Wearable eye physiotherapy instrument
This wearable eye therapy device, with its multifunctional design, combines vibration massage, warm and cold therapy, and dual-wavelength phototherapy to solve the problem of incomplete effects of existing devices, achieving a more comprehensive eye care effect while providing comfort and intelligent control.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- THE SECOND AFFILIATED HOSPITAL ARMY MEDICAL UNIV
- Filing Date
- 2026-03-24
- Publication Date
- 2026-06-09
Smart Images

Figure REF-OBJ-1774343415101-000002 
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Abstract
Description
Technical Field
[0001] This invention relates to the field of eye therapy equipment technology, and more particularly to a wearable eye therapy device. Background Technology
[0002] With the widespread use of electronic devices in modern society, people's daily screen time has increased significantly, leading to common health problems such as eye fatigue and dryness, and a continuous rise in demand for eye care. Against this backdrop, wearable eye therapy devices, due to their convenience and efficiency, are gradually becoming an important choice for daily eye care. Currently, wearable eye therapy technology integrates various therapy methods such as mechanical massage, temperature and cool adjustment, and phototherapy. By optimizing the wearability, functional integration, and ease of operation of the devices, it meets the eye care needs of different groups in various scenarios such as home, office, and commuting. In related technologies, wearable eye therapy devices typically adopt a lightweight shell design, combined with elastic straps and other wearing structures to improve fit. Internally, they integrate power supply modules, control modules, and various therapy function modules to achieve automated and intelligent control of therapy functions, providing users with diverse eye care solutions, helping to improve eye microcirculation and relieve eye muscle fatigue, thus meeting the modern trend of convenient and personalized eye care. This invention is a wearable eye therapy device.
[0003] Most existing eye therapy devices can only specifically relieve one type of eye discomfort symptoms, making it difficult to meet multiple needs such as eye muscle relaxation, blood circulation promotion, antibacterial and anti-inflammatory effects, resulting in an overall incomplete therapeutic effect. Summary of the Invention
[0004] This invention relates to a wearable eye therapy device to solve the technical problems mentioned in the background section.
[0005] In a first aspect, the present invention provides a wearable eye therapy device, specifically comprising: a mounting base; a cover is mounted on the front side of the mounting base, a connecting buckle is fixed inside the cover, a positioning post is provided on the inner wall of the mounting base to cooperate with the connecting buckle, a massage airbag is mounted on the rear end of the mounting base, a mounting groove is provided on the upper side of the mounting base, a heater and a cooler are mounted in the mounting groove, and two mounting seats are mounted inside the mounting base, a vibration massager is mounted on the mounting seat, and an LED light therapy lamp assembly is mounted on the vibration massager, a battery compartment is provided inside the cover, a rechargeable battery is installed inside the battery compartment, and a magnetic charging port is provided at the front end of the cover.
[0006] Furthermore, two elastic straps are fixed on the mounting housing. The elastic straps are made of a blend of spandex and nylon. A rear connecting plate is installed between the two elastic straps. The rear connecting plate is provided with ventilation holes, and both elastic straps are provided with Velcro.
[0007] Furthermore, the housing contains a controller mounting compartment, which houses a controller panel. The controller panel integrates a Bluetooth BLE 5.0 module, supporting wireless communication with a mobile app and enabling functions such as customized therapy modes, data recording, and online firmware upgrades. The controller panel also integrates a power detection module to monitor the remaining power of the rechargeable battery in real time.
[0008] Furthermore, the LED light therapy lamp assembly includes two sets of LED beads with different wavelengths, one set being red LED beads and the other being blue LED beads, and the two sets of beads are arranged in a ring and alternately distributed on the edge of the end face of the vibrating massager.
[0009] Furthermore, the LED light therapy lamp assembly is electrically connected to the controller panel, and the controller panel has a built-in light power adjustment module.
[0010] Furthermore, a temperature-conducting channel is provided inside the mounting groove. One end of the temperature-conducting channel is in contact with the surface of the heater and the cooler, and the other end penetrates the inner wall of the mounting housing and communicates with the inner cavity of the massage airbag.
[0011] Furthermore, the outer wall of the temperature-conducting channel inside the mounting groove is wrapped with a layer of heat-insulating cotton.
[0012] Furthermore, the massage airbag is a medical-grade TPU flexible elastic film structure, and a thermally conductive silicone film is attached to the inside of the massage airbag. The thermally conductive silicone film has a hemispherical thermally conductive contact point integrally formed on the side facing the skin. The temperature generated by the heater and the cooler is transferred to the air inside the massage airbag through the temperature conduction channel, and then conducted to the thermally conductive contact point through the thermally conductive silicone film. When the massage airbag is inflated, the thermally conductive contact point squeezes the film of the massage airbag and bulges out, adhering to the skin around the eyes.
[0013] Furthermore, the controller panel has a built-in temperature linkage control module, which is electrically connected to the miniature air pumps connected to the heater, cooler, and massage airbag respectively.
[0014] Furthermore, a temperature sensor is installed inside the massage airbag. The temperature sensor is fixed to the center of the massage airbag by a flexible bracket, and the temperature sensor is electrically connected to the temperature linkage control module.
[0015] Compared with the prior art, the present invention has the following beneficial effects: This invention integrates three core functions: vibration massage, acupoint targeted warm and cold therapy, and dual-wavelength phototherapy. Multi-frequency vibration can directly relax the muscles around the eyes, and the expansion of the air bladder drives the heat-conducting contacts to achieve precise acupoint pressure. Combined with the temperature transmitted by the warm and cold adjustment component, it achieves a dual therapeutic effect of "massage + warm and cold stimulation". At the same time, the red light of the dual-wavelength phototherapy component promotes blood circulation around the eyes, and the blue light assists in antibacterial and anti-inflammatory effects. Working in synergy with the massage and warm and cold therapy functions, it can more comprehensively relieve eye fatigue, dryness and other discomforts compared to single-function physiotherapy devices, taking into account both daily care and eye health protection needs.
[0016] In addition, the elastic strap in this invention is made of a blend of spandex and nylon, and is paired with a back connecting plate with ventilation holes, which can be adapted to users with different head circumferences. It is adjustable in tightness and breathable, and does not feel stuffy even after wearing it for a long time. The massage airbag adopts a medical-grade TPU flexible elastic film structure, which can conform to the contours of different users' eyes after expansion. The height of the raised heat-conducting contact can be adaptively adjusted according to the airbag pressure to avoid excessive pressure on the skin.
[0017] Furthermore, in this invention, the temperature linkage control module built into the controller panel can automatically adjust the working power of the temperature and cooling components and the inflation pressure of the micro air pump based on real-time data from the temperature sensor inside the airbag. When the temperature exceeds the preset safety range, the power supply to the corresponding module is immediately cut off, effectively preventing high-temperature burns or low-temperature frostbite to the skin around the eyes. The heat insulation cotton layer on the outer wall of the temperature conduction channel reduces heat loss and avoids affecting the internal electronic components. The battery compartment's triple protection circuit for overcharge, over-discharge, and over-temperature further ensures the safety of the device's operation and charging process. The Bluetooth BLE 5.0 module integrated into the controller panel supports wireless connection with a mobile APP, allowing users to customize physiotherapy modes, record usage data, and optimize device functions through online firmware upgrades. Attached Figure Description
[0018] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings of the embodiments will be briefly described below.
[0019] The accompanying drawings described below are only related to some embodiments of the invention and are not intended to limit the invention.
[0020] In the attached diagram: Figure 1 A schematic diagram of the overall rear structure of a wearable eye therapy device according to the present invention is shown.
[0021] Figure 2 A schematic diagram of the overall front structure of a wearable eye therapy device according to the present invention is shown.
[0022] Figure 3 A schematic diagram of the structure of the rear side of the housing of a wearable eye therapy device according to the present invention is shown.
[0023] Figure 4 A schematic diagram of the mounting housing portion of a wearable eye therapy device according to the present invention is shown.
[0024] Figure 5 A schematic diagram of the structure of the vibration massager part of a wearable eye therapy device according to the present invention is shown.
[0025] Figure 6 This invention illustrates a wearable eye therapy device. Figure 1 A magnified structural diagram of part A in the middle.
[0026] Figure 7 A schematic diagram of the front side of the housing of a wearable eye therapy device according to the present invention is shown.
[0027] Figure 8 A system structure diagram of a wearable eye therapy device according to the present invention is shown.
[0028] List of reference numerals 1. Mounting housing; 11. Mounting slot; 111. Heater; 112. Cooler; 12. Elastic strap; 13. Rear connecting plate; 131. Vent hole; 14. Mounting base; 141. Vibration massager; 142. LED light therapy lamp assembly; 15. Massage airbag; 16. Positioning column; 2. Cover; 21. Connecting buckle; 22. Battery compartment; 221. Rechargeable battery; 23. Controller mounting compartment; 231. Controller panel; 24. Magnetic charging port. Detailed Implementation
[0029] To make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of the present invention. Based on the described embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0030] Please refer to Figures 1 to 8 Example 1: This invention proposes a wearable eye therapy device, comprising: a mounting base 1; a cover 2 mounted on the front side of the mounting base 1, a connecting buckle 21 fixed inside the cover 2, a positioning post 16 on the inner wall of the mounting base 1 that cooperates with the connecting buckle 21, a massage airbag 15 mounted on the rear end of the mounting base 1, a mounting groove 11 on the upper side of the mounting base 1, a heater 111 and a cooler 112 mounted in the mounting groove 11, two mounting seats 14 mounted inside the mounting base 1, a vibration massager 141 mounted on the mounting seat 14, and an LED light therapy lamp assembly 142 mounted on the vibration massager 141, a battery compartment 22 inside the cover 2, a rechargeable battery 221 inside the battery compartment 22, and a magnetic charging port 24 at the front end of the cover 2.
[0031] In this embodiment of the invention, two elastic straps 12 are fixed on the mounting base 1. The elastic straps 12 are made of a blend of spandex and nylon. A rear connecting plate 13 is installed between the two elastic straps 12. The rear connecting plate 13 is provided with ventilation holes 131, and both elastic straps 12 are provided with Velcro. The functions of the Velcro are: to utilize the high elasticity and toughness of the spandex and nylon blend to adapt to users with different head circumferences and improve the fit of wearing; the ventilation holes 131 of the rear connecting plate 13 can enhance air circulation during wearing, reduce stuffiness, and improve comfort during long-term wearing; the Velcro structure allows users to quickly adjust the tightness of the straps, making the wearing operation convenient, while ensuring stability during wearing and preventing the physiotherapy device from shifting during use.
[0032] In this embodiment of the invention, the housing 2 has a controller mounting compartment 23 inside, and a controller panel 231 is installed inside the controller mounting compartment 23. The controller panel 231 integrates a Bluetooth BLE 5.0 module, which supports wireless communication with a mobile APP and can realize functions such as customized physiotherapy modes, usage data recording, and online firmware upgrades. The controller panel 231 also integrates a power detection module, which monitors the remaining power of the rechargeable battery 221 in real time. Its function is to establish a communication link between the device and the mobile APP through the Bluetooth BLE 5.0 module, allowing users to customize the parameter combination of the vibration massager 141, LED light therapy lamp group 142, heater 111, and cooler 112 according to their own eye condition and physiotherapy needs, and at the same time record data such as physiotherapy duration and frequency, so that users can track the eye care effect. The firmware online upgrade function can optimize the control logic of the controller panel 231 and add physiotherapy modes without replacing the hardware, thus extending the service life of the device. The power detection module can provide real-time feedback on the remaining power of the rechargeable battery 221, reminding users to charge it in time through the magnetic charging port 24 to avoid interruption of the physiotherapy process due to insufficient power and ensure the continuity of use.
[0033] In this embodiment of the invention, the LED light therapy lamp assembly 142 includes two sets of LED beads of different wavelengths, one set being red LED beads and the other being blue LED beads. The two sets of beads are arranged in a ring, alternatingly distributed on the edge of the end face of the vibration massager 141. The LED light therapy lamp assembly 142 is electrically connected to the controller panel 231, and the controller panel 231 has a built-in light power adjustment module. Its function is as follows: the red LED beads can promote blood circulation around the eyes and relieve eye muscle fatigue, while the blue LED beads can play an antibacterial and anti-inflammatory role. The ring-alternating distribution design can ensure that the light evenly covers the area around the eyes, avoiding excessive local light intensity that could damage eye tissues. The light power adjustment module can precisely adjust the light power of the LED light therapy lamp assembly 142 according to different physiotherapy scenarios, adapting to the tolerance of different users and achieving a balance between light therapy effect and safety of use. At the same time, the light therapy function of the LED light therapy lamp assembly 142 is linked with the massage function of the vibration massager 141, which can further enhance the overall effect of eye physiotherapy.
[0034] In this embodiment of the invention, a temperature-conducting channel is provided inside the mounting groove 11. One end of the temperature-conducting channel is in contact with the surface of the heater 111 and the cooler 112, and the other end penetrates through the inner wall of the mounting housing 1 and communicates with the inner cavity of the massage airbag 15. The outer wall of the temperature-conducting channel inside the mounting groove 11 is wrapped with a heat-insulating cotton layer. Its function is to efficiently transfer the heat generated by the heater 111 or the cold generated by the cooler 112 to the inside of the massage airbag 15, realizing the integration of the warm and cold functions of the massage airbag 15, allowing users to enjoy hot or cold compress therapy while enjoying the massage of the massage airbag 15; the heat-insulating cotton layer can reduce the loss of temperature during the conduction process, improve energy utilization efficiency, reduce the energy consumption of the rechargeable battery 221, and at the same time prevent the temperature of the outer wall of the temperature-conducting channel from being too high or too low, which may affect other electronic components such as the mounting seat 14 and the vibration massager 141 inside the mounting housing 1, thus ensuring the stability of the equipment operation.
[0035] In Example 2, based on Example 1, the massage airbag 15 has a medical-grade TPU flexible elastic film structure. A thermally conductive silicone film is bonded inside the massage airbag 15. A hemispherical thermally conductive contact is integrally formed on the skin-facing side of the thermally conductive silicone film. The temperature generated by the heater 111 and the cooler 112 is transferred to the air inside the massage airbag 15 through a temperature conduction channel, and then conducted to the thermally conductive contact through the thermally conductive silicone film. When the massage airbag 15 inflates, the thermally conductive contact squeezes the film of the massage airbag 15 and bulges out, adhering to the skin around the eyes. Its function is... The medical-grade TPU film boasts excellent biocompatibility and deformation recovery, making it safe, skin-friendly, and durable. The thermally conductive silicone film rapidly and evenly conducts the temperature transferred through the thermal conduction channels. The hemispherical thermally conductive contacts precisely correspond to acupoints around the eyes. When inflated, the contacts adhere to the skin, achieving targeted warm and cold therapy at acupoints. Simultaneously, the raised design of the contacts enhances the pressure stimulation effect of the massage airbag 15. Combined with the warm and cold therapy function, it achieves a dual therapeutic effect of "acupoint massage + warm and cold stimulation," effectively relieving eye fatigue and improving eye microcirculation.
[0036] In Example 3, based on Examples 1 and 2, the controller panel 231 incorporates a built-in temperature linkage control module. This module is electrically connected to the miniature air pumps connected to the heater 111, cooler 112, and massage airbag 15. A temperature sensor is installed inside the massage airbag 15, fixed to its center position via a flexible bracket. The sensor is electrically connected to the temperature linkage control module. Its function is to: accurately monitor the temperature inside the massage airbag 15 in real time; and prevent damage to the sensor during inflation and deflation by the flexible bracket, ensuring stable temperature detection. Based on the temperature data from the sensor, the temperature linkage control module automatically adjusts the operating power of the heater 111 or cooler 112, as well as the inflation pressure of the miniature air pump. When the temperature inside the massage airbag 15 exceeds a preset safe range, it automatically cuts off the power to the corresponding module to prevent burns from high temperatures or frostbite from low temperatures around the eyes. Simultaneously, the linkage adjustment of temperature and inflation pressure allows the height of the protrusions on the thermally conductive silicone film to adaptively adjust with temperature changes, further enhancing the comfort and safety of the therapy.
[0037] The working principle of this invention: The rechargeable battery 221 in the battery compartment 22 provides power to the entire device. The controller panel 231 serves as the core control unit, and its integrated Bluetooth BLE 5.0 module establishes wireless communication with the mobile APP. The user issues physiotherapy mode commands through the APP or device buttons. After receiving the commands, the controller panel 231 sends control signals to the vibration massager 141, the heater 111, the cooler 112, the LED light therapy lamp group 142, and the miniature air pump connected to the massage airbag 15. At the same time, the remaining power of the rechargeable battery 221 is monitored in real time through the power detection module. The LED indicator light on the surface of the casing 2 provides feedback, triggering a reminder when the battery is low. Users can charge the battery via the magnetic charging port 24. The battery compartment 22 features a triple protection circuit against overcharge, over-discharge, and over-temperature to ensure power supply safety. During therapy, the vibration massager 141 receives signals and adjusts the vibration frequency, reducing operating noise through silent bearings to achieve eye muscle relaxation. Simultaneously, a micro-air pump inflates the massage airbag 15, which uses a medical-grade TPU flexible elastic film structure. This expansion causes the airbag to expand and provoke the hemispherical thermal contacts on the internal thermally conductive silicone film, precisely pressing acupoints around the eyes. The temperature generated by the heater 111 and the cooler 112 is transferred to the air inside the massage airbag 15 through the temperature conduction channel opened in the mounting slot 11, and then conducted to the heat conduction contact through the heat-conducting silicone film, realizing targeted warm and cold therapy for acupoints. The heat insulation cotton layer wrapped around the outer wall of the temperature conduction channel reduces heat loss and avoids affecting other electronic components inside the mounting housing 1. The LED light therapy lamp group 142 on the mounting base 14 is electrically connected to the controller panel 231. The red and blue LED beads contained therein are arranged in a ring and alternately distributed on the edge of the end face of the vibrating massager 141. The controller panel 231 has a built-in light power adjustment module. The power of the light group is adjusted according to the physiotherapy needs, so that the phototherapy function can work in conjunction with the massage and warm and cold therapy functions. In addition, the temperature sensor inside the massage airbag 15 is fixed by a flexible bracket to monitor the temperature inside the airbag in real time and feed the data back to the temperature linkage control module built into the controller panel 231. This module automatically adjusts the working power of the heater 111 and the cooler 112 and the inflation pressure of the micro air pump according to the temperature data. When the temperature exceeds the preset safety range, the power supply of the corresponding module is cut off to prevent burns or frostbite to the skin around the eyes. Ultimately, the synergistic physiotherapy effect of "vibration massage + acupoint warm and cold therapy + phototherapy" is achieved.
Claims
1. A wearable eye therapy device, comprising: Mounting housing (1); characterized in that a cover (2) is installed on the front side of the mounting housing (1), a connecting buckle (21) is fixed inside the cover (2), a positioning post (16) is provided on the inner wall of the mounting housing (1) to cooperate with the connecting buckle (21), a massage airbag (15) is installed at the rear end of the mounting housing (1), a mounting groove (11) is provided on the upper side of the mounting housing (1), a heater (111) and a cooler (112) are installed in the mounting groove (11), and two mounting seats (14) are installed inside the mounting housing (1), a vibration massager (141) is installed on the mounting seat (14), and an LED light therapy lamp group (142) is installed on the vibration massager (141). A battery compartment (22) is provided inside the cover (2), a rechargeable battery (221) is installed inside the battery compartment (22), and a magnetic charging port (24) is provided at the front end of the cover (2).
2. The wearable eye therapy device according to claim 1, characterized in that, Two elastic straps (12) are fixed on the mounting base (1). The elastic straps (12) are made of a blend of spandex and nylon. A rear connecting plate (13) is installed between the two elastic straps (12). A ventilation hole (131) is provided on the rear connecting plate (13), and Velcro is provided on both elastic straps (12).
3. The wearable eye therapy device according to claim 1, characterized in that, The housing (2) has a controller installation compartment (23) inside, and a controller panel (231) is installed inside the controller installation compartment (23). The controller panel (231) integrates a Bluetooth BLE5.0 module, supports wireless communication with a mobile APP, and can realize functions such as custom physiotherapy mode, data recording, and firmware online upgrade. The controller panel (231) also integrates a power detection module to monitor the remaining power of the rechargeable battery (221) in real time.
4. A wearable eye therapy device according to claim 1, characterized in that, The LED phototherapy lamp assembly (142) includes two sets of LED beads of different wavelengths, one set of which is red LED beads and the other set of which is blue LED beads. The two sets of beads are arranged in a ring and alternately distributed on the edge of the end face of the vibrating massager (141).
5. A wearable eye therapy device according to claim 4, characterized in that, The LED light therapy lamp group (142) is electrically connected to the controller panel (231), and the controller panel (231) has a built-in light power adjustment module.
6. A wearable eye therapy device according to claim 5, characterized in that, The mounting slot (11) has a heat conduction channel inside. One end of the heat conduction channel is in contact with the surface of the heater (111) and the cooler (112), and the other end passes through the inner wall of the mounting shell (1) and communicates with the inner cavity of the massage airbag (15).
7. A wearable eye therapy device according to claim 6, characterized in that, The outer wall of the heat conduction channel inside the mounting groove (11) is wrapped with a heat insulation cotton layer.
8. A wearable eye therapy device according to claim 6, characterized in that, The massage airbag (15) is a medical-grade TPU flexible elastic film structure. A thermally conductive silicone film is attached inside the massage airbag (15). A hemispherical thermally conductive contact is integrally formed on the side of the thermally conductive silicone film facing the skin. The temperature generated by the heater (111) and the cooler (112) is transferred to the air inside the massage airbag (15) through the thermal channel, and then conducted to the thermally conductive contact through the thermally conductive silicone film. When the massage airbag (15) is inflated, the thermally conductive contact squeezes the film of the massage airbag (15) and bulges out, fitting against the skin around the eyes.
9. A wearable eye therapy device according to claim 5, characterized in that, The controller panel (231) has a built-in temperature linkage control module, which is electrically connected to the miniature air pumps connected to the heater (111), the cooler (112), and the massage airbag (15).
10. A wearable eye therapy device according to claim 9, characterized in that, A temperature sensor is installed inside the massage airbag (15). The temperature sensor is fixed to the center of the massage airbag (15) by a flexible bracket. The temperature sensor is electrically connected to the temperature linkage control module.