 42. The first abutment teeth 44a5 are used for clamping the built-in circuit board 42 and are in contact with corresponding conductive metal sheets on the built-in circuit board 42. With this arrangement, the first conductive terminal 44a of the present invention is not required to be electrically connected to the built-in circuit board 42 by a complicated soldering process, and the first conductive terminal 44a is easily removed. The first elastic arm 44a3 is provided with a first abutting portion 44a6. In the illustrated embodiment of the invention, the first abutment portion 44a6 is provided with a first contact rib.

The second conductive terminal 44b includes a second base 44b1, a second claw 44b2 integrally extending from one end of the second base 44b1, and a second elastic arm 44b3 pivotally bent from the other end of the second base 44b 1. The second claw 44b2 is provided with a second holding groove 44b4 and a plurality of second abutment teeth 44b5 exposed in the second holding groove 44b 4. The second clamping groove 44b4 is configured to partially receive the built-in circuit board 42. The second abutment teeth 44b5 are used for clamping the built-in circuit board 42 and are in contact with corresponding conductive metal sheets on the built-in circuit board 42. So configured, the second conductive terminal 44b of the present invention does not need to be electrically connected to the built-in circuit board 42 by a complicated soldering process, and facilitates the disassembly of the second conductive terminal 44 b. The second elastic arm 44b3 is provided with a second abutting portion 44b6. In the illustrated embodiment of the invention, the second abutment portion 44b6 is provided with a second contact rib.

The first base 44a1 is fixed in the first fixing slot 4155, and the first claw 44a2 passes through the first fixing slot 4155 and extends to protrude the abutment boss 415 and the third barrier 416. The first elastic arm 44a3 is partially received in the first open slot 4153. The first contact portion 44a6 protrudes outward from the abutment boss 415 to elastically contact the first contact portion 226a1 of the first conductive piece 226 a.

The second base 44b1 is fixed in the second fixing slot 4156, and the second claw 44b2 passes through the second fixing slot 4156 and extends to protrude the abutment boss 415 and the third barrier 416. The second elastic arm 44b3 is partially received in the second open slot 4154. The second contact portion 44b6 protrudes outward from the abutment boss 415 to elastically contact the second contact portion 226b1 of the second conductive piece 226 b.

Referring to fig. 14, 15 and 26, the handle assembly 10 further includes a button 60 mounted in the button mounting hole 513 and cooperating with the button switch 424. In the illustrated embodiment of the invention, the button 60 is made of a soft gel material so that the button 60 can be deformed when assembled into the button mounting hole 513. In the illustrated embodiment of the present invention, the button 60 includes a pressing body 61 and an enlarged portion 62 connected to the pressing body 61. The pressing body 61 further has a receiving hole 611 for receiving the push switch 424. When the button 60 is press-deformed and fitted into the button fitting hole 513, the button 60 releases the elastic force, so that the enlarged portion 62 can abut against the inner side of the handle portion 51, and the button 60 is prevented from coming off the handle portion 51. In an alternative embodiment of the present invention, the button 60 is sealingly mounted in the button mounting hole 513 of the handle portion 51 to provide better waterproof and dustproof protection for the built-in circuit board 42.

When assembling the atomizing device 100, the battery assembly 40 may be assembled first. At this time, the built-in circuit board 42 is mounted to the first mounting groove 4110 of the first base 411. Two ends (e.g., upper and lower ends) of the built-in circuit board 42 are respectively restrained between the first barrier 413 and the third barrier 416. The built-in circuit board 42 is supported on the support column 4113. The locking holes 421 of the built-in circuit board 42 are sleeved on the corresponding locking arms 4111, and the locking arms 4111 penetrating through the built-in circuit board 42 hold the built-in circuit board 42 by the hooks at the tail ends of the locking arms 4111. Meanwhile, the limit groove 422 of the built-in circuit board 42 is matched with the corresponding limit post 4112. Then, the first connection terminal 46 and the second connection terminal 47 are electrically connected to the built-in circuit board 42. The first metal piece 461 of the first connection terminal 46 is located at the top of the second mounting groove 4120, and the second metal piece 471 of the second connection terminal 47 and the spring 48 are located at the bottom of the second mounting groove 4120. Then, the battery 43 is fitted into the second mounting groove 4120. The positive electrode 431 of the battery 43 is in contact with the first metal plate 461, and the negative electrode 432 of the battery 43 is in contact with the second metal plate 471 by the spring 48. The first holding claw 4121 and the second holding claw 4122 abut against the battery 43 to prevent the battery 43 from falling. The first holding claw 4121 and the second holding claw 4122 are self-adaptive elastic holding structures, so that the loose assembly of the battery 43 caused by manufacturing errors or the expansion caused by use is compensated. The first conductive terminal 44a and the second conductive terminal 44b are then inserted along the longitudinal direction of the mount 41 and penetrate the abutment boss 415. The first base 44a1 is fixed in the first fixing slot 4155; the second base 44b1 is fixed in the second fixing slot 4156. The first jaw 44a2 passes through the first fixing slot 4155 and extends to protrude the abutment boss 415 and the third baffle 416; the second jaw 44b2 passes through the second fixing slot 4156 and extends to protrude the abutment boss 415 and the third barrier 416. The first claw 44a2 and the second claw 44b2 are respectively contacted with corresponding conductive metal sheets on the built-in circuit board 42, so as to realize the electrical connection between the first conductive terminal 44a and the second conductive terminal 44b and the built-in circuit board 42. The first elastic arm 44a3 is partially received in the first open slot 4153; the second elastic arm 44b3 is partially received in the second open slot 4154. The first contact portion 44a6 protrudes outward from the abutment boss 415 to elastically contact the first contact portion 226a1 of the first conductive piece 226 a; the second contact portion 44b6 protrudes outward from the abutment boss 415 to elastically contact the second contact portion 226b1 of the second conductive piece 226 b. In addition, by assembling the first conductive terminal 44a and the second conductive terminal 44b to the abutting boss 415, the first claw 44a2 and the second claw 44b2 can hold and fix the built-in circuit board 42. The vibration-proof pad 45 is mounted on the bottom of the second baffle 414.

The first conductive sheet 226a and the second conductive sheet 226b are respectively press-fitted and fixed to the first conductive wire 225a and the second conductive wire 225 b. Then, the first conductive piece 226a and the second conductive piece 226b are assembled to the extension boss 524 of the second housing 52.

Then, the battery module 40 is assembled into the inner space 511 of the handle portion 51 from the mounting hole 512 along the extending direction of the handle portion 51. The abutment boss 415 is inserted into the receiving groove 5240 of the extension boss 524 together with the first and second elastic arms 44a3 and 44b 3. The first elastic arm 44a3 and the second elastic arm 44b3 elastically abut against the first contact portion 226a1 of the first conductive piece 226a and the second contact portion 226b1 of the second conductive piece 226b, respectively.

Then, the tail cap 53 is mounted and fixed to the bottom end of the handle portion 51. The shock pad 45 has an internal action with the tail cover and the handle portion 51, so that the atomization device 100 is not easy to loosen and abnormal sound is not generated when in use.

Then, the housing assembly 20 is assembled to the handle assembly 10, and the first and second mounting protrusions 5211 and 5221 of the housing assembly 50 are respectively locked in the first and second mounting holes 2130 and 2140 of the housing assembly 20. After assembly, the first tapered wall 2131 and the second tapered wall 2141 of the first housing portion 21 are received in the arcuate recess 520 of the second housing portion 52; the first shrink wall 2131 of the first housing part 21 is engaged with the inner side of the third side wall 521 of the second housing part 52; the second shrinking wall 2141 of the first housing part 21 is clamped to the inner side of the fourth side wall 522 of the second housing part 52. The third side wall 521 is flush with and smoothly transitions from the outer surface of the first side wall 213 and the fourth side wall 522 is flush with and smoothly transitions from the outer surface of the second side wall 214.

Finally, the cartridge assembly 30 is rotatably mounted in the mounting cavity 210 of the housing assembly 20. Specifically, the protruding portion 312 of the cartridge housing 31 is first inserted into the mounting cavity 210 in an inclined manner, and then is rotated downward with the rotation hinge round surface 3122 of the protruding portion 312 as a fulcrum, so that the cartridge assembly 30 is finally mounted in the mounting cavity 210 of the housing assembly 20.

Those skilled in the art can appreciate that the above assembly steps can be flexibly adjusted to achieve automated assembly, improve production efficiency, and reduce cost.

As shown in fig. 3, when the atomizing device 100 is assembled, the outer surfaces of the first housing portion 21, the second housing portion 52 and the reservoir housing 31 are smooth and excessive, so that the atomizing device 100 is substantially circular in shape to improve the aesthetic feeling.

The above embodiments are only for illustrating the present invention and not for limiting the technical solutions described in the present invention, and it should be understood that the present invention should be based on those skilled in the art, and although the present invention has been described in detail with reference to the above embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the present invention without departing from the spirit and scope of the present invention and modifications thereof should be covered by the scope of the claims of the present invention.

Claims (14)

1. An atomizing device (100), characterized by comprising:

a housing assembly (20), the housing assembly (20) comprising a first housing portion (21), the first housing portion (21) comprising a body portion (211), the body portion (211) comprising a first sidewall (213), a second sidewall (214) opposite the first sidewall (213), and a slot (215) between the first sidewall (213) and the second sidewall (214); the first side wall (213) is provided with an arc-shaped first inward shrinking wall (2131), and the first inward shrinking wall (2131) is provided with a plurality of first mounting holes (2130) distributed at intervals along the circumferential direction; the second side wall (214) is provided with an arc-shaped second inward shrinking wall (2141), and the second inward shrinking wall (2141) is provided with a plurality of second mounting holes (2140) distributed at intervals along the circumferential direction; and

a handle assembly (10), the handle assembly (10) comprising a housing assembly (50), the housing assembly (50) comprising a handle portion (51) and a second housing portion (52) connected to the handle portion (51), the second housing portion (52) comprising a third side wall (521), a fourth side wall (522) opposite the third side wall (521), a connecting wall (523) connecting the third side wall (521) and the fourth side wall (522), and an arcuate recess (520) collectively defined by the third side wall (521), the fourth side wall (522), and the connecting wall (523); the inner wall of the third side wall (521) is provided with a plurality of first mounting protrusions (5211) protruding inwards of the arc-shaped groove (520), and the plurality of first mounting protrusions (5211) are distributed at intervals along the circumferential direction; the inner wall of the fourth side wall (522) is provided with a plurality of second installation protrusions (5221) protruding inwards of the arc-shaped groove (520), and the second installation protrusions (5221) are distributed at intervals along the circumferential direction;

The first shrink wall (2131) and the second shrink wall (2141) are received in the arc-shaped groove (520), the first mounting protrusions (5211) are locked in the corresponding first mounting holes (2130), and the second mounting protrusions (5221) are locked in the corresponding second mounting holes (2140).

2. The atomizing device (100) according to claim 1, wherein: the first mounting projections (5211) are uniformly distributed along the circumferential direction; the plurality of second mounting projections (5221) are uniformly distributed along the circumferential direction.

3. The atomizing device (100) according to claim 1, wherein: the body portion (211) comprises a circular opening (2110) located in the middle of the body portion (211), and the plurality of first mounting protrusions (5211), the plurality of first mounting holes (2130), the plurality of second mounting protrusions (5221) and the plurality of second mounting holes (2140) are all distributed in a radial equidistant surrounding array with the same diameter.

4. The atomizing device (100) according to claim 1, wherein: the first housing part (21) comprises a mounting cavity (210) and an atomizing nozzle (212) positioned at one side of the mounting cavity (210);

-the containment assembly (20) comprises a heating assembly (22) at least partially located in the first housing part (21);

The atomizing device (100) further comprises a liquid storage bin assembly (30) detachably assembled in the mounting cavity (210), wherein the liquid storage bin assembly (30) comprises a liquid storage bin shell (31), liquid storage cotton (32) detachably mounted in the liquid storage bin shell (31), and an end cover (33) matched with the liquid storage bin shell (31) to limit the liquid storage cotton (32); the heating assembly (22) is configured to heat the cartridge assembly (30) to atomize the material adsorbed in the liquid cotton (32) into a gaseous state and out of the atomizing nozzle (212).

5. The atomizing device (100) according to claim 4, wherein: the first shell part (21) comprises an annular groove (2115) communicated with the mounting cavity (210), the containing shell assembly (20) comprises a first sealing piece (23) mounted in the annular groove (2115), and the liquid storage bin assembly (30) partially penetrates through the first sealing piece (23) so that the first sealing piece (23) is sleeved on the liquid storage bin assembly (30).

6. The atomizing device (100) according to claim 5, wherein: the heating assembly (22) comprises a heating element (221) and a second sealing piece (222) surrounding the heating element (221), wherein the second sealing piece (222) is a sealing soft rubber;

The first housing part (21) comprises an atomizing nozzle (212) and a first mounting wall (2111) at the bottom of the atomizing nozzle (212), the second seal (222) being at least partially clamped between the first mounting wall (2111) and the boss (312).

7. The atomizing device (100) according to claim 6, wherein: the first housing part (21) includes a second mounting wall (2112) and a third mounting wall (2113), a part of the annular groove (2115) is formed on the second mounting wall (2112), the third mounting wall (2113) is provided with a first mounting through hole (2113 a), and the second seal (222) is partially inserted into the first mounting through hole (2113 a).

8. The atomizing device (100) according to claim 7, wherein: the first housing part (21) is provided with a protruding column (2114) protruding from the third installation wall (2113), the protruding column (2114) is provided with a second installation through hole (2114 a) communicated with the first installation through hole (2113 a), the first installation through hole (2113 a) penetrates the third installation wall (2113) to one side, and the second installation through hole (2114 a) penetrates the protruding column (2114) to the other side;

the heating assembly (22) comprises a third sealing member (223) connected with the second sealing member (222), the third sealing member (223) is sealed soft glue, and the third sealing member (223) is inserted into the first mounting through hole (2113 a) and/or the second mounting through hole (2114 a).

9. The atomizing device (100) according to claim 8, wherein: the heating assembly (22) comprises a fourth sealing element (225) connected with the third sealing element (223), the fourth sealing element (225) is sealing soft glue, and the fourth sealing element (225) is inserted into the second mounting through hole (2114 a).

10. The atomizing device (100) according to claim 6, wherein: the heating element (221) is a piezoelectric ceramic electronic atomization working component.

11. The atomizing device (100) according to claim 1, wherein: the containment assembly (20) comprises a heating assembly (22) at least partially located in the first housing portion (21), the heating assembly (22) comprising a heating element (221), a first wire (225 a) and a second wire (225 b) connected to the heating element (221), and a first conductive sheet (226 a) and a second conductive sheet (226 b) connected to the first wire (225 a) and the second wire (225 b), respectively;

-the second housing part (52) comprises an extension protrusion (524) protruding into the arc-shaped recess (520), the first conductive tab (226 a) and the second conductive tab (226 b) being fixed to the extension protrusion (524);

the handle assembly (10) further comprises a battery assembly (40), the battery assembly (40) is assembled on the shell assembly (50), the battery assembly (40) comprises a mounting seat (41), a built-in circuit board (42) mounted on the mounting seat (41), a battery (43) mounted on the mounting seat (41) and electrically connected with the built-in circuit board (42), and a first conductive terminal (44 a) and a second conductive terminal (44 b) electrically connected with the built-in circuit board (42);

Wherein the first conductive terminal (44 a) is in contact with the first conductive sheet (226 a), and the second conductive terminal (44 b) is in contact with the second conductive sheet (226 b).

12. The atomizing device (100) according to claim 11, wherein: the handle portion (51) includes an inner space (511) and a mounting opening (512) in communication with the inner space (511), the arcuate recess (520) being in communication with the inner space (511); the battery assembly (40) is assembled in the interior space (511) from the mounting aperture (512).

13. The atomizing device (100) according to claim 11, wherein: the first conductive sheet (226 a) includes a first contact portion (226 a 1), and the first conductive terminal (44 a) includes a first elastic arm (44 a 3) abutted against the first contact portion (226 a 1);

the second conductive sheet (226 b) includes a second contact portion (226 b 1), and the second conductive terminal (44 b) includes a second elastic arm (44 b 3) that abuts against the second contact portion (226 b 1).

14. The atomizing device (100) according to claim 13, wherein: the extension protrusion (524) comprises a first wall portion (5241), a second wall portion (5242) opposite to the first wall portion (5241), and a receiving groove (5240) between the first wall portion (5241) and the second wall portion (5242); the first contact part (226 a 1) and the second contact part (226 b 1) are respectively positioned at two sides of the accommodating groove (5240) and are exposed in the accommodating groove (5240);

The mounting seat (41) comprises a butt joint boss (415), the butt joint boss (415) comprises a first outer side surface (4151) and a second outer side surface (4152) opposite to the first outer side surface (4151), the first elastic arm (44 a 3) protrudes from the first outer side surface (4151), and the second elastic arm (44 b 3) protrudes from the second outer side surface (4152);

the butt joint boss (415) is inserted into the accommodating groove (5240).

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