atomizing device

CN224420123UActive Publication Date: 2026-06-30深圳市好奇探索科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
深圳市好奇探索科技有限公司
Filing Date
2025-06-13
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

In existing atomizing devices, smoke accumulates at the bottom of the smoke chamber due to gravity, leading to liquid buildup, which corrodes electronic components and affects the appearance.

Method used

An atomizing component and a fan are installed in the atomizing device. A first air outlet is set at the bottom of the smoke chamber. The fan blows the smoke out from the bottom of the smoke chamber to prevent smoke accumulation. A liquid collection tank is formed at the bottom of the guide to store the liquid.

Benefits of technology

This effectively prevents the accumulation of smoke into liquid due to gravity, thus preventing the liquid from corroding electronic components, while also improving the aesthetics and safety of the device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model provides an atomizing device. The atomizing device includes an atomizing body, an atomizing component, and a fan; an outer cover, which is arranged around the atomizing body, and a smoke chamber communicating with the atomizing component is formed between the outer cover and the atomizing body. The top of the smoke chamber is provided with a fragrance dispersing port, and the bottom of the smoke chamber is provided with a first air outlet communicating with the fan. By providing a first air outlet at the bottom of the smoke chamber, this embodiment allows the fan to blow away the smoke near the bottom of the smoke chamber, preventing the smoke from accumulating at the bottom of the chamber due to gravity and forming liquid accumulation, thereby preventing liquid from penetrating and corroding electronic components, and also improving aesthetics.
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Description

Technical Field

[0001] This utility model relates to the field of atomization technology, and in particular to an atomization device. Background Technology

[0002] For aesthetic purposes, existing atomizing devices incorporate a visible smoke chamber, where the smoke creates a visual spectacle. Due to gravity, the smoke typically flows from top to bottom, and to enhance the viewing experience, the outlet is usually located at the top of the smoke chamber. Therefore, after flowing downwards, the smoke needs to be expelled upwards. However, due to gravity, the smoke accumulates at the bottom of the chamber. When the smoke cools, it forms liquid, which can easily seep into and corrode electronic components, and also negatively impacts the appearance. Utility Model Content

[0003] Therefore, in order to overcome at least some of the defects and deficiencies in the prior art, this utility model provides an atomizing device.

[0004] Specifically, the atomizing device provided in this embodiment of the present invention includes: an atomizing body, which is provided with an atomizing component and a fan;

[0005] An outer cover is disposed on the atomizing body, and a smoke chamber communicating with the atomizing component is formed between the outer cover and the atomizing body, and the smoke generated by the atomizing component can enter the smoke chamber; a fragrance dispersing port is provided at the top of the smoke chamber, and a first air outlet communicating with the fan is provided at the bottom of the smoke chamber.

[0006] In one specific embodiment of this utility model, the atomizing body includes a guide member and a base connected to each other, the outer cover is connected to the base and covers the outside of the guide member, and the guide member is located at the bottom of the smoke chamber; the smoke generated by the atomizing component enters the smoke chamber and can flow along the surface of the guide member; the first air outlet is provided on the guide member.

[0007] In a specific embodiment of this utility model, the atomizing body is provided with a first mist outlet, which is connected to the mist outlet channel of the atomizing component and the atomizing cavity respectively. In the height direction of the atomizing device, the first mist outlet is located above the first air outlet.

[0008] In one specific embodiment of this utility model, the first air outlet is located at the bottom end of the guide member; the first air outlet is located near the outer cover relative to the center of the guide member, or the first air outlet is located adjacent to the outer cover.

[0009] In one specific embodiment of this utility model, the air guide is provided with an air guide hood on the side of the air guide facing the smoke chamber. The air guide hood connects the air outlet of the fan and the smoke chamber. One end of the air guide hood is connected to the air guide, and the other end forms the first air outlet.

[0010] In one specific embodiment of this utility model, the first air outlet is arranged toward the central axis of the atomizing body, or the first air outlet is arranged toward the circumference of the outer cover.

[0011] In one specific embodiment of this utility model, there are two first air outlets, which are arranged opposite to each other on the air guide cover along the circumferential direction of the outer cover.

[0012] In one specific embodiment of this utility model, the first air outlet is disposed facing the outer cover, and the wind guide shroud is provided with a wind-blocking part at the top of the first air outlet, the wind-blocking part protruding from the wind guide shroud towards the outer cover.

[0013] In one specific embodiment of this utility model, the air guide hood has an air outlet channel, one end of which passes through the air guide member and the other end is connected to the first air outlet. The air outlet channel is arranged in a spiral structure, or the end of the air outlet channel near the first air outlet forms an arc structure, and the arc structure bends from the bottom of the smoke chamber upwards and toward the horizontal plane.

[0014] In one specific embodiment of this utility model, the angle between the air outlet direction of the first air outlet and the radial extension direction of the atomizing body is greater than 0 degrees and less than 180 degrees.

[0015] In one specific embodiment of this utility model, the base is provided with a protrusion on the side facing the smoke chamber, the protrusion is provided on the bottom periphery of the guide member, and the protrusion and the bottom of the guide member form a liquid accumulation groove.

[0016] In one specific embodiment of this utility model, the atomizing device further includes a button, which is located on the outer circumferential side of the base. In the horizontal direction, the air guide and the button are located at opposite ends of the air guide.

[0017] As can be seen from the above, the atomizing device provided in this embodiment of the utility model is provided with an atomizing component and a fan inside the atomizing body. A smoke chamber is formed by placing an outer cover ring on the atomizing body. A fragrance dispersing port is provided at the top of the smoke chamber, and a first air outlet connected to the fan is provided at the bottom of the smoke chamber. Through the first air outlet at the bottom of the smoke chamber, the fan can blow away the smoke near the bottom of the smoke chamber, which can prevent the smoke from accumulating at the bottom of the chamber due to gravity and forming liquid accumulation, thereby preventing the liquid accumulation from penetrating and corroding electronic components, and also improving the aesthetics. Attached Figure Description

[0018] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0019] Figure 1 This is a schematic diagram of the structure of an atomizing device provided in an embodiment of the present utility model.

[0020] Figure 2 for Figure 1 A schematic diagram of the cross-sectional structure of the atomizing device.

[0021] Figure 3 for Figure 1 A schematic diagram of the exploded structure of the atomizing device.

[0022] Figure 4 for Figure 3 A magnified view of a portion of region A in the middle.

[0023] Figure 5 This is a schematic diagram of the structure of another atomizing body in the atomizing device provided in an embodiment of the present utility model.

[0024] Figure 6 This is a schematic diagram of the structure of another atomizing body in the atomizing device provided in the embodiment of this utility model.

[0025] Figure 7 This is a structural schematic diagram of another atomizing body in the atomizing device provided in the embodiment of this utility model.

[0026] Figure 8 for Figure 7 A magnified view of a portion of region B in the middle.

[0027] Figure 9 This is a structural schematic diagram of another atomizing body in the atomizing device provided in the embodiment of this utility model.

[0028] Figure 10 for Figure 1A schematic diagram of the atomizing device.

[0029] Figure 11 for Figure 1 Another cross-sectional structural diagram of the atomizing device.

[0030] Figure 12 for Figure 10 A schematic diagram of the exploded structure of the atomizing main body.

[0031] Figure 13 for Figure 12 A partial exploded diagram of the atomizing main body.

[0032] Figure 14 for Figure 13 A schematic diagram of the structure of the central guide component.

[0033] Figure 15 for Figure 1 Another cross-sectional structural diagram of the atomizing device.

[0034] Figure 16 for Figure 15 A magnified view of a portion of region C in the middle.

[0035] Figure 17 for Figure 1 The diagram shows the exploded structure of the atomizing device.

[0036] Figure 18 for Figure 1 A schematic diagram of the exploded structure of the atomizing device from another angle.

[0037] Figure 19 An exploded view of another atomizing device provided in an embodiment of this utility model.

[0038] Figure 20 for Figure 1 Another cross-sectional structural diagram of the atomizing device.

[0039] Figure 21 for Figure 1 A partial exploded view of the atomizing device.

[0040] Figure 22 for Figure 21 A schematic diagram of the structure of the middle support connector.

[0041] Figure 23 for Figure 1 A schematic diagram of the exploded structure of another part of the atomizing device.

[0042] Figure 24 for Figure 23 A schematic diagram of the structure of the central guide component.

[0043] Figure 25 for Figure 23 A schematic diagram of the structure of a medium-sized wind turbine support.

[0044] Figure 26 for Figure 1 A cross-sectional structural diagram of the atomizing component.

[0045] Figure 27 for Figure 26 A schematic diagram of the exploded structure of the atomizing component.

[0046] Figure 28 for Figure 27 A schematic diagram of the structure of the first frame.

[0047] Figure 29A for Figure 27 A schematic diagram of the structure of a second frame.

[0048] Figure 29B for Figure 27 A schematic diagram of another type of second frame structure.

[0049] Figure 30 for Figure 29A A schematic diagram of the second frame from another angle.

[0050] Figure 31 for Figure 27 A schematic diagram of the upper and middle cover.

[0051] Figure 32 This is a schematic diagram of the structure of an atomizer provided in an embodiment of the present utility model.

[0052] Figure 33 for Figure 32 A schematic diagram of the atomizer from another angle.

[0053] Figure 34 for Figure 32 A schematic diagram of the exploded structure of an atomizer.

[0054] Figure 35 for Figure 33 A schematic diagram of the structure of a medium-sized atomizer.

[0055] Figure 36 for Figure 33 A schematic diagram of the exploded structure of a medium-sized atomizer.

[0056] Figure 37 for Figure 33 A partial exploded view of the atomizer.

[0057] Figure 38 for Figure 37 A schematic diagram of the circuit board structure.

[0058] Figure 39 for Figure 34An exploded view of the solar panel base.

[0059] Figure 40 for Figure 39 A schematic diagram of the structure of the conductive component.

[0060] Figure 41 for Figure 32 A cross-sectional structural diagram of an atomizer.

[0061] Figure 42 for Figure 41 A magnified view of a portion of region D in the middle.

[0062] Figure 43 for Figure 33 A schematic diagram of the exploded structure of another part of the atomizer.

[0063] Key component designations:

[0064] 1. Atomizing device; 10. Atomizing body; 11. Top; 13. Middle area; 20. Outer cover; 21. Free end; 22. Smoke chamber; 24. Mounting chamber; 30. Aroma outlet; 31. Shaping structure; 41. First light source assembly; 42. Second light source assembly; 43. Third light source assembly; 50. Electrical control assembly; 51. Main control circuit board; 52. Lamp board; 60. Main frame; 61. Through hole; 62. Light blocking component; 611. Receiving groove; 70. Cover; 71. Fixing component; 80. Light guide component; 90. Cover; 91. Circuit board mounting part; 92. Third protrusion; 93. Mist collection space; 94. Gap; 100. Atomizing group Components; 101, First mist outlet; 102, Second mist outlet; 110, First frame; 111, First mounting groove; 112, Second mounting groove; 113, Mist outlet channel; 114, Air inlet channel; 1141, Second air inlet; 1142, Guide part; 1143, Air guide opening; 120, Second frame; 1200, Second protrusion; 1210, First through hole; 1220, Second through hole; 1230, Light guide column; 1240, Positioning part; 1250, Pressure relief part; 130, Upper cover; 1300, Sealing ring; 1310, Light hole; 140, Liquid storage component; 150, Atomizing component; 160, First circuit board; 161, Lamp Components: 200, bottom housing; 201, first air inlet; 202, fourth through hole; 203, first magnetic component; 300, air guide; 301, second air outlet; 310, air intake channel; 320, wiring channel; 330, air guide cover; 331, first air outlet; 332, wind deflector; 340, protrusion; 350, first protrusion; 360, support column; 400, charging interface; 500, top frame; 600, sealing component; 710, fan; 711, first fan; 712, second fan; 720, battery; 730, fan bracket; 740, wind deflector; 731, first fan housing; 732, second fan. 733, Receiving section; 734, Third air outlet; 735, Fourth air outlet; 736, Partition; 737, Copper pillar clearance; 750, Charging plate; 751, Third through hole; 752, Third conductive component; 760, Button; 761, Button circuit board; 2000, Solar base; 2100, Fifth through hole; 2200, Placement slot; 2300, First shield; 2400, Second shield; 2500, First anti-slip component; 2600, Second anti-slip component; 2700, Interface clearance; 3000, Solar panel; 4000, Conductive component; 4100, First conductive component; 4200, Second conductive component; 5000, Second magnetic component. Detailed Implementation

[0065] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments described in this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0066] It should be noted that all directional indicators (such as up, down, left, right, front, back, top, and bottom) in this utility model embodiment are only used to explain the relative positional relationship and movement of the components in a specific posture (as shown in the attached figure). If the specific posture changes, the directional indicator will also change accordingly. Furthermore, the term "vertical" in the utility model embodiments and claims refers to an angle of 90° between two components or a deviation of -5° to +5°, and the term "parallel" refers to an angle of 0° between two components or a deviation of -5° to +5°.

[0067] In this embodiment of the invention, the use of terms such as "first" and "second" is for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features.

[0068] See Figures 1 to 4 The atomizing device 1 provided in this embodiment of the utility model may specifically include, for example, an atomizing body 10 and an outer cover 20.

[0069] The atomizing body 10 is equipped with an atomizing component 100 and a fan 710. The atomizing component 100 is used to atomize the aromatherapy liquid, and the fan 710 is used to blow out the atomized smoke. An outer cover 20 is arranged around the atomizing body 10. The outer cover 20 can be, for example, a visible housing, and a smoke chamber 22 communicating with the atomizing component 100 is formed between the outer cover 20 and the atomizing body 10. An aroma dispersing port 30 is provided at the top of the atomizing body 10, which communicates with the smoke chamber 22. A first air outlet 331 communicating with the fan 710 is provided at the bottom of the smoke chamber 22. The atomizing component 100 atomizes the aromatherapy liquid to generate atomized liquid particles (hereinafter referred to as smoke). The smoke enters the smoke chamber 22. Due to gravity, the smoke flows to the bottom of the smoke chamber 22. A first air outlet 331 connected to the fan 710 is provided at the bottom of the smoke chamber 22. The air blown out by the fan 710 can blow the smoke at the bottom of the smoke chamber 22 clean through the first air outlet 331, so that the smoke is blown out through the aroma diffuser 30.

[0070] The atomizing device 1 provided in this embodiment of the utility model has an atomizing component 100 and a fan arranged inside the atomizing body 10. A smoke chamber 22 is formed by surrounding the atomizing body 10 with an outer cover 20. A fragrance outlet 30 is provided at the top of the atomizing body 10, and the fragrance outlet 30 is connected to the smoke chamber 22. In one embodiment, the atomizing body 10 is frustum-shaped, and the outer cover 20 is correspondingly frustum-shaped. A first air outlet 331 connected to the fan 710 is provided at the bottom of the smoke chamber 22. Through the first air outlet 331 at the bottom of the smoke chamber 22, the fan 710 can blow away the smoke near the bottom of the smoke chamber 22, which can prevent the smoke from accumulating at the bottom of the chamber due to gravity and forming liquid, thereby preventing the liquid from penetrating and corroding electronic components, and also improving the aesthetics.

[0071] See also Figure 3 The atomizing body 10 has a protrusion 340 near its bottom edge, which is located inside the smoke chamber 22. The protrusion 340 protrudes towards the smoke chamber 22 to form a liquid accumulation groove. In one embodiment, the atomizing body 10 includes a guide member 300 and a base connected to each other. A fan is located within the space enclosed by the guide member 300 and the base. A first air outlet 331 is located on the guide member 300. The protrusion 340 is located on the circumferential edge of the guide member 300 and protrudes towards the smoke chamber 22 to form a liquid accumulation groove. As the liquid particles liquefy upon cooling, they will form aromatherapy liquid in the smoke chamber 22 and flow down to the bottom of the atomizing body 10. The protrusion 340 allows the aromatherapy liquid to be stored in the liquid accumulation groove, preventing it from seeping out of the atomizing device 1 or penetrating and corroding electronic components, thereby avoiding damage to the user's environment and preventing damage to electronic components from the aromatherapy liquid.

[0072] In one embodiment of this invention, the atomizing body 10 is provided with a first mist outlet 101, which is connected to the mist outlet channel 113 of the atomizing component 100. The smoke generated by the atomizing component passes through the mist outlet channel 113 and the first mist outlet 101. The first mist outlet 101 is connected to the atomizing cavity 22, and the smoke flows out of the first mist outlet 101 and then into the atomizing cavity 22. Along the height direction of the atomizing device 1, the first mist outlet 101 is located above the first air outlet 331. The smoke flows out from the first mist outlet 101 located above. Because the smoke itself has gravity, the smoke flows downward to the bottom of the smoke cavity 22. The first air outlet 331 is located below the first mist outlet 101, so that the air from the fan 710 blows out from the first air outlet 331, ensuring that the smoke flows first and then is blown out of the smoke cavity by the wind, ensuring that the smoke flows and forms a shape, and improving the visual appeal. The first mist outlet 101 can be located at the top of the guide member 300, and the first air outlet 331 can be located at the bottom of the guide member 300.

[0073] In one embodiment of this invention, along the height direction of the atomizing device 1, the first air outlet 331 is located above the liquid accumulation tank, meaning that the height of the first air outlet 331 from the bottom of the liquid accumulation tank to the first air outlet 331 is greater than the depth of the liquid accumulation tank. This arrangement prevents the liquefied smoke from forming aromatherapy liquid and then seeping into electronic components through the first air outlet 331, thereby avoiding damage to the electronic components from the aromatherapy liquid.

[0074] In one embodiment of this invention, the first air outlet 331 is located at the bottom end of the guide member 300; the first air outlet 331 is positioned closer to the outer cover 20 relative to the center position or central axis of the guide member 300; since the guide member 300 is typically configured as Figure 15 and Figure 17 The cone-shaped structure protruding upwards as shown has its first air outlet 331 positioned approximately close to the outer cover 20. This placement closer to the bottom of the smoke chamber 22 facilitates more thorough exhaust of the smoke. Similarly, the guide member 300, located at the very bottom of the smoke chamber 22 and closest to the outer cover 20, is also positioned adjacent to the outer cover 20 to further facilitate its placement closer to the bottom of the smoke chamber 22.

[0075] Further, see Figure 5 The bottom of the guide member 300 is also provided with a guide shroud 330 that connects to the fan 710. The guide shroud 330 protrudes from the surface of the guide member 300 facing the smoke chamber 22. The first air outlet 331 is located on the guide shroud 330. One end of the guide shroud 330 is connected to the guide member 300, and the other end is provided with the first air outlet 331. The guide shroud 330 is located inside the smoke chamber 22. By setting the guide shroud 330, the height of the first air outlet 331 along the height direction of the smoke chamber 22 can be increased, and the smoke at the bottom of the smoke chamber 22 can be blown out, reducing smoke liquefaction, thereby further reducing liquid accumulation and preventing overflow or seepage into electronic components.

[0076] See also Figure 5 In one embodiment of this invention, the atomizing body 10 is frustum-shaped, and the outer casing 20 is correspondingly frustum-shaped. The first air outlet 331 may, for example, be positioned towards the central axis of the atomizing body 10. See also... Figure 6In another embodiment of this invention, the number of first air outlets 331 may be, for example, two. The two first air outlets 331 are located at the end of the air guide hood 330 away from the bottom of the smoke chamber 22, and are arranged opposite each other along the circumferential direction of the outer cover 20. This creates side-to-side airflow through the two first air outlets 331, thereby accelerating airflow and improving airflow efficiency, thus increasing the efficiency of smoke extraction. Furthermore, the first air outlets 331 are oriented towards the circumferential direction of the outer cover 20, and their orientation corresponds to the shape of the outer cover 20, so that the airflow is adapted to the smoke chamber 22 within the outer cover 20. Understandably, the air guide hood 330 has an air outlet channel that penetrates the air guide hood 330. The end of the air outlet channel near the first air outlet 331 is arranged along the circumferential direction of the outer cover 20, making the airflow from the air outlets flow more smoothly and orderly within the smoke chamber 22. In one embodiment, the air outlet channel near the first air outlet 331 forms an arc-shaped structure. The arc-shaped structure bends upward from the bottom of the smoke chamber 22 and toward the horizontal plane, so that the air blown out by the fan flows more smoothly in the air outlet channel and improves the air outlet efficiency.

[0077] See Figure 7 and Figure 8 In another embodiment of this invention, the first air outlet 331 is disposed facing the outer cover 20, and the top of the air guide hood 330 connected to the first air outlet 331 is provided with a windproof portion 332 extending towards the outer cover 20. The windproof portion 332 protrudes from the air guide hood 330 towards the outer cover 20. The air blown out of the first air outlet 331 first blows onto the outer cover 20, and then splits into two streams that blow out to both sides. Through the windproof portion 332, the air can be prevented from blowing upwards, thereby increasing the wind force and air volume of the air blown towards the smoke chamber 22, further improving the blowing efficiency, and thus improving the efficiency of smoke being blown out.

[0078] See Figure 9 In another embodiment of this invention, the first air outlet 331 is located at the end of the air guide hood 330 away from the bottom of the smoke chamber 22, and an air outlet channel is formed inside the air guide hood 330 from the bottom of the smoke chamber 22 to the first air outlet 331. The air outlet channel has a spiral structure. Further, the angle between the air outlet direction of the first air outlet 331 and the radial extension direction of the atomizing body 10 is greater than 0 degrees and less than 180 degrees. This arrangement allows the air blown from the first air outlet 331 to be directed in one direction, and the airflow spirals around the outer wall of the atomizing body 10, causing the blown smoke to spiral upwards, avoiding turbulence and improving atomization efficiency.

[0079] See Figure 10The outer cover 20 can be, for example, a tubular structure with openings at the top and bottom. The outer cover 20 is fitted onto the atomizing body 10 through these openings. The atomizing body 10 is located at the center inside the outer cover 20, and the outer wall of the atomizing body 10 and the inner wall of the outer cover 20 form a smoke chamber 22. The smoke generated by the atomizing component 100 first enters the smoke chamber 22 for the user to view. The outer cover 20 can be made of, for example, a transparent material, or it can have a viewing window, allowing the user to view the smoke inside the smoke chamber 22 through the outer cover 20. In this embodiment, the atomizing body 10 mainly includes the atomizing component 100 that generates smoke, the electronic control component 50 that controls the electronic components, and the fan 710 that provides airflow. The outer cover 20 is detachably connected to the atomizing body 10, allowing the outer cover 20 to be detached or installed relative to the atomizing body 10. A smoke chamber 22 is formed between the outer cover 20 and the atomizing body 10. The ends of the outer cover 20 and the atomizing body 10 are spaced apart in the horizontal direction. The gap between the outer cover 20 and the atomizing body 10 forms a fragrance dispersing opening 30, which communicates with the smoke chamber 22. The atomizing component 100 atomizes the aromatherapy, forming a smoke landscape within the smoke chamber 22, which is then dispersed through the fragrance dispersing opening 30.

[0080] The atomizing device 1 provided in this embodiment includes an atomizing body 10 and an outer cover 20. The outer cover 20 is circumferentially mounted on the atomizing body 10, and one end of the outer cover 20 is detachably connected to the atomizing body 10. A fragrance dispersing opening 30 is formed between the other end of the outer cover 20 and the atomizing body 10. The one end and the other end of the outer cover 20 can refer to opposite ends along the height direction of the outer cover 20, or two different ends in any direction on the outer cover 20. By detachably mounting the outer cover 20 on the atomizing body 10, after a period of use, the user only needs to remove the outer cover 20 to clean the accumulated fragrance liquid inside, improving the safety and aesthetics of the atomizing device 1. Furthermore, the disassembly and installation are convenient and efficient, further enhancing the user experience.

[0081] See Figure 10 and Figure 11 The atomizing body 10 may include, for example, a top end 11, a bottom end, and an intermediate region 13 disposed between the top end 11 and the bottom end. In one embodiment, the outer cover 20 is detachably connected to the bottom end of the atomizing body 10, the free end 21 of the outer cover 20 extends toward the top end 11 of the atomizing body 10, and the free end 21 and the top end 11 of the atomizing body 10 form a fragrance dispersing opening 30 at a distance, and the outer cover 20 and the intermediate region 13 form a smoke chamber 22. In another embodiment, the outer cover 20 is detachably connected to the top end 11 of the atomizing body 10, the free end 21 of the outer cover 20 may extend toward the bottom end of the atomizing body 10, for example, and the free end 21 and the bottom end are spaced apart to form a fragrance dispersing opening 30, and the outer cover 20 and the intermediate region 13 form a smoke chamber 22. Of course, this embodiment is not limited thereto.

[0082] Furthermore, the atomizing body 10 may, for example, include a first contracting portion, the size of which gradually decreases in the direction away from the top end 11, and the size of the first contracting portion may, for example, be the diameter of the atomizing body 10. The atomizing body 10 may, for example, include a second contracting portion, the size of which gradually decreases in the direction away from the bottom end, and the size of the second contracting portion may, for example, be the diameter of the second contracting portion. In one embodiment of this example, the atomizing body 10 may, for example, include a first contracting portion, or for example, include a second contracting portion. The atomizing body 10 may also, for example, include interconnected first and second contracting portions, forming two inverted triangular shapes, making the volume of the smoke cavity 22 larger and providing a better smoke viewing effect. The first and second contracting portions are, for example, located in the middle region 13 of the atomizing body 10.

[0083] Specifically, the atomizing body 10 may include, for example, a top frame 500 and a base arranged vertically opposite each other. The top frame 500 and the base are fixedly connected, with the top frame 500 located above the base. The top frame 500 and the base are connected by screws or snap-fits, for example. The top end 11 of the atomizing body 10 may be located on the top plate of the top frame 500, and the bottom end may be located on the bottom plate of the base, for example. The middle region 13 may be formed by removing the top plate of the top frame 500 and the bottom plate of the base after the top frame 500 is fixedly connected to the base. Both the top frame 500 and the base may be, for example, frustum structures, but this embodiment is not limited to this. The outer cover 20 may have a top that is close to the top end 11 of the atomizing body 10. The outer cover 20 may be detachably connected to the base, for example, and there is a gap between the top frame 500 and the top of the outer cover 20, such as a fragrance diffuser 30. Furthermore, a first contraction portion is provided on the top frame 500, which is, for example, the outer wall of the top frame 500. In this embodiment, the outer wall of the top frame 500 is, for example, the outer wall of the main frame 60. A second contraction portion may be provided on the base, which is, for example, the outer wall of the base. In this embodiment, the outer wall of the base is, for example, the outer wall of the guide member 300. The first contraction portion gradually decreases in size towards the base, and the second contraction portion gradually decreases in size towards the top frame 500. For example, the outer cover 20 is connected to the bottom end near the base. The closer it is to the bottom of the base, the larger the volume of the smoke cavity 22 formed by the outer cover 20 and the atomizing body 10 can be, allowing for a more direct observation of the smoke flow. The outer cover 20 extends from the connection point with the base towards the top end 11 of the atomizing body 10, so that the top of the outer cover 20 is adjacent to the top end 11 of the atomizing body 10, thus enclosing the entire atomizing body 10 as much as possible, making the appearance more aesthetically pleasing. In this embodiment, the outer cover 20 may be detachably connected only to the base, and the outer cover 20 is not connected to the top end 11. In one embodiment, the outer cover 20 and the base are threadedly connected. Specifically, for example, the bottom of the outer cover 20 is provided with a first thread structure, and the base is provided with a second thread structure. The first thread structure and the second thread structure match each other and can be connected to each other. When disassembling or installing, the user only needs to rotate the outer cover 20 to disassemble or install the outer cover 20 and the atomizing body 10. In another embodiment, the outer cover 20 and the base may also be connected by snap-fit, for example. Of course, this embodiment is not limited to this. The guide member 300 is provided with a protrusion 340 near the edge of the bottom housing 200. The protrusion 340 is located in the smoke chamber 22 and is connected to the outer cover 20. The protrusion 340 protrudes to the side facing the smoke chamber 22 to form a liquid accumulation groove. As the liquid particles liquefy upon cooling, they form aromatherapy liquid within the smoke chamber 22 and flow down to the bottom of the atomizing body 10. The protrusion 340 allows the aromatherapy liquid to be stored in the liquid collection tank.

[0084] See also Figure 11 A smoke chamber 22 is formed between the outer cover 20 and the atomizing body 10, and the aroma outlet 30 communicates with the smoke chamber 22. The atomizing component 100 is disposed inside the top frame 500. The smoke chamber 22 is used to straighten the aromatherapy smoke generated by the atomizing component 100 into a specific shape and diffuse it evenly, and then disperse it through the aroma outlet 30, thereby forming a visually appealing smoke landscape and enhancing its aesthetic appeal. In this embodiment, the outer cover 20 can be, for example, a 360° annular visible structure, that is, the outer cover 20 can be, for example, made of transparent material, through which the user can see the aromatherapy smoke inside the smoke chamber 22.

[0085] In one embodiment of this invention, the diameter of the top end 11 of the atomizing body 10 is smaller than the diameter of the bottom end of the base. The atomizing body 10 also includes an intermediate region 13 located between the top end 11 and the bottom end. The diameter of the intermediate region 13 is smaller than the diameter of the top end 11 and the diameter of the bottom end. For example, the cross-sectional diameter of the top frame 500 in the horizontal plane gradually decreases from the top end 11 towards the intermediate region 13, forming a tapered trapezoidal shape. The cross-sectional diameter of the base in the horizontal plane gradually decreases from the bottom end towards the intermediate region 13, forming a tapered trapezoidal shape. By making the diameter of the top end 11 of the atomizing body 10 smaller than the diameter of the base, the atomizing body 10 forms a structure that is smaller at the top and larger at the bottom. The entire atomizing device 1 also presents a columnar body with a cross-section of an equilateral trapezoid that is smaller at the top and larger at the bottom. This makes the atomizing device 1 more stable when placed on the center console of a car, improving the stability and aesthetics of the atomizing device 1. Furthermore, by setting the diameter of the middle region 13 to be smaller than the diameter of the top 11, and the diameter of the middle region 13 to be smaller than the diameter of the base, a smoke chamber 22 can be formed between the outer cover 20 and the middle region 13. The diameter of the top of the outer cover 20 is larger than the diameter of the top 11 of the atomizing body 10, thereby forming an annular aroma dispersing opening 30 between the outer cover 20 and the atomizing body 10.

[0086] See Figures 12 to 14The top frame 500 may include, for example, a main frame 60, and the base may include a flow guide 300. An outer cover 20 surrounds the main frame 60 and the flow guide 300, forming a smoke chamber 22. The main frame 60 and the flow guide 300 are spaced apart, and a support column 360 is provided between them, providing support. Specifically, the support column 360 may be integrally formed on the flow guide 300, for example. In other embodiments, the support column 360 may be on the main frame 60, or the main frame 60 may be a separate detachable connector connecting the main frame 60 and the flow guide 300; this is not a unique limitation. The support column 360 may also include a channel portion, which may be, for example, a tubular channel, penetrating the support column 360 and connecting the main frame 60 and the guide member 300. Further, the support column 360 may include, for example, a first protrusion 350 located on the outer wall of a portion of the tubular channel; at least a portion of the tubular channel may not have a protrusion on its outer side. For example, the first protrusion 350 may be located at the end of the support column 360 near the guide member 300, while the support column 360 without the first protrusion 350 may be located at the end near the main frame 60. The main frame 60 has holes through which the side wall of the tubular channel passes, and the size of the first protrusion 350 is larger than the size of the hole. For example, the distance from the outer wall of the first protrusion 350 to the axis of the tubular section is greater than the diameter of the hole, so that the protrusion 250 is located outside the hole and connected to the main frame 60, thereby enabling the first protrusion 350 to support the main frame 60.

[0087] See also Figure 11 and Figure 12 In this embodiment, the atomizing component 100 can be disposed, for example, at the top 11 of the atomizing body 10, specifically, it can be disposed, for example, within the main frame 60. Specifically, the main frame 60 is provided with a receiving groove 611 that can accommodate the atomizing component 100. The receiving groove 611 has an opening that communicates with the outside. The atomizing component 100 can be detachably disposed within the receiving groove 611 through the opening, and can be removed or installed from the opening. A first mist outlet 101 communicating between the atomizing component 100 and the smoke chamber 22 is provided on the bottom of the receiving groove 611. The first mist outlet 101 is positioned towards the flow guide 300. The atomizing component 100 atomizes the aromatherapy and directs the aromatherapy smoke into the smoke chamber 22 through the first mist outlet 101. The aromatherapy smoke forms a smoke landscape within the smoke chamber 22 and is dispersed from the aroma outlet 30.

[0088] In this embodiment, the base may further include, for example, a fan 710. The airflow guide 300 is, for example, a horn-shaped housing. The base includes a bottom housing 200 connected to the side of the airflow guide 300 away from the smoke chamber 22. The side of the airflow guide 300 away from the smoke chamber 22 and the bottom housing 200 form a mounting cavity 24. The fan 710 is disposed within the horn-shaped mounting cavity 24, and the horizontal cross-section of the mounting cavity 24 gradually decreases in the direction away from the bottom housing 200. Specifically, the fan 710 may be disposed, for example, on a fan bracket 730. The bottom of the fan bracket 730 may also be provided with a wind deflector 740. The wind deflector 740 is disposed on the side of the fan bracket 730 near the bottom housing 200 and seals the side of the fan bracket 730 near the bottom housing 200 to prevent air leakage. In this embodiment, the fan 710 and the fan bracket 730 are disposed within the mounting cavity 24. For example, a first air inlet 201 may be provided on the bottom housing 200. The channel section includes an air intake channel 310, that is, an air intake channel 310 is provided on the guide member 300. One end of the air intake channel 310 is connected to the air outlet of the fan 710, and the other end is connected to the air inlet of the atomizing component 100. The fan 710 blows air into the air intake channel 310 through the first air inlet 201, and then blows air into the atomizing component 100 through the air intake channel 310, thereby blowing the aromatherapy atomized smoke from the first mist outlet 101 into the smoke chamber 22. By setting the air intake channel 310 on the guide member 300, the fan 710 and the atomizing component 100 can be connected through the guide member 300, resulting in a simple structure.

[0089] Furthermore, the top frame 500 is also provided with a main control circuit board 51. The main control circuit board 51 can be, for example, disposed on the main frame 60 and located at the bottom of the receiving slot 611 that accommodates the atomizing component 100, close to the base. The mounting cavity 24 of the base is provided with electrical components, which may include, for example, a fan, a power supply, a switch control circuit, a charging circuit, etc. The channel portion of the support column 360 may also include, for example, a wiring channel 320, that is, the flow guide 300 is also provided with a wiring channel 320. The wiring on the electrical components is connected to the main control circuit board 51 through the wiring channel 320. For example, the fan 710 is electrically connected to the main control circuit board 51 through the wires arranged in the wiring channel 320. In other embodiments, the main control circuit board 51 may also be disposed in the base, and the wiring of the atomizing component 100 and the light component 161 located on the top frame 500 can be connected to the main control circuit board 51 of the base through the wiring channel 320. This is not a unique limitation. In this embodiment, the main control circuit board 51 is positioned in the middle region 13 of the atomizing body 10, the atomizing component 100 is positioned at the top 11 of the atomizing body 10, and the fan 710 is positioned on the base. The main control circuit board 51 is positioned between the electrical components on the top frame 500 and the electrical components on the base body, facilitating the connection of electrical components between the top frame 500 and the base and saving wiring. In one embodiment, multiple support columns 360 are provided between the main frame 60 and the guide member 300. One support column 360 has an air intake channel 310; another support column 360 has a wiring channel 320; and some support columns 360 are solid columns, located between the main frame 60 and the guide member 300. Support columns 360 with channel portions have their channel portions passing through the main frame 60, and some of the channel portions have a first protrusion 350 on their outer side, located between the main frame 60 and the guide member 300.

[0090] See also Figure 12 and Figure 14 The air guide shroud 330 can be disposed on the air guide member 300, for example, and is located on the side near the smoke chamber 22. The air guide member 300 can be provided with a second air outlet 301 that connects to the fan 710, for example. The air guide shroud 330 surrounds the edge of the second air outlet 301, thereby connecting the air guide shroud 330 to the fan 710. The air guide shroud 330 also has a first air outlet 331 that connects to the smoke chamber 22. The air blown out by the fan 710 can enter the smoke chamber 22 through the air guide shroud 330, thereby blowing the aromatherapy in the smoke chamber 22 out of the aroma diffuser 30. In this embodiment, the fan 710 can be, for example, one fan 710 that connects to both the air guide shroud 330 and the air intake channel 310; or the fan 710 can be two fans, one fan 710 that connects to the air guide shroud 330 and the other fan 710 that connects to the air intake channel 310.

[0091] See also Figure 14The edge of the guide member 300 away from the top frame 500 may, for example, be surrounded by a protrusion 340, which protrudes towards the smoke chamber 22 to form a liquid collection groove. The protrusion 340 allows the aromatherapy liquid to be stored in the liquid collection groove, preventing it from seeping out of the atomizing device 1 or penetrating and corroding electronic components, thus avoiding damage to the user's environment and preventing damage to electronic components from the aromatherapy liquid. Furthermore, a sealing element 600 is provided between the flow guide 300, the base housing 200, and the outer cover 20. The sealing element 600 can be, for example, a closed-loop annular body. The sealing element 600 is connected to the flow guide 300, the outer cover 20, and the base housing 200 respectively. Specifically, the sealing element 600 includes a vertical portion and a horizontal portion protruding from the surface of the vertical portion. The vertical portion is located at the connection between the flow guide 300 and the base housing 200 to prevent liquid from flowing into the mounting cavity 24 inside the base. The horizontal portion covers the connection between the flow guide 300 and the outer cover 20 to prevent liquid from leaking onto the outer surface of the outer cover 20. The sealing element 600 is sealed between the outer cover 20, the flow guide 300, and the base, which can improve the sealing performance between the flow guide 300 and the base, further preventing the aromatherapy liquid from seeping into the base and damaging electronic components such as the fan 710. The seal 600 is made of an elastic material, such as silicone, which allows for a tighter connection between the seal 600 and the guide 300, the bottom housing 200, and the outer cover 20.

[0092] It should be noted that the electrical components of the atomizing device 1 in this embodiment may also include necessary components such as a battery 720, a charging plate 750, and a button 760. In this embodiment, the battery 720, the charging plate 750, and the button 760 may all be disposed in the mounting cavity 24 of the base, but this embodiment is not limited thereto.

[0093] See Figures 15 to 19The smoke chamber 22 may also include a lighting assembly, which may be mounted on the atomizing body 10. Specifically, the lighting assembly may include, for example, a first light source assembly 41 and a second light source assembly 42 surrounding the first light source assembly 41. It should be noted that "the second light source assembly 42 surrounding the first light source assembly 41" means that the first light source assembly 41 is closer to the central axis of the atomizing body 10 than the second light source assembly 42. On a certain horizontal plane, the projection of the second light source assembly 42 onto the outside of the first light source assembly 41. The light-emitting surfaces of the first light source assembly 41 and the second light source assembly 42 face inwards towards the smoke chamber 22. In some embodiments, the atomizing body 10 specifically includes a top atomizing body 10 and a bottom atomizing body 10 disposed opposite to each other, and the top atomizing body 10 and the bottom atomizing body 10 are fixedly connected to form the atomizing body 10; the top atomizing body 10 includes a top frame 500 and an atomizing component 100 disposed on the top frame 500, and a first mist outlet 101 is provided at the bottom of the top atomizing body 10, that is, on the side of the top frame 500 near the guide member 300. The first mist outlet 101 communicates with the mist outlet channel 113 of the atomizing component 100 and communicates with the smoke chamber 22. The smoke flowing out from the atomizing component 100 enters the smoke chamber 22 through the first mist outlet 101.

[0094] Specifically, the first mist outlet 101 and the second mist outlet 102 of the atomizing component 100 are connected through a smoke duct. The bottom of the receiving slot 611 on the top frame 500 that accommodates the atomizing component 100, the main control circuit board 51 inside the top frame 500, and the side wall of the main frame 60 near the guide member 300 are all provided with clearance portions to avoid the smoke duct. This allows the smoke duct to pass through each of the aforementioned components, connecting the atomizing component 100 located in the top atomizing body 10 and the bottom of the top atomizing body 10, allowing smoke to flow out from the bottom of the top atomizing body 10. The top frame 500 includes, for example, the main frame 60 and a cover 90 located at the bottom of the main frame 60. The main frame 60 has a receiving slot 611 for accommodating the atomizing component 100, and the main control circuit board 51 is located between the main frame 60 and the cover 90 for easy assembly. The bottom atomizing body 10 is, for example, a base. A guide 300 is provided on the side of the bottom atomizing body 10 facing the smoke chamber 22. A third protrusion 92 is provided on the side of the cover 90 near the guide 300. The third protrusion 92 is arranged around the outer side of the cover 90 to form a covering groove. The first mist outlet 101 is provided on the cover 90 and communicates with the covering groove. Because the guide member 300 is horn-shaped, with the top of the guide member 300 being the end with the smaller cross-sectional area, the covering trough covers the top of the guide member 300, and the cover 90 is spaced apart from the top of the guide member 300, forming a specially shaped mist collection space 93. The horizontal cross-section of the covering trough is larger than the horizontal cross-section of the top of the guide member 300. The third protrusion 92 and the outer wall of the guide member 300 form a gap 94 connecting the mist collection space 93 and the smoke chamber 22. Smoke flows from the first mist outlet 101 to the mist collection space 93 and then out through the gap 94, entering the smoke chamber 22 along the outer wall of the guide member 300. This allows the smoke flowing out of the first mist outlet 101 to pass through the specially shaped mist collection space 93 and flow into the smoke chamber 22 in the same direction. For example, the outer wall of the guide member 300 outside the mist collection space 93 is wavy, and the smoke flows in a wavy pattern inside the smoke chamber 22, increasing its visual appeal. The first light source assembly 41 is disposed on the outer wall of the main frame 60, for example, surrounding the first mist outlet 101, with the LED beads facing the guide member 300, illuminating the smoke flowing on the guide member 300 from all directions, thus illuminating the smoke and presenting a better smoke viewing effect; the second light source assembly 42 is located, for example, on the side of the first light source assembly 41 away from the first mist outlet 101, that is, the second light source assembly 42 is located outside the first light source assembly 41. The second light source assembly 42 and the first light source assembly 41 can present different lighting effects, and the combination of the two lights can form a variety of lighting effects, increasing the diversity of lighting presentation. See Figure 19The lighting assembly may, for example, include a third light source assembly 43, which may be disposed on the guide member 300, specifically, it may be arranged around the middle of the guide member 300. In another embodiment of this invention, the third light source assembly 43 may also be arranged around the edge of the guide member 300. The light-emitting surface of the third light source assembly 43 may, for example, be arranged opposite to the light-emitting surface of the first light source assembly 41 to form a multi-range lighting effect.

[0095] The first direction is, for example, Figure 15 In the vertical direction, under normal use, when the atomizing device 1 is placed on a table or other platform, the top atomizing body 10 is located above the bottom atomizing body 10, which is the height direction of the atomizing body 10. The outer cover 20 is, for example, a transparent shell or has a transparent window, allowing the user to observe the shape of the mist inside the smoke chamber 22. The outer cover 20 can be an annular shell surrounding the top atomizing body 10 and the bottom atomizing body 10. For example, in some embodiments, the width of the top atomizing body 10 gradually decreases as it approaches the bottom atomizing body 10, and the width of the bottom atomizing body 10 gradually decreases as it approaches the top atomizing body 10, to provide a larger smoke chamber 22. The second light source assembly 42 is located outside the first light source assembly 41. As the top atomizing body 10 or the bottom atomizing body 10 gradually decreases as it approaches the top atomizing body 10, a height difference is formed between the first light source assembly 41 and the second light source assembly 42, resulting in a larger illumination area and better lighting effect from the second light source assembly 42. The atomizing component 100 mainly includes, for example, aromatherapy ingredients and heating wire or ultrasonic atomizing plate, such as essential oils carried by oil-absorbing cotton. When the atomizing component 100 is working, the aromatherapy ingredients are heated and atomized by the heating wire or ultrasonically atomized by the ultrasonic waves to produce aromatherapy mist, which enters the smoke chamber 22 from the first mist outlet 101.

[0096] For example, the flow guide 300 can be Figure 15 and Figure 17 The cone-shaped structure that bulges upwards as shown can be understood as a trumpet-like shape. When the aromatherapy mist flows into the smoke chamber 22 from the first mist outlet 101, the mist comes into contact with the guide member 300 and flows along the surface of the guide member 300 to be shaped into a specific shape. For example, when the guide member 300 is cone-shaped, the aromatherapy mist can be shaped like a mountain. Of course, the shape of the guide member 300 can be designed according to actual needs, and this embodiment is not limited.

[0097] Reference Figures 15 to 19The first light source assembly 41, the second light source assembly 42, and the third light source assembly 43 each include multiple LED beads, such as LED beads. The light-emitting surfaces of the first light source assembly 41, the second light source assembly 42, and the third light source assembly 43 face into the smoke chamber 22, illuminating the shape of the aromatherapy mist within the smoke chamber 22. The light-emitting surface of the third light source assembly 43 can, for example, be positioned opposite to the light-emitting surface of the first light source assembly 41, creating a multi-range lighting effect. The second light source assembly 42 is arranged around the first light source assembly 41, so that when both the first and second light source assemblies 41 and 42 are activated simultaneously, different lighting effects can be achieved through the first and second light source assemblies 41 and 42, not only allowing the smoke landscape to be observed at night but also enhancing its aesthetic appeal and visual appeal.

[0098] For example, the first light source component 41, the second light source component 42, and the third light source component 43 can emit different colors of light, such as red light from the first light source component 41 and blue light from the second light source component 42, which can make the aromatherapy smoke appear as a volcanic eruption effect. The third light source component 43 can also emit blue or yellow light, etc., depending on the actual needs. For example, the first light source component 41, the second light source component 42, and the third light source component 43 can emit different brightness and darkness in different areas of the smoke, enhancing the three-dimensional effect. For example, the first light source component 41, the second light source component 42, and the third light source component 43 can have different color temperatures, which can achieve a gradient effect in the aromatherapy smoke. Of course, the above-mentioned optical characteristic parameters can also be combined so that the first light source component 41, the second light source component 42, and the third light source component 43 can achieve different light effects in the aromatherapy smoke, greatly increasing the viewing performance. This embodiment is not limited to the above examples. The different optical characteristic parameters of the first light source component 41, the second light source component 42, and the third light source component 43 can be achieved through the selection of lamp beads and the control of driving current, etc., which will not be explained in detail here.

[0099] In some embodiments, the first light source assembly 41 and the second light source assembly 42 may both be disposed on the main control circuit board 51, and the third light source assembly 43 may be electrically connected to the main control circuit board 51. The main control circuit board 51 is provided with control circuits and related components for the main electronic devices within the atomizing device. In some embodiments, the atomizing assembly 100 is disposed on the side of the main control circuit board 51 away from the bottom atomizing body 10. The main control circuit board 51, for example, has circuits and components for controlling the operation of the atomizing assembly 100 to generate mist, and also includes, for example, driving circuits for the first light source assembly 41 and the second light source assembly 42. See, for example, [reference needed]. Figure 15A fan 710 is also installed inside the bottom atomizing body 10. A mounting cavity 24 is formed on the side of the guide member 300 facing away from the smoke chamber 22, i.e., a mounting cavity 24 is formed between the guide member 300 and the bottom housing 200. The fan 710 is installed inside the mounting cavity 24, for example. The air outlet of the fan 710 is connected to the air inlet channel 114 inside the top atomizing body 10, allowing airflow to be provided to the atomizing assembly 100. After the atomizing assembly 100 produces aromatherapy mist, it flows with the airflow through the mist outlet channel 113 and into the smoke chamber 22 via the first mist outlet 101. The air outlet of the fan 710 is connected to the smoke chamber 22, used to blow airflow into the smoke chamber 22 to carry the aromatherapy mist out of the fragrance outlet 30 into the air. The main control circuit board 51 is also provided with circuits for controlling the fan 710 and driving the fan 710. Both the first light source assembly 41 and the second light source assembly 42 are mounted on the main control circuit board 51, facilitating the connection and configuration of related circuits. The main control circuit board 51 is located at the bottom of the top atomizing body 10, that is, on the side of the top atomizing body 10 close to the bottom atomizing body 10. The first mist outlet 101 is located at the bottom of the top atomizing body 10 and faces the bottom atomizing body 10. The first light source assembly 41 is arranged around the first mist outlet 101, resulting in better illumination of the smoke.

[0100] In some embodiments, the first light source assembly 41 and the second light source assembly 42 are offset along the height direction (i.e., the first direction) of the atomizing body 10. In short, a height difference is formed between the first light source assembly 41 and the second light source assembly 42. This allows the distances from the first light source assembly 41 and the second light source assembly 42 to the guide member 300 to be different, resulting in different irradiated areas and thus different light effects. In some embodiments, the first light source assembly 41 is located between the second light source assembly 42 and the base. That is, the installation height of the first light source assembly 41 is lower than the installation height of the second light source assembly 42. This arrangement, where the first light source assembly 41 and the second light source assembly 42 gradually decrease from the outside in, reduces the space occupied by the second light source assembly 42 within the smoke chamber 22 and the aroma smoke containing chamber. Combined with the aforementioned arrangement where the widths of the top and bottom atomizing bodies 10 gradually decrease towards each other, this provides better observation within the smoke chamber 22 and avoids excessive overall height of the aroma diffuser while maintaining the same level of observation. Furthermore, the second light source assembly 42 is positioned at a higher height and has a larger illumination area, resulting in better visual appeal. In some embodiments, reference... Figure 16The distance H1 between the first light source assembly 41 and the second light source assembly 42 along the height direction of the atomizing body 10 is 3 to 7 millimeters. Within this range, the effect of the first light source assembly 41 and the second light source assembly 42 illuminating the guide member 300 is optimal. The area of ​​the guide member 300 illuminated by the second light source assembly 42 is larger than the area of ​​the guide member 300 illuminated by the first light source assembly 41. The height difference between the first light source assembly 41 and the second light source assembly 42 just illuminates the entire visible surface of the guide member 300.

[0101] In some embodiments, refer to Figure 17 and Figure 18 The atomizing body 10 contains a main control circuit board 51 and a lamp board 52. The lamp board 52 surrounds the main control circuit board 51. A first light source assembly 41 is mounted on the main control circuit board 51, and a second light source assembly 42 is mounted on the lamp board 52. In some embodiments, to accommodate the height difference between the first light source assembly 41 and the second light source assembly 42 in the height direction of the atomizing body 10, the main control circuit board 51 and the lamp board 52 are also staggered along the height direction (i.e., the first direction) of the atomizing body 10. This makes the connection between the first light source assembly 41 and the second light source assembly 42 easier, and the lamp board 52 is positioned corresponding to the positions of the first light source assembly 41 and the second light source assembly 42. The lamp board 52 is electrically connected to the main control circuit board 51. The lamp board 52 provides mounting support for the first light source assembly 41 and corresponding connection circuits.

[0102] In some embodiments, the atomizing body 10 includes a top frame 500, which includes, for example, a main frame 60 and a cover 90 disposed at the bottom of the main frame 60; the lamp plate 52 is disposed within the top frame 500, for example, within the main frame 60. Specifically, the lamp plate 52 is disposed on the outer wall of the receiving groove 611 on the main frame 60 that accommodates the atomizing component 100, and is disposed circumferentially along the receiving groove 611; the main control circuit board 51 is disposed at the bottom of the receiving groove 611, for example, between the main frame 60 and the cover 90; since the lamp plate 52 and the main control circuit board 51 have different heights, and the lamp plate 52 is disposed around the main control circuit board 51, the lamp plate 52 and the main control circuit board 51 are connected by wires, and the main frame 60 is provided with wire-passing holes to avoid the wires. A through-hole 61 is provided within the top frame 500. The second light source assembly 42 extends through the through-hole 61 towards the bottom of the atomizing body 10, that is, the second light source assembly 42 extends through the through-hole 61 towards the side near the base. (See reference...) Figure 17 and Figure 18The top frame 500 is, for example, an annular frame. Multiple through holes 61 are provided at the bottom of the top frame 500. These through holes 61 correspond one-to-one with multiple LEDs of the second light source assembly 42. The lamp board 52 is mounted on the through holes 61, and the multiple LEDs of the second light source assembly 42 extend downwards from the through holes 61, thus limiting the position of the second light source assembly 42. The through holes 61 can also provide a channel for wires to pass through for the electrical connection between the lamp board 52 and the main control circuit board 51. The connection between the top atomizing body 10 and the bottom atomizing body 10 is achieved through a cover 90. The main control circuit board 51 is, for example, mounted on the cover 90, which also has through holes for multiple first light source assemblies 41 to extend from.

[0103] In some embodiments, the atomizing body 10 further includes a cover 70, which covers the side of the top frame 500 facing away from the base, as shown in Figure 10. Figure 16 and Figure 17 The cover 70 is provided with a fixing member 71 extending towards the side near the base, and the fixing member 71 abuts against the lamp panel 52. The cover 70 is, for example, ring-shaped, and the fixing member 71 is an annular side plate extending from the cover 70. The cover 70 can close the top frame 500, and the fixing member 71 can press the lamp panel 52 tightly inside the top frame 500 to achieve a stable installation of the lamp panel 52.

[0104] In some embodiments, the atomizing body 10 further includes a light-blocking member 62, which is disposed between the first light source assembly 41 and the second light source assembly 42. (Refer to...) Figure 18 The light-blocking component 62, for example, is an annular sidewall extending from the top frame 500, which can be used to block the first light source assembly 41 and the second light source assembly 42 to prevent light crosstalk between them.

[0105] In some embodiments, the atomizing body 10 is further provided with a light guide 80, which is disposed on the side of the first light source assembly 41, the second light source assembly 42, or the third light source assembly 43 facing the smoke chamber 22. When three light guides 80 are provided, the three light guides 80 are respectively disposed on the side of the first light source assembly 41, the second light source assembly 42, and the third light source assembly 43 facing the smoke chamber 22. The material of the light guide 80 is, for example, a light-transmitting plastic doped with diffusing powder. The light guide 80 is provided so that the light emitted by the first light source assembly 41, the second light source assembly 42, and the third light source assembly 43 is refracted within the light guide 80, resulting in a uniform light output effect, which can avoid the light being too glaring and ensure visual appeal. The light guide 80 is spaced a certain distance from the first light source assembly 41, the second light source assembly 42, and the third light source assembly 43. Correspondingly, a groove can be provided on the main frame 60, the cover 90, or the flow guide 300 so that the light guide 80 is installed in the groove to achieve a stable connection.

[0106] See Figures 20 to 23 The atomizing device 1 provided in this embodiment of the utility model may specifically include, for example, an atomizing component 100, an electronic control component 50, a shaping structure 31, and a fan 710.

[0107] Specifically, the atomizing component 100, the shaping structure 31, and the fan 710 are arranged sequentially along the height direction of the atomizing device 1, for example, sequentially arranged from top to bottom or from bottom to top along the height of the atomizing device 1. The electronic control component 50 is located on one side of the atomizing component 100, the shaping structure 31, or the fan 710 along the height direction of the atomizing device 1; for example, the electronic control component 50 may be located above or below the shaping structure 31 in the height direction of the atomizing device 1, or it may be located above or below the fan 710 in the height direction of the atomizing device 1. There is no unique limitation here. This is to avoid the electronic control component 50 being located on the outer wall of the atomizing device 1 and obstructing the smoke chamber 22. The electronic control component 50 is located on one side of the atomizing component 100, the shaping structure 31, or the fan 710 along the height direction of the atomizing device 1, and it forms an arrangement with the atomizing component 100, the shaping structure 31, or the fan 710 along the height direction of the atomizing device 1, so as to better observe the smoke flow in the smoke chamber 22. The atomizing component 100 can be, for example, a smoke cartridge. The atomizing component 100 has a second mist outlet 102 and is used to atomize the aromatherapy liquid into a smoke-like substance, which flows out from the second mist outlet 102. The electronic control component 50 can include, for example, a main control circuit board 51. The electronic control component 50 is electrically connected to the atomizing component 100 and the fan 710, and the main control circuit board 51 is used to control the operation of the atomizing component 100 and the fan 710. The atomizing device 1 also has a smoke chamber 22. A shaping structure 31 can be used, for example, to shape the smoke chamber 22, and the smoke mainly presents a shaped effect on the shaping structure 31. The fan 710 can be, for example, a fan, used to blow air onto the atomizing component 100. The smoke chamber 22 is arranged around the atomizing component 100, the electronic control component 50, and the shaping structure 31. The shaping structure 31 is provided with a first mist outlet 101 that connects to the second mist outlet 102. The first mist outlet 101 connects the shaping structure 31 and the smoke chamber 22. The atomizing component 100 atomizes the aromatherapy and delivers it to the smoke chamber 22 through the second mist outlet 102 and the first mist outlet 101. Thus, the user can see the aromatherapy smoke flowing out of the smoke chamber 22, achieving a smoke viewing effect. Since the atomizing component 100, the shaping structure 31, and the fan 710 are arranged sequentially along the height direction of the atomizing device 1, the smoke chamber 22 is located in the middle of the atomizing device 1, providing a good viewing angle. This also allows the overall structure of the atomizing device 1 to be stacked compactly, reducing the overall volume of the atomizing device 1.

[0108] The atomizing device 1 provided in this embodiment arranges the atomizing component 100, the shaping structure 31, and the fan 710 sequentially along the height direction of the atomizing device 1. The electronic control component 50 is located between the atomizing component 100 and the shaping structure 31, making the electrical connection lines between the atomizing component 100, the fan 710, and the electronic control component 50 shorter and easier to connect. Furthermore, the atomizing component 100 is provided with a smoke chamber 22, which is arranged around the outside of the shaping structure 31, or around the outside of the shaping structure 31 and the atomizing component 100. This allows the atomizing device 1 to provide landscape aromatherapy while maintaining a relatively centered view for the user, resulting in a better visual effect. In addition, the atomizing device 1 has a compact structure and low height, making it miniaturized and improving the user experience.

[0109] See also Figure 20 and Figure 21 The atomizing device 1 may also include, for example, a main frame 60 and a base, with a shaping structure 31 disposed between the main frame 60 and the bottom housing 200. The atomizing component 100 and the electronic control component 50 are disposed on the top frame 500, for example, both the atomizing component 100 and the electronic control component 50 are disposed on the main frame 60, and the fan 710 is disposed in the mounting cavity 24 of the base. The top frame 500 may, for example, be provided with a receiving groove 611 and a circuit board mounting part 91, with the circuit board mounting part 91 located between the receiving groove 611 and the shaping structure 31. The atomizing component 100 is disposed in the receiving groove 611, and the electronic control component 50 is disposed on the circuit board mounting part 91. The receiving slot 611 can be provided, for example, on the top of the main frame 60. The receiving slot 611 has an opening. The atomizing component 100 can be installed into the receiving slot 611, for example, through the slot. The atomizing component 100 and the receiving slot 611 are detachable. The bottom of the receiving slot 611 has a clearance hole corresponding to the second mist outlet 102, which makes it easy to replace the atomizing component 100 and simple to operate. The electronic control component 50 may include, for example, a main control circuit board 51, which is disposed on the circuit board mounting part 91 to control the operation of the electrical components in the atomizing device 1; the bottom of the receiving groove 611 may also be provided with an electrical connection through hole, through which the main control circuit board 51 and the atomizing component 100 are electrically connected. The electronic control component 50 may include, for example, a lamp board 52 and a main control circuit board 51, with the lamp unit disposed on the lamp board 52, the main control circuit board 51 electrically connected to the lamp board 52, the main control circuit board 51 disposed between the atomizing component 100 and the shaping structure 31, and the atomizing component 100 and the fan 710 electrically connected to the main control circuit board 51; the lamp board 52 may be sleeved on the outside of the main control circuit board 51; the main control circuit board 51 controls the operation of the lamp board 52 and the electrical components, such as controlling the operation of the atomizing component 100, the lamp board 52, the fan 710, etc.; the lamp board 52 may be disposed on the main frame 60, for example. In some embodiments, the electronic control component 50 includes only the main control circuit board 51 and does not include the lamp board 52, as required by actual needs.

[0110] A mounting cavity 24 is formed between the molded structure 31 and the base housing 200, and the fan 710 is disposed within the mounting cavity 24. The fan 710 is electrically connected to the main control circuit board 51 to control its operation. The fan 710 is located below the main control circuit board 51, so the wiring between the fan 710 and the main control circuit board 51 passes through the molded structure 31 located between the fan 710 and the main control circuit board 51. See also... Figure 20 The atomizing device 1 also includes an outer cover 20, which surrounds the main frame 60 and the shaping structure 31. The outer cover 20, the main frame 60, and the shaping structure 31 together form a smoke chamber 22, thereby making the smoke chamber 22 surround the atomizing component 100, the electronic control component 50, and the shaping structure 31. There is a fragrance dispersing port 30 between the outer cover 20 and the main frame 60, through which the aromatherapy smoke is dispersed. In other embodiments, the main control circuit board 51 can be disposed within the accommodating space, for example, below the fan 710, so the wiring between the atomizing component 100 and the main control circuit board 51 passes through the shaping structure 31 located between the atomizing component 100 and the main control circuit board 51.

[0111] Furthermore, the shaping structure 31 may include, for example, a guide member 300, which is connected to the cover 90 and the bottom shell 200 respectively, and a mounting cavity 24 is formed between the guide member 300 and the bottom shell 200, with the fan 710 disposed within the mounting cavity 24. The size of the guide member 300 gradually decreases along the direction close to the main frame 60, and the size may be, for example, the diameter, i.e., the guide member 300 may be, for example, a conical structure. The shaping structure 31 may also include, for example, a cover 90, which is disposed at the bottom of the main frame 60 and covers the top of the guide member 300. The cover 90 and the guide member 300 are disposed close to each other, and may, for example, jointly enclose a mist collection space 93. The cover 90 has a third protrusion 92 on the side close to the guide member 300, and the third protrusion 92 is arranged around the outer periphery of the cover 90 to form a covering groove. A first mist outlet 101 is disposed on the cover 90 and communicates with the covering groove. Because the guide member 300 is horn-shaped, with its top being the end with the smaller cross-sectional area, the covering trough covers the top of the guide member 300. The cover 90 and the top of the guide member 300 are spaced apart, forming a specially shaped mist collection space 93. The third protrusion 92 and the outer wall of the guide member 300 form a gap 94 connecting the mist collection space 93 and the smoke chamber 22. Smoke flows from the first mist outlet 101 into the mist collection space 93 and then out through the gap 94, flowing along the outer wall of the guide member 300 into the smoke chamber 22. This allows the smoke from the first mist outlet 101 to pass through the specially shaped mist collection space 93 and flow into the smoke chamber 22 in the same direction, enhancing the visual appeal. The first mist outlet 101 is positioned opposite the guide member 300. Smoke flows out from the first mist outlet 101, passing through the channel between the cover 90 and the guide member 300, thus restricting the shape of the smoke and creating a smoke landscape. For example, smoke exits from the first mist outlet 101, with a portion exiting through the gap 94 between the third protrusion 92 and the guide member 300, and another portion flowing from the first mist outlet 101 to the arc-shaped recessed groove of the guide member 300. After the airflow impacts the arc-shaped recessed groove, it bounces back onto the cover 90. The cover 90 also guides some of the airflow into the gap between the cover 90 and the guide member 300, thus making the smoke appear as a waterfall. The specific shapes of the cover 90 and the guide member 300 can be set according to actual needs to achieve different shapes.

[0112] Furthermore, the top frame 500 and the flow guide 300 may be spaced apart, for example, and connected by a connecting structure, which is at least partially located between the top frame 500 and the flow guide 300. See also Figure 24The connecting structure may include, for example, a support column 360 located between the main frame 60 and the flow guide 300. In one embodiment, the outer cover 20 may only surround the outside of the molded structure 31 for observing only the smoke flowing through the molded structure 31. The outer cover 20 may be made of, for example, a transparent material to be transparent or semi-transparent, so that the smoke flow within the smoke chamber 22 can be observed. Multiple connecting structures may be provided, for example, including the support column 360 and a channel portion, at least partially located within and extending through the support column 360, such that the channel portion connects the main frame 60 and the flow guide 300. The provision of the support column 360 can improve the support stability of the main frame 60, and the provision of the channel portion can connect the cover 90 and the flow guide 300, so that the electronic control component 50 and the fan 710 can be electrically connected through the channel portion. In this embodiment, the support column 360 may be provided, for example, at one end of the guide member 300 near the main frame 60. When the cover 90 is placed over the top of the guide member 300, the support column 360 may be covered to improve the aesthetics. Among them, some support columns 360 are solid column-shaped and are located between the main frame 60 and the guide member 300, serving as a connection and support; some support columns 360 have a channel portion inside, the length of which is longer than the support column 360, and the support column 360 forms a first protrusion 350 protruding from the outside of the channel portion. The first protrusion 350 is located between the cover 90 and the guide member 300, serving to support the top frame 500; the portion of the channel portion longer than the support column 360 extends into the cover 90, and the cover 90 has a clearance hole for the channel portion to extend into, so that the support column 360 and the cover 90 are connected more tightly. The channel portion includes, for example, a wiring channel 320, an air intake channel 310, etc.; when the channel portion is an air intake channel 310, the channel portion extending into the main frame 60 can also make the air tightness of the air intake channel 310 better.

[0113] See also Figure 21 The top frame 500 may include, for example, a main frame 60 and a cover 90, with the cover 90 connecting the main frame 60 and the flow guide 300. A receiving groove 611 may be provided on the main frame 60, and the atomizing component 100 is disposed within the receiving groove 611. The main frame 60 may also have a lamp plate mounting portion surrounding the receiving groove 611, with a lamp plate 52 disposed on the lamp plate mounting portion. The LEDs on the lamp plate 52 may be positioned downwards to illuminate the smoke chamber 22, further enhancing the visual effect. To improve safety and aesthetics, the main frame 60 may also have a fixing member 71 and a cover 70 covering the lamp plate 52; however, this embodiment is not limited to these provisions. The cover 90 can be fixedly connected to the main frame 60 and the flow guide 300, for example. The cover 90 is provided with a circuit board mounting part 91. Specifically, the circuit board mounting part 91 can be located between the main frame 60 and the cover 90, for example. The bottom of the main frame 60 can be provided with an electrical connection through hole, and the main control circuit board 51 and the atomizing component 100 are electrically connected through the electrical connection through hole.

[0114] See Figure 23 The atomizing device 1 may also include, for example, a battery 720 disposed within the mounting cavity 24, and the battery 720 and fan 710 arranged in a planar direction along a first direction. By arranging the battery 720 and fan 710 in a planar direction along the first direction, both the battery 720 and fan 710 are arranged on the same plane, and the battery 720 and fan 710 may be arranged, for example, close to the center of the base, so that the battery 720 and fan 710 are located as close as possible inside the conical structure, the height of the mounting cavity 24 can be reduced, thereby further reducing the height of the atomizing device 1. Furthermore, the fan 710 may include, for example, a first fan 711 and a second fan 712, the first fan 711 and the second fan 712 arranged in a planar direction along a second direction, the first direction and the second direction being perpendicular. This arrangement makes the structure compact and reduces the size of the base.

[0115] Further, see Figure 25 The atomizing device 1 may, for example, also include a fan bracket 730, which is disposed within the mounting cavity 24. The fan bracket 730 has a first fan receiving portion 731 and a second fan receiving portion 732 disposed along a second direction. The first fan receiving portion 731 and the second fan receiving portion 732 may, for example, be disposed apart, that is, the first fan receiving portion 731 and the second fan receiving portion 732 are not connected to each other. The first fan receiving portion 731 and the second fan receiving portion 732 may, for example, both be cylindrical and adapted to the shape of the fan. The first fan 711 is disposed within the first fan receiving portion 731, and the second fan 712 is disposed within the second fan receiving portion 732. By making the first fan receiving portion 731 and the second fan receiving portion 732 cylindrical, the matching degree between the first fan 711 and the second fan 712 can be higher, further reducing the size of the accommodating space.

[0116] Further, see Figure 23 , Figure 24 and Figure 25The bottom housing 200 is provided with a first air inlet 201. The air guide 300 is provided with an air intake channel 310 and an air outlet channel on the side near the smoke chamber 22. The air guide 300 may also be provided with an air guide hood 330, and the air outlet channel is located inside the air guide hood 330. The air guide 300 may also be provided with a wiring channel 320, and the air intake channel 310 and the wiring channel 320 may be respectively located in the support column 360. The fan 710 is electrically connected to the main control circuit board 51 through the wiring channel 320. The cover 90 is provided with a through hole corresponding to the wiring channel 320, so that the fan 710 can be electrically connected to the main control circuit board 51 through the wiring channel 320. The air intake channel 310 is connected to the air intake channel 114 inside the atomizing component 100. Specifically, for example, the top frame 500 and the cover 90 are provided with through holes, so that the air intake channel 310 can be connected to the air intake channel 114 of the atomizing component 100, and the air outlet channel is connected to the smoke chamber 22.

[0117] The fan bracket 730 is also provided with a third air outlet 733 and a fourth air outlet 734. One end of the third air outlet 733 is connected to the first fan housing 731, and the other end is connected to the air intake channel 310 of the support column 360. For example, the fan bracket 730 has a tubular protrusion that extends along the side near the support column 360. The third air outlet 733 is located at the end of the tubular protrusion and is connected to the support column 360 with the air intake channel 310. The third air outlet 733 is connected to the air intake channel 310. One end of the fourth air outlet 734 is connected to the second fan housing 732, and the other end is connected to the air outlet channel. For example, the side wall of the fan bracket 730 has a tubular extension, and the fourth air outlet 734 is located at the end of the tubular extension. The tubular extension is connected to the guide member 300, and the fourth air outlet 734 is connected to the air outlet channel. For example, when the first fan 711 is working, air can be blown towards the air intake channel 310 through the third air outlet 733, thereby directing the air towards the atomizing component 100, so that the atomized aromatherapy smoke enters the smoke chamber 22. When the second fan 712 is working, the fourth air outlet 734 blows air towards the smoke chamber 22 through the air outlet channel, so that the aromatherapy smoke in the smoke chamber 22 is blown out from the aroma diffuser 30. By setting the third air outlet 733 and the fourth air outlet 734, the exhaust air can be concentrated, improving the airflow utilization rate.

[0118] In one embodiment of this invention, a partition 735 is provided on the fan bracket 730. The partition 735 is disposed between the first fan housing 731 and the second fan housing 732. By providing the partition 735, the first fan 711 and the second fan 712 can be separated, thereby further improving the utilization rate of the air and avoiding airflow turbulence within the first fan 711 and the second fan 712. A wind deflector 740 is also provided between the fan bracket 730 and the bottom housing 200. The wind deflector 740 covers the side of the first fan housing 731 and the second fan housing 732 away from the air guide 300, for example, covering the side of the fan bracket 730 near the bottom housing 200, and completely covering the first fan housing 731 and the second fan housing 732, so that the first fan housing 731 and the second fan housing 732 form a relatively independent and closed space. By providing the wind deflector 740, air leakage can be avoided, further improving the utilization rate of the air.

[0119] See Figure 26 The atomizing component 100 may include, for example, a main body, on which a mist outlet channel 113 and an air inlet channel 114 are provided, and the mist outlet channel 113 and the air inlet channel 114 are connected. The mist outlet channel 113 is provided with a second mist outlet 102, and the air inlet channel 114 is provided with a second air inlet 1141, and the second mist outlet 102 and the second air inlet 1141 are located on the same side of the main body. In this embodiment, the second mist outlet 102 and the second air inlet 1141 may, for example, both be located on the bottom surface of the main body; however, this embodiment is not limited to this.

[0120] The atomizing component 100 provided in this embodiment has a connected mist outlet channel 113 and an air inlet channel 114 on its main body. The mist outlet channel 113 is provided with a second mist outlet 102, and the air inlet channel 114 is provided with a second air inlet 1141. The second mist outlet 102 and the second air inlet 1141 are located on the same side of the main body. By placing the second mist outlet 102 and the second air inlet 1141 on the same side of the main body, the fan 710 in the atomizing device 1 can be placed on the lower side of the atomizing component 100. This allows the smoke from the atomizing component 100 to be blown into the smoke chamber 22 through the second mist outlet 102, while simultaneously blowing the smoke from the smoke chamber 22 out of the aroma dispersing port 30. This makes the structure of the atomizing device 1 compact, and allows the smoke chamber 22 to be centered, resulting in a better visual effect.

[0121] In one embodiment of this invention, the mist outlet channel 113 and the air inlet channel 114 may be arranged in parallel, for example. In another embodiment of this invention, the mist outlet channel 113 and the air inlet channel 114 may extend in a straight line, for example. Specifically, the mist outlet channel 113 and the air inlet channel 114 may extend in the height direction of the main body and be parallel to each other, thereby minimizing the volume of the mist outlet channel 113 and the air inlet channel 114 within the main body, reducing the overall volume of the atomizing component 100, and also reducing the manufacturing difficulty. Specifically, the second mist outlet 102 and the second air inlet 1141 may both be located on the bottom surface of the main body, for example, with air entering from the bottom surface of the main body and mist exiting from the bottom surface of the main body. This allows the atomizing component 100 to be located at the top of the atomizing device 1, and the fan 710 to be located at the bottom of the atomizing device 1. By arranging the mist outlet channel 113 and the air inlet channel 114 in parallel, the structure of the mist outlet channel 113 and the air inlet channel 114 is simpler and the installation is more convenient. Of course, in other embodiments, the mist outlet channel 113 and the air inlet channel 114 may not be arranged in parallel, for example, and this embodiment is not limited thereto.

[0122] See Figure 26 and Figure 27 Furthermore, the main body may include, for example, a frame, a liquid storage component 140, and an atomizing component 150. See also Figure 28 The frame may, for example, be provided with a first mounting groove 111. A second air inlet 1141 and a second mist outlet 102 may, for example, be located at the bottom of the frame, and the second air inlet 1141 and the second mist outlet 102 are connected to the first mounting groove 111. The liquid storage component 140 may, for example, be a liquid storage cotton, and may, for example, store a liquid containing aromatherapy ingredients such as aromatherapy liquid or aromatherapy oil. The liquid storage component 140 is disposed within the first mounting groove 111, and the mist outlet channel 113 may, for example, extend through the liquid storage component 140. The atomizing component 150 is disposed within the mist outlet channel 113. The atomizing component 150 may, for example, be an atomizing core, and may, for example, be provided with a heating mesh. The heating mesh is provided with a heating wire that conducts a circuit. The heating mesh is rolled into a tubular shape, and heating cotton is provided inside the heating mesh to absorb the liquid in the liquid storage component 140. The atomizing core is disposed within the mist outlet channel 113 of the liquid storage component 140. The atomizing component 150 is in contact with the liquid storage component 140. When the atomizing component 150 is working, it atomizes the aromatherapy in the liquid storage component 140 and blows it out through the second mist outlet 102. In this embodiment, the mist outlet channel 113 includes a portion located on the liquid storage component 140 and a second mist outlet 102 located on the frame. The wall of the air inlet channel 114 is located within the first mounting groove 111, and the wall of the air inlet channel 114 passes through the liquid storage component 140. That is, the air inlet channel 114 includes a wall and a second air inlet 1141 disposed on the frame. The liquid storage component 140 may, for example, be provided with a through hole so that the wall of the air inlet channel 114 can pass through.

[0123] Furthermore, see also Figure 27 and Figure 28The frame may include, for example, a first frame 110 and a second frame 120, and may also include, for example, a top cover 130. The first frame 110 may be, for example, a main frame, with a first mounting groove 111 disposed on the first frame 110, and an air inlet channel 114 extending along the height direction of the first mounting groove 111. See also... Figure 29A and Figure 30 The second frame 120 covers the first frame 110, for example, by covering the first mounting groove 111. The second frame 120 is provided with a first through hole 1210 and a second through hole 1220. The first through hole 1210 connects to the mist outlet channel 113, and the second through hole 1220 connects to the air inlet channel 114. The upper cover 130 covers the second frame 120, specifically, for example, by covering the side of the second frame 120 away from the first frame 110, so that a sealed communicating space is formed between the upper cover 130 and the second frame 120, and the communicating space connects the first through hole 1210 and the second through hole 1220. By setting the second frame 120 and the upper cover 130, the mist outlet channel 113 and the air inlet channel 114 can be connected through the connecting space, so that the air enters the air inlet channel 114 from the second air inlet 1141 and enters the mist outlet channel 113 through the connecting space, thereby bringing the aromatherapy smoke atomized by the atomizing component 150 out of the second mist outlet 102.

[0124] In one embodiment of this invention, a second protrusion 1200 is provided on the side of the second frame 120 near the upper cover 130. The second protrusion 1200 may be, for example, a closed-loop structure, surrounding the first through hole 1210 and the second through hole 1220. Further, the second protrusion 1200 is connected to the upper cover 130, with its top tightly abutting against the upper cover 130, forming a sealed communication space between the closed-loop second protrusion 1200 and the upper cover 130. This prevents airflow from the fan into the communication space from leaking to the outside, improving the mist output effect of the atomizing component 100. In another embodiment, see... Figure 31 A sealing ring 1300 is provided on the side of the upper cover 130 near the second frame 120, corresponding to the second protrusion 1200. The second protrusion 1200 and the sealing ring 1300 are tightly connected to form a communicating space, that is, the communicating space is the space formed by the connection of the second protrusion 1200 and the sealing ring 1300. The second protrusion 1200 can, for example, be a ring structure surrounding the outer ring of the first through hole 1210 and the second through hole 1220. Similarly, the sealing ring 1300 can also be, for example, a ring structure. The sealing ring 1300 and the second protrusion 1200 can, for example, be nested together to form a sealed communicating space. Of course, this embodiment is not limited to this.

[0125] See also Figure 28The air inlet channel 114 is provided with a guide portion 1142 protruding from the second through hole 1220. The guide portion 1142 may, for example, protrude into the communicating space. Specifically, the guide portion 1142 of the air inlet channel 114 passes through the second through hole 1220 and enters the communicating space, so that the air blown out by the fan 710 flows into the communicating space in a specific direction, thereby improving the air intake efficiency. Furthermore, the guide portion 1142 is provided with a guide opening 1143 on the side near the first through hole 1210. The guide opening 1143 is, for example, a notch, so that the side of the guide portion 1142 away from the first through hole 1210 forms a windproof structure, thereby enabling the guide portion 1142 to guide the air to the first through hole 1210, thereby improving the air intake efficiency and thus improving the fogging efficiency. By placing the guide portion 1142 within the first through hole 1210, or by providing the air guide opening 1143, the air exiting the guide portion 1142 of the air inlet channel 114 can be guided into the first through hole 1210, thereby entering the mist outlet channel 113, thus improving the mist outlet efficiency. See also... Figure 29A The second frame 120 is also provided with a positioning part 1240. The positioning part 1240 can be disposed, for example, inside the first through hole 1210, for example, protruding from the hole wall of the first through hole 1210, or the positioning part 1240 can be disposed in the communicating space facing the first through hole 1210, for example, protruding from the side of the upper cover 130 near the first through hole 1210 and positioned directly opposite the first through hole 1210. For example, the positioning part 1240 can be disposed, for example, on the side of the second frame 120 away from the first frame 110, with the atomizing element 150 abutting against the positioning part 1240. By setting the positioning part 1240, the installation position of the atomizing element 150 can be restricted, thereby avoiding the atomizing element 150 abutting against the upper cover 130, which would cause the mist outlet channel 113 to be blocked and the mist outlet effect to be poor.

[0126] See Figure 29BThe second frame 120 is also provided with a pressure relief section 1250, which connects to the cavity of the liquid storage component 140. In this embodiment, the cavity is, for example, the first mounting groove 111. The atomizing component 150 not only fits tightly with the liquid storage component 140, but also fits tightly with the first through hole 1210 and the second mist outlet 102 to prevent liquid from flowing out of the first through hole 1210 or the second mist outlet 102. When the atomizing component 150 is heated, the liquid or gas pressure inside the liquid storage component 140 expands due to heating, increasing the internal pressure of the cavity of the liquid storage component 140. There is a risk that the liquid inside the liquid storage component 140 may be squeezed out. By providing the pressure relief section 1250, the pressure inside the first mounting groove 111 can be relieved, thereby preventing the liquid inside the liquid storage component 140 from being squeezed out due to excessive internal pressure during heating. In one embodiment of this example, the pressure relief section 1250 may be, for example, a separately provided through hole on the second frame 120. In another embodiment of this example, the pressure relief part 1250 may be a through hole that communicates with the first through hole 1210. It can be understood that the first through hole 1210 and the pressure relief part 1250 are connected to form a larger through hole, which may be irregular or circular. With such a configuration, the heating wire provided in the atomizing element 150 can pass through the pressure relief part 1250 and be electrically connected to the first circuit board 160 in the atomizing assembly 100, which can not only relieve pressure but also achieve an aesthetic effect.

[0127] See also Figure 27The atomizing component 100 may, for example, include a first circuit board 160, on which a light element 161 may be disposed, and a light hole 1310 corresponding to the light element 161 is disposed on the second frame 120. A second mounting groove 112 may be disposed on the first frame 110, for example, with the first mounting groove 111 and the second mounting groove 112 spaced apart to prevent liquid from entering the second mounting groove 112 and affecting the operation of electronic components. The first circuit board 160 is disposed within the second mounting groove 112, and a light guide post 1230 may also be disposed within the second mounting groove 112, on which the light element 161 is disposed and communicates with the light hole 1310. Specifically, the second frame 120 may, for example, have an extension portion disposed within the second mounting groove 112, and the light guide post 1230 is disposed on the extension portion. The extension portion allows for positioning and guidance during installation, improving installation efficiency. The light guide post 1230 has a light-transmitting channel corresponding to the light element 161. The upper cover 130 has a light hole 1310 corresponding to the light guide post 1230. Specifically, the light hole 1310 can be positioned to correspond to the light guide channel. Through the arrangement of the light hole 1310 and the light guide post 1230, the light from the light element 161 can pass through the upper cover 130, allowing the user to see the display status of the light element 161 and determine the working status of the atomizing component 100. A clearance position is provided on the partition separating the first mounting slot 111 and the second mounting slot 112. The clearance position is located near the top of the first mounting slot 111. The circuit of the atomizing component 150 is electrically connected to the first circuit board 160 through the clearance position. By setting a partition to separate the first mounting slot 111 and the second mounting slot 112, and then providing a clearance position for electrical connection, the atomizing component 100 has a simple structure and easy and convenient circuit connection. The clearance position can be, for example, a through-hole.

[0128] The main control circuit board 51 can be disposed, for example, between the atomizing component 100 and the base, and is electrically connected to the first circuit board 160 of the atomizing component 100 and the fan 710, respectively. The first circuit board 160 of the atomizing component 100 is provided with electrical connectors, such as pins, which are located near the bottom of the main body. The bottom of the first frame 110 has a through hole through which the power supply connector passes. When the atomizing component 100 is disposed in the receiving groove 611, the electrical connectors are connected to the electrical contacts on the electronic control component 50 to realize the electrical connection of the atomizing component 100.

[0129] See Figures 32 to 34This utility model provides an atomizing machine, which may specifically include, for example, an atomizing device 1 and a solar base 2000. The atomizing device 1 is disposed on the solar base 2000, and the bottom of the atomizing device 1 is detachably electrically connected to the solar base 2000. The solar base 2000 includes a connecting surface connected to the atomizing device 1, multiple exposed surfaces, and a bottom surface facing away from the atomizing device 1. A solar panel 3000 is disposed on the solar base 2000, and the solar panel 3000 is at least partially located on the exposed surfaces. The atomizing device 1 has the function of converting liquid into mist, and can be applied, for example, to products such as atomizing aromatherapy diffusers or humidifiers. The atomizing device 1 is mounted on a solar base 2000, and a solar panel 3000 is mounted on the solar base 2000. This allows the atomizing device 1 to be charged using solar energy. Positioning the solar base 2000 at the bottom of the atomizing device 1 does not disrupt its visual appearance or affect the aesthetics of the atomizer, and also reduces the user's focus on the solar base 2000. Furthermore, by detachably connecting the solar base 2000 to the atomizing device 1, the user can selectively separate the solar base 2000 from the atomizing device 1 and store it away when the atomizing device 1 is not charging, improving the aesthetics of the atomizing device 1. At least part of the solar panel 3000 is exposed, allowing it to receive sunlight. Solar charging is achieved through the electrical connection between the solar panel 3000 and the atomizing device 1. It should be noted that the solar panel 3000, for example, is a photovoltaic panel, a device that converts solar energy into electrical energy.

[0130] The atomizer provided in this embodiment is detachably electrically connected to the bottom of the atomizing device 1 via a solar base 2000. The solar base 2000 is equipped with a solar panel 3000, which is at least partially located on the exposed surface, allowing it to receive light. This allows the solar base 2000 to be positioned at the bottom of the atomizing device 1, while the solar panel 3000 is not located on the visible surface of the atomizing device 1, thus preserving its visual appearance and reducing the user's focus on the solar base 2000. Furthermore, the detachable connection allows the solar base 2000 to be folded away when solar charging is not required, further enhancing its aesthetics.

[0131] Specifically, the solar base 2000 includes a top surface opposite the bottom surface, and the top surface includes the connecting surface. The bottom surface can be connected to external objects such as a control panel or desktop to stably place the solar base 2000 on the external object. In one embodiment of this example, the exposed surface includes a side surface located between the top and bottom surfaces, and the atomizing device 1 can be disposed, for example, on the connecting surface of the top surface of the solar base 2000. The side surface surrounds the periphery of the top and bottom surfaces, forming a surface in the thickness direction of the solar panel 3000. The solar panel 3000 can be disposed on the side surface of the solar base 2000. In another embodiment of this example, the exposed surface includes an extension surface, which forms the top surface with the connecting surface, and the solar panel 3000 is disposed on the extension surface. For example, the solar panel 3000 and the atomizing device 1 can be disposed adjacent to each other on the top surface of the solar base 2000, and the entire upper surface of the solar panel 3000 is exposed to the air. The solar base 2000 may include, for example, a first portion and a second portion extending along the length of the solar base 2000 and protruding from the first portion. The top surfaces of the first and second portions form the top surface of the solar base 2000. Specifically, the top surface of the first portion is used, for example, to house the atomizing device 1; the top surface of the second portion is exposed to the air, and the solar panel 3000 can be disposed on the top surface of the second portion. Since the second portion extends along the length of the solar base 2000, it does not affect the visual effect of the atomizing device 1. Therefore, the top surface of the second portion can be extended according to the required area of ​​the solar panel 3000, which can maximize the area of ​​the solar panel 3000, ensure good solar charging efficiency, and not affect the height of the solar base 2000, further improving aesthetics. In this embodiment, the atomizing device 1 and the solar panel 3000 may be arranged adjacent to each other on the solar base 2000, for example.

[0132] Furthermore, the solar base 2000 may, for example, be provided with a placement groove 2200, on which the atomizing device 1 is placed. The size of the placement groove 2200 matches the bottom housing 200 of the atomizing device 1. The bottom of the atomizing device 1 may, for example, match the size and shape of the placement groove 2200, thereby improving the stability of the atomizing device 1 placed on the solar base 2000. The solar base 2000 may, for example, extend along its length, with the placement groove 2200 and the solar panel 3000 arranged adjacent to each other along the length of the solar base 2000. See also Figure 37 and Figure 39Furthermore, the atomizing device 1 may be provided with a first magnetic element 203, and the solar base 2000 may be provided with a second magnetic element 5000. The second magnetic element 5000 may be located inside the placement slot 2200, or inside the solar base 2000 and directly below the placement slot 2200. When the atomizing device 1 is placed on the solar base 2000, the first magnetic element 203 and the second magnetic element 5000 are magnetically connected, which further improves the connection stability and also allows the atomizing device 1 to be quickly positioned on the solar base 2000.

[0133] See Figures 35 to 39 The atomizing device 1 is equipped with a charging plate 750, which has an electrical connection point. The solar base 2000 is also equipped with a conductive component 4000, which is electrically connected to the solar panel 3000. The conductive component 4000 can contact the electrical connection point to achieve electrical connection. The charging plate 750 can be, for example, a charging circuit board. One end of the conductive component 4000 is connected to the solar panel 3000, and the other end is electrically connected to the charging plate 750 through contact with the electrical connection point. When the atomizing device 1 is placed on the solar base 2000, the conductive component 4000 contacts the electrical connection point, thereby achieving electrical connection between the solar panel 3000 and the charging plate 750, realizing solar charging. In this embodiment, the charging plate 750 can be, for example, located near the solar base 2000 of the atomizing device 1, thus achieving electrical connection of the solar base 2000 at the bottom of the atomizing device 1 and avoiding affecting aesthetics.

[0134] Further, see Figure 40 , Figure 41 and Figure 42The conductive component 4000 may include, for example, a first conductive element 4100 and a second conductive element 4200. The second conductive element 4200 is electrically connected to both the solar panel 3000 and the first conductive element 4100. The first conductive element 4100 can make contact with an electrical connection point to achieve electrical connection. The second conductive element 4200 may be, for example, a conductive sheet, specifically a conductive copper wire, a conductive metal sheet, etc. The second conductive element 4200 extends along the length of the solar base 2000. One end of the second conductive element 4200 is connected to the solar panel 3000, and the other end is electrically connected to the first conductive element 4100. For example, conductive perforations may be provided on the top surface of the solar base 2000, located below the solar panel 3000. The conductive component 4000 is located on the side of the top surface of the solar base 2000 opposite to the solar panel 3000, so that the electrical connection structure of the solar base 2000 is hidden inside the solar base 2000, which does not affect the aesthetics of the solar base 2000 and also protects the electrical connection structure. The second conductive element 4200 is electrically connected to the solar panel 3000 through a conductive perforation. The first conductive element 4100 can be, for example, a conductive post, specifically, an electrical connection pin. The first conductive element 4100 is disposed on the other end of the second conductive element 4200. The first conductive element 4100 extends along the height direction of the solar base 2000 and is perpendicularly connected to the second conductive element 4200. The first conductive element 4100 can extend out of the top surface of the solar base 2000, for example. When the end of the first conductive element 4100 away from the second conductive element 4200 contacts the electrical connection position, an electrical connection is achieved.

[0135] See Figure 35 and Figure 37 The atomizing device 1 may, for example, also include a bottom housing 200, which is located near the solar base 2000. The bottom housing 200 may, for example, have a fourth through-hole 202. See also Figure 39 The solar base 2000 has a fifth through hole 2100 on the side near the atomizing device 1. The fifth through hole 2100 may be located, for example, at the bottom of the placement groove 2200. The first conductive element 4100 passes through the fifth through hole 2100, that is, a portion of the first conductive element 4100 is exposed on the solar base 2000. When the atomizing device 1 is placed on the solar base 2000, the portion of the first conductive element 4100 exposed on the solar base 2000 passes through the fourth through hole 202 and is electrically connected to the electrical connection position.

[0136] See Figure 37The charging plate 750 is provided with a third conductive element 752, which may be, for example, a conductive copper pillar. The third conductive element 752 extends toward the bottom housing 200, and the electrical connection position is located at the end of the third conductive element 752 near the bottom housing 200. In this embodiment, the charging plate 750 may be arranged parallel to the bottom housing 200, for example, and the third conductive element 752 may be arranged perpendicular to the charging plate 750, for example. By setting the third conductive element 752, the electrical connection position can be made closer to the bottom housing 200, further improving the convenience and stability of the electrical connection. When the atomizing device 1 is placed on the solar base 2000, the portion of the first conductive element 4100 exposed in the solar base 2000 passes through the fourth through hole 202 and contacts the third conductive element 752, so that the ends of the first conductive element 4100 and the third conductive element 752 contact to achieve electrical connection. With this arrangement, the electrical connection position can be located inside the atomizing device 1, avoiding user contact with the electrical connection position, improving safety and aesthetics.

[0137] See Figure 38 The charging plate 750 is provided with a third through hole 751, and a third conductive element 752 passes through the third through hole 751 and is electrically connected to the charging plate 750. The third conductive element 752 includes a protrusion that protrudes from the side of the charging plate 750 away from the bottom housing 200. By passing the third conductive element 752 through the charging plate 750, the connection stability between the third conductive element 752 and the charging plate 750 can be improved, and the misalignment of the third conductive element 752 can be avoided.

[0138] Furthermore, see also Figure 37 The atomizing device 1 is also provided with a copper pillar clearance position 736 to avoid the protrusion. In this embodiment, the atomizing device 1 may also include a battery 720, a fan 710, and a fan bracket 730. The fan 710 is located inside the fan bracket 730, and the charging plate 750 may be located, for example, between the fan bracket 730 and the bottom housing 200. That is, part of the structure of the fan bracket 730 is located on the upper side of the charging plate 750 and in contact with the charging plate 750, so that the internal structure of the atomizing device 1 is tightly stacked, reducing the volume of the atomizing device 1. A copper pillar clearance position 736 is provided at the contact position between the fan bracket 730 and the charging plate 750. The third conductive member 752 protrudes from the side of the charging plate 750 away from the bottom housing 200 to form a protrusion, which passes through the copper pillar clearance position 736. Of course, this embodiment is not limited to this. When other components are provided on the side of the charging plate 750 away from the bottom housing 200, the copper pillar clearance position 736 is correspondingly provided on the other components. By setting the copper pillar clearance position 736, the internal structure can be made compact, the atomizing device 1 can be miniaturized, and the aesthetics can be further improved.

[0139] See also Figure 39The solar base 2000 may have a first shielding member 2300 on its placement slot 2200, and a second shielding member 2400 on its bottom. These shielding members provide protection and enhance the aesthetics of the solar base 2000. The bottom of the solar base 2000 may also have a first anti-slip member 2500 and a second anti-slip member 2600. These anti-slip members may be made of washable adhesive, or other anti-slip materials. The first anti-slip member 2500 may be located on the bottom of the solar base 2000 away from the atomizing device 1, and the second anti-slip member 2600 may be located on the bottom of the solar base 2000 corresponding to the solar panel 3000. These anti-slip members improve the stability of the solar base 2000.

[0140] See also Figure 38 The atomizing device 1 also includes a charging interface 400, which is electrically connected to the charging plate 750. The outer casing of the atomizing device 1 has a hole to allow for the charging interface 400, facilitating charging. This arrangement allows the charging interface 400 and the solar panel 3000 to be located on the same charging plate 750, enabling both solar charging and plug-in charging functions to be achieved through a single charging plate 750. This simplifies the circuit structure and reduces circuit board costs. See also... Figure 39 The solar base 2000 may also be provided with an interface clearance 2700, but this embodiment is not limited thereto.

[0141] See also Figure 32 and Figure 33 The atomizing device 1 also includes a button 760, which is located on the outer circumferential side of the base, specifically at the bottom of the outer side of the atomizing device 1. The button 760 and the charging interface 400 are positioned opposite each other on opposite sides of the atomizing device 1. When the atomizing device 1 is connected to the solar base 2000, the solar panel 3000 is located on the side closer to the charging interface 400. For ease of operation, users typically position the button 760 towards themselves when using the atomizer. By positioning the button 760 and the charging interface 400 opposite each other, and placing the charging interface 400 and the solar panel 3000 on the same side of the atomizing device 1, the charging interface 400 and the solar panel 3000 are less visible to the user when facing the button 760, further improving aesthetics. Furthermore, in in-vehicle use scenarios, i.e., when the atomizer is located on the car's center console, the solar panel 3000 can be placed facing the car window, increasing the solar panel 3000's sunlight reception rate and utilization efficiency.

[0142] In one embodiment of this invention, the atomizer may be, for example, a landscape atomizing aromatherapy diffuser. The atomizing device 1 may also include, for example, a battery 720 and a fan 710, arranged adjacent to each other, with the battery 720 located near the button 760 and the fan 710 located near the charging port 400. Specifically, see [link to documentation]. Figure 36 , Figure 37 and Figure 41 The atomizing device 1 may, for example, also include a flow guide 300, an atomizing assembly 100, and an outer cover 20, and may also include a main frame 60 and a sealing element 600. A main control circuit board 51 may also be disposed within the main frame 60. The flow guide 300 is connected to the bottom housing 200, and the sealing element 600 is connected to both the flow guide 300 and the bottom housing 200. A mounting cavity 24 is formed between the flow guide 300 and the bottom housing 200. The battery 720, fan 710, fan bracket 730, and charging board 750 are all disposed within the mounting cavity 24, and the charging board 750 is electrically connected to the main control circuit board 51. The main frame 60 is located above and connected to the airflow guide 300. The atomizing component 100 is located at the top, for example, inside the main frame 60. The outer cover 20 covers the outside of the airflow guide 300 and the main frame 60, forming a smoke chamber 22 through the outer cover 20, the main frame 60, and the airflow guide 300. The atomizing component 100 communicates with the smoke chamber 22. The fan 710 is located on the side of the airflow guide 300 away from the smoke chamber 22, and the button 760 and the charging interface 400 are located on opposite sides of the airflow guide 300. The airflow guide 300 is also provided with an air guide shroud 330, which connects the air outlet of the fan 710 to the smoke chamber 22. The air guide shroud 330 is located inside the smoke chamber 22 and is positioned near the charging interface 400. In one embodiment, in the horizontal direction, the air guide shroud 330 and the button 760 are located on opposite sides of the air guide 300, since the air guide 300 is typically configured as... Figure 15 and Figure 17 The cone-shaped structure shown in the diagram, which bulges upwards, has a central protrusion in the airflow guide 300. The airflow guide shroud 330 and the button 760 are located on opposite sides of the airflow guide 300, with the airflow guide shroud 330 and the button 760 positioned opposite each other at the center of the airflow guide 300. Due to user habits, the side with the button 760 will face the user, thus the airflow guide shroud 330, located behind the button 760, will be blocked by the center of the airflow guide 300, preventing it from obstructing the user's visual experience. The air blown by the fan 710 passes through the airflow guide shroud 330, which blows the smoke from the smoke chamber 22 out of the atomizing device 1.

[0143] See also Figure 33The bottom of the base shell 200 may also be provided with a first air inlet 201, and the top of the atomizing device 1 is provided with a fragrance dispersing port 30, which is connected to the smoke chamber 22. The atomizing component 100 atomizes the aromatherapy medium and then it enters the smoke chamber 22. The fan 710 blows the aromatherapy smoke in the smoke chamber 22 out through the fragrance dispersing port 30 through the air guide shroud 330, thereby realizing the aromatherapy smoke landscape and the effect of misting, which can improve the aesthetics. Since the aromatherapy smoke landscape is located in the middle of the atomizing device 1, placing the solar base 2000 at the bottom of the atomizing device 1 will not affect the visual effect of the aromatherapy smoke landscape, thus improving the aesthetics.

[0144] Further, see Figure 43 The battery 720 may be positioned, for example, near the button 760. A button circuit board 761 may also be positioned between the button 760 and the battery 720, and the button circuit board 761 is electrically connected to the main control circuit board 51. The battery 720 and the fan 710 are positioned adjacent to each other, with the fan 710 positioned near the charging port 400. The air guide shroud 330 is positioned on the side near the charging port 400. When the user is facing the button 760, the air guide shroud 330 will be obscured by the middle portion of the atomizing body 10, such as the air guide 300 and / or the main frame 60, further improving aesthetics.

[0145] Furthermore, it is understood that the foregoing embodiments are merely illustrative examples of this utility model. Provided that the technical features do not conflict, the structure is not contradictory, and the utility model's objective is not violated, the technical solutions of the various embodiments can be arbitrarily combined and used.

[0146] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. An atomising device characterised in that, include: The main atomizing unit is equipped with an atomizing component and a fan; An outer cover is disposed on the atomizing body, and a smoke chamber communicating with the atomizing component is formed between the outer cover and the atomizing body, and the smoke generated by the atomizing component can enter the smoke chamber; a fragrance dispersing port is provided at the top of the smoke chamber, and a first air outlet communicating with the fan is provided at the bottom of the smoke chamber.

2. The atomization device of claim 1, wherein, The atomizing body includes a guide member and a base connected to each other. The outer cover is connected to the base and covers the outside of the guide member. The guide member is located at the bottom of the smoke chamber. The smoke generated by the atomizing component enters the smoke chamber and can flow along the surface of the guide member. The first air outlet is located on the guide member.

3. The atomizing device of claim 2, wherein, The atomizing body is provided with a first mist outlet, which is connected to the mist outlet channel of the atomizing component and the atomizing cavity respectively. In the height direction of the atomizing device, the first mist outlet is located above the first air outlet.

4. The atomizing device of claim 2, wherein, The first air outlet is located at the bottom end of the guide member; the first air outlet is located near the outer cover relative to the center of the guide member, or the first air outlet is located adjacent to the outer cover.

5. The atomizing device of claim 2, wherein The air guide is provided with an air guide hood on the side of the air guide facing the smoke chamber. The air guide hood connects the air outlet of the fan and the smoke chamber. One end of the air guide hood is connected to the air guide, and the other end forms the first air outlet.

6. The atomizing device of claim 5, wherein The first air outlet is positioned toward the central axis of the atomizing body, or the first air outlet is positioned toward the circumference of the outer cover.

7. The atomizing device of claim 6, wherein There are two first air outlets, which are arranged opposite each other on the air guide cover along the circumferential direction of the outer cover.

8. The atomizing device of claim 5, wherein, The first air outlet is positioned facing the outer cover, and the air guide shroud is provided with a windproof part at the top of the first air outlet, the windproof part protruding from the air guide shroud towards the outer cover.

9. The atomization device of claim 5, wherein, The air guide hood has an air outlet channel, one end of which passes through the air guide member and the other end is connected to the first air outlet. The air outlet channel is arranged in a spiral structure, or the end of the air outlet channel near the first air outlet forms an arc structure, and the arc structure bends from the bottom of the smoke chamber upwards and toward the horizontal plane.

10. The atomizing device of claim 5, wherein The angle between the air outlet direction of the first air outlet and the radial extension direction of the atomizing body is greater than 0 degrees and less than 180 degrees.

11. The atomising device of any one of claims 2 to 10, wherein, The base has a protrusion on the side facing the smoke chamber. The protrusion is located on the bottom periphery of the guide member, and the protrusion and the bottom of the guide member form a liquid accumulation groove.

12. The atomization device of claim 11, wherein, Along the height direction of the atomizing device, the first air outlet is located above the liquid accumulation tank.

13. The atomising device of any one of claims 4 to 10, wherein the atomising device is configured to be used with a liquid having a viscosity of less than 100 centipoise. It also includes a button, which is located on the outer circumferential side of the base. In the horizontal direction, the air guide and the button are located at opposite ends of the air guide.