An eye massager

By employing a reflective structure design and heating elements in the eye massager, the problems of uneven heating and delivery of atomized gas have been solved, achieving uniform delivery and efficient heating of atomized gas and improving the user experience.

CN224441569UActive Publication Date: 2026-07-03SHENZHEN DATOUREN IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN DATOUREN IND CO LTD
Filing Date
2025-05-23
Publication Date
2026-07-03

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Abstract

An eye massager includes an atomizing channel structure connected to the air outlet of an atomizing generator. The atomizing channel structure comprises: an atomizing channel inlet connected to the air outlet; an atomizing channel outlet for delivering atomized gas to the eyes; an atomizing channel connecting the atomizing channel inlet and outlet; and a baffle for diverting the atomized gas. The baffle is connected to the atomizing channel outlet, and at least one reflector is provided on the atomizing channel to reflect the atomized gas from the atomizing channel inlet at least once before diverting it to the eyes. This design utilizes a reflective structure, achieving improved uniformity and efficiency of atomized gas delivery, and enhancing the user experience.
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Description

Technical Field

[0001] This utility model belongs to the technical field of massage devices, and particularly relates to an eye massage device. Background Technology

[0002] With societal development, people face increasing work and study pressures, leading to longer screen time. Students spend long hours reading and studying, while adults stare at computers or mobile phones for extended periods for work and entertainment. This keeps the eyes under constant strain, easily causing eye fatigue, dryness, and decreased vision. The development of massage devices aims to address these issues. However, existing eye massagers suffer from uneven heating of the atomized gas, long heating times, low output efficiency, and inconsistent atomization concentrations after heating and delivery to the eyes, affecting absorption by the skin and tissues and ultimately impacting the user experience. Therefore, this invention proposes a new solution to address these technical problems. Utility Model Content

[0003] The purpose of this invention is to provide an eye massager that adopts a reflective structural design, thereby improving the uniformity and efficiency of atomized gas delivery and enhancing the user experience.

[0004] Based on this, the present invention provides an eye massager.

[0005] An atomizing channel structure is provided that communicates with the air outlet of the atomizing generator, and the atomizing channel structure is provided with:

[0006] An air inlet for the atomizing channel that is connected to the air outlet of the atomizing generator;

[0007] The atomized gas is delivered to the atomization channel outlet in the eye area;

[0008] An atomizing channel that connects the air inlet and the air outlet of the atomizing channel;

[0009] A baffle that splits the atomized gas;

[0010] The baffle is connected to the air outlet of the atomizing channel. At least one reflector is provided on the atomizing channel to reflect the atomized gas from the air inlet of the atomizing channel at least once, and then the gas is diverted by the baffle and delivered to the eyes.

[0011] As described above, in an eye massager, the baffle is provided with at least one baffle diversion slot for delivering atomized gas to the eyes. The atomized gas can be reflected by the reflector to the baffle diversion slot for diversion and delivery to the eyes.

[0012] As described above, the atomizing channel is further provided with a heating element for heating. The heating element is connected to the atomizing channel structure and is provided with a first reflective part, a second reflective part, a third reflective part, and a fourth reflective part. The first reflective part, the second reflective part, the third reflective part, the fourth reflective part, and the baffle cooperate to reflect the atomized gas to the baffle diversion slot and then deliver it to the eyes.

[0013] The present invention provides an eye massager, which further includes a heating element for generating heat. The heating element is connected to the outside of the heating element, and the heating element is an integrally formed structure. After the heating element is powered on, it can conduct heat to the first reflective part, the second reflective part, the third reflective part, and the fourth reflective part to heat the atomized gas.

[0014] As described above, in an eye massager, the baffle is provided with a fifth reflective part. The first reflective part, the second reflective part, the third reflective part, the fourth reflective part, and the fifth reflective part work together to reflect the atomized gas onto the baffle's diversion slot and deliver it to the eyes.

[0015] As described above, in an eye massager, the atomizing channel and the baffle can cooperate to form multiple reflection paths; the second reflective part cooperates with the baffle diversion slot to form a first reflection path; the fourth, second, and fifth reflective parts cooperate with the baffle diversion slot to form a second and a third reflection path; the first and second reflective parts cooperate with the baffle diversion slot to form a fourth reflection path; and the third and second reflective parts cooperate with the baffle diversion slot to form a fifth reflection path.

[0016] As described above, an eye massager has a baffle connecting part on the air outlet of the atomizing channel, and a baffle fastening part on the baffle. The baffle fastening part is connected to the baffle connecting part to fasten the baffle to the air outlet of the atomizing channel.

[0017] The present invention provides an eye massager, which further includes a first massager support base. The atomizing channel structure is symmetrically arranged on both sides of the first massager support base, and the first massager support base is provided with an atomizing generator mounting position for mounting the atomizing generator.

[0018] As described above, in an eye massager, an atomizer mounting protrusion is provided in the atomizer mounting position, the atomizer is connected to the atomizer mounting protrusion, and the atomizer mounting protrusion separates the atomization channel structures on both sides.

[0019] The present invention provides an eye massager, which further includes a first eye massager mounting shell, a second eye massager mounting shell, and a massage head assembly. The first massager support base is also provided with a massage head mounting position, and the massage head assembly is connected to the massage head mounting position to massage the eyes. The second eye massager mounting shell is connected to the first massager support base, and the first eye massager mounting shell is connected to the second eye massager mounting shell for fastening.

[0020] Implementing the embodiments of this utility model has the following beneficial effects:

[0021] 1. This solution adopts a reflective structural design. The atomization channel structure includes an atomization channel inlet, an atomization channel outlet, an atomization channel, and a baffle. The atomization channel inlet and outlet are connected through the atomization channel. The atomizer outlet of the atomizer is connected to the atomization channel inlet, allowing the atomized gas to be delivered to the eyes through the atomization channel outlet. The baffle is connected to the atomization channel outlet. By setting a reflector on the atomization channel, the atomized gas is reflected onto the baffle for diversion and delivery to the eyes. This reduces the loss of atomized gas during delivery and avoids situations where the atomized gas concentration is too high or too low in certain areas when delivered to the eyes. This achieves the effect of improving the uniformity and efficiency of atomized gas delivery and enhancing the user experience. Attached Figure Description

[0022] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0023] Figure 1 This is a schematic diagram of the structure of an embodiment of the present utility model;

[0024] Figure 2 For the corresponding Figure 1 A structural diagram from another direction;

[0025] Figure 3 This is an exploded view of the structure of an embodiment of the present utility model;

[0026] Figure 4 For the corresponding Figure 3 A structural diagram from another direction;

[0027] Figure 5 This is a schematic diagram showing the partial concealment of the structure in an embodiment of this utility model;

[0028] Figure 6 For the corresponding Figure 5 A structural diagram from another direction;

[0029] Figure 7 For the corresponding Figure 6 A structural diagram from another direction;

[0030] Figure 8 For the corresponding Figure 7 AA section view;

[0031] Figure 9 For the corresponding Figure 5 Exploded view of the structure;

[0032] Figure 10 For the corresponding Figure 9 Enlarged view of the structure of section B;

[0033] Figure 11 For the corresponding Figure 9 A structural diagram from another direction;

[0034] Figure 12 For the corresponding Figure 9 A structural diagram from another direction;

[0035] Figure 13 This is a schematic diagram of the heating element in an embodiment of the present invention;

[0036] Figure 14 This is a schematic diagram of the structure of the first massager support base according to an embodiment of the present invention.

[0037] In the diagram: 1-Atomizing channel structure, 11-Atomizing channel inlet, 12-Atomizing channel outlet, 121-Baffle connection, 13-Atomizing channel, 131-Heating element, 1311-First reflector, 1312-Second reflector, 1313-Third reflector, 1314-Fourth reflector, 135-Baffle connecting post, 136-Atomizing channel inclined section, 137-Reflector mounting position, 14-Baffle, 141-Baffle flow divider slot, 142- 1. Baffle fastening part; 143-First baffle step part; 144-Second baffle step part; 145-Baffle mounting post; 146-Fifth reflector part; 2-Atomizer; 21-Atomizer outlet; 22-Atomizer mounting slot; 3-First massager support; 31-Atomizer mounting position; 311-Atomizer mounting protrusion; 32-Massage head mounting position; 4-First eye massager mounting shell; 5-Second eye massager mounting shell; 6-Massage head assembly. Detailed Implementation

[0038] 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.

[0039] like Figures 1 to 14 As shown, this embodiment of the utility model provides an eye massager, which is provided with an atomizing channel structure 1 that communicates with the atomizing outlet 21 of the atomizing generator 2. The atomizing channel structure 1 is provided with:

[0040] An atomizing channel inlet 11 is connected to the outlet 21 of the atomizing generator; an atomizing channel outlet 12 delivers atomized gas to the eyes; an atomizing channel 13 connects the atomizing channel inlet 11 and the atomizing channel outlet 12; a baffle 14 diverts the atomized gas; the baffle 14 is connected to the atomizing channel outlet 12, and at least one reflector is provided on the atomizing channel 13 so that the atomized gas from the atomizing channel inlet 11 is reflected at least once and then diverted by the baffle 14 before being delivered to the eyes.

[0041] Specifically, the baffle 14 is a grid design, and the baffle 14 is provided with at least one baffle diversion slot 141 for delivering atomized gas to the eyes. By increasing or decreasing the number of baffle diversion slots 141, the needs of different areas of the eyes for the size and distribution of atomized gas particles can be met, thereby enhancing the comfort of the eye massager for hydration. In this embodiment of the present invention, the number of baffle diversion slots 141 is preferably three to improve the output efficiency of atomized gas.

[0042] Furthermore, the eye massager provided in this embodiment of the present invention also includes a main control module for adjustment. The atomizer 2 is connected to the main control module to control the concentration of the atomized gas output by the atomizer 2. The atomizer outlet 21 is preferably designed as a round hole to accelerate the atomized gas in the first stage, ensuring that the atomized gas can reach the reflector through the atomization channel 13 for reflection. The atomization channel 13 is also provided with a heating element 131 for heating. The heating element 131 is connected to the atomization channel structure 1. In this embodiment of the present invention, the heating element 131 is connected to the atomization channel structure 1. At the end, so that after the heating element 131 heats the atomized gas, it can be delivered to the eye through the baffle diversion slot 141; the heating element 131 is provided with four reflective parts: a first reflective part 1311, a second reflective part 1312, a third reflective part 1313, and a fourth reflective part 1314. The first reflective part 1311, the second reflective part 1312, the third reflective part 1313, the fourth reflective part 1314, and the baffle 14 cooperate to reflect the atomized gas to the baffle diversion slot 141 for delivery to the eye, so that the atomized gas can be reflected to the baffle diversion slot 141 for delivery to the eye after entering the atomization channel 13, thereby reducing the loss of atomized gas during the delivery process.

[0043] Furthermore, the eye massager provided in this embodiment of the present invention also includes a heating element for generating heat. The heating element is connected to the outside of the heating element 131, and the heating element 131 has an integrally formed structure. In this embodiment of the present invention, the heating element 131 is preferably made of aluminum material in an integral form to facilitate overall installation, improve the portability of installation and heat conduction efficiency, and ensure that the heat is evenly distributed on the first reflective part 1311, the second reflective part 1312, the third reflective part 1313, and the fourth reflective part 1314. The heating element is connected to the main control module, so that after the heating element is powered on, the heat generated by the heating element can be controlled by the main control module, thereby realizing the function of the eye massager. The intelligent control of the temperature of the heating element 131 enables unified control of the heating temperature of each reflector, allowing for precise temperature adjustment and improving the convenience of temperature adjustment for the heating element 131. Simultaneously, by heating and reflecting the atomized gas through multiple reflectors, the temperature of the atomized gas during delivery is prevented, ensuring that the atomized gas remains at the set temperature after output, effectively improving user satisfaction. In this embodiment, the heating element is a resistance wire connected to the outside of the heating element 131. The resistance wire can be made of one of the following: nickel-chromium alloy, iron-chromium-aluminum alloy, copper-nickel alloy, or carbon resistance wire. This embodiment preferably uses nickel-chromium alloy or iron-chromium-aluminum alloy to improve the stability of the heating element in high-temperature environments.

[0044] Furthermore, the baffle 14 is provided with a fifth reflective part 146. The first reflective part 1311, the second reflective part 1312, the third reflective part 1313, the fourth reflective part 1314, and the fifth reflective part 146 cooperate to reflect the atomized gas to the baffle diversion slot 141 and deliver it to the eye, so as to concentrate the atomized gas to the baffle diversion slot 141 for diversion and output, thereby improving the uniformity of the atomized gas output.

[0045] Furthermore, the atomizing channel 13 and the baffle 14 can cooperate to form multiple reflection paths. The second reflective part 1312 cooperates with the baffle diversion slot 141 to form a first reflection path; the fourth reflective part 1314, the second reflective part 1312, and the fifth reflective part 146 cooperate with the baffle diversion slot 141 to form a second reflection path and a third reflection path; the first reflective part 1311 and the second reflective part 1312 cooperate with the baffle diversion slot 141 to form a fourth reflection path; and the third reflective part 1313 and the second reflective part 1312 cooperate with the baffle diversion slot 141 to form a fifth reflection path.

[0046] The first reflection route is as follows: the atomized gas is output from the atomizer outlet 21 of the atomizer 2 to the atomization channel inlet 11, and then the atomized gas is reflected for the first time by the second reflector 1312 provided in the atomization channel 13 to the baffle diversion slot 141 and delivered to the eyes.

[0047] The second reflection path is as follows: the atomized gas is output from the atomizer outlet 21 of the atomizer 2 to the atomization channel inlet 11, and then the atomized gas is refracted for the first time to the second reflector 1312 by the fourth reflector 1314 provided in the atomization channel 13. The second reflector 1312 reflects the atomized gas for the first time to the fifth reflector 146. The fifth reflector 146 reflects the atomized gas for the second time to the fourth reflector 1314. The fourth reflector 1314 reflects the atomized gas for the third time to the baffle diversion slot 141 and delivers it to the eye.

[0048] The third reflection route is as follows: the atomized gas is output from the atomizer outlet 21 of the atomizer 2 to the atomization channel inlet 11, and then reflected for the first time by the second reflector 1312 provided in the atomization channel 13 to the fifth reflector 146. The fifth reflector 146 reflects the atomized gas for the second time to the fourth reflector 1314, and the fourth reflector 1314 reflects the atomized gas for the third time to the baffle diversion slot 141 and delivers it to the eyes.

[0049] The fourth reflection route is as follows: the atomized gas is output from the atomizer outlet 21 of the atomizer 2 to the atomization channel inlet 11, and then the atomized gas is refracted for the first time by the first reflector 1311 provided in the atomization channel 13 to the second reflector 1312. The second reflector 1312 reflects the atomized gas for the first time to the baffle diversion slot 141 and delivers it to the eye.

[0050] The fifth reflection route is as follows: the atomized gas is output from the atomizer outlet 21 of the atomizer 2 to the atomization channel inlet 11, and then the atomized gas is refracted for the first time to the second reflection part 1312 by the third reflection part 1313 provided in the atomization channel 13. The second reflection part 1312 reflects the atomized gas for the first time to the baffle diversion slot 141 and delivers it to the eye.

[0051] This design, by setting up multiple reflection paths, greatly improves the heating and output efficiency of the atomized water, reduces the loss of atomized gas during transportation, and enhances the comfort of the eye massager.

[0052] The baffle 14 has a stepped design and is provided with a first baffle stepped portion 143 and a second baffle stepped portion 144. The baffle diversion slot 141 is connected to the first baffle stepped portion 143 and the second baffle stepped portion 144. The stepped structural design expands the range of atomized gas output to the eyes, improves the output efficiency of atomized gas, and thus enhances the moisturizing effect of the eye massager.

[0053] Furthermore, the atomizing channel outlet 12 is provided with a baffle connecting part 121, and the baffle 14 is also provided with a baffle fastening part 142. The baffle fastening part 142 is detachably connected to the baffle connecting part 121 to fasten the baffle 14 to the atomizing channel outlet 12, thereby improving the convenience of connecting the baffle 14 and preventing the baffle 14 from shaking during use, thus improving the stability of the eye massager.

[0054] Furthermore, the eye massager provided in this embodiment of the present invention also includes a first massager support base 3. The first massager support base 3 is integrally molded from high-strength, high-temperature resistant engineering plastic to ensure the structural stability and durability of the first massager support base 3 during long-term use, thereby extending the service life of the eye massager. The atomizing channel structure 1 is symmetrically arranged on both sides of the first massager support base 3, and the first massager support base 3 is provided with an atomizing generator mounting position 31 for mounting the atomizing generator 2.

[0055] In this embodiment of the present invention, the air outlet 21 of the atomizer is disposed opposite to the two sides of the atomizer 2, and the atomizer 2 is installed on the atomizer mounting position 31 so that the atomized gas is delivered to the atomization channel structure 1 on both sides through the air outlet 21 of the atomizer on both sides, and then the heated atomized gas is output through the air outlet 12 of the atomization channel, ensuring that both eyes can be moisturized and improving the comfort of the eye massager;

[0056] The atomizing channel 13 is also provided with a baffle connecting post 135, and the baffle 14 is also provided with a baffle mounting post 145. The baffle mounting post 145 is connected to the baffle connecting post 135 so that the baffle 14 can be detachably connected to the air outlet 12 of the atomizing channel, thereby improving the stability of the installation.

[0057] In this embodiment of the present invention, the second reflective part 1312 is designed with an inclined angle ranging from 1° to 50° to ensure that after the second reflective part 1312 is installed, it is parallel to the central axis of the first massager support 3. This ensures that the atomized gas can be evenly heated after passing through the second reflective part 1312 and reflected by the second reflective part 1312 to the baffle diversion slot 141 for delivery to the eyes, thereby reducing the loss of atomized gas during the reflection process.

[0058] Furthermore, the atomizer mounting position 31 is a cavity design, and an atomizer mounting protrusion 311 is provided inside the atomizer mounting position 31; the atomizer 2 is provided with an atomizer mounting groove 22, which is connected to the atomizer mounting protrusion 311 to fix the atomizer 2 inside the atomizer mounting position 31, so as to avoid lateral movement during use and improve the stability of the eye massager during use; the atomizer mounting protrusion 311 separates the atomization channel structure 1 on both sides to prevent the heated atomized gas from flowing back after multiple reflections, ensuring that the heated atomized gas can be concentrated and delivered to the eyes, reducing the loss of atomized gas during the reflection process.

[0059] In this embodiment of the present invention, the atomizing channel 13 is further provided with an atomizing channel inclined portion 136. After the atomizing gas enters the atomizing channel 13 through the atomizing channel inlet 11, it undergoes a second-stage acceleration through the atomizing channel inclined portion 136, so that the atomized water can form multiple reflection paths through the first reflection portion 1311, the second reflection portion 1312, the third reflection portion 1313, the fourth reflection portion 1314, and the fifth reflection portion 146. This facilitates the delivery of the atomized water to the eyes through the baffle diversion slot 141, reducing the loss of atomized water during the reflection process.

[0060] The atomizing channel 13 is also provided with a reflective mounting position 137. The heating element 131 is connected to the atomizing channel 13 through the reflective mounting position 137 to improve the stability of the eye massager after connection and the ease of disassembly.

[0061] Furthermore, the eye massager provided in this embodiment of the present invention also includes a first eye-moisturizing device mounting shell 4, a second eye-moisturizing device mounting shell 5, and a massage head assembly 6. The massage head assembly 6 is connected to the main control module so that the main control module can control the massage head assembly 6 to perform massage. The first massager support base 3 is also provided with massage head mounting positions 32, which are arranged opposite each other on both sides of the first massager support base 3. The two sets of massage head assemblies 6 are respectively connected to the first massager support base 3 through the massage head mounting positions 32 on both sides to facilitate massage of the eyes and improve the comfort of the eye massager during use. The second eye-moisturizing device mounting shell 5 is connected to the first massager support base 3, and the first eye-moisturizing device mounting shell 4 is connected to the second eye-moisturizing device mounting shell 5 for fastening, so as to improve the convenience of the overall connection of the eye massager, facilitate later maintenance and repair, and at the same time improve the protection of internal components and extend the service life of the eye massager.

[0062] It should be understood that the terms "first," "second," etc., are used in this utility model to describe various information, but this information should not be limited to these terms. These terms are only used to distinguish information of the same type from each other. For example, without departing from the scope of this utility model, "first" information can also be referred to as "second" information, and similarly, "second" information can also be referred to as "first" information. In addition, the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0063] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications are also considered to be within the protection scope of this utility model.

Claims

1. An eye massager, which is provided with an atomization channel structure (1) in communication with an atomization generator air outlet (21) of an atomization generator (2), characterized in that, The atomizing channel structure (1) is provided with: Atomization channel inlet (11) connected to the outlet (21) of the atomizer; The atomized gas is delivered to the atomized channel outlet (12) of the eye. Atomizing channel (13) connecting the air inlet (11) and the air outlet (12) of the atomizing channel. Baffle (14) that splits the atomized gas; The baffle (14) is connected to the air outlet (12) of the atomizing channel. At least one reflector is provided on the atomizing channel (13) to reflect the atomized gas from the air inlet (11) of the atomizing channel at least once, and then the gas is diverted by the baffle (14) and delivered to the eyes.

2. The eye massager of claim 1, wherein The baffle (14) is provided with at least one baffle diversion slot (141) for delivering atomized gas to the eyes. The atomized gas can be reflected by the reflector to the baffle diversion slot (141) for diversion and delivery to the eyes.

3. The eye massager of claim 2, wherein the first massage element and the second massage element are arranged in a staggered manner. The atomizing channel (13) is also provided with a heating element (131) for heating. The heating element (131) is connected to the atomizing channel structure (1), and the heating element (131) is provided with a first reflective part (1311), a second reflective part (1312), a third reflective part (1313), and a fourth reflective part (1314). The first reflective part (1311), the second reflective part (1312), the third reflective part (1313), the fourth reflective part (1314), and the baffle (14) work together to reflect the atomized gas to the baffle diversion slot (141) for diversion and delivery to the eyes.

4. The eye massager of claim 3, wherein the first massage element and the second massage element are arranged to be rotated in the same direction. It also includes a heating element for generating heat, which is connected to the outside of the heating element (131), and the heating element (131) is an integrally formed structure design; after the heating element is powered on, it can conduct heat to the first reflective part (1311), the second reflective part (1312), the third reflective part (1313), and the fourth reflective part (1314) to heat the atomized gas.

5. The eye massager of claim 3, wherein the first massage element and the second massage element are arranged to be rotated in the same direction. The baffle (14) is provided with a fifth reflective part (146). The first reflective part (1311), the second reflective part (1312), the third reflective part (1313), the fourth reflective part (1314), and the fifth reflective part (146) work together to reflect the atomized gas to the baffle diversion slot (141) and deliver it to the eyes.

6. The eye massager of claim 5, wherein the first massage element and the second massage element are arranged to be rotated in the same direction. The atomizing channel (13) and the baffle (14) can cooperate to form multiple reflection paths. The second reflective part (1312) and the baffle diversion slot (141) cooperate to form the first reflection path. The fourth reflective part (1314), the second reflective part (1312), the fifth reflective part (146) and the baffle diversion slot (141) can cooperate to form the second reflection path and the third reflection path. The first reflective part (1311), the second reflective part (1312) and the baffle diversion slot (141) cooperate to form the fourth reflection path. The third reflective part (1313), the second reflective part (1312) and the baffle diversion slot (141) cooperate to form the fifth reflection path.

7. An eye massager according to claim 3, characterized in that, The atomizing channel outlet (12) is provided with a baffle connecting part (121), and the baffle (14) is also provided with a baffle fastening part (142). The baffle fastening part (142) is connected to the baffle connecting part (121) to fasten the baffle (14) to the atomizing channel outlet (12).

8. The eye massager of claim 1, wherein It also includes a first massager support base (3), the atomizing channel structure (1) is symmetrically arranged on both sides of the first massager support base (3), and the first massager support base (3) is provided with an atomizing generator mounting position (31) for the atomizing generator (2) to be installed.

9. The eye massager of claim 8, wherein the at least one protrusion is arranged on the inner surface of the first ring. The atomizer mounting position (31) is provided with an atomizer mounting protrusion (311), the atomizer (2) is connected to the atomizer mounting protrusion (311), and the atomizer mounting protrusion (311) separates the atomization channel structure (1) on both sides.

10. The eye massager of claim 8, wherein the at least one protrusion is disposed on the inner surface of the first or second ring. It also includes a first eye massager mounting shell (4), a second eye massager mounting shell (5), and a massage head assembly (6). The first massager support base (3) is also provided with a massage head mounting position (32). The massage head assembly (6) is connected to the massage head mounting position (32) to massage the eyes. The second eye massager mounting shell (5) is connected to the first massager support base (3), and the first eye massager mounting shell (4) is connected to the second eye massager mounting shell (5) for fastening.