CN109246973B - Atomizing element mounting structure of humidifier and humidifier - Google Patents

Abstract

The invention provides an atomization element mounting structure of a humidifier and the humidifier, which are used for fixedly mounting an atomization element between a heat dissipation structure of the humidifier and a pressing piece, wherein the mounting structure comprises a first positioning structure and/or a first foolproof structure which are arranged on the heat dissipation structure, and a second positioning structure and/or a second foolproof structure which are correspondingly arranged on the pressing piece, wherein the first positioning structure and the second positioning structure are matched to realize the positioning between the heat dissipation structure and the pressing piece, and the first foolproof structure and the second foolproof structure are matched to realize foolproof mounting between the heat dissipation structure and the pressing piece. The humidifier in this application is through above-mentioned mounting structure with atomizing element fixed mounting between heat radiation structure and casting die, has solved that current mounting structure exists in the installation inefficiency, installation accuracy is poor, the unable problem of guaranteeing of sealed effect, has promoted assembly efficiency, assembly reliability and sealed effect.

Description

Atomizing element mounting structure of humidifier and humidifier

Technical Field

The invention relates to the technical field of installation, in particular to an atomization element installation structure of a humidifier and the humidifier.

Background

The atomizing element is one of key parts of the humidifier, and the assembly reliability and convenience in the installation process are particularly important, so that the installation of the atomizing circuit board directly influences the overall humidifying effect of the humidifier.

As shown in fig. 1, when the atomizing element 1 'is mounted, the conventional humidifier sandwiches the atomizing element 1' by a heat radiation structure 2 'and a pressing member 3'. Because the existing mounting structure does not have a positioning structure in the process of mounting the heat dissipation structure 2 'and the pressing piece 3', the heat dissipation structure and the pressing piece are only fastened and connected by using fasteners such as screws, and therefore the accuracy of the mounting position of the existing mounting structure cannot be effectively guaranteed, and the mounting reliability and the waterproof sealing effect cannot be effectively guaranteed.

In addition, in the assembly process, operators are required to carry out visual alignment and installation, so that the installation efficiency is low, and the defective rate is high. If the heat dissipation structure 2 'and the pressing piece 3' are placed in different positions during installation, the sealing is invalid, and water leakage and the like are caused.

Disclosure of Invention

Accordingly, an object of the present invention is to provide an atomization element mounting structure of a humidifier and a humidifier, which solve the problems of low mounting efficiency and poor mounting reliability caused by the need of performing visual alignment operation during the mounting of the atomization element in the prior art.

In order to achieve the above purpose, on one hand, the present invention adopts the following technical scheme:

an atomizing element mounting structure of a humidifier is used for fixedly mounting an atomizing element between a heat dissipation structure and a pressing piece of the humidifier, wherein the mounting structure comprises a first positioning structure and/or a first fool-proof structure arranged on the heat dissipation structure, and a second positioning structure and/or a second fool-proof structure correspondingly arranged on the pressing piece, the first positioning structure and the second positioning structure are matched to realize the positioning between the heat dissipation structure and the pressing piece, and the first fool-proof structure and the second fool-proof structure are matched to realize fool-proof mounting between the heat dissipation structure and the pressing piece.

Preferably, the side surface of the heat dissipation structure, which is matched with the pressing piece, is a first mounting surface, the side surface of the pressing piece, which is matched with the heat dissipation structure, is a second mounting surface, the first positioning structure comprises a first positioning mounting part arranged on the first mounting surface, the second positioning structure comprises a second positioning mounting part arranged on the second mounting surface, and the first positioning mounting part is matched with the second positioning mounting part so as to position the heat dissipation structure and the pressing piece in the mounting process.

Preferably, the first positioning mounting portion includes a positioning post provided on the first mounting surface, and the second positioning mounting portion includes a positioning hole penetrating the pressing piece; or,

the first positioning and mounting part comprises a positioning hole arranged on the heat dissipation structure, and the second positioning and mounting part comprises a positioning column arranged on the second mounting surface.

Preferably, the positioning column is arranged on the first mounting surface, a rib structure is arranged on the first mounting surface, and the positioning column is formed by extending one side, far away from the first mounting surface, of the rib structure in a direction far away from the first mounting surface.

Preferably, the mounting structure further comprises a first limiting structure arranged on the heat dissipation structure and a second limiting structure correspondingly arranged on the pressing piece, and the first limiting structure and the second limiting structure are matched to achieve limiting between the heat dissipation structure and the pressing piece.

Preferably, the side surface of the heat dissipation structure, which is matched with the pressing piece, is a first mounting surface, the side surface of the pressing piece, which is matched with the heat dissipation structure, is a second mounting surface, the first limiting structure comprises a first limiting mounting part arranged on the first mounting surface, the second limiting structure comprises a second limiting mounting part formed on the second mounting surface, and the first limiting mounting part is matched with the second limiting mounting part so as to limit the heat dissipation structure and the pressing plate in the mounting process.

Preferably, the first limiting mounting portion includes a limiting block disposed on the first mounting surface, and a part of the wall surface of the second mounting surface forms the second limiting mounting portion, and in an assembled state, the limiting block abuts against a part of the wall surface of the second mounting surface.

Preferably, a first fixing structure is arranged on the first mounting surface, a second fixing structure is arranged on the second mounting surface, the first fixing structure is matched with the second fixing structure so as to fixedly connect the heat dissipation structure with the pressing plate, and the limiting block is close to the first fixing structure.

Preferably, the first fixing structure comprises a first fixing hole, the second fixing structure comprises a second fixing hole, and the fastener penetrates through the first fixing hole and the second fixing hole to fixedly connect the heat dissipation structure and the pressing plate.

Preferably, the first mounting surface is provided with a rib structure, and the first fixing hole is formed by recessing a side surface of the rib structure, which is far away from the first mounting surface.

Preferably, the side surface of the heat dissipation structure, which is matched with the pressing piece, is a first mounting surface, the side surface of the pressing piece, which is matched with the heat dissipation structure, is a second mounting surface, the first fool-proof structure comprises a protrusion arranged on the first mounting surface, the second fool-proof structure comprises a containing part arranged on the second mounting surface, and at least part of the protrusion is positioned in the containing part in the assembled state.

Preferably, the protrusion comprises a rib structure arranged on the first mounting surface, the accommodating part comprises a convex hull arranged on the second mounting surface, the pressing piece is of a sheet structure, and the convex hull is formed by bending or bending part of the sheet structure.

Preferably, the atomizing element comprises a power supply outgoing line, a gap is formed between the rib structure and the convex hull, and the gap forms a wiring channel of the power supply outgoing line.

In order to achieve the above purpose, on the other hand, the present invention adopts the following technical scheme:

the humidifier comprises a heat radiation structure, an atomization element and a pressing piece, wherein the atomization element is fixedly arranged between the heat radiation structure and the pressing piece through the atomization element mounting structure of the humidifier.

According to the mounting structure of the atomizing element of the humidifier, the first positioning structure is arranged on the heat radiating structure, the second positioning structure is correspondingly arranged on the pressing piece, the first positioning structure is matched with the second positioning structure to achieve positioning between the heat radiating structure and the pressing piece, so that when the atomizing element is mounted between the heat radiating structure and the pressing piece, visual alignment mounting is not needed for a installer, the heat radiating structure and the pressing piece are quickly and accurately fixedly connected, and mounting efficiency and mounting reliability are improved.

In addition, owing to be provided with first foolproof structure on heat radiation structure, correspond on the casting die and be provided with the second foolproof structure, if at the installation, the installation direction of casting die has been reversed, first foolproof structure and the foolproof structure of second form structural interference, and heat radiation structure and casting die can't fixed connection, effectively form foolproof installation, improve installation effectiveness.

The humidifier in this application is through above-mentioned mounting structure with atomizing element fixed mounting between heat radiation structure and casting die, has solved current mounting structure installation effectiveness low, the installation accuracy is poor, sealed effect can't obtain effectively guaranteed the problem in the installation, has promoted assembly efficiency, assembly reliability and sealed effect, effectively avoids casting die mistake direction in the assembly process to and heat radiation structure and casting die assembly deviation's problem.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of embodiments of the present invention with reference to the accompanying drawings, in which:

fig. 1 shows a mounting structure of an atomizing circuit board of a humidifier in the related art;

fig. 2 is an exploded view showing a mounting structure of an atomizing element of a humidifier according to an embodiment of the present invention;

fig. 3 shows one of the sectional views of an atomizing element of a humidifier according to an embodiment of the present invention in an assembled state;

fig. 4 shows a second cross-sectional view of an atomizing element of a humidifier according to an embodiment of the present invention in an assembled state.

In the drawing the view of the figure,

1', an atomizing element; 2', a heat dissipation structure; 3', a pressing piece;

1. a heat dissipation structure; 11. a heat sink; 12. a first positioning structure; 121. a first positioning mounting portion; 122. positioning columns; 13. a first mounting surface; 14. a rib structure; 141. ribs; 15. a first limit structure; 151. a first limit mounting portion; 152. a limiting block; 16. a first fixed structure; 161. a first fixing hole; 17. a first fool-proof structure; 171. a protrusion;

2. an atomizing element; 21. an atomizing sheet; 211. a first portion; 212. a second portion; 22. a power supply lead-out wire;

3. a pressing piece; 31. a second positioning structure; 311. a second positioning and mounting part; 312. positioning holes; 32. a second mounting surface; 33. tabletting; 34. a second limit structure; 341. a second limit mounting portion; 35. a second fixing structure; 351. a second fixing hole; 36. a second fool-proof structure; 361. an accommodating portion; 362. convex hulls;

4. a fastener.

Detailed Description

The present invention is described below based on embodiments, and it will be understood by those of ordinary skill in the art that the drawings provided herein are for illustrative purposes and that the drawings are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, it is the meaning of "including but not limited to".

In the description of the present invention, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

The application provides an atomizing element mounting structure of humidifier for with atomizing element fixed mounting between the heat radiation structure and the casting die of humidifier, with installation convenience, installation reliability and the installation effectiveness in the improvement atomizing element installation, simultaneously, can also strengthen atomizing element's sealed effect.

As shown in fig. 2 to 4, the mounting structure in the present application fixes the atomizing element 2 between the heat dissipation structure 1 and the pressing member 3. The factors such as installation reliability, installation position accuracy, installation sealing effect in the installation process of the heat radiation structure 1 and the pressing piece 3 have important influence on the working effect of the atomizing element 2. The atomizing element 2 is a core electric device of the humidifier, and can atomize liquid water in the humidifier so as to humidify a room by the humidifier and enhance indoor humidity. The atomizing element 2 comprises an atomizing sheet 21 and a power outgoing line 22 connected with the atomizing element 2, the atomizing sheet 21 is connected with an atomizing circuit board (not shown in the figure) through the power outgoing line 22, and the atomizing circuit board can supply power to the atomizing sheet 21 and control the working state of the atomizing sheet 21 so as to control the humidifying effect of the humidifier. As shown in fig. 3, the atomizing sheet 21 includes a first portion 211 having a ring-shaped structure, and a second portion 212 connected to the first portion 211 provided in the middle of the ring-shaped structure of the first portion 211. Wherein the first portion 211 is made of a material having a sealing effect such as rubber, so as to ensure that it can be closely connected to the heat dissipation structure 1, thereby improving the sealing effect. The second portion 212 is made of a ceramic material to achieve a good atomization. The heat dissipation structure 1 comprises the heat dissipation fins 11 which are integrally and approximately in a sheet-shaped structure, the heat dissipation fins 11 can absorb heat generated in the working process of an electric device contacted with the heat dissipation fins and conduct the heat out, so that the electric device can work normally and cannot be damaged due to overhigh temperature.

Further, as shown in fig. 2, the mounting structure includes a first positioning structure 11 disposed on the heat sink 11, and a second positioning structure 31 correspondingly disposed on the pressing member 3, where the first positioning structure 12 cooperates with the second positioning structure 31 to achieve positioning between the heat sink 11 and the pressing member 3. The side of the heat sink 11 that mates with the presser 3 is a first mounting surface 13, the side of the presser 3 that mates with the heat sink 11 is a second mounting surface 32, and the first mounting surface 13 is disposed opposite the second mounting surface 32. The first positioning structure 12 includes a first positioning mounting portion 121 provided on the first mounting surface 13, and the second positioning structure 31 includes a second positioning mounting portion 311 provided on the second mounting surface 32, the first positioning mounting portion 121 being mated with the second positioning mounting portion 311 to position the heat sink 11 and the presser 3 during mounting.

In a specific embodiment, the pressing member 3 is a pressing piece 33 of a sheet-like structure, the first positioning mounting portion 121 includes a positioning post 122 provided on the first mounting surface 13, and the second positioning mounting portion 311 includes a positioning hole 312 penetrating the pressing piece 33. When the pressing sheet 33 is mounted on the radiating fin 11, even if the pressing sheet 33 is placed above the radiating fin 11 and the pressing sheet 33 is moved under the condition that observation is not performed, interference with the positioning column 122 is likely to be formed when the positioning hole 312 moves to the vicinity of the positioning column 122 in the process of moving the pressing sheet 33, and the positioning column 122 can also directly pass through the positioning hole 312, so that quick and accurate positioning of the mounting position is realized, manual visual observation positioning is not needed, and therefore, the radiating fin 11 and the pressing sheet 33 can be quickly positioned and mounted, and the mounting efficiency and the mounting accuracy are improved. Preferably, the first mounting surface 13 is provided with a rib structure 14, and the positioning post 122 is formed by extending a side of the rib structure 14 away from the first mounting surface 13 in a direction away from the first mounting surface 13. The rib structure 14 may include a plurality of ribs 141 disposed on the first mounting surface 13, and the heat dissipation effect of the heat sink 11 may be enhanced to some extent by providing the rib structure 14. In setting the position of the positioning column 122, an appropriate rib 141 may be selected from the plurality of ribs 141 included in the rib structure 14 according to the mounting positional relationship between the heat sink 11 and the presser plate 33 and the positioning column 122 may be provided thereon. More preferably, the positioning posts 122, the rib structures 14 and the heat sink 11 are integrally formed.

In another alternative embodiment, the first positioning mounting portion 121 includes positioning holes provided on the heat sink 11, and the second positioning mounting portion 311 includes positioning posts provided on the second mounting surface 32. Since the mounting manner of the pressing sheet 33 and the cooling fin 11 in the mounting process is the same as that of the above embodiment, the positioning posts pass through the positioning holes to perform positioning and mounting, and thus the mounting process between the cooling fin 11 and the pressing sheet 33 is not repeated.

Further, in order to further limit the positional relationship between the heat sink 11 and the pressing sheet 33, so as to ensure the mounting accuracy and the mounting reliability, the mounting structure further includes a first limiting structure 15 disposed on the heat sink 11, and a second limiting structure 34 correspondingly disposed on the pressing sheet 33, where the first limiting structure 15 and the second limiting structure 34 cooperate to realize limiting between the heat sink 11 and the pressing sheet 33. In a specific embodiment, the first limiting structure 15 includes a first limiting mounting portion 151 disposed on the first mounting surface 13, and the second limiting structure 34 includes a second limiting mounting portion 341 formed on the second mounting surface 32, where the first limiting mounting portion 151 cooperates with the second limiting mounting portion 341 to limit the heat sink 11 and the compression sheet 33 during mounting. The first limiting mount 151 includes a limiting block 152 provided on the first mount surface 13, and a part of the wall surface of the second mount surface 32 forms a second limiting mount 341, and in the assembled state, the limiting block 152 abuts against a part of the wall surface of the second mount surface 32. The stopper 152 is brought into contact with a part of the wall surface of the second mounting surface 32, so that the position between the first mounting surface 13 and the second mounting surface 32 in the vertical direction can be well restricted.

Further, in order to reliably fix the heat sink 11 and the pressing piece 33 together, the heat sink 11 is provided with the first fixing structure 16, the pressing piece 33 is provided with the second fixing structure 35, and the first fixing structure 16 is matched with the second fixing structure 35 to fixedly connect the heat sink 11 and the pressing piece 33, and the limiting block 152 is disposed close to the first fixing structure 16. In a specific embodiment, the first fixing structure 16 includes a first fixing hole 161, and the second fixing structure 35 includes a second fixing hole 351, and the heat sink 11 and the pressing sheet 33 are fixedly coupled through the first fixing hole 161 and the second fixing hole 351 using a fastener 4 such as a screw or a bolt. Specifically, the first fixing hole 161 is formed by recessing a side of the rib structure 14 provided on the first mounting surface 13 away from the first mounting surface 13.

Still further, the mounting structure includes a first foolproof structure 17 disposed on the heat sink 11, and a second foolproof structure 36 correspondingly disposed on the pressing sheet 33, where the first foolproof structure 17 and the second foolproof structure 36 cooperate to realize foolproof mounting between the heat sink 11 and the pressing sheet 33, so as to further improve the mounting efficiency, and avoid reversely mounting the pressing sheet 33 when the pressing sheet 33 is mounted on the heat sink 11. The first fool-proof structure 17 includes a protrusion 171 provided on the first mounting surface 13, and the second fool-proof structure 36 includes a receiving portion 361 provided on the second mounting surface 32, at least a part of the structure of the protrusion 171 being located in the receiving portion 361 in the assembled state.

In a specific embodiment, the protrusion 171 includes at least one of the plurality of ribs 141 in the rib structure 14 provided on the first mounting surface 13, and the receiving portion 361 includes a convex hull 362 provided on the second mounting surface 32, and the convex hull 362 is formed by bending or bending a part of the structure of the pressing sheet 33. A gap is formed between the rib structure 14 and the convex hull 362, and the gap forms a routing channel of the power supply lead-out wire 22 of the atomizing sheet 21. The power outgoing line 22 is led out from between the radiating fin 11 and the pressing sheet 33 through the wiring channel and is connected to the atomization circuit board, so that the wiring is convenient, and the electricity safety can be ensured. In the correctly mounted state, the protruding portion 171 protrudes in the same direction as the bending direction of the accommodating portion 361, and protrudes in a direction away from the first mounting surface 13. If the direction of the pressing piece 33 is reversed during the mounting process, the protrusion 171 protrudes in a direction away from the first mounting surface 13, the accommodating portion 361 protrudes toward the first mounting surface 13, and the protrusion 171 and the accommodating portion 361 form structural interference to form a foolproof mounting effect, so that the pressing piece 33 and the heat sink 11 cannot be mounted together. At this time, the installer must install the pressing piece 33 again after turning 180 ° to correctly install the pressing piece 33 and the heat sink 11 together, so as to prevent an error in the installation direction of the pressing piece 33 during the installation process, thereby affecting the installation reliability and waterproof sealing.

In another alternative embodiment, the protrusion 171 includes a rib structure 14 disposed on the first mounting surface, and the receiving portion 361 includes a groove structure (not shown) disposed on the second mounting surface 32, and a portion of the rib structure 14 and the groove structure form a channel for the power outlet 22.

The atomizing piece 21 is installed between fin 11 and preforming 33 through above-mentioned mounting structure, because mounting structure's reliability is high, the installation counterpoint is accurate, consequently, can form better water-proof effects, and atomizing piece 21 installs safer, reliable wherein, effectively avoids the problem that the atomizing piece inefficacy leaked in the use.

The application also provides a humidifier, including heat radiation structure 1, atomizing element 2 and casting die 3, atomizing element 2 is through foretell atomizing element 2 mounting structure fixed mounting of humidifier between heat radiation structure 1 and casting die 3.

Because the humidifier in this application has the mounting structure of above-mentioned atomizing element 2, need not operating personnel and carry out counterpoint installation operation in the installation, can counterpoint installation fin 11 and preforming 33 very fast through reference column 122 and locating hole 312 cooperation, improved installation effectiveness and installation reliability, can effectively avoid appearing the dislocation of mounted position, the installation counterpoint inaccuracy and the problem of installation not in place in the installation.

It is easy to understand by those skilled in the art that the above preferred embodiments can be freely combined and overlapped without conflict.

The above is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. An atomization element mounting structure of a humidifier is used for fixedly mounting an atomization element between a heat dissipation structure of the humidifier and a pressing piece, and is characterized in that the mounting structure comprises a first positioning structure and a first fool-proof structure which are arranged on the heat dissipation structure, and a second positioning structure and a second fool-proof structure which are correspondingly arranged on the pressing piece, wherein the first positioning structure and the second positioning structure are matched to realize positioning between the heat dissipation structure and the pressing piece, and the first fool-proof structure and the second fool-proof structure are matched to realize fool-proof mounting between the heat dissipation structure and the pressing piece; the side surface of the heat dissipation structure matched with the pressing piece is a first mounting surface, the side surface of the pressing piece matched with the heat dissipation structure is a second mounting surface, the first positioning structure comprises a first positioning mounting part arranged on the first mounting surface, the second positioning structure comprises a second positioning mounting part arranged on the second mounting surface, and the first positioning mounting part is matched with the second positioning mounting part so as to position the heat dissipation structure and the pressing piece in the mounting process;

the heat dissipation structure comprises heat dissipation fins with a sheet structure, the pressing piece is a pressing piece with a sheet structure, the first positioning and mounting part comprises a positioning column arranged on the first mounting surface, and the second positioning and mounting part comprises a positioning hole penetrating through the pressing piece;

the first positioning and mounting part comprises a positioning hole arranged on the heat dissipation structure, and the second positioning and mounting part comprises a positioning column arranged on the second mounting surface; when the pressing sheet is installed on the radiating fin, the pressing sheet is placed above the radiating fin and moved, and when the positioning hole moves to the vicinity of the positioning column, the pressing sheet interferes with the positioning column, or the positioning column directly passes through the positioning hole, so that the rapid and accurate positioning of the installation position is realized.

2. The mounting structure according to claim 1, wherein the positioning post is provided on the first mounting surface, a rib structure is provided on the first mounting surface, and the positioning post is formed by extending a side of the rib structure away from the first mounting surface in a direction away from the first mounting surface.

3. The mounting structure of claim 1, further comprising a first limit structure disposed on the heat dissipating structure and a second limit structure disposed on the pressure member, the first limit structure and the second limit structure cooperating to limit the space between the heat dissipating structure and the pressure member.

4. A mounting structure according to claim 3, wherein the side of the heat dissipating structure that mates with the compression element is a first mounting surface, the side of the compression element that mates with the heat dissipating structure is a second mounting surface, the first spacing structure includes a first spacing mounting portion disposed on the first mounting surface, the second spacing structure includes a second spacing mounting portion formed on the second mounting surface, the first spacing mounting portion mates with the second spacing mounting portion to spacing the heat dissipating structure and the compression element during mounting.

5. The mounting structure according to claim 4, wherein the first limit mount portion includes a stopper provided on the first mount surface, a part of a wall surface of the second mount surface forms the second limit mount portion, and in an assembled state, the stopper abuts against a part of the wall surface of the second mount surface.

6. The mounting structure of claim 5, wherein the heat dissipating structure is provided with a first securing structure, the pressure member is provided with a second securing structure, the first securing structure mates with the second securing structure to fixedly connect the heat dissipating structure to the pressure member, and the stopper is disposed proximate to the first securing structure.

7. The mounting structure of claim 6, wherein the first securing structure includes a first securing hole and the second securing structure includes a second securing hole, a fastener passing through the first and second securing holes to fixedly connect the heat dissipating structure and the compression element.

8. The mounting structure of claim 7, wherein the first mounting surface is provided with a rib structure, and the first securing hole is formed by a recess in a side of the rib structure remote from the first mounting surface.

9. The mounting structure of claim 1, wherein the side of the heat dissipating structure that mates with the compression element is a first mounting surface and the side of the compression element that mates with the heat dissipating structure is a second mounting surface, the first fool-proofing structure comprising a protrusion disposed on the first mounting surface, the second fool-proofing structure comprising a receptacle disposed on the second mounting surface, at least a portion of the protrusion being positioned in the receptacle in the assembled state.

10. The mounting structure of claim 9, wherein the protrusion includes a rib structure provided on the first mounting surface, the receiving portion includes a convex hull provided on the second mounting surface, the pressing member is of a sheet-like structure, and the convex hull is formed by bending or bending a part of the sheet-like structure.

11. The mounting structure of claim 10, wherein the atomizing element includes a power lead-out wire, the rib structure and the convex hull having a gap therebetween, the gap forming a routing channel for the power lead-out wire.

12. A humidifier comprising a heat dissipation structure, an atomizing element, and a pressing member, wherein the atomizing element is fixedly mounted between the heat dissipation structure and the pressing member by an atomizing element mounting structure of the humidifier according to any one of claims 1 to 11.