US20230118050A1

US20230118050A1 - Electronic atomizer

Info

Publication number: US20230118050A1
Application number: US17/711,797
Authority: US
Inventors: Miaowen Yang; Yonghui LIN; Shimei Pan; Huifu Shuai; Yajiao Fu; Wen Chi
Original assignee: Shenzhen Zun Yi Pin Technology Co Ltd
Current assignee: Shenzhen Zun Yi Pin Technology Co Ltd
Priority date: 2021-10-20
Filing date: 2022-04-01
Publication date: 2023-04-20
Also published as: CN216453353U; WO2023065469A1

Abstract

An electronic atomizer is disclosed which includes: a housing with a transparent side wall, the housing is internally provided with an accommodating space; an atomizing assembly arranged in the accommodating space, the atomizing assembly divides the accommodating space into an upper cavity and a lower cavity, a top wall of the upper cavity is provided with a mounting base, the mounting base is provided with a through gas outlet hole, a bottom portion of the lower cavity is provided with an opening, the atomizing assembly is provided with a gas flow channel, the gas flow channel communicates the lower cavity with the gas outlet hole, a side wall of the atomizing assembly is provided with an E-liquid inlet hole, and the E-liquid inlet hole communicates the upper cavity with the gas flow channel; a light-emitting element arranged in the lower cavity; and a light-diffusing sleeve arranged in the lower cavity.

Description

CROSS-REFERENCE TO RELATED APPLICATION

This application claims priority to Chinese patent application No. 202122523236.1 filed Oct. 20, 2021, which is incorporated by reference herein in its entirety for all purposes.

BACKGROUND

An electronic atomizer is a product which drives an atomizer through power supplied by a rechargeable lithium polymer battery, and converts nicotine into steam by heating E-liquid in an E-liquid tank for a user to smoke. The electronic atomizer needs to be supplemented with the E-liquid regularly, and the E-liquid is filled into a sealed E-liquid storage cavity, so that it is difficult for the user to observe a storage volume of the E-liquid in the E-liquid storage cavity, and it is easy for the user to supplement too much E-liquid to cause E-liquid leakage and damage the electronic atomizer. At present, a housing made of a transparent material is used in an existing electronic atomizer, so that the user may observe the storage volume of the E-liquid in the E-liquid storage cavity. However, it is difficult for the user to observe a remaining volume of the E-liquid through the transparent housing in a dim environment.

SUMMARY

The present disclosure relates to the field of electric smoking devices, and more particularly, to an electronic atomizer.
The present disclosure aims to provide an electronic atomizer to solve one or more technical problems in the prior art, and at least provide a beneficial selection or creation condition.
The technical solutions used to solve the above technical problems are as follows.
An electronic atomizer comprises: a housing with a transparent side wall, wherein the housing is internally provided with an accommodating space; an atomizing assembly arranged in the accommodating space, wherein an outside wall of the atomizing assembly is sealed with an inside wall of the accommodating space, the atomizing assembly divides the accommodating space into an upper cavity and a lower cavity, a top wall of the upper cavity is provided with a mounting base extending downwardly, the mounting base is provided with a gas outlet hole penetrating through up and down, a bottom portion of the lower cavity is provided with an opening, the atomizing assembly is provided with a gas flow channel penetrating through up and down, the gas flow channel communicates the lower cavity with the gas outlet hole, a side wall of the atomizing assembly is provided with an E-liquid inlet hole, and the E-liquid inlet hole communicates the upper cavity with the gas flow channel; an E-liquid absorbing cotton arranged in the gas flow channel, wherein the E-liquid absorbing cotton covers the E-liquid inlet hole; a light-emitting element arranged in the lower cavity; and a light-diffusing sleeve arranged in the lower cavity, wherein the light-diffusing sleeve has a cylindrical structure, and an outside wall of the light-diffusing sleeve abuts against an inside wall of the lower cavity.
Embodiments of the present disclosure have the beneficial effects as follows: the accommodating space is divided into the upper cavity and the lower cavity by the atomizing assembly, E-liquid is stored in the upper cavity, the light-emitting element is arranged in the lower cavity, the side wall of the housing is transparent, the outside wall of the light-diffusing sleeve abuts against the inside wall of the lower cavity, and when the light-emitting element lights up, light diffuses outwardly through the light-diffusing sleeve to enable the housing to be illuminated by soft light, so that the upper cavity is illuminated by soft light, which is convenient for a user to observe a storage volume of the E-liquid in the upper cavity in a dim environment; and the E-liquid is absorbed by the E-liquid absorbing cotton covering the E-liquid inlet hole in the side wall of the atomizing assembly, the gas flow channel of the atomizing assembly communicates the lower cavity with the gas outlet hole in the mounting base of the housing, air flows into the gas flow channel from the opening of the lower cavity, the atomizing assembly heats the E-liquid on the E-liquid absorbing cotton and the air in the gas flow channel, atomized gas generated by the atomizing assembly is sucked by a user from the gas outlet hole, and since the light-emitting element is arranged in the lower cavity, the light-emitting element generates heat during operation, and the light-emitting element preheats the air flowing through the lower cavity, thus improving a heating efficiency of the atomizing assembly for the E-liquid and the air, and accelerating generation of the atomized gas by the atomizing assembly.
In some embodiments, the electronic atomizer further comprises a circuit board, the circuit board is arranged in the lower cavity, the circuit board covers the opening, a gas inlet gap is reserved between an outside wall of the circuit board and the inside wall of the lower cavity, and the light-emitting element is arranged on the circuit board.
The circuit board is arranged in the lower cavity, the air enters the lower cavity from the gas inlet gap between the outside wall of the circuit board and the inside wall of the lower cavity, the light-emitting element is arranged on the circuit board, the circuit board generates heat during operation, and the circuit board heats the air flowing through the gas inlet gap, thus improving the heating efficiency of the atomizing assembly for the E-liquid and the air, and accelerating the generation of the atomized gas by the atomizing assembly.
In some embodiments, the light-emitting element is arranged at an outer edge of the circuit board, and the light-emitting element is adjacent to the gas inlet gap.
Since the gas inlet gap is adjacent to the light-emitting element, when the air flows into the lower cavity through the gas inlet gap, the heat generated by the light-emitting element during operation is used to heat the air, thus improving a heating effect of the heat generated by the light-emitting element on the air.
In some embodiments, the electronic atomizer further comprises a storage battery, the storage battery is arranged in the lower cavity, and the storage battery is electrically connected with the circuit board.
The storage battery is arranged in the lower cavity, the storage battery supplies power for the circuit board, and a temperature of the storage battery is increased to heat the air in the lower cavity.
In some embodiments, the electronic atomizer further comprises a bottom cover, the bottom cover covers the opening, the bottom cover is provided with a gas inlet hole penetrating through up and down, and the gas inlet hole is staggered with the gas inlet gap.
The bottom cover covers the opening of the lower cavity, and the gas inlet hole in the bottom cover is staggered with the gas inlet gap, so that the air enters the lower cavity from the gas inlet hole in the bottom cover, and then flows to the gas inlet gap along a bottom surface of the circuit board, thus prolonging a flowing distance of the air, increasing a contact area between the circuit board and the air, and being beneficial for improving heat exchange between the circuit board and the air.
In some embodiments, a top portion of the bottom cover abuts against a bottom portion of the housing, the top portion of the bottom cover is provided with an inserting portion, a shape of a cross section of the inserting portion is matched with a shape of a cross section of the opening, the inserting portion is inserted into the opening, and the inserting portion is in interference fit with the opening.
The bottom cover is in interference fit with the opening of the lower cavity through the inserting portion, so that the bottom cover is hermetically connected with the housing, and the bottom cover is easily assembled with the housing.
In some embodiments, the accommodating space has a conical structure with a small top and a large bottom, a shape of an outside wall of the atomizing assembly is matched with a shape of the accommodating space, the outside wall of the atomizing assembly abuts against the inside wall of the accommodating space, a shape of the light-diffusing sleeve is matched with a shape of the lower cavity, a top portion of the light-diffusing sleeve abuts against an edge of a bottom portion of the atomizing assembly, and a top portion of the inserting portion abuts against a bottom portion of the light-diffusing sleeve.
After the bottom cover is assembled with the opening of the housing, the inserting portion is inserted into the opening, the top portion of the inserting portion abuts against the light-diffusing sleeve, the inserting portion pushes the light-diffusing sleeve to move upwardly, then the top portion of the light-diffusing sleeve abuts against the edge of the bottom portion of the atomizing assembly, the light-diffusing sleeve pushes the atomizing assembly to move upwardly, and since the accommodating space has the conical structure with the small top and the large bottom, the shape of the outside wall of the atomizing assembly is matched with the shape of the accommodating space, and the shape of the light-diffusing sleeve is matched with the shape of the lower cavity, then the atomizing assembly is firmly fixed in the conical accommodating space and the light-diffusing sleeve is firmly fixed in the conical lower cavity, so that the atomizing assembly, the light-diffusing sleeve, the bottom cover and the housing are assembled more conveniently.
In some embodiments, a bottom portion of an outside wall of the housing is provided with a first annular groove, a top portion of an outside wall of the bottom cover is provided with a second annular groove, the first annular groove is connected with the second annular groove from top to bottom, the electronic atomizer further comprises a fixing ring, and an inner hole of the fixing ring is in interference fit with the first annular groove and the second annular groove.
The fixing ring is in interference fit with the first annular groove and the second annular groove, which means that the fixing ring connects the top portion of the bottom cover with the bottom portion of the housing from the outside, thus improving a connection strength between the bottom cover and the housing.
In some embodiments, a top wall of the upper cavity is provided with a through E-liquid filling hole, the electronic atomizer further comprises a plug and a suction nozzle, the plug is detachably plugged in the E-liquid filling hole, the suction nozzle is detachably connected with a top portion of the housing, the suction nozzle covers the E-liquid filling hole, and a bottom portion of the suction nozzle abuts against a top portion of the plug.
The plug is used to plug the E-liquid filling hole in the top wall of the upper cavity, and the suction nozzle is detachably connected with the top portion of the housing to enable the plug to be pressed down into the E-liquid filling hole, thus avoiding the plug from being loosened from the E-liquid filling hole.
In some embodiments, the top portion of the housing is provided with a concave cavity, the E-liquid filling hole and the gas outlet hole are both located in the concave cavity, a shape of the bottom portion of the suction nozzle is matched with a shape of the concave cavity, the bottom portion of the suction nozzle is embedded in the concave cavity, an outside wall of the bottom portion of the suction nozzle is in interference fit with an inside wall of the concave cavity, a middle portion of the suction nozzle is provided with a suction portion extending downwardly, a shape of the suction portion is matched with a shape of the gas outlet hole, the suction portion is inserted into the gas outlet hole, the suction portion is in interference fit with the gas outlet hole, and the suction portion is provided with a suction hole penetrating through up and down.
The bottom portion of the suction nozzle is in interference fit with the concave cavity at the top portion of the housing, and the suction portion of the suction nozzle is in interference fit with the gas outlet hole, so that the suction nozzle is detachably connected with the housing, and the suction hole in the suction portion is communicated with the gas outlet hole, thus being convenient for the user to smoke from the suction hole, and allowing the atomized gas to be smoked by the user from the suction hole.

BRIEF DESCRIPTION OF THE DRAWINGS

The present disclosure is further described below with reference to the accompanying drawings and embodiments.

FIG. 1 is an exploded view of an electronic atomizer in accordance with embodiments of the present disclosure.

FIG. 2 is a cross-sectional view of an electronic atomizer in accordance with embodiments of the present disclosure.

FIG. 3 is an enlarged view of a part A in FIG. 2 .

FIG. 4 is a cross-sectional and exploded view of an electronic atomizer in accordance with embodiments of the present disclosure.

FIG. 5 is a cross-sectional view of an atomizing assembly of an electronic atomizer in accordance with embodiments of the present disclosure.

FIG. 6 is an exploded view of a housing, a plug and a suction nozzle of an electronic atomizer in accordance with embodiments of the present disclosure.

The following elements correspond to the following reference numerals as listed: 100 refers to housing, 110 refers to accommodating space, 111 refers to upper cavity, 1111 refers to E-liquid filling hole, 112 refers to lower cavity, 1121 refers to gas inlet gap, 120 refers to mounting base, 121 refers to gas outlet hole, 130 refers to opening, 140 refers to first annular groove, 150 refers to fixing ring, 160 refers to plug, 170 refers to concave cavity, 200 refers to atomizing assembly, 201 refers to fixing base, 202 refers to sealing ring, 203 refers to atomizing core, 2031 refers to heating wire, 210 refers to gas flow channel, 220 refers to E-liquid inlet hole, 300 refers to E-liquid absorbing cotton, 400 refers to light-emitting element, 500 refers to light-diffusing sleeve, 600 refers to circuit board, 610 refers to storage battery, 700 refers to bottom cover, 710 refers to gas inlet hole, 720 refers to inserting portion, 730 refers to second annular groove, 800 refers to suction nozzle, 810 refers to suction portion, and 811 refers to suction hole.

DETAILED DESCRIPTION

Embodiments of the present disclosure are described below in detail. Examples of the embodiments are shown in the accompanying drawings. The same or similar numerals represent the same or similar elements or elements having the same or similar functions throughout the specification. The embodiments described below with reference to the accompanying drawings are exemplary, and are only used to explain the present disclosure but should not be construed as a limitation to the present disclosure.
In the description of the present disclosure, it should be understood that the orientations or positional relationships indicated by the terms such as “upper”, “lower”, “front”, “rear”, “left”, “right” and the like, refer to the orientations or positional relationships shown in the drawings, which are only intended to facilitate describing embodiments of the present invention and simplifying the description, and do not indicate or imply that the indicated devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot be understood as a limitation of the present invention.
In the description of the present disclosure, the term “several” if any refers to being one or more, the term “multiple” refers to being more than two, and the terms “greater than”, “less than”, “more than”, and the like are understood as not including this number, while the terms “above”, “below”, “within”, and the like are understood as including this number.
In the present disclosure, the terms “arrangement”, “installation”, “connection”, and the like should be understood in a broad sense unless otherwise specified and defined. The specific meaning of the above terms in the present disclosure may be reasonably determined according to specific contents of the technical solutions by those skilled in the art.
With reference to FIG. 1 to FIG. 6 , the following embodiments are made for an electronic atomizer of the present disclosure.
The electronic atomizer comprises a housing 100, a fixing ring 150, a plug 160, an atomizing assembly 200, an E-liquid absorbing cotton 300, a light-emitting element 400, a light-diffusing sleeve 500, a circuit board 600, a storage battery 610, a bottom cover 700 and a suction nozzle 800.
The housing 100 is made of a transparent poly cyclohexylenedimethylene terephthalate glycol-modified (PCTG) material, and the housing 100 is internally provided with an accommodating space 110, so that an internal structure of the accommodating space 110 may be observed through the housing 100. The accommodating space 110 has a conical structure with a small top and a large bottom, so that an inner diameter of the accommodating space 110 is gradually increased from top to bottom. A top portion of the housing 100 is provided with a concave cavity 170, and the concave cavity 170 is circular.
The atomizing assembly 200 is arranged in the accommodating space 110, and the atomizing assembly 200 comprises a fixing base 201, a sealing ring 202 and an atomizing core 203. A shape of the fixing base 201 is a circular truncated cone structure with a small top and a large bottom, the fixing base 201 is arranged in the accommodating space 110, and an outside wall of the fixing base 201 abuts against an inside wall of the accommodating space 110. The outside wall of the fixing base 201 is provided with an annular groove, the sealing ring 202 is arranged in the annular groove, the sealing ring 202 protrudes from the outside wall of the fixing base 201, and the sealing ring 202 seals the outside wall of the fixing base 201 with the inside wall of the accommodating space 110, so that the accommodating space 110 is divided into an upper cavity 111 and a lower cavity 112 up and down by the fixing base 201. A top wall of the upper cavity 111 is provided with a mounting base 120, and the mounting base 120 is provided with a gas outlet hole 121 penetrating through up and down. Mounting base 120 is a downward mounting base for upper cavity 111.
A middle portion of the fixing base 201 is provided with a mounting hole penetrating through up and down, the atomizing core 203 has a cylindrical structure extending up and down, the atomizing core 203 penetrates through the mounting hole, the atomizing core 203 is in interference fit with the mounting hole, and a sealing strip is arranged between an outside wall of the atomizing core 203 and an inside wall of the mounting hole, so that the atomizing core 203 is hermetically connected with the mounting hole. A middle portion of the atomizing core 203 is provided with a gas flow channel 210 penetrating through up and down, the gas flow channel 210 is sheathed on the mounting base 120, the gas flow channel 210 is in interference fit with the mounting base 120, and an inside wall of the gas flow channel 210 is sealed with an outside wall of the mounting base 120 by a sealing ring, so that the gas flow channel 210 communicates the gas outlet hole 121 with the lower cavity 112. A side wall of the atomizing core 203 is provided with an E-liquid inlet hole 220 penetrating through in a horizontal direction, the E-liquid inlet hole 220 communicates the upper cavity 111 with the gas flow channel 210, the E-liquid absorbing cotton 300 has a cylindrical structure, the E-liquid absorbing cotton 300 is arranged in the gas flow channel 210, and the E-liquid absorbing cotton 300 covers the E-liquid inlet hole 220. A bottom portion of the atomizing core 203 is provided with an E-liquid absorbing pad, the E-liquid absorbing pad is in a circular shape, and the E-liquid absorbing pad is arranged below a gap between the outside wall of the atomizing core 203 and the inside wall of the mounting hole. A heating wire 2031 is arranged in the gas flow channel 210, the heating wire 2031 is located in an inner hole of the E-liquid absorbing cotton 300, and two electrically connected end lines of the heating wire 2031 penetrate through the mounting hole in the fixing base 201 and then extend into the lower cavity 112.
A bottom wall of the concave cavity 170 is provided with an E-liquid filling hole 1111, the E-liquid filling hole 1111 is communicated with the upper cavity 111, and a shape of the plug 160 is matched with a shape of the E-liquid filling hole 1111. The plug 160 is made of silica gel, the plug 160 is inserted into the E-liquid filling hole 1111, and the plug 160 is in interference fit with the E-liquid filling hole 1111. A shape of a bottom portion of the suction nozzle 800 is matched with a shape of the concave cavity 170, a bottom wall of the suction nozzle 800 is inserted into the concave cavity 170, and the bottom portion of the suction nozzle 800 is in interference fit with the concave cavity 170. The bottom portion of the suction nozzle 800 abuts against a top portion of the plug 160, so that the plug 160 is tightly pressed into the E-liquid filling hole 1111. A middle portion of the suction nozzle 800 is provided with a suction portion 810 extending downwardly, the suction portion 810 is in a cylindrical shape, and a top end of the gas outlet hole 121 is communicated with the concave cavity 170. A shape of the suction portion 810 is matched with a shape of the gas outlet hole 121, the suction portion 810 is inserted into the gas outlet hole 121, and the suction portion 810 is in interference fit with the gas outlet hole 121. The suction portion 810 is provided with a suction hole 811 penetrating through up and down, and the suction hole 811 communicates the gas outlet hole 121 with the outside.
The light-diffusing sleeve 500 has a cylindrical structure, the light-diffusing sleeve 500 changes a traveling route of light by adding an inorganic or organic light-diffusing agent into poly methyl methacrylate (PMMA), poly carbonate (PC), polystyrene (PS), polypropylene (PP), high impact polystyrene (HIPS) and other base materials, or artificially adjusting the light through array arrangement of micro-feature structures on surfaces of the base materials, so that the light is refracted, reflected and scattered in different directions, thus fully diffusing the incident light to generate an optical diffusion effect. The light-diffusing sleeve 500 penetrates through the lower cavity 112, the lower cavity 112 has a conical structure with a small top and a large bottom, and a shape of the light-diffusing sleeve 500 is matched with a shape of the lower cavity 112. An outside wall of the light-diffusing sleeve 500 abuts against an inside wall of the lower cavity 112, and a top portion of the light-diffusing sleeve 500 abuts against an edge of a bottom portion of the fixing base 201. The storage battery 610 is arranged in an inner hole of the light-diffusing sleeve 500, and a gap is reserved between an outside wall of the storage battery 610 and a wall of the inner hole of the light-diffusing sleeve 500, so that air may flow between the outside wall of the storage battery 610 and the wall of the inner hole of the light-diffusing sleeve 500, and the two electrically connected end lines of the heating wire 2031 are electrically connected with the storage battery 610.
A bottom portion of an outside wall of the housing 100 is provided with a first annular groove 140, a top portion of an outside wall of the bottom cover 700 is provided with a second annular groove 730, and the first annular groove 140 is connected with the second annular groove 730. The fixing ring 150 is sheathed in the first annular groove 140 and the second annular groove 730, and an inner hole of the fixing ring 150 is in interference fit with the first annular groove 140 and the second annular groove 730. A bottom portion of the lower cavity 112 is provided with an opening 130, a top portion of the bottom cover 700 is provided with an inserting portion 720, and a shape of the inserting portion 720 is matched with a shape of the opening 130. The inserting portion 720 is inserted into the opening 130, the inserting portion 720 is in interference fit with the opening 130, and a top portion of the inserting portion 720 abuts against the bottom portion of the light-diffusing sleeve 500, so that the inserting portion 720 pushes the light-diffusing sleeve 500 to upwardly abut against the inside wall of the lower cavity 112 and the edge of the bottom portion of the fixing base 201, and the fixing base 201 is allowed to upwardly abut against the inside wall of the upper cavity 111 and the atomizing core 203, thus tightly sheathing the gas flow channel 210 of the atomizing core 203 at the bottom portion of the mounting base 120.
A bottom portion of the bottom cover 700 is provided with a gas inlet hole 710 penetrating through up and down, and the gas inlet hole 710 communicates the lower cavity 112 with the outside. The circuit board 600 is arranged in the lower cavity 112, a bottom portion of the circuit board 600 is connected with the top portion of the bottom cover 700, the circuit board 600 is electrically connected with the storage battery 610, and the circuit board 600 controls a connection between the storage battery 610 and the heating wire 2031. The circuit board 600 has a plate-like structure, the circuit board 600 extends in a horizontal direction, and a gas inlet gap 1121 is reserved between an outside wall of the circuit board 600 and an inside wall of the lower cavity 112. The gas inlet gap 1121 is staggered with the gas inlet hole 710, the gas inlet hole 710 is located at a middle portion of the bottom cover 700, and the gas inlet gap 1121 is located at an edge of the bottom cover 700. There is a plurality of light-emitting elements 400, and all light-emitting elements 400 are arranged at an edge of a top portion of the circuit board 600. The circuit board 600 is electrically connected with the light-emitting elements 400, and the circuit board 600 controls the light-emitting elements 400 to light up and off. All light-emitting elements 400 are sequentially arranged around an edge of the circuit board 600 at intervals, and the light-emitting elements 400 are adjacent to the gas inlet gap 1121.
The light-emitting element 400 lights up and emits light, and after the light is diffused through the light-diffusing sleeve 500, the diffused soft light is transmitted to the outside through the side wall of the housing 100, so that the lower cavity 112 forms soft illumination, which can illuminate the upper cavity 111, thus being convenient for a user to observe a storage volume of E-liquid in the upper cavity 111 in a dim environment.
In some embodiments, since the fixing base 201 may be made of a transparent plastic material, after the light emitted by the light-emitting element 400 is diffused through the light-diffusing sleeve 500, the diffused soft light can be directly illuminated into the upper cavity 111 through the fixing base 201.
The foregoing describes embodiments of the present disclosure in detail, but the present invention is not limited to the embodiments. Those skilled in the art may further make various equivalent modifications or substitutions without violating the spirit of the present disclosure, and these equivalent modifications or substitutions are included in the scope defined by the claims of the present application.

Claims

What is claimed is:

1. An electronic atomizer, comprising:

a housing with a transparent side wall, wherein the housing is internally provided with an accommodating space;

an atomizing assembly arranged in the accommodating space, wherein an outside wall of the atomizing assembly is sealed with an inside wall of the accommodating space, the atomizing assembly divides the accommodating space into an upper cavity and a lower cavity, a top wall of the upper cavity is provided with a mounting base extending downwardly, the mounting base is provided with a gas outlet hole penetrating through up and down, a bottom portion of the lower cavity is provided with an opening, the atomizing assembly is provided with a gas flow channel penetrating through up and down, the gas flow channel communicates the lower cavity with the gas outlet hole, a side wall of the atomizing assembly is provided with an E-liquid inlet hole, and the E-liquid inlet hole communicates the upper cavity with the gas flow channel;

an E-liquid absorbing cotton arranged in the gas flow channel, wherein the E-liquid absorbing cotton covers the E-liquid inlet hole;

a light-emitting element arranged in the lower cavity; and

a light-diffusing sleeve arranged in the lower cavity, wherein the light-diffusing sleeve has a cylindrical structure, and an outside wall of the light-diffusing sleeve abuts against an inside wall of the lower cavity.

2. The electronic atomizer of claim 1, wherein the electronic atomizer further comprises a circuit board, the circuit board is arranged in the lower cavity, the circuit board covers the opening, a gas inlet gap is reserved between an outside wall of the circuit board and the inside wall of the lower cavity, and the light-emitting element is arranged on the circuit board.

3. The electronic atomizer of claim 2, wherein the light-emitting element is arranged at an outer edge of the circuit board, and the light-emitting element is adjacent to the gas inlet gap.

4. The electronic atomizer of claim 2, wherein the electronic atomizer further comprises a storage battery, the storage battery is arranged in the lower cavity, and the storage battery is electrically connected with the circuit board.

5. The electronic atomizer of claim 2, wherein the electronic atomizer further comprises a bottom cover, the bottom cover covers the opening, the bottom cover is provided with a gas inlet hole penetrating through up and down, and the gas inlet hole is staggered with the gas inlet gap.

6. The electronic atomizer of claim 5, wherein a top portion of the bottom cover abuts against a bottom portion of the housing, the top portion of the bottom cover is provided with an inserting portion, a shape of a cross section of the inserting portion is matched with a shape of a cross section of the opening, the inserting portion is inserted into the opening, and the inserting portion is in interference fit with the opening.

7. The electronic atomizer of claim 6, wherein the accommodating space has a conical structure with a small top and a large bottom, a shape of an outside wall of the atomizing assembly is matched with a shape of the accommodating space, the outside wall of the atomizing assembly abuts against the inside wall of the accommodating space, a shape of the light-diffusing sleeve is matched with a shape of the lower cavity, a top portion of the light-diffusing sleeve abuts against an edge of a bottom portion of the atomizing assembly, and a top portion of the inserting portion abuts against a bottom portion of the light-diffusing sleeve.

8. The electronic atomizer of claim 7, wherein a bottom portion of an outside wall of the housing is provided with a first annular groove, a top portion of an outside wall of the bottom cover is provided with a second annular groove, the first annular groove is connected with the second annular groove from top to bottom, the electronic atomizer further comprises a fixing ring, and an inner hole of the fixing ring is in interference fit with the first annular groove and the second annular groove.

9. The electronic atomizer of claim 1, wherein a top wall of the upper cavity is provided with a through E-liquid filling hole, the electronic atomizer further comprises a plug and a suction nozzle, the plug is detachably plugged in the E-liquid filling hole, the suction nozzle is detachably connected with a top portion of the housing, the suction nozzle covers the E-liquid filling hole, and a bottom portion of the suction nozzle abuts against a top portion of the plug.

10. The electronic atomizer of claim 9, wherein the top portion of the housing is provided with a concave cavity, the E-liquid filling hole and the gas outlet hole are both located in the concave cavity, a shape of the bottom portion of the suction nozzle is matched with a shape of the concave cavity, the bottom portion of the suction nozzle is embedded in the concave cavity, an outside wall of the bottom portion of the suction nozzle is in interference fit with an inside wall of the concave cavity, a middle portion of the suction nozzle is provided with a suction portion extending downwardly, a shape of the suction portion is matched with a shape of the gas outlet hole, the suction portion is inserted into the gas outlet hole, the suction portion is in interference fit with the gas outlet hole, and the suction portion is provided with a suction hole penetrating through up and down.