CN114176270A - Atomizing core assembly and assembling method thereof - Google Patents

Abstract

The invention relates to the technical field of atomization core production, and provides an atomization core assembly and an assembly method thereof; the assembly method for assembling an atomized core assembly in an automated apparatus, the assembly method comprising: manufacturing a heating element and oil guide cotton, press-fitting the oil guide cotton and a heating main body of the heating element through a forming die and a pressure head, then loading the oil guide cotton and the heating main body into a steel pipe through the pressure head, moving out the pressure head, then inserting pins into jacks of a base by using a pin guide device, and directly dragging the base into the steel pipe to obtain an atomization core assembly; the assembling method of the atomizing core assembly provided by the embodiment of the application is compared with the mode of manufacturing the atomizing core assembly by manual assembly at present, the assembling efficiency is effectively improved, the integrity is consistent, and the market demand is met.

Description

Atomizing core assembly and assembling method thereof

Technical Field

The embodiment of the application relates to the technical field of atomization core production, and particularly provides an atomization core assembly and an assembly method thereof.

Background

The atomizing core used in the market at present comprises a steel pipe, a heating wire, oil guide cotton and the like; the steel pipe is cylindrical, the heating wire is spiral, the oil guide cotton is sheet-shaped, the oil guide cotton wraps the outer side of the heating wire, and the outer side of the oil guide cotton abuts against the inner side of the steel pipe.

At present, the atomization core is generally assembled and manufactured by manual assembly, and the specific manufacturing steps are as follows: manufacturing a strip-shaped oil guide body, coating the spiral heating wire with the strip-shaped oil guide body, rolling into a cylinder, inserting the cylinder-shaped oil guide body coated with the heating element into a first jig, and butting the first jig with the cylinder-shaped oil guide body with the atomizing core shell; and ejecting the cylindrical oil guide body for coating the heating body by using a second jig, wherein the cylindrical oil guide body is separated from the first jig and enters the atomizing core shell. The steps are all made manually, so that the existing assembly mode is low in efficiency and cannot meet market requirements.

Disclosure of Invention

The embodiment of the application aims to provide an atomizing core assembly and an assembling method thereof, and aims to solve the problem of low efficiency caused by manual assembly manufacturing of the atomizing core assembly at present.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions:

in a first aspect, an embodiment of the present application provides an assembly method of an atomization core assembly, which is used for assembling the atomization core assembly in an automation device, where the atomization core assembly includes a heating element, an oil guide cotton, a base, and a steel pipe; the heating part comprises a heating main body and two pins arranged on the heating main body, the oil guide cotton is coated on the heating main body, and the oil guide cotton and the heating main body are arranged in the steel pipe; the base is provided with an insertion hole, the base is arranged at the end part of the steel pipe, and the pin penetrates through the insertion hole to the outside; the assembling method comprises the following steps:

manufacturing a heating piece, wherein the heating piece comprises a heating main body and pins arranged at two end parts of the heating main body;

manufacturing oil guide cotton;

placing the heating main body above the oil guide cotton;

placing the oil guide cotton and the heating main body above a forming die;

pressing towards the forming die by using a pressing head, wherein the heating main body and the oil guide cotton are stressed to bend towards the inside of the forming die to form a semicircle, and redundant oil guide cotton is left above the forming die;

placing a steel pipe on one side of a forming die, plugging the oil guide cotton, the heating main body and the pressure head into the steel pipe along a sliding chute of the steel pipe, sliding redundant oil guide cotton in the sliding chute of the steel pipe until the oil guide cotton cannot slide, stopping plugging, and then moving the pressure head out of the steel pipe; at the moment, the oil guide cotton and the heating main body are fixed in the steel pipe, and then the redundant oil guide cotton is subtracted;

the pin guide device and the base are sequentially arranged on one side of the pin, and the pin penetrates through the pin guide device, so that the pin can be directly inserted into the jack of the base after penetrating out of the pin guide device;

after the pin is inserted into the jack for a certain distance, the pin guiding device is removed, and the base is directly dragged into the steel pipe to obtain the atomization core assembly.

The beneficial effects of the embodiment of the application are as follows: according to the assembling method of the atomizing core assembly, the atomizing core assembly is obtained by applying the method in automatic equipment and sequentially manufacturing a heating element, manufacturing oil guide cotton, press-fitting, filling and assembling a base; compared with the mode of manufacturing the atomizing core assembly by manual assembly at present, the assembling method of the embodiment of the application realizes mechanical operation, so that batch operation is facilitated, and the assembling efficiency is effectively improved; the two pins with uncontrollable distances can be converted into the two pins with constant distances by using the pin guide device, so that the two pins can be conveniently penetrated into the two inserting holes of the base by the automatic equipment; meanwhile, the integrity is consistent, and the difference generated by manual processing can be avoided, so that the qualification rate of products is improved, and the market demand is met.

In one embodiment, the forming mold is provided with a forming groove, and two opposite ends of the forming groove penetrate through the forming mold; the pressure head is used for inserting the shaping groove so that generate heat main part and lead the oil cotton compression molding, and the pressure head can move along the channel of shaping groove and follow the tip of shaping groove and remove.

In one embodiment, the indenter has a spherical configuration and the outer surface of the indenter has an arcuate extent that conforms to the inner surface of the forming groove.

In one embodiment, after drawing the base directly into the steel pipe, the steps further comprise:

the pins are fixed in the jacks through glue.

In one embodiment, the heat generating body is a heat generating mesh.

In one embodiment, one end of the steel pipe is provided with a sliding groove along the axial direction.

In one embodiment, two guide holes for guiding the pins are formed in one side surface of the pin guide device facing the steel tube, two guide holes correspondingly communicated with the guide holes are formed in one side surface of the pin guide device facing away from the steel tube, the hole diameter of each guide hole is larger than that of each guide hole, and the distance between the two guide holes is the same as that between the two insertion holes.

In one embodiment, the pin guide device comprises a first guide block and a second guide block, wherein the first guide block and the second guide block abut to form a guide hole and a guide hole.

In one embodiment, in the step of threading the pin through the pin guide:

and inserting the pins into the guide holes, wherein the pins sequentially penetrate through the guide holes and penetrate out of the guide holes.

In a second aspect, embodiments of the present application further provide an atomizing core assembly, which is assembled by using the assembling method of the atomizing core assembly as described above.

The beneficial effects of the embodiment of the application are as follows: the atomizing core assembly provided by the embodiment of the application is assembled and manufactured by adopting the assembling method of the atomizing core assembly, and the assembling method of the atomizing core assembly can realize mechanization and is high in overall consistency, so that the qualified rate of the atomizing core assembly is higher, and the quality is ensured.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic flow diagram of a method of assembling an atomizing core assembly according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of an atomizing core assembly provided in accordance with an embodiment of the present disclosure;

FIG. 3 is an exploded view of an atomizing core assembly provided in accordance with an embodiment of the present invention;

FIG. 4 is a schematic structural view of the heating element and the oil guide cotton stacked together;

FIG. 5 is a schematic view of a structure in preparation for pressing the heat generating member and the oil guide cotton;

FIG. 6 is a schematic structural view of the heating element and the oil guide cotton after being pressed and formed;

FIG. 7 is a schematic view showing a structure of a steel pipe filled with a heat generating member and oil-guiding cotton formed by pressing;

FIG. 8 is a schematic view of the base assembly;

FIG. 9 is a schematic view of the assembled atomizing core assembly;

FIG. 10 is a schematic diagram of a configuration of a ram and a forming die provided by an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a pin guiding device according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

100. an atomizing core assembly; 200. forming a mold; 201. forming a groove; 202. a pressure head; 300. a pin guide; 301. a guide hole; 302. a pilot hole; 310. a first guide block; 320. a second guide block; 10. a heat generating member; 11. a heat-generating body; 12. a pin; 20. oil guide cotton; 30. a steel pipe; 31. a chute; 40. a base; 41. a jack; 50. and (4) glue.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The atomizing core used in the market at present comprises a steel pipe, a heating wire, oil guide cotton and the like; the steel pipe is cylindrical, the heating wire is spiral, the oil guide cotton is sheet-shaped, the oil guide cotton wraps the outer side of the heating wire, and the outer side of the oil guide cotton abuts against the inner side of the steel pipe. At present, the atomizing core is generally assembled and manufactured by manual assembly, so that the assembly efficiency is low, and the market demand can not be met.

Therefore, the embodiment of the application provides an atomizing core assembly assembling method, an atomizing core assembly and an atomizing device, which can be applied to automatic equipment and effectively solve the problem of low efficiency caused by manual assembly manufacturing of the atomizing core assembly at present.

Referring to fig. 1 to 9, in a first aspect, an embodiment of the present application provides an assembling method of an atomizing core assembly 100, the assembling method is used for assembling the atomizing core assembly 100 in an automated apparatus, and the atomizing core assembly 100 includes a heat generating member 10, an oil guide cotton 20, a base 40, and a steel pipe 30; the heating element 10 comprises a heating main body 11 and two pins 12 arranged on the heating main body 11, the oil guide cotton 20 is coated on the heating main body 11, and the oil guide cotton 20 and the heating main body 11 are arranged in the steel pipe 30; the base 40 is provided with an insertion hole 41, the base 40 is arranged at the end part of the steel pipe 30, and the pin 12 penetrates through the insertion hole 41 to the outside; the assembling method comprises the following steps:

manufacturing a heating element 10, wherein the heating element 10 comprises a heating main body 11 and pins 12 arranged at two end parts of the heating main body 11;

manufacturing the oil guide cotton 20;

the heating main body 11 is placed above the oil guide cotton 20;

placing the oil guide cotton 20 and the heating main body 11 above the forming die 200;

pressing the oil guide cotton 20 towards the forming die 200 by using a pressure head 202, wherein the heating main body 11 and the oil guide cotton 20 are stressed to bend towards the forming die 200 to form a semicircle, and the redundant oil guide cotton 20 is left above the forming die 200;

placing the steel pipe 30 at one side of the forming die 200, plugging the oil guide cotton 20, the heating main body 11 and the pressure head 202 into the steel pipe 30 along the chute 31 of the steel pipe 30, sliding the redundant oil guide cotton 20 in the chute 31 of the steel pipe 30 until the redundant oil guide cotton cannot slide, stopping the plugging action, and then removing the pressure head 202 from the steel pipe 30; at this time, the oil guide cotton 20 and the heating main body 11 are both fixed in the steel pipe 30, and then the redundant oil guide cotton 20 is cut off;

arranging a pin guide device 300 and a base 40 on one side of a pin 12 in sequence, and arranging the pin 12 in the pin guide device 300 in a penetrating way, so that the pin 12 can be directly inserted into an insertion hole 41 of the base 40 after penetrating out of the pin guide device 300;

after the pins 12 are inserted into the insertion holes 41 for a distance, the pin guide 300 is removed, and the base 40 is directly drawn into the steel tube 30 to obtain the atomizing core assembly 100.

The heating element 10 is used for heating and atomizing the tobacco tar on the oil guide cotton 20, and the heating element 10 is communicated with a power supply through a pin 12 to realize conductive heating; the heating body 11 may be a heating net with a net structure, and the pins 12 are formed on the net structure of the heating net; alternatively, the heating body 11 may be a heating wire having a spiral structure, and the pins 12 are formed on the spiral structure of the heating wire. The specific structure of the heat generating body 11 may be selected as desired. The oil cotton guide 20 may have a single layer structure or a multi-layer structure stacked together.

The assembly steps are all realized by using automatic equipment, the heating element 10, the oil guide cotton 20, the steel pipe 30 and the base 40 are produced in batch by using the automatic equipment, the heating element 10 and the oil guide cotton 20 are sequentially stacked, and then the heating element 10 and the oil guide cotton 20 are pressed and formed by using a mould, so that the oil guide cotton 20 wraps the heating element 10 and can be filled into the steel pipe 30; after the filling, the base 40 is installed at the end of the steel tube 30 by using a mechanical device, and the pins 12 are inserted into the insertion holes 41 of the base 40 and extended to the outside, so that the atomizing core assembly 100 is obtained.

Compared with the existing mode of manually assembling and manufacturing the atomizing core assembly 100, the assembling method of the embodiment of the application realizes mechanical operation, facilitates batch operation and effectively improves the assembling efficiency; the two pins 12 with uncontrollable distance can be converted into the constant distance between the two pins 12 by using the pin guiding device 300, so that the automatic equipment can conveniently penetrate the two pins 12 into the two insertion holes 41 of the base 40 at the same time; meanwhile, the integrity is consistent, and the difference generated by manual processing can be avoided, so that the qualification rate of products is improved, and the market demand is met.

Referring to fig. 2 to 10, in an embodiment, a forming groove 201 is formed on a forming mold 200, and two opposite ends of the forming groove 201 penetrate through the forming mold 200; the press head 202 is inserted into the molding groove 201 to press-mold the heat generating body 11 and the oil guide cotton 20, and the press head 202 can move along the channel of the molding groove 201 and move out of the end of the molding groove 201. The heating body 11 and the oil guide cotton 20 are press-molded by using the molding die 200, and the pressing head 202 can be inserted into the molding groove 201, so that the pressing head 202 can be pressed on the heating body 11, and the stacked heating body 11 and oil guide cotton 20 are pressed to press the heating body 11 and oil guide cotton 20 into the molding groove 201.

Referring to fig. 2 to 10, in one embodiment, the ram 202 has a spherical structure, and the outer surface of the ram 202 has an arc degree matching with the inner surface of the forming groove 201. When the heating main body 11 and the oil guide cotton 20 are pressed by the pressing head 202, the arc-shaped pressing head 202 presses the heating main body 11 and the oil guide cotton 20 into the molding groove 201 together, so that the heating main body 11 and the oil guide cotton 20 are molded in the molding groove 201, and the heating main body 11 and the oil guide cotton 20 are bent to form an arc-shaped structure matched with the inner surface of the molding groove 201.

Referring to fig. 2 to 10, in an embodiment, after the base 40 is directly pulled into the steel pipe 30, the assembling method further includes: the pins 12 are fixed, and the pins 12 are fixed in the insertion holes 41 through glue 50. The base 40 is assembled on the end of the steel tube 30, and the pins 12 are inserted into the insertion holes 41 of the base 40, and the pins 12 shake in the insertion holes 41 due to the gap between the pins 12 and the inner side walls of the insertion holes 41, which affects the quality of the product. Therefore, glue 50 is injected into the insertion holes 41 to fix the pins 12 in the insertion holes 41, so that shaking of the pins 12 is avoided, and the quality of a product is improved.

Referring to fig. 2 to 10, in an embodiment, the heating body 11 is a heating net. In this embodiment, the oil cotton guide 20 is preferably a multi-layer cotton structure. The heating net is placed on the oil guide cotton 20, then the heating net and the oil guide cotton 20 are pressed and molded by the molding die 200, so that the heating net is bent into an arc-shaped structure, the oil guide cotton 20 wraps the heating net, namely, the oil guide cotton 20 wraps the heating net and forms a columnar structure, and the heating net and the oil guide cotton are conveniently and subsequently installed in the steel pipe 30.

Referring to fig. 2 to 10, in an embodiment, a sliding groove 31 is formed at one end of the steel tube 30 along an axial direction. By arranging the chute 31 on the steel pipe 30, when the pressure head 202 moves, along with the part of the pressure head 202 coated with the heating main body 11 and the oil guide cotton 20 enters the steel pipe 30, the part of the pressure head 202 outside the heating main body 11 and the oil guide cotton 20 can slide towards the deep part of the chute 31, so that the pressure head 202 carries the heating main body 11 and the oil guide cotton 20 and is completely arranged in the steel pipe 30; after the loading is completed, the ram 202 is moved out of the steel tube 30 along the chute 31, so that the heating body 11 and the oil guide wool 20 are loaded into the steel tube 30. In order to facilitate the loading operation, the steel pipe 30 can be arranged on one side of the forming die 200 and is just opposite to the end part of the forming groove 201, so that the pressing head 202 carries the heating main body 11 and the oil guide cotton 20, and the heating main body and the oil guide cotton 20 can be directly moved into the steel pipe 30 after moving out of the forming groove 201, thereby effectively improving the loading efficiency and avoiding the problem that the heating main body 11 and the oil guide cotton 20 are loosened after losing the jacking force on the outer side.

Referring to fig. 2 to 11, in an embodiment, two guide holes 301 for guiding the pins 12 are opened on a side surface of the pin guide 300 facing the steel tube 30, two guide holes 302 correspondingly communicating with the guide holes 301 are opened on a side surface of the pin guide 300 facing away from the steel tube 30, an aperture of the guide hole 301 is larger than an aperture of the guide hole 302, and a distance between the two guide holes 302 is the same as a distance between the two insertion holes 41. Since the distance between the two pins 12 formed on the heat generating body 11 cannot be determined, when the base 40 is assembled, the pins 12 are difficult to be simultaneously inserted into the two insertion holes 41 of the base 40, resulting in a great difficulty in assembly. By using the pin guide 300 in the step of assembling the base 40, the two pins 12 can be limited and guided, so that the distance between the two pins 12 is guided to a preset value, which is equal to the distance between the two insertion holes 41, so as to facilitate the assembly of the base 40. Specifically, the pin guiding device 300 includes a first guiding block 310 and a second guiding block 320, two first guiding grooves are formed on the first guiding block 310, two second guiding grooves are correspondingly formed on the second guiding block 320, and when the first guiding block 310 and the second guiding block 320 are assembled into a whole, the first guiding grooves and the second guiding grooves are combined together to form a guiding hole 302 and a guiding hole 301 which are communicated with each other.

Referring to fig. 2 to 11, in an embodiment, the pin guide apparatus 300 includes a first guide block 310 and a second guide block 320, and the first guide block 310 and the second guide block 320 abut to form a guide hole 301 and a pilot hole 302. When the first guide block 310 and the second guide block 320 are assembled into a whole, the first guide groove and the second guide groove are combined together to form the pilot hole 302 and the guide hole 301 which are communicated. Wherein the first guide block 310 and the second guide block 320 can be operated to abut or separate by a mechanical device to form the guide hole 302 and the guide hole 301 to remove the pin guide 300 from the pin 12.

Referring to fig. 2 to 11 and fig. 2 to 8, in an embodiment, in the step of inserting the lead 12 into the lead guiding device 300: inserting the pins 12 into the guide holes 301, wherein the pins 12 sequentially penetrate through the guide holes 301 and the pilot holes 302 and penetrate out of the pilot holes 302; the pins 12 are then inserted into the receptacles 41 of the base 40. Due to the fact that the hole diameter of each guide hole 301 is large, the pins 12 can directly penetrate into the corresponding guide hole 301 and enter the guide holes 302 with the small hole diameters, the guide holes 302 are used for correcting the distance between the two pins 12, and the pins 12 can be directly inserted into the insertion holes 41 of the base 40 after penetrating out of the guide holes 302, so that assembly operation of automatic equipment is facilitated.

Referring to fig. 1 to 11, in a second aspect, an atomizing core assembly 100 is further provided, in which the atomizing core assembly 100 is assembled by the assembling method of the atomizing core assembly as described above. The atomizing core assembly 100 provided by the embodiment of the application is assembled and manufactured by adopting the assembling method of the atomizing core assembly, and the assembling method of the atomizing core assembly can realize mechanization and has high integral consistency, so that the qualified rate of the atomizing core assembly 100 is higher, and the quality is ensured.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The assembling method of the atomizing core assembly is characterized in that the assembling method is used for assembling the atomizing core assembly in automatic equipment, and the atomizing core assembly comprises a heating element, oil guide cotton, a base and a steel pipe; the heating part comprises a heating main body and two pins arranged on the heating main body, the oil guide cotton is coated on the heating main body, and the oil guide cotton and the heating main body are arranged in the steel pipe; the base is provided with an insertion hole, the base is arranged at the end part of the steel pipe, and the pin penetrates through the insertion hole to the outside; the assembling method comprises the following steps:

manufacturing the heating piece, wherein the heating piece comprises a heating main body and pins arranged at two end parts of the heating main body;

manufacturing the oil guide cotton;

placing the heating main body above the oil guide cotton;

placing the oil guide cotton and the heating main body above a forming die;

pressing towards the forming die by using a pressing head, wherein the heating main body and the oil guide cotton are stressed to bend towards the inside of the forming die to form a semicircle, and redundant oil guide cotton is left above the forming die;

placing the steel pipe on one side of the forming die, plugging the oil guide cotton, the heating main body and the pressure head into the steel pipe along a sliding groove of the steel pipe, sliding the redundant oil guide cotton in the sliding groove of the steel pipe until the redundant oil guide cotton cannot slide, stopping plugging, and then moving the pressure head out of the steel pipe; at the moment, the oil guide cotton and the heating main body are fixed in a steel pipe, and then the redundant oil guide cotton is cut off;

arranging a pin guide device and the base on one side of the pin in sequence, and enabling the pin to penetrate through the pin guide device so that the pin can be directly inserted into the jack of the base after penetrating out of the pin guide device;

and after the pin is inserted into the jack for a certain distance, removing the pin guide device, and directly dragging the base into the steel pipe to obtain the atomization core assembly.

2. The method of assembling an atomizing core assembly of claim 1, wherein: forming a forming groove on the forming die, wherein two opposite ends of the forming groove penetrate through the forming die; the pressure head is used for being inserted into the forming groove so as to enable the heating main body and the oil guide cotton to be pressed and formed, and the pressure head can move along the channel of the forming groove and move out of the end of the forming groove.

3. The method of assembling an atomizing core assembly of claim 2, wherein: the pressure head is spherical structure, just the arc degree of the surface of pressure head with the internal surface looks adaptation in shaping groove.

4. The method of assembling an atomizing core assembly according to claim 1, wherein after drawing said base directly into said steel tube, said steps further comprise:

and fixing the pins in the jacks through glue.

5. The method of assembling an atomizing core assembly of claim 1, wherein: the heating main body is a heating net.

6. The method of assembling an atomizing core assembly of claim 1, wherein: the sliding groove is formed in one end of the steel pipe in the axial direction.

7. The method of assembling an atomizing core assembly of claim 1, wherein: two guide holes for guiding the pins are formed in the surface, facing the steel pipe, of one side of the pin guide device, two guide holes correspondingly communicated with the guide holes are formed in the surface, facing away from the steel pipe, of one side of the pin guide device, the hole diameter of each guide hole is larger than that of each guide hole, and the distance between the two guide holes is the same as the distance between the two jacks.

8. The method of assembling an atomizing core assembly of claim 7, wherein: the pin guide device comprises a first guide block and a second guide block, and the first guide block and the second guide block are abutted to form the guide hole and the pilot hole.

9. The method of assembling an atomizing core assembly according to claim 8, wherein in said step of threading said pin through said pin guide:

and inserting the pins into the guide holes, wherein the pins sequentially penetrate through the guide holes and penetrate out of the guide holes.

10. An atomizing core assembly, characterized by: the atomizing core assembly is assembled by the assembling method of the atomizing core assembly as claimed in any one of claims 1 to 9.

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