An aromatherapy machine with an ultrasonic atomizing piece anti-corrosion coating
By employing anti-corrosion coating components and multi-angle airflow guiding components in the aroma diffuser, the problems of easy corrosion and uneven atomization of the ultrasonic atomizing plate have been solved, achieving stable operation of the atomizing plate and uniform diffusion of aroma diffuser mist, thereby improving service life and user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI YIRAN FRAGRANCE ENVIRONMENTAL PROTECTION TECHNOLOGY CO LTD
- Filing Date
- 2025-05-07
- Publication Date
- 2026-06-05
AI Technical Summary
The ultrasonic atomizing plates of existing aromatherapy diffusers are easily corroded by aromatherapy liquids, leading to decreased performance, limited vibration frequency, uneven atomization particles, and inability of the aromatherapy mist to diffuse at multiple angles, which may be harmful to health. In addition, the atomizing plates need to be replaced frequently.
The ultrasonic atomizing plate is wrapped with an anti-corrosion coating component and combined with a multi-angle airflow guiding component. The protective shell is connected by magnetic force to achieve all-round protection. The direction of the aromatherapy mist is changed by a drive motor and bevel gear system to ensure stable operation of the atomizing plate and uniform diffusion of the aromatherapy mist.
Extends the lifespan of the atomizing plate, prevents the release of metal ions, achieves uniform diffusion of aromatherapy mist, avoids excessively high or low local concentrations, provides a stable fragrance environment, and reduces the frequency of replacement.
Smart Images

Figure CN224320890U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aromatherapy device technology, and in particular to an aromatherapy machine with an anti-corrosion coating on an ultrasonic atomizing plate. Background Technology
[0002] Most existing aroma diffusers use traditional atomization technology, but during long-term use, the atomizing plate is easily corroded by the aromatherapy liquid, leading to a decline in performance. To solve this problem, researchers have developed an aroma diffuser with an ultrasonic atomizing plate anti-corrosion coating. This coating can effectively isolate the aromatherapy liquid from corroding the atomizing plate, extend the service life of the device, and ensure a continuous and stable atomization effect.
[0003] However, in actual use, the following shortcomings still exist. For example, the ultrasonic atomizing plates of existing aromatherapy diffusers with ultrasonic atomizing plates cannot resist corrosion from aromatherapy liquids and cannot achieve multi-angle diffusion of aromatherapy mist. Corrosion will increase the surface roughness of the atomizing plate, limit the vibration frequency, and make the atomized particles larger or uneven, or even completely fail. Long-term exposure to aromatherapy liquids may damage the atomizing plate in a short time and require frequent replacement. Corrosion may release metal ions from the atomizing plate material, which may mix into the aromatherapy mist and be inhaled by the human body, potentially harming health in the long term. The aromatherapy mist can only diffuse vertically and cannot evenly cover the entire space, so some areas cannot achieve the desired effect. The aromatherapy mist is concentrated in one direction, which may result in local concentrations that are too high or too low. Users may not be able to feel a uniform and gentle fragrance environment, or even feel uncomfortable due to the direct blowing of the mist.
[0004] Therefore, this utility model proposes an aromatherapy diffuser with an ultrasonic atomizing plate and an anti-corrosion coating to solve the above problems. Utility Model Content
[0005] The purpose of this invention is to address the shortcomings of existing technologies by proposing an aromatherapy diffuser with an anti-corrosion coating on an ultrasonic atomizing plate.
[0006] To achieve the above objectives, this utility model adopts the following technical solution: an aromatherapy diffuser with an ultrasonic atomizing plate and an anti-corrosion coating, comprising a housing, an aromatherapy component disposed on the housing, the aromatherapy component including an aromatherapy liquid box disposed at the bottom of the housing, a mounting block disposed at the top of the housing, an ultrasonic atomizing plate disposed inside the housing, and a fan disposed on the side of the housing near the top, and further comprising:
[0007] The anti-corrosion coating assembly includes a first anti-corrosion coating protective shell disposed on one side of the top of the ultrasonic atomizing sheet, a second anti-corrosion coating protective shell disposed on the other side of the top of the ultrasonic atomizing sheet, and a third anti-corrosion coating protective shell disposed at the bottom of the ultrasonic atomizing sheet.
[0008] A multi-angle airflow guiding assembly includes a support shell fixed to the top of a mounting block, a drive motor mounted on the support shell, a first bevel gear fixed to the output end of the drive motor, a second bevel gear meshing with the first bevel gear, a second guide hole opened on the second bevel gear, and a guide pipe fixed on the second bevel gear, the guide pipe being rotatably connected to the support shell.
[0009] Furthermore, a first magnetic block is fixed on the first anti-corrosion coating protective shell.
[0010] The beneficial effect of adopting the above-mentioned further solution is that the first magnetic block on the first anti-corrosion coating protective shell and the second magnetic block on the second anti-corrosion coating protective shell attract each other.
[0011] Furthermore, a second magnetic block is fixed on the side of the second anti-corrosion coating protective shell near the first magnetic block, and the second magnetic block is disposed on the first magnetic block.
[0012] The advantages of adopting the above-mentioned further solution are: the two are stably spliced by magnetic force, tightly wrapping the top of the ultrasonic atomizing plate, providing corrosion protection for the atomizing plate, and facilitating disassembly and maintenance. When it is necessary to inspect or replace the atomizing plate, the two protective shells can be easily separated.
[0013] Furthermore, a third magnetic block is provided on both the first and second anti-corrosion coating protective shells.
[0014] The beneficial effect of adopting the above-mentioned further solution is that the third magnetic block on the first and second anti-corrosion coating protective shells and the fourth magnetic block on the third anti-corrosion coating protective shell are attracted by magnetic force.
[0015] Furthermore, a fourth magnetic block is fixed on the side of the third anti-corrosion coating protective shell near the third magnetic block, and the fourth magnetic block is disposed on the third magnetic block.
[0016] The beneficial effects of adopting the above-mentioned further solution are: firmly connecting the bottom protective shell of the atomizing plate to form a comprehensive protective structure for the atomizing plate, resisting the corrosion of the aromatherapy liquid, ensuring the stable operation of the atomizing plate, and facilitating the installation and removal of the protective shell.
[0017] Furthermore, the mounting block is provided with a first flow guide hole, and the aromatherapy liquid box is provided with a liquid level observation window.
[0018] The beneficial effects of adopting the above-mentioned further solution are as follows: the first guide hole on the mounting block provides a transmission channel for the atomized aromatherapy mist; the aromatherapy mist generated by the ultrasonic atomizing plate is transmitted upward to the multi-angle airflow guiding component through the first guide hole under the action of the fan; the liquid level observation window on the aromatherapy liquid box allows users to intuitively view the remaining amount of aromatherapy liquid; through the transparent material, users can monitor the remaining amount of aromatherapy liquid in real time without turning on the aromatherapy diffuser, replenish the aromatherapy liquid in time, avoid the aromatherapy diffuser from stopping work due to lack of liquid, and ensure the continuous and stable operation of the aromatherapy diffuser.
[0019] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0020] In this invention, when the aroma diffuser is working, the aroma liquid in the aroma liquid box is atomized under the high-frequency vibration of the ultrasonic atomizing plate. In the anti-corrosion coating assembly, the first, second, and third anti-corrosion coating protective shells wrap the ultrasonic atomizing plate. The anti-corrosion coating resists the corrosion of the aroma liquid and extends the life of the atomizing plate. The atomized aroma mist moves upward under the action of the fan. In the multi-angle airflow guiding assembly, the transmission motor drives the first bevel gear to rotate, and the meshing second bevel gear causes the guide tube to rotate. The flow direction of the aroma mist is changed through the second guide hole and the guide tube, thereby realizing the multi-angle diffusion of the aroma mist and allowing the fragrance to permeate the space evenly. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the structure of an aromatherapy diffuser with an ultrasonic atomizing plate and an anti-corrosion coating according to the present invention.
[0022] Figure 2 This is a schematic diagram of the internal structure of an aromatherapy diffuser with an ultrasonic atomizing plate and an anti-corrosion coating, according to the present invention.
[0023] Figure 3 This is a schematic diagram of the anti-corrosion coating component of an aroma diffuser with an ultrasonic atomizing plate and an anti-corrosion coating according to the present invention.
[0024] Figure 4 This is a schematic diagram of the structure of a multi-angle airflow guiding component for an aromatherapy diffuser with an ultrasonic atomizing plate and an anti-corrosion coating, according to the present invention.
[0025] Figure 5 This is a cross-sectional view of the multi-angle airflow guiding component of an aromatherapy diffuser with an ultrasonic atomizing plate and an anti-corrosion coating, according to the present invention.
[0026] Figure label:
[0027] 1. Shell;
[0028] 2. Aromatherapy component; 21. Aromatherapy liquid container; 22. Mounting block; 23. Ultrasonic atomizing plate; 24. Fan; 25. First flow guide hole; 26. Liquid level observation window;
[0029] 3. Anti-corrosion coating assembly; 31. First anti-corrosion coating protective shell; 32. First magnetic block; 33. Second anti-corrosion coating protective shell; 34. Second magnetic block; 35. Third magnetic block; 36. Third anti-corrosion coating protective shell; 37. Fourth magnetic block;
[0030] 4. Multi-angle airflow guiding assembly; 41. Support shell; 42. Drive motor; 43. First bevel gear; 44. Second bevel gear; 45. Second guide hole; 46. Guide pipe. Detailed Implementation
[0031] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0032] like Figures 1-5 As shown, this embodiment provides a technical solution: an aromatherapy diffuser with an ultrasonic atomizing plate and an anti-corrosion coating, including a housing 1, an aromatherapy component 2 disposed on the housing 1, the aromatherapy component 2 including an aromatherapy liquid box 21 disposed at the bottom of the housing 1, an mounting block 22 disposed at the top of the housing 1, an ultrasonic atomizing plate 23 disposed inside the housing 1, and a fan 24 disposed on the side of the housing 1 near the top, and further including:
[0033] The anti-corrosion coating assembly 3 includes a first anti-corrosion coating protective shell 31 disposed on one side of the top of the ultrasonic atomizing sheet 23, a second anti-corrosion coating protective shell 33 disposed on the other side of the top of the ultrasonic atomizing sheet 23, and a third anti-corrosion coating protective shell 36 disposed at the bottom of the ultrasonic atomizing sheet 23.
[0034] The multi-angle airflow guiding assembly 4 includes a support shell 41 fixed to the top of the mounting block 22. A drive motor 42 is mounted on the support shell 41. A first bevel gear 43 is fixed to the output end of the drive motor 42. A second bevel gear 44 meshes with the first bevel gear 43. A second guide hole 45 is opened on the second bevel gear 44. A guide pipe 46 is fixed to the second bevel gear 44 and is rotatably connected to the support shell 41. When the aroma diffuser is working, the aroma liquid in the aroma liquid box 21 vibrates at high frequency under the ultrasonic atomizing plate 23. In the lower atomization and anti-corrosion coating assembly 3, the first, second, and third anti-corrosion coating protective shells enclose the ultrasonic atomizing plate 23. The anti-corrosion coating resists the corrosion of the aromatherapy liquid and extends the life of the atomizing plate. The atomized aromatherapy mist moves upward under the action of the fan 24 and enters the multi-angle airflow guide assembly 4. The drive motor 42 drives the first bevel gear 43 to rotate, and through the meshing second bevel gear 44, the guide tube 46 rotates. The flow direction of the aromatherapy mist is changed through the second guide hole 45 and the guide tube 46, thereby realizing the multi-angle diffusion of the aromatherapy mist and allowing the fragrance to permeate the space evenly.
[0035] The above solutions also have drawbacks, such as the inability to easily install and remove the protective shell when inspection or replacement of the atomizing plate and protective shell is required. Figure 3 As shown: A first magnetic block 32 is fixed on the first anti-corrosion coating protective shell 31. The first magnetic block 32 on the first anti-corrosion coating protective shell 31 attracts the second magnetic block 34 on the second anti-corrosion coating protective shell 33. A second magnetic block 34 is fixed on the side of the second anti-corrosion coating protective shell 33 near the first magnetic block 32. The second magnetic block 34 is set on the first magnetic block 32. The two are stably spliced by magnetic force, tightly wrapping the top of the ultrasonic atomizing plate 23, providing anti-corrosion protection for the atomizing plate, and facilitating disassembly and maintenance. When it is necessary to inspect or replace the atomizing plate, the two protective shells can be easily separated. Both the first and second anti-corrosion coating protective shells 31 and 33 are provided with a third magnetic block 35. The third magnetic block 35 on the first and second anti-corrosion coating protective shells and the fourth magnetic block 37 on the third anti-corrosion coating protective shell 36 are attracted by magnetic force. The fourth magnetic block 37 is fixed on the side of the third anti-corrosion coating protective shell 36 near the third magnetic block 35. The fourth magnetic block 37 is set on the third magnetic block 35, which firmly connects the bottom protective shell of the atomizing plate, forming an all-round protective structure for the atomizing plate, resisting the corrosion of the aromatherapy liquid, ensuring the stable operation of the atomizing plate, and facilitating the installation and removal of the protective shell.
[0036] like Figure 5As shown, the mounting block 22 has a first guide hole 25, and the aromatherapy liquid box 21 has a liquid level observation window 26. The first guide hole 25 on the mounting block 22 provides a transmission channel for the atomized aromatherapy mist. The aromatherapy mist generated by the ultrasonic atomizing plate 23 is transmitted upward to the multi-angle airflow guide component 4 through the first guide hole 25 under the action of the fan 24. The liquid level observation window 26 on the aromatherapy liquid box 21 allows the user to intuitively view the remaining amount of aromatherapy liquid. Through the transparent material, the user can monitor the remaining amount of aromatherapy liquid in real time without turning on the aromatherapy machine, and replenish the aromatherapy liquid in time to avoid the aromatherapy machine stopping work due to lack of liquid and ensure the continuous and stable operation of the aromatherapy machine.
[0037] Working principle:
[0038] like Figures 1-5 As shown, after the aroma diffuser is started, the aroma liquid box 21 serves as a container for storing the aroma liquid, providing raw materials for the entire aromatherapy process. The ultrasonic atomizing plate 23, located inside the housing 1, generates high-frequency vibrations upon activation. This vibration rapidly breaks the aroma liquid in the aroma liquid box 21 into tiny droplets, completing the atomization process. During this process, the anti-corrosion coating assembly 3 plays a crucial protective role. The first and second anti-corrosion coating protective shells 31 and 33 are tightly attached to the top of the ultrasonic atomizing plate 23 by the magnetic attraction of the first and second magnetic blocks 32 and 34. The third anti-corrosion coating protective shell 36 is securely installed at the bottom of the atomizing plate by the magnetic connection of the third and fourth magnetic blocks 35 and 37, completely enveloping the atomizing plate. The anti-corrosion coating on the surface of these protective shells effectively isolates the chemical substances in the aroma liquid, preventing them from corroding the atomizing plate, thereby extending the lifespan of the atomizing plate and ensuring the stability of the atomization effect. The atomized aroma mist is then propelled upwards by the airflow generated by the fan 24. The first guide hole 25 on the mounting block 22 guides the aromatherapy mist upwards in an orderly manner to the multi-angle airflow guide component 4. In the multi-angle airflow guide component 4, the drive motor 42 is powered on and drives the first bevel gear 43 to rotate. The first bevel gear 43 meshes with the second bevel gear 44, transmitting power to the second bevel gear 44, causing the guide tube 46 fixed on the second bevel gear 44 to rotate accordingly. The second guide hole 45 on the second bevel gear 44 works in conjunction with the guide tube 46. As the guide tube 46 rotates, it continuously changes the flow direction of the aromatherapy mist, realizing the multi-angle diffusion of the aromatherapy mist in the space, allowing the fragrance to permeate the entire environment evenly. In addition, the liquid level observation window 26 on the aromatherapy liquid box 21 is made of transparent material. Users can clearly judge the remaining amount of aromatherapy liquid without turning on the aromatherapy machine. Users can replenish the aromatherapy liquid in time to avoid the aromatherapy machine stopping due to the exhaustion of aromatherapy liquid, ensuring that the aromatherapy machine can operate continuously and stably, bringing users an uninterrupted aromatherapy experience.
[0039] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.
Claims
1. An aroma diffuser with an anti-corrosion coating for an ultrasonic atomizing plate, comprising a housing (1), an aroma diffuser assembly (2) disposed on the housing (1), the aroma diffuser assembly (2) comprising an aroma diffuser liquid box (21) disposed at the bottom of the housing (1), an mounting block (22) disposed at the top of the housing (1), an ultrasonic atomizing plate (23) disposed inside the housing (1), and a fan (24) disposed on the side of the housing (1) near the top, characterized in that, Also includes: The anti-corrosion coating assembly (3) includes a first anti-corrosion coating protective shell (31) disposed on one side of the top of the ultrasonic atomizing sheet (23), a second anti-corrosion coating protective shell (33) disposed on the other side of the top of the ultrasonic atomizing sheet (23), and a third anti-corrosion coating protective shell (36) disposed at the bottom of the ultrasonic atomizing sheet (23). A multi-angle airflow guiding assembly (4) includes a support shell (41) fixed on the top of the mounting block (22), a drive motor (42) is mounted on the support shell (41), a first bevel gear (43) is fixed at the output end of the drive motor (42), a second bevel gear (44) meshes with the first bevel gear (43), a second guide hole (45) is opened on the second bevel gear (44), and a guide pipe (46) is fixed on the second bevel gear (44), and the guide pipe (46) is rotatably connected to the support shell (41).
2. The aroma diffuser with an anti-corrosion coating for an ultrasonic atomizing plate according to claim 1, characterized in that: A first magnetic block (32) is fixed on the first anti-corrosion coating protective shell (31).
3. The aroma diffuser with an anti-corrosion coating on an ultrasonic atomizing plate according to claim 2, characterized in that: A second magnetic block (34) is fixed on the side of the second anti-corrosion coating protective shell (33) near the first magnetic block (32), and the second magnetic block (34) is disposed on the first magnetic block (32).
4. The aroma diffuser with an anti-corrosion coating on an ultrasonic atomizing plate according to claim 1, characterized in that: Both the first anti-corrosion coating protective shell (31) and the second anti-corrosion coating protective shell (33) are provided with a third magnetic block (35).
5. An aromatherapy diffuser with an anti-corrosion coating for an ultrasonic atomizing plate according to claim 4, characterized in that: A fourth magnetic block (37) is fixed on the side of the third anti-corrosion coating protective shell (36) near the third magnetic block (35), and the fourth magnetic block (37) is disposed on the third magnetic block (35).
6. An aromatherapy diffuser with an anti-corrosion coating for an ultrasonic atomizing plate according to claim 1, characterized in that: The mounting block (22) is provided with a first guide hole (25), and the aromatherapy liquid box (21) is provided with a liquid level observation window (26).