CN213074429U - Electronic atomization device - Google Patents

Abstract

The utility model relates to an electronic atomization device, which comprises a main body, a light source and an air switch, wherein the main body comprises a main shell, an atomization component and a power supply component which are arranged in the main shell; the main shell comprises a light guide outer tube and a light reflection inner tube, the light guide outer tube is sleeved outside the light reflection inner tube, and an accommodating cavity is formed inside the light reflection inner tube and used for accommodating the atomization assembly and/or the power supply assembly; the light source is electrically connected with the power supply assembly, and light emitted by the light source can be led out through the light guide outer tube; the air switch is used for detecting the suction action and controlling the light source to work according to the detected signal. The utility model discloses an electron atomizing device, the light guide outer tube can be derived the light that the light source sent evenly, softly, and the availability factor of light can be improved to the reflection of light inner tube. When a user uses the electronic atomization device and sucks the liquid through the suction nozzle, light emitted by the light source is uniformly and softly guided out through the light guide outer tube, so that the working state of the electronic atomization device can be well displayed.

Description

Electronic atomization device

Technical Field

The utility model relates to an atomizing device technical field especially relates to an electronic atomizing device.

Background

The electronic atomization device can be applied to different fields according to different types of atomized liquid. When the atomized liquid is a liquid medicine, the electronic atomization device can be applied to the medical field; when the atomized liquid is tobacco tar, the electronic atomization device can be applied to the field of electronic cigarettes. In the field of electronic cigarettes, the portable small-smoke electronic cigarette has the characteristics of small volume, light weight, moderate smoke amount, simple maintenance and operation and the like, and is suitable for being carried about and frequently used. The disposable electronic cigarette can be manufactured due to simple structure principle and relatively low processing cost, and can realize variable shapes including various shapes such as a cylinder, a flat long strip, an ellipse, a water drop shape and the like, so that the disposable electronic cigarette has high market acceptance and wide audience range and is the mainstream form of the electronic cigarette. However, the working state of the disposable electronic cigarette in the market is generally indicated by a single LED lamp, and the indicating effect of the single LED lamp is poor.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need to provide an electronic atomizer to solve the above-mentioned problems.

The utility model discloses an electronic atomization device, which comprises a main body, a light source and an air switch, wherein the main body comprises a main shell, an atomization component and a power supply component which are arranged in the main shell; the main shell comprises a light guide outer pipe and a light reflection inner pipe, the light guide outer pipe is sleeved outside the light reflection inner pipe, and an accommodating cavity is formed inside the light reflection inner pipe and used for accommodating the atomization assembly and/or the power supply assembly; the light source is electrically connected with the power supply assembly, and light emitted by the light source can be led out through the light guide outer tube; the air switch is used for detecting the suction action and controlling the light source to work according to the detected signal.

In one embodiment, the electronic atomization device further includes a base, the base is connected to the bottom of the main body, a containing groove is formed in the base, the light source is disposed in the containing groove, and one end of the main housing, which is close to the base, is located in the containing groove and used for guiding out light emitted by the light source.

In one embodiment, the base comprises a seat shell disposed around the exterior of the base, the seat shell being made of a light-impermeable material, the seat shell being disposed around the exterior of the main housing near one end of the base. Thereby, the pedestal shell can shelter from the electronic components in the base on the one hand, and on the other hand can make the light that the light source sent derive by the leaded light outer tube better, avoids or reduces light and reveals from the junction of base and main casing body.

In one embodiment, the light emitting surface of the light source faces the light guide outer tube, the optical axis of the light source is parallel to the light guide outer tube, and the extension line of the optical axis of the light source penetrates through the tube wall of the light guide outer tube.

In one embodiment, an end of the base, which faces away from the main body, is provided with a USB interface for connecting an external power supply to charge the power supply assembly. Thereby make the electron atomizer can realize the used of recharging.

In one embodiment, the electronic atomization device further comprises a suction nozzle, an air passage is formed inside the atomization assembly, and the suction nozzle is communicated with the air passage.

In one embodiment, the atomization component comprises a liquid storage part and a heating component, wherein the heating component is used for heating atomized liquid in the liquid storage part to form atomized steam, and the atomized steam can be discharged through an air passage and a suction nozzle in sequence.

In one embodiment, the atomizing assembly further comprises a liquid storage barrel, the liquid storage barrel comprises a first barrel wall and a second barrel wall, the first barrel wall is sleeved outside the second barrel wall, the liquid storage part is arranged between the first barrel wall and the second barrel wall, the air passage is formed in the second barrel wall, the heating assembly is arranged in the air passage, and at least one end of the heating assembly extends to the inside of the liquid storage part.

In one embodiment, the heating assembly comprises a liquid guiding part and a heating wire wound on the liquid guiding part, wherein at least one end of the liquid guiding part extends into the liquid storage part; the atomization assembly further comprises a fixing assembly used for fixing the heating assembly in the air passage.

In one embodiment, the electronic atomization device further comprises a first seal for sealing a top end of the cartridge and a second seal for sealing a bottom end of the cartridge; a first through hole is formed in the first sealing element and is used for communicating the air passage with the suction nozzle; and a second through hole is formed in the second sealing element and used for a power supply wire to pass through, so that the heating assembly is electrically connected with the power supply assembly.

In one embodiment, the electronic atomization device further includes a wicking member located between the suction nozzle and the first seal member for absorbing condensate at the suction nozzle.

In one embodiment, the liquid storage part is liquid storage cotton, the liquid guide part is liquid guide cotton, the liquid absorption part is liquid absorption cotton, and the first sealing part and the second sealing part are both made of silica gel materials.

In one embodiment, the light sources are LED lamps, the number of the LED lamps is two or more, the LED lamps form a circle, and an extension line of an optical axis of each LED lamp correspondingly penetrates through a tube wall of the light guide outer tube.

In one embodiment, the electronic atomization device further comprises a controller, the LED lamps have different light emitting colors and different light emitting sequences, and the controller is electrically connected with the air switch and used for controlling the LEDs to emit light according to the detection signal of the air switch.

The utility model discloses an electronic atomization device, its beneficial effect does:

the utility model discloses an electronic atomization device, through the structure of the reasonable main casing body that sets up to and the main casing body and the position of light source, relation of connection, the main casing body includes leaded light outer tube and reflection of light inner tube, and the outer cover of leaded light is established in the outside of reflection of light inner tube, and the leaded light outer tube is used for exporting the light that the light source sent evenly, softly, and reflection of light inner tube is arranged in reflecting the light back to the leaded light outer tube with the light of directive reflection of light inner tube, thereby improves the availability. When the user uses electronic atomization device and through the suction of suction nozzle, can produce the air current flow in the air flue, air switch detects the air current flow, and then the control light source is luminous, and the light that the light source sent is evenly, derived softly through the leaded light outer tube to can show electronic atomization device's operating condition well, can bring fine use for the user and experience.

Drawings

Fig. 1 is a schematic view of an overall structure of an electronic atomization device according to an embodiment of the present invention.

Fig. 2 is a longitudinal cross-sectional view of an electronic atomizer according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is the utility model discloses a structural schematic diagram after the LED lamp that embodiment provided is fixed on the lamp plate.

Fig. 5 is a schematic diagram of an electrical connection relationship between electronic components in the electronic atomization device according to an embodiment of the present invention.

Reference numerals:

the light source device comprises a main body 100, a main shell 110, a light guide outer tube 111, a light reflection inner tube 112, an accommodating cavity 113, an atomization component 120, an air passage 121, a liquid storage barrel 130, a first barrel wall 131, a second barrel wall 132, a liquid storage component 133, a heating component 140, a heating wire 141, a fixing component 150, a body 151, a connecting rod 152, a hole position 153 and a power supply component 160; a first sealing member 170, a first through hole 171, a second sealing member 180, a second through hole 181, a liquid absorbing member 190; a suction nozzle 200; a base 300, a USB interface 310, an air inlet 320, a containing groove 330 and a seat body shell 340; light source 400, lamp panel 410; air switch 500, controller 600.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not 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 at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

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

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment. In addition, it should be noted that, in the sectional views in the drawings herein, the hatching is provided to more clearly illustrate the specific structure of the embodiments of the present invention, and in a sectional view, the same hatching schematically represents the same component or represents different components made of the same material, and the shape of the hatching, including the inclination angle and the spacing distance, does not strictly follow the hatching setting for different materials in the mechanical drawing. For example, in the drawings herein, the hatching inclined at 45 ° does not necessarily represent a metal material, but may represent other non-metal materials.

The electronic atomization device can be applied to different fields according to different types of atomized liquid. When the atomized liquid is a liquid medicine, the electronic atomization device can be applied to the medical field; when the atomized liquid is tobacco tar, the electronic atomization device can be applied to the field of electronic cigarettes. In the field of electronic cigarettes, the portable small-smoke electronic cigarette has the characteristics of small volume, light weight, moderate smoke amount, simple maintenance and operation and the like, and is suitable for being carried about and frequently used. The disposable electronic cigarette can be manufactured due to simple structure principle and relatively low processing cost, and can realize variable shapes including various shapes such as a cylinder, a flat long strip, an ellipse, a water drop shape and the like, so that the disposable electronic cigarette has high market acceptance and wide audience range and is the mainstream form of the electronic cigarette. However, the working state of the disposable electronic cigarette in the market is generally indicated by a single LED lamp, and the indicating effect of the single LED lamp is poor.

In order to solve the above problem, the utility model provides an electronic atomization device. In one embodiment, the electronic atomizer is constructed as shown in fig. 1, and includes a main body 100, a suction nozzle 200, and a base 300, wherein the suction nozzle 200 is connected to the top end of the main body 100, and the base 300 is connected to the bottom end of the main body 100. Fig. 2 and 3 show a longitudinal sectional view of the electronic atomizer shown in fig. 1, the electronic atomizer includes a main body 100, a light source 400, and an air switch 500, wherein the main body 100 includes a main housing 110, and an atomizing assembly 120 and a power supply assembly 160 disposed in the main housing 110; the main casing body 110 includes light guide outer tube 111 and reflection of light inner tube 112, and light guide outer tube 111 cover is established in reflection of light inner tube 112's outside, and light guide outer tube 111 is used for deriving light, and reflection of light inner tube 112 is used for the reflection of light for light is better by the outside of light guide outer tube 111 direction electron atomizing device, improves the availability factor of light. The reflective inner tube 112 is formed with a receiving chamber 113 therein for receiving the atomizing assembly 120 and the power supply assembly 160. As shown in fig. 1, an end surface of the base 300 facing away from the main body 100 is provided with a USB interface 310 and an air inlet 320. The USB interface 310 is used to connect an external power source, so as to charge the power supply component 160 in the electronic atomizer, thereby enabling the electronic atomizer to be used repeatedly.

In a specific embodiment, the light reflecting inner tube 112 is a white stainless steel tube for shielding the components inside the main body 100 and improving the strength of the main housing 110, and for reflecting light, so that the light is better guided to the outside of the electronic atomization device by the light guiding outer tube 111, and the utilization efficiency of the light is improved. In one embodiment, the light guide outer tube 111 is formed by printing light guide points on the bottom surface of an optical acrylic plate by using an optical acrylic/PC plate and then using a high-tech material with a very high refractive index and no light absorption through laser engraving, V-cross grid engraving, and UV screen printing. The optical acrylic sheet is used for absorbing the light emitted from the light source 400 to stay on the surface of the optical acrylic sheet, when the light rays irradiate each light guide point, the reflected light can be diffused towards each angle, and then the reflection condition is destroyed to be emitted from the front surface of the light guide outer tube 111. The light guide outer tube 111 can uniformly emit light through various light guide points with different densities and sizes. The light reflecting inner tube 112 serves to reflect light emitted toward the light reflecting inner tube 112 back into the light guiding outer tube 111, thereby improving the use efficiency of light.

In addition, as shown in fig. 2, the base 300 is connected to the bottom of the main body 100, a receiving groove 330 is formed in the base 300, the light source 400 is disposed in the receiving groove 330, and one end of the main housing 110 close to the base 300 is disposed in the receiving groove 330 for guiding out light emitted by the light source 400. The light source 400 is electrically connected to the power supply module 160, and light emitted from the light source 400 can be guided out through the light guide outer tube 111. In a specific embodiment, a light emitting surface of the light source 400 faces the light guide outer tube 111, an optical axis of the light source 400 is parallel to the light guide outer tube 111, and an extension line of the optical axis of the light source 400 penetrates through a tube wall of the light guide outer tube 111, so that light emitted by the light source 400 can be better guided out through the light guide outer tube 111.

In addition, as shown in fig. 2, the base 300 includes a base shell 340 annularly disposed outside the base 300, the base shell 340 is made of opaque material, the base shell 340 is tightly sleeved outside the end of the main housing 110 close to the base 300, so that the end of the outer tube of the catheter close to the base 300 is clamped between the base shell 340 and the inner reflective tube 112. Therefore, the seat shell 340 can shield the electronic components in the base 300 on the one hand, and on the other hand, can lead the light emitted by the light source 400 out of the light guide outer tube 111 better, thereby avoiding or reducing the leakage of the light from the connection between the base 300 and the main shell 110. In addition, as shown in fig. 2, an air switch 500 is provided in the receiving chamber 113 at an end of the main body 100 adjacent to the base 300, for detecting a suction action and controlling the operation of the light source 400 according to the detected signal.

As shown in fig. 2, an air passage 121 is formed inside the atomizing assembly 120, and the suction nozzle 200 is in communication with the air passage 121. The atomization assembly 120 comprises a liquid storage barrel 130, a liquid storage part 133 and a heating assembly 140, wherein the heating assembly 140 is used for heating atomized liquid in the liquid storage part 133 to form atomized steam, and the atomized steam can sequentially pass through the air passage 121 and the suction nozzle 200 to be discharged. Specifically, the liquid storage barrel 130 includes a first barrel wall 131 and a second barrel wall 132, the first barrel wall 131 is sleeved outside the second barrel wall 132, the liquid storage part 133 is disposed between the first barrel wall 131 and the second barrel wall 132, the air passage 121 is formed in the second barrel wall 132, the heat generating component 140 is disposed in the air passage 121, and two opposite ends of the heat generating component 140 extend into the liquid storage part 133. In a specific embodiment, the heat generating component 140 includes a liquid guiding member and a heat generating wire (not shown in fig. 3) wound around the liquid guiding member, and both opposite ends of the liquid guiding member extend into the liquid storage member 133; the atomizing assembly 120 further includes a fixing assembly 150 for fixing the heat generating assembly 140 in the air passage 121. In a specific embodiment, the fixing assembly 150 includes a body 151 and a connecting rod 152, the body 151 is located between the second cylinder wall 132 and the liquid storage part 133, one end of the connecting rod 152 is connected to the body 151, the other end is located in the air channel 121, one end of the connecting rod 152 facing away from the body 151 is provided with a hole 153, and a portion of the heating assembly 140 is clamped in the hole 153, so that the heating assembly 140 is fixed in the air channel 121.

In a specific embodiment, the liquid storage component 133 can be liquid storage cotton, and the liquid guiding component can be liquid guiding cotton. While in the embodiment shown in fig. 2 and 3, opposite ends of the fluid-directing member extend into the interior of the reservoir 133, it will be appreciated that in other embodiments, one end of the fluid-directing member extends into the interior of the reservoir 133. The atomized liquid in the liquid storage part 133 reaches the heating wire 141 through the liquid guiding part, and can be heated and atomized.

In addition, as shown in fig. 2, the electronic atomization device further includes a first sealing member 170, a second sealing member 180, and a liquid suction member 190, the first sealing member 170 is used for sealing the top end of the reservoir 130, and the second sealing member 180 is used for sealing the bottom end of the reservoir 130; a first through hole 171 is formed in the first sealing member 170, and the first through hole 171 is used for communicating the air passage 121 and the suction nozzle 200; the second sealing member 180 has a second through hole 181 formed therein for passing a power supply line therethrough, so that the heat generating component 140 is electrically connected to the power supply component 160. A liquid absorbing member 190 is located between the mouthpiece 200 and the first seal member 170 for absorbing condensate at the mouthpiece 200. In a particular embodiment, the wicking member 190 is wicking cotton and the first and second sealing members 170, 180 are each made of silicone material.

In one embodiment, the light source 400 is an LED lamp, the electronic atomization device further includes a lamp panel 410, the lamp panel 410 is disposed in the base 300, the number of the LED lamps is two or more, and the LED lamps are fixed on the lamp panel 410 and electrically connected to a circuit structure on the lamp panel 410. In a specific embodiment, the number of the LED lamps is eight, and the structure after the LED lamps are fixed on the lamp panel 410 is as shown in fig. 4, the eight LED lamps are uniformly distributed on the periphery of the lamp panel 410, the LED lamps form a circle, an optical axis extension line of each LED lamp correspondingly penetrates through the tube wall of the light guide outer tube 111, so that light emitted by each LED lamp can be LED out through the light guide outer tube 111. In one embodiment, the light emission colors of different LED lamps are the same and are uniformly controlled. The electronic atomization device further comprises a controller 600, wherein the controller 600 is electrically connected with the air switch 500 and is used for controlling the LED to emit light according to the detection signal of the air switch 500. In one embodiment, the power supply assembly 160, the heating wire 141, the USB interface 310, the air switch 500, the controller 600, and the LED lamp are electrically connected as shown in fig. 5, when a user uses the electronic atomization device and sucks air through the suction nozzle 200, airflow flowing is generated in the air passage 121, the air switch 500 detects the airflow flowing, and transmits a detection signal to the controller 600, on one hand, the controller 600 controls the heating wire 141 to work, so that the heating wire 141 heats atomized liquid in the liquid storage component 133 to generate atomized vapor, on the other hand, the LED lamp is controlled to emit light, and light emitted by the LED lamp is uniformly and softly guided out through the light guide outer tube 111, so that the working state of the electronic atomization device can be well displayed, and good use experience is brought to the user.

In another embodiment, the lighting colors and lighting sequences of different LED lamps are different. For example, when a user uses the electronic atomization device and sucks air through the suction nozzle 200, an airflow flow is generated in the air passage 121, the airflow flow is detected by the air switch 500, and a detection signal is transmitted to the controller 600, and the controller 600 controls the operation of the heating wire 141 on the one hand, so that the heating wire 141 heats the atomized liquid in the liquid storage part 133 to generate atomized steam; on the other hand, the LED lamps of different light emission colors are controlled to emit light according to a predetermined sequence. The light that different luminescent color's LED lamp sent can be derived through leaded light outer tube 111 to can show electron atomizing device's operating condition better, can bring better use for the user and experience.

In addition, it should be noted that the utility model discloses an electronic atomization device can be applied to different fields according to the kind difference of atomized liquid. When the atomized liquid is a liquid medicine, the electronic atomization device can be applied to the medical field; when the atomized liquid is tobacco tar, the electronic atomization device can be applied to the field of electronic cigarettes.

The utility model discloses an electronic atomization device, through the reasonable structure that sets up main casing body 110, and main casing body 110 and light source 400's position, the relation of connection, main casing body 110 includes leaded light outer tube 111 and reflection of light inner tube 112, leaded light outer tube 111 cover is established in reflection of light inner tube 112's outside, leaded light outer tube 111 is used for evenly, softly deriving the light that light source 400 sent, reflection of light inner tube 112 is arranged in returning leaded light outer tube 111 to the light reflection of directive reflection of light inner tube 112, thereby the availability factor of light is improved. When the user uses electronic atomization device and when sucking through suction nozzle 200, can produce the air current flow in air flue 121, air switch 500 detects the air current flow, and then the control light source is luminous, and the light that the light source sent is evenly, gently derived through leaded light outer tube 111 to can show electronic atomization device's operating condition well, can bring fine use experience for the user.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (11)

1. An electronic atomization device, comprising:

the main body comprises a main shell, and an atomizing component and a power supply component which are arranged in the main shell; the main shell comprises a light guide outer pipe and a light reflection inner pipe, the light guide outer pipe is sleeved outside the light reflection inner pipe, and an accommodating cavity is formed inside the light reflection inner pipe and used for accommodating the atomization assembly and/or the power supply assembly;

the light source is electrically connected with the power supply assembly, and light emitted by the light source can be led out through the light guide outer tube; and

and the air switch is used for detecting the suction action and controlling the light source to work according to the detected signal.

2. The electronic atomizer device according to claim 1, further comprising a base, wherein the base is connected to a bottom of the main body, a receiving groove is formed in the base, the light source is disposed in the receiving groove, and an end of the main housing adjacent to the base is disposed in the receiving groove for guiding light emitted from the light source.

3. The electronic atomizer device of claim 2, wherein said base comprises a housing shell disposed around an exterior of said base, said housing shell being formed of a light-impermeable material, said housing shell being disposed around an exterior of said main housing proximate an end of said base.

4. The electronic atomization device of claim 2, wherein a light emitting surface of the light source faces the light guide outer tube, an optical axis of the light source is parallel to the light guide outer tube, and an extension line of the optical axis of the light source penetrates through a tube wall of the light guide outer tube.

5. The electronic atomizer device of claim 2, wherein an end of said base facing away from said main body is provided with a USB port for connecting an external power source to charge said power supply assembly.

6. The electronic atomizer device according to claim 1, further comprising a suction nozzle, wherein an air passage is formed inside the atomizer assembly, and the suction nozzle is in communication with the air passage.

7. The electronic atomization device of claim 6, wherein the atomization assembly comprises a liquid storage part and a heating assembly, the heating assembly is used for heating atomized liquid in the liquid storage part to form atomized vapor, and the atomized vapor can be discharged through the air passage and the suction nozzle in sequence.

8. The electronic atomizing device of claim 7, wherein the atomizing assembly further includes a reservoir, the reservoir includes a first wall and a second wall, the first wall is disposed outside the second wall, the reservoir is disposed between the first wall and the second wall, the air channel is formed in the second wall, the heat-generating assembly is disposed in the air channel, and at least one end of the heat-generating assembly extends into the reservoir.

9. The electronic atomization device of claim 8, wherein the heat-generating component comprises a liquid guide member and a heat-generating wire wound on the liquid guide member, at least one end of the liquid guide member extends into the liquid storage member; the atomization assembly further comprises a fixing assembly used for fixing the heating assembly in the air passage.

10. The electronic atomization device of any one of claims 1 to 9, wherein the light sources are LED lamps, the number of the LED lamps is two or more, the LED lamps form a circle, and an extension line of an optical axis of each LED lamp correspondingly penetrates through a tube wall of the light guide outer tube.

11. The electronic atomizer device according to claim 10, further comprising a controller, wherein the LED lights are illuminated in different colors and in different orders, said controller being electrically connected to said air switch for controlling the LEDs to illuminate in response to a detection signal from said air switch.

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