A wearable product realizing a portable atomization function

By integrating a water storage chamber, an ultrasonic atomizing device, and absorbent cotton into a portable wearable product, the problem of existing wearable devices being unable to provide atomization functionality has been solved, enabling portable atomization therapy and care in multiple scenarios and improving the practicality and safety of the device.

CN224331314UActive Publication Date: 2026-06-09SHENZHEN EXCELLENT WATCH IND TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN EXCELLENT WATCH IND TECHNOLOGY CO LTD
Filing Date
2025-04-09
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing wearable devices cannot provide atomization functionality, failing to meet the needs of medical, beauty, daily life, and business scenarios, especially in terms of portability and low power consumption.

Method used

The water storage chamber, ultrasonic atomizing element, and absorbent cotton are integrated into the main body of the portable wearable product. The water storage chamber is designed with a closed structure. The vibration generating part of the ultrasonic atomizing element is separated from the power-connecting part by a sealed channel, which ensures stable operation of the atomization function and meets the needs of multiple usage scenarios.

Benefits of technology

Stable operation of portable atomization function has been achieved, improving the practicality, safety and reliability of the device, meeting the needs of medical, beauty, life and business scenarios, and enhancing user convenience and comfort.

✦ Generated by Eureka AI based on patent content.

Smart Images

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Patent Text Reader

Abstract

This utility model relates to the field of wearable product technology, and in particular to a wearable product that realizes a portable atomization function. It includes a portable wearable product body that operates with electricity, integrating an atomization circuit board and an atomization generating module electrically connected to the atomization circuit board. By integrating a water storage chamber, an ultrasonic atomizing element, and absorbent cotton into the portable wearable product body, the atomization function is organically combined with the wearable device, meeting the needs of multiple usage scenarios. The closed water storage chamber combined with the water injection section ensures water storage safety and convenient water injection. The ultrasonic atomizing element is divided into a vibration generating part and an electrical receiving part, cleverly separated by a sealed channel. This ensures both the atomization effect and prevents liquid leakage from affecting the circuit. Furthermore, the compact structural design allows the atomization generating module to be stably integrated into the portable wearable product body that operates with electricity.
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Description

Technical Field

[0001] This utility model relates to the field of wearable product technology, and in particular to a wearable product that realizes a portable atomization function. Background Technology

[0002] With the rapid development of technology, wearable devices have become increasingly popular in people's lives. From traditional watches and wearable accessories to smartwatches and smart bracelets, these devices can now perform a variety of functions such as health monitoring, activity tracking, and information reminders. They are widely used in various scenarios such as medical care, sports, daily life, and business. However, wearable products on the market still have certain limitations in terms of functional diversity, especially in terms of atomization function.

[0003] In medical settings, nebulizer therapy is a common and effective treatment, especially for patients with respiratory diseases. Traditional nebulizers are bulky and inconvenient to carry, making it difficult for patients to receive continuous treatment when they are out and about. Existing wearable devices cannot produce a nebulizing effect and cannot meet the needs of patients to receive nebulizer therapy while on the move. For example, if an asthma patient has an attack while traveling, working, or exercising, they cannot use wearable devices nearby to relieve the symptoms in time.

[0004] In the beauty industry, facial misting and hydration are highly favored. Consumers expect to be able to conveniently use devices with misting functions to hydrate their skin in their daily lives, such as during commutes or at the office. However, current wearable devices cannot provide such functions, which limits beauty care scenarios to large devices in beauty salons or at home, or to carrying an extra large hydration device.

[0005] In everyday life, people need to increase air humidity and relieve respiratory discomfort in dry environments, such as in air-conditioned rooms or during long-haul flights. However, current wearable devices cannot provide the corresponding humidification and atomization functions, which causes inconvenience to people's lives.

[0006] In business settings, during long meetings or business negotiations, wearable devices that can release invigorating fragrances through atomization can help maintain participants' focus and good condition. However, existing wearable devices cannot meet the needs of this business scenario.

[0007] Technologies such as ultrasonic atomizers and vibrating screen atomizers are relatively mature, but they have not yet been effectively integrated into wearable devices. Due to the extremely high requirements of wearable devices in terms of size, power consumption, and portability, integrating atomization functions into them faces many challenges, such as achieving stable atomization effects in a very small space and reducing power consumption to ensure device battery life. Therefore, developing a new type of wearable device with atomization function, enabling it to play a unique role in medical, beauty, sports, daily life, and business scenarios, has important practical significance and market demand. Utility Model Content

[0008] To overcome the shortcomings mentioned above, this utility model aims to provide a technical solution that can solve the above problems.

[0009] A wearable product with portable atomization function includes a portable wearable product body that operates with electricity. The portable wearable product body integrates an atomization circuit board and an atomization generating module electrically connected to the atomization circuit board. The portable wearable product body is provided with an atomization nozzle and a water injection part that are connected to the atomization generating module. The atomization generating module includes:

[0010] The water storage chamber is a closed structure and is integrated into the main body of the portable wearable product. The water injection part is connected to the inside of the water storage chamber and is used to inject water into the inside of the water storage chamber.

[0011] An ultrasonic atomizing generator includes a vibration generating part that generates ultrasonic waves and an electrical connection part for connecting to a power source. A sealed channel for connecting the ultrasonic atomizing generator is provided between the water storage chamber and the atomizing nozzle. The sealed channel passes through the vibration generating part, and the electrical connection part is located outside the sealed channel and is electrically connected to the atomizing circuit board.

[0012] The absorbent cotton is placed inside the water storage cavity and is connected to the part that generates vibration.

[0013] Preferably, the portable wearable product body is provided with a shell part and a face cover part fixedly covered on the shell part, the water storage cavity is provided in the shell part, and the atomizing spray hole is opened on the face cover part.

[0014] Preferably, the water storage cavity has a tank portion disposed within the housing portion and a tank cover portion fixedly covered on the tank portion, and a through hole is provided on the tank cover portion, with a sealing channel connecting between the through hole and the atomizing spray hole.

[0015] Preferably, the sealing channel consists of waterproof rings respectively disposed on both ends of the ultrasonic atomizing generator. The waterproof rings are positioned between the vibration generating part and the electrical receiving part. The two waterproof rings are respectively sealed and connected to the water storage chamber and the atomizing nozzle, so that a sealed channel is formed between the water storage chamber and the atomizing nozzle, passing through the vibration generating part and sealed and separated from the electrical receiving part.

[0016] Preferably, the housing is integrally formed on the main body of the portable wearable product, and the atomizing circuit board and the power connection part are electrically connected through openings in the housing.

[0017] Preferably, the housing is detachably mounted on the main body of the portable wearable product, and an electrical contact is provided between the housing and the main body of the portable wearable product, through which the atomizing circuit board and the power receiving part are electrically connected.

[0018] Preferably, the diameter of the ultrasonic atomizing element is 4mm-16mm.

[0019] Preferably, the portable wearable product has a main circuit board inside, with wires leading out from the main circuit board, and the atomizing circuit board is electrically connected to the main circuit board through the wires.

[0020] Preferably, a trigger is electrically connected to the wire, and the trigger protrudes from the surface of the portable wearable product body.

[0021] Preferably, the water injection section is a perforated structure equipped with a one-way valve or a plug.

[0022] Compared with the prior art, the beneficial effects of this utility model are:

[0023] By integrating the water storage chamber, ultrasonic atomizing element, and absorbent cotton into the main body of the portable wearable product, the atomization function and wearable device are organically combined to meet the needs of multiple usage scenarios. The closed water storage chamber combined with the water filling part ensures water storage safety and convenient water filling. The ultrasonic atomizing element is divided into a vibration generation part and an electrical connection part, which are cleverly separated by a sealed channel. This ensures the atomization effect and prevents liquid leakage from affecting the circuit. The compact and small structural design allows the atomization module to be stably integrated into the main body of the portable wearable product that is powered on. While meeting the low power consumption requirements of the portable wearable product, it ensures the stable operation of the atomization function, greatly improving the practicality, safety, and reliability of the device.

[0024] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0025] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art 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.

[0026] Figure 1 This is a schematic diagram of the structure of this utility model;

[0027] Figure 2 This is a schematic diagram of a disassembled structure of this utility model;

[0028] Figure 3 This is another schematic diagram of the disassembled structure of this utility model;

[0029] Figure 4 This is a schematic diagram of the cross-sectional structure of this utility model;

[0030] Figure 5 This is a utility model Figure 4 Schematic diagram of the structure at point A;

[0031] Figure 6 This is a schematic diagram showing the disassembled structure of the atomizing module, the housing, and the faceplate in this utility model;

[0032] Figure 7 This is a schematic diagram showing the disassembled structure of the ultrasonic physicochemical generator and the sealed channel in this utility model.

[0033] The reference numerals and names in the figure are as follows:

[0034] The portable wearable product includes: main body 10, atomizing circuit board 11, atomizing nozzle 12, water filling part 13, shell part 14, face cover part 15, electrical contact part 16, circuit board 17, wire 18, trigger 19, atomizing module 20, water storage chamber 21, tank part 211, tank cover part 212, through hole 213, ultrasonic atomizing element 22, vibration generating part 221, power connection part 222, sealing channel 223, waterproof ring 223a, and absorbent cotton 23. Detailed Implementation

[0035] The technical solutions in the embodiments of this utility model will be clearly and completely described below. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of 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.

[0036] Please see Figure 1-7In this embodiment of the utility model, a wearable product that realizes a portable atomization function includes a portable wearable product body 10 that operates with electricity. Based on the operation of the portable wearable product body 10 itself, an atomization circuit board 11 and an atomization generating module 20 electrically connected to the atomization circuit board 11 are integrated into the portable wearable product body 10. The electrical connection between the atomization circuit board 11 and the portable wearable product body 10 ensures stable operation of the atomization function while meeting the low power consumption requirements of the portable wearable product body 10. For example, a boost IC is set on the atomization circuit board 11 or the circuit board 17 of the portable wearable product body 10. After processing by the boost IC, power is supplied to the atomization circuit board 11, thereby integrating the atomization function into the portable wearable product body 10. The portable wearable product body 10 is provided with an atomization nozzle 12 and a water injection part 13 that are connected to the atomization generating module 20. The atomization generating module 20 includes:

[0037] The water storage cavity 21 is a closed structure and is integrated into the main body 10 of the portable wearable product. The water injection part 13 is connected to the inside of the water storage cavity 21 and is used to inject water into the inside of the water storage cavity 21.

[0038] The ultrasonic atomizing element 22 includes a vibration generating part 221 that generates ultrasonic waves and an electrical receiving part 222 for connecting to a power source. A sealed channel 223 is provided between the water storage chamber 21 and the atomizing nozzle 12 to connect the ultrasonic atomizing element 22. The sealed channel 223 passes through the vibration generating part 221. The electrical receiving part 222 is located outside the sealed channel 223 and is electrically connected to the atomizing circuit board 11.

[0039] Absorbent cotton 23 is placed inside the water storage cavity 21 and is connected to the vibration generating part 221.

[0040] In the above technical solution, the water storage chamber 21, the ultrasonic atomizing element 22, and the absorbent cotton 23 are integrated into the main body 10 of the portable wearable product. The ultrasonic atomizing element 22 consists of a metal vibrating plate and an electrical contact part 222. The metal vibrating plate is the core component. When it is energized, it uses the inverse piezoelectric effect to convert electrical energy into mechanical energy, generating high-frequency vibration, which is then transmitted to the liquid in contact with it, causing the liquid to atomize. This technical solution cleverly separates the vibration generating part 221, composed of a piezoelectric ceramic plate and a metal vibrating plate, from the electrical contact part 222, and uses a sealed channel 223, which is set at the atomization outlet. An ultrasonic atomizing element 22 is installed between the inlet and the water storage chamber 21 through a sealed channel 223. This allows the vibration generating part 221 of the ultrasonic atomizing element 22 to be located inside the sealed channel 223, while the power receiving part 222 is located outside the sealed channel 223 and separated from it. This design ensures the atomization effect and prevents liquid leakage from affecting the circuit. The compact and small structure allows the atomizing module 20 to be stably integrated into the portable wearable product body 10 that is powered on. While meeting the low power consumption requirements of the portable wearable product body 10, it ensures the stable operation of the atomization function, greatly improving the practicality, safety and reliability of the device.

[0041] Based on the above technical solution, in medical scenarios, such as for patients with asthma and chronic obstructive pulmonary disease, the traditional nebulizers are often too bulky and inconvenient to carry, making it difficult to receive continuous treatment while traveling. This technical solution cleverly integrates the nebulization generation module 20 into the portable wearable product body 10. The portable wearable product body 10 can be a watch, bracelet, jewelry, etc., which can be easily worn on the wrist. Its closed water storage chamber 21 design, together with the absorbent cotton 23 and ultrasonic nebulizer 22, can stably nebulize the medication and release it through the nebulizer nozzle 12 when the patient is traveling, working, or exercising, providing timely nebulization treatment, effectively relieving symptoms, meeting the patient's treatment needs while on the move, and greatly improving the convenience and compliance of the patient's treatment. In beauty settings, beauty essence or moisturizing water is injected through the water inlet 13. The absorbent cotton 23 in the water storage chamber 21 transmits the liquid to the vibration generating part 221 of the ultrasonic atomizing device 22. After atomization, the liquid is applied to the face through the atomizing nozzle 12, enabling facial atomization hydration and other care anytime, anywhere. This breaks the current situation where beauty care is limited to large devices in beauty salons or homes, allowing consumers to easily care for their skin in various life scenarios. In daily life settings, this product can also function as a small humidifier. After filling with water, the ultrasonic atomizing device 22 atomizes the water, increasing the humidity of the surrounding air through the atomizing nozzle 12, relieving respiratory discomfort, bringing convenience to people's lives, and improving their comfort. In business settings, long meetings or business negotiations can easily lead to fatigue and decreased concentration. This product allows the addition of aromatherapy essential oils with refreshing effects to the water storage chamber 21. After atomization, the aroma is released and diffused in the surrounding environment, helping participants maintain focus and a good state, improving the efficiency and quality of business communication. Therefore, this technical solution, through its ingenious integrated design, can bring new and practical solutions for applications in multiple scenarios.

[0042] In this technical solution, such as Figure 4-7As shown, in terms of structural design, the portable wearable product body 10 is provided with a shell part 14 and a face cover part 15. The water storage cavity 21 is located in the shell part 14, and the atomizing nozzle 12 is opened in the face cover part 15. This design achieves a reasonable division of functional areas, which not only facilitates the installation and maintenance of the water storage cavity 21, but also makes the position of the atomizing nozzle 12 more in line with user habits, optimizing the product's appearance and ease of operation. The face cover part 15 can protect the water storage cavity 21 and the internal atomizing components, improve the overall protective performance of the product, and prevent external dust, water vapor and other impurities from entering and affecting the normal operation of the atomizing function. The water storage cavity 21 is composed of a tank part 211 and a tank cover part 212. The tank cover part 212 is provided with a through hole 213 and connects with the sealing channel 223. This structure makes the overall structure of the water storage cavity 21 easy to mold or CNC machine, realizing the mass production design of this integrated structure. The sealed channel 223 is designed as a waterproof ring 223a on both ends of the ultrasonic atomizing plate 22. The waterproof ring 223a is made of a soft material such as plastic, rubber or resin that can block water. It is fixed between the ultrasonic atomizing plate, the atomizing nozzle 12 and the water storage chamber 21 by means of bonding or welding. It can easily seal and isolate the vibration generating part 221 and the electrical connection part 222, effectively preventing liquid leakage and ensuring that the atomization process is carried out in a sealed environment, thereby improving the atomization efficiency. At the same time, it isolates the electrical connection part 222 from the vibration generating part 221 and the liquid environment, avoiding faults such as short circuits caused by liquid contact with the electrical connection part 222, greatly improving the safety and stability of the equipment and extending the service life of the equipment.

[0043] like Figure 2-5 As shown, in terms of installation and connection, when the housing part 14 is integrally formed on the portable wearable product body 10, the atomizing circuit board 11 and the power connection part 222 are electrically connected through the housing part 14. This design simplifies the product structure, reduces the connection gaps between components, improves the overall integrity and sealing of the product, and reduces the probability of failure due to improper connection. When the housing part 14 is detachably installed on the portable wearable product body 10 and the atomizing circuit board 11 and the power connection part 222 are electrically connected through the electrical contact part 16, the maintainability and expandability of the product are increased. Users can replace the housing part 14 with different functions according to their needs, such as replacing the housing part 14 with different capacity water storage chambers 21 to meet the needs of atomized liquid volume in different scenarios. During maintenance, the housing part 14 can also be easily disassembled to inspect or replace the internal atomizing components.

[0044] like Figure 6-7As shown, in terms of component parameter design, the diameter of the atomizing plate is set to 4mm-16mm, preferably 8mm. While ensuring efficient atomization, it better adapts to the miniaturization design requirements of the portable wearable product body 10. The smaller diameter size can be reasonably arranged in a limited space without taking up too much space, ensuring the portability, wearing comfort, and aesthetic appearance of the wearable product. At the same time, it also helps to reduce device power consumption and improve energy efficiency.

[0045] like Figure 1-4 As shown, in terms of circuit connection, the main circuit board 17 inside the portable wearable product body 10 is electrically connected to the atomizing circuit board 11 via wires 18. The conductors can be flexible flat cables, solder wires, aluminum wires, copper wires, etc., selected according to actual needs. Among them, flexible flat cables have the characteristics of good flexibility and small space occupation, which makes the circuit connection more flexible and allows for reasonable wiring according to the internal space structure of the product, avoiding the space layout difficulties caused by rigid circuit board connections. At the same time, it reduces the space occupation of the circuit connection on the internal space of the product, which is conducive to the miniaturization design of the product. A trigger 19 is electrically connected to the wire 18 and made to protrude from the surface of the portable wearable product body 10 for easy user operation. Users can turn the atomizing function on or off at any time through the trigger 19, flexibly controlling the atomizing process according to actual needs, improving the user experience. For example, in medical scenarios, patients can stop atomizing in time according to the relief of their symptoms; in beauty scenarios, users can adjust the atomizing time according to skin care needs.

[0046] like Figure 5-6 As shown, the water injection section 13 is designed with a perforated structure equipped with a one-way valve or a plug. The one-way valve design prevents backflow of liquid during water injection, ensuring a smooth and safe injection process while preventing liquid leakage from the water storage chamber 21. The perforated structure effectively seals the water storage chamber 21 when not injecting water, preventing dust and other impurities from entering. Water injection can be performed simply by opening the plug, making it simple, convenient, and practical, ensuring the sealing and hygiene of the water storage chamber 21. Furthermore, some perfumes and other substances have corrosive effects. Therefore, the design of the water injection section in atomizing products with these functions needs to be optimized to achieve waterproof and non-corrosive effects. For example, the plug could be easily disassembled for timely cleaning of the inside of the water storage chamber 21, or the entire water storage module could be designed for easy disassembly and cleaning.

[0047] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered exemplary and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention.

Claims

1. A wearable product that enables portable atomization, characterized in that, The portable wearable product body (10) is electrically powered. The portable wearable product body (10) integrates an atomizing circuit board (11) and an atomizing module (20) electrically connected to the atomizing circuit board (11). The portable wearable product body (10) is provided with an atomizing nozzle (12) and a water injection section (13) connected to the atomizing module (20). The atomizing module (20) includes: The water storage chamber (21) is a closed structure. The water storage chamber (21) is integrated into the main body (10) of the portable wearable product. The water injection part (13) is connected to the inside of the water storage chamber (21). The water injection part (13) is used to inject water into the inside of the water storage chamber (21). The ultrasonic atomizing generator (22) includes a vibration generating part (221) that generates ultrasonic waves and an electrical receiving part (222) for connecting to a power source. A sealed channel (223) for connecting the ultrasonic atomizing generator (22) is provided between the water storage chamber (21) and the atomizing nozzle (12). The sealed channel (223) passes through the vibration generating part (221). The electrical receiving part (222) is located outside the sealed channel (223) and is electrically connected to the atomizing circuit board (11). Absorbent cotton (23) is placed inside the water storage cavity (21) and is connected to the vibration generating part (221).

2. A wearable product for realizing portable atomization function according to claim 1, characterized in that, The portable wearable product body (10) is provided with a housing part (14) and a face cover part (15) fixedly covered on the housing part (14). A water storage cavity (21) is provided in the housing part (14), and an atomizing spray hole (12) is opened on the face cover part (15).

3. A wearable product for realizing portable atomization function according to claim 2, characterized in that, The water storage chamber (21) has a tank part (211) provided in the housing part (14) and a tank cover part (212) fixedly covered on the tank part (211). A through hole (213) is provided on the tank cover part (212), and a sealing channel (223) is connected between the through hole (213) and the atomizing spray hole (12).

4. A wearable product that realizes a portable atomization function according to any one of claims 1-3, characterized in that, The sealing channel (223) consists of waterproof rings (223a) respectively set on both ends of the ultrasonic atomizing generator (22). The waterproof rings (223a) are located between the vibration generating part (221) and the power receiving part (222). The two waterproof rings (223a) are respectively sealed and connected to the water storage cavity (21) and the atomizing nozzle (12) to form a sealing channel (223) that passes through the vibration generating part (221) and is sealed and separated from the power receiving part (222) between the water storage cavity (21) and the atomizing nozzle (12).

5. A wearable product for realizing portable atomization function according to claim 2, characterized in that, The housing part (14) is integrally formed on the portable wearable product body (10), and the atomizing circuit board (11) and the power connection part (222) are electrically connected through openings in the housing part (14).

6. A wearable product for realizing portable atomization function according to claim 2, characterized in that, The housing part (14) is detachably mounted on the portable wearable product body (10). An electrical contact part (16) is provided between the housing part (14) and the portable wearable product body (10). The atomizing circuit board (11) and the power receiving part (222) are electrically connected through the electrical contact part (16).

7. A wearable product for realizing portable atomization function according to claim 1, characterized in that, The diameter of the ultrasonic atomizing generator (22) is 4mm-16mm.

8. A wearable product for realizing portable atomization function according to claim 1, characterized in that, The portable wearable product body (10) has a circuit board (17) inside, and wires (18) are led out from the circuit board (17). The atomizing circuit board (11) is electrically connected to the circuit board (17) through the wires (18).

9. A wearable product for realizing portable atomization function according to claim 8, characterized in that, A trigger (19) is electrically connected to a wire (18), and the trigger (19) protrudes from the surface of the portable wearable product body (10).

10. A wearable product for realizing portable atomization function according to claim 1, characterized in that, The water injection section (13) is a perforated structure with a one-way valve or a plug.