A photonic mask
By designing eye sockets and nose pads to shield the light in the photon mask and using a detachable controller with contact connections, the problems of poor compatibility between the light shield and the nose and controller interference are solved, achieving better light shielding effect and convenient use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN MAIDI TECH (AUSTRALIA) CO LTD
- Filing Date
- 2025-04-12
- Publication Date
- 2026-06-16
AI Technical Summary
Existing photon masks have poor fit between the light-blocking part and the nose area of the face when worn, resulting in light leakage. At the same time, the connection method between the controller and the mask affects normal use.
A photonic mask was designed, including a mask body and a detachable controller. The mask body is provided with an eye socket light-blocking part and a nose pad light-blocking part. The nose pad light-blocking part has a nose bridge avoidance notch. The controller is connected to the circuit layer through contacts to avoid power line interference and simplify operation.
It improves the light-blocking effect, enhances the fit between the mask and the face, simplifies the operation process, avoids light leakage and power cord interference, and improves the user experience.
Smart Images

Figure CN224357900U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of beauty products technology, specifically to a photon mask. Background Technology
[0002] With the expansion of optical technology applications in the medical field, people have discovered that light of specific wavelengths has unique effects on the skin. For example, the application of intense pulsed light (IPL) technology in the beauty field can effectively improve skin problems such as pigmentation and redness. By precisely controlling the wavelength and intensity of LEDs, specific effects on the skin can be achieved; for example, red light can promote collagen production, and blue light can kill Propionibacterium acnes. In today's fast-paced life, people hope to have more convenient beauty care in their daily lives without frequent visits to beauty salons. Photon masks have emerged to meet this need. They are small in size, easy to operate, and can be used at home, saving users time and effort. However, when using photon masks, it is important to avoid direct light exposure to the eyes to prevent damage from prolonged exposure.
[0003] Patent document CN 221579490 U discloses a multi-layer light-shielding structure and device for a phototherapy mask, including a phototherapy mask body. An eye observation hole is opened in the middle of the inner wall of the phototherapy mask body. A light source center point is uniformly and electrically connected inside the phototherapy mask body. Light source shielding pillars are uniformly and fixedly connected to the rear end of the phototherapy mask body, and the light source shielding pillars are located outside the light source center point. A light source is introduced at the light source center point of the phototherapy mask body.
[0004] The light-shielding column is designed to block the light emitted from the light source from directly shining into the eyes. At the same time, it maintains a high level of uniformity of light on the face, thus protecting the user's eyes while maintaining a good beauty effect and avoiding prolonged exposure to strong light during use.
[0005] However, during use, the light source shielding column has poor fit with the nose area of the face, resulting in a poor user experience. Patent document CN221084441U discloses a combined LED beauty mask, which includes a mask assembly. The mask assembly includes a face light panel, an upper substrate mounted on the face light panel, and a first interface on the upper substrate for connecting to a power source. A wearing component is mounted on the mask assembly, including a connecting part, eye masks, and ear hooks. The connecting part is mounted on a rear cover, and the eye masks and ear hooks are both mounted on the connecting part. It connects to a power source via a controller to power the face light panel, and eye masks are installed inside the mask to prevent light from the panel light from damaging the user's eyes.
[0006] However, the goggles are installed during assembly, which makes the mask body have more parts and a more complex structure. In addition, the controller and the face light panel are connected by a power cord, and the presence of the power cord will interfere with normal use. Summary of the Invention
[0007] The present invention aims to solve the technical problems of light leakage caused by the poor fit between the light-blocking part of the mask and the nose area of the face when it is worn, and the technical problems of the controller in the prior art affecting normal use.
[0008] To achieve the above objectives, the technical solution of this utility model is as follows: a photon mask, comprising a mask body and a controller. The mask body includes an outer cover layer, on which a first viewing hole is provided. An eye socket light-blocking part extending inward is provided along the edge of the first viewing hole on the outer cover layer. A nose pad light-blocking part extending inward is provided on the lower end of the eye socket light-blocking part. A nose bridge avoidance notch is provided on the nose pad light-blocking part. A circuit layer and a face mask layer are sequentially provided inside the outer cover layer. The controller is detachably disposed on the outside of the mask body. When the controller is combined with the mask body, the circuit layer is electrically connected to the controller.
[0009] This design features an eye socket shading section extending inward along the edge of the first viewing hole on the outer layer, which blocks direct light from shining into the user's eyes. The lower end of the shading section continues to extend inward to form a nose bridge shading section, which has a nose bridge avoidance notch. This allows the shading section to avoid the bridge of the nose when wearing the mask, resulting in a tighter fit between the mask and the face and better light blocking. A detachable controller is included; users can remove the controller, set the parameters, and then attach it to the mask body. Operation is simple, requires no power cord, and is convenient to use. Attached Figure Description
[0010] Figure 1 This is a schematic diagram of the overall structure of an embodiment of the present utility model;
[0011] Figure 2 This is a rear view of the overall structure of an embodiment of the present utility model;
[0012] Figure 3 This is an exploded structural diagram of an embodiment of the present utility model;
[0013] Figure 4 This is a schematic diagram of the structure of the outer cover and controller in an embodiment of the present invention;
[0014] Figure 5 This is a schematic diagram of the structure when used in an embodiment of this utility model. Detailed Implementation
[0015] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0016] like Figures 1 to 4 As shown, a photonic mask includes a mask body 1 and a controller 2. The mask body 1 includes an outer cover layer 11, a first viewing hole 111 is provided on the outer cover layer 11, an eye socket light-blocking part 112 extending inward is provided on the outer cover layer 11 along the edge of the first viewing hole 111, and a nose pad light-blocking part 113 extending further inward to the outer cover layer 11 is provided on the lower end of the eye socket light-blocking part 112.
[0017] In this embodiment, the nose pad light-blocking part 113 extends inward and also slopes downward. A nose bridge avoidance notch 114 is provided on the nose pad light-blocking part 113, and the edge of the nose bridge avoidance notch 114 also slopes downward. The nose pad light-blocking part 113 extends from the lower eye socket light-blocking part 112, further preventing light from entering from below the face, especially from near the nose. At the same time, because it slopes inward and downward, it fits closely to the physiological structure of the nose pad on the face, greatly improving the comprehensiveness and accuracy of light blocking. The nose bridge avoidance notch and the downward slope of the edge notch ...
[0018] Inside the outer cover layer 11, a circuit layer 12 and a face mask layer 13 are sequentially arranged. Multiple LED beads 124 are arranged on the side of the circuit layer 12 facing the face mask layer 13. Multiple mounting cavities 134 are arranged on the side of the face mask layer 13 facing the circuit layer 12. The LED beads 124 can be placed inside the mounting cavities 134. The bottom of the mounting cavity 134 extends inward to form multiple light-illuminating protrusions 135 on the inner side of the face mask layer 13. The light emitted by the LED beads 124 is emitted through the light-illuminating protrusions 135. The light bead 124 is placed inside the placement cavity 134 of the facial mask layer 13, so that the light can be more concentrated and irradiated onto the skin through the light protrusion 135. Compared with the scattering of light without this design, this method can apply more light energy to the target skin area, enhancing the phototherapy effect. At the same time, the light protrusion 135 separates the light bead 124 from the skin, avoiding the risk of burns that may occur from direct skin contact with the light bead 124. Especially when the light bead 124 is working and heating up for a long time, it can effectively protect the user's safety.
[0019] like Figure 3As shown, in this embodiment, the controller 2 is detachably disposed on the outside of the mask body 1. A mounting cavity 103 is provided on the outer cover layer 11, and the controller 2 can be placed in the mounting cavity 103. A through hole is provided in the mounting cavity 103. A contact pin is provided on the circuit layer 12, and the contact pin on the circuit layer 12 extends out from the through hole in the mounting cavity 103. A contact point is provided on the back of the controller 2. When the controller 2 is combined with the mask body 1, the controller 2 is placed in the mounting cavity 103, and the contact pin on the circuit layer 12 is connected to the contact point on the back of the controller 2, so that the circuit layer 12 is electrically connected to the controller 2, and the power supply of the controller 2 supplies power to the circuit layer 12.
[0020] By using a contact and pin connection method, there is no power cord connection between the controller 2 and the mask body 1, preventing the power cord from obstructing use. The pin and contact connection method is also more convenient to disassemble than the interface connection. By setting up a detachable controller 2, the controller 2 can be removed first to set various parameters, and then installed on the mask body 1. The operation is simple, no power cord is required, and it is convenient to use.
[0021] like Figure 3 As shown, in this embodiment, a first breathing hole 115 and a first opening 116 are provided on the outer cover layer 11, a second viewing hole 121, a second breathing hole 122 and a second opening 123 are provided on the circuit layer 12, and a third viewing hole 131, a third breathing hole 132 and a third opening 133 are provided on the face mask layer 13; wherein the first viewing hole 111, the second viewing hole 121 and the third viewing hole 131 correspond to each other, the first breathing hole 115, the second breathing hole 122 and the third breathing hole 132 correspond to each other, and the first opening 116, the second opening 123 and the third opening 133 correspond to each other.
[0022] The first viewing hole 111, the second viewing hole 121, and the third viewing hole 131 correspond to each other, allowing the user to have a clear view when wearing the mask for phototherapy, without the mask obstructing their vision. The first breathing hole 115, the second breathing hole 122, and the third breathing hole 132 correspond to each other, forming a continuous breathing channel, ensuring normal airflow when wearing the mask and preventing breathing difficulties caused by excessive mask sealing. The first opening 116, the second opening 123, and the third opening 133 correspond to each other, allowing the user's mouth to be exposed when wearing the mask, so that the user's need to speak and eat is not affected during phototherapy, while also further ensuring normal airflow when wearing the mask.
[0023] like Figure 3 and Figure 4As shown, in this embodiment, a first fixing protrusion 136 extends outward around the third viewing hole 131, and a first fixing groove 117 is provided around the eye socket light-blocking part 112 on the inner side of the outer cover layer 11, with the first fixing protrusion 136 placed in the first fixing groove 117; a third fixing protrusion 138 extends outward around the third opening 133, and a third fixing groove 119 is provided around the first opening 116 on the inner side of the outer cover layer 11, with the third fixing protrusion 138 placed in the third fixing groove 119; a fourth fixing protrusion 130 extends outward around the edge of the face mask layer 13, and a fourth fixing groove 110 is provided around the edge of the outer cover layer 11 on the inner side of the outer cover layer 11, with the fourth fixing protrusion 130 placed in the fourth fixing groove 110.
[0024] The cooperation of the first fixing protrusion 136 with the first fixing groove 117, the third fixing protrusion 138 with the third fixing groove 119, and the fourth fixing protrusion 130 with the fourth fixing groove 110 allows the face mask layer 13 and the outer cover layer 11 to be precisely positioned and fixed together, preventing displacement or shaking during use and enhancing the overall stability of the mask structure. During assembly, glue can be filled into the first fixing groove 117, the third fixing groove 119, and the fourth fixing groove 110 to make the connection between the first fixing protrusion 136 and the first fixing groove 117, the third fixing protrusion 138 and the third fixing groove 119, and the fourth fixing protrusion 130 and the fourth fixing groove 110 more secure.
[0025] like Figure 1 , Figure 2 and Figure 5 As shown, in this embodiment, strap portions 10 are provided on both sides of the outer cover layer 11. One strap portion 10 has a first fixing cavity 101 on the outward side, and the other strap portion 10 has a second fixing cavity 102 on the inward side. Fixing members are fixed in the first fixing cavity 101 and the second fixing cavity 102. The fixing members can be Velcro, which can fix the strap portions 10 on both sides behind the head.
[0026] like Figures 3 to 4 As shown, in this embodiment, a first magnetic suction member 31 is provided in the mounting cavity 103, and a second magnetic suction member 32 is provided at the bottom of the controller 2. After the controller 2 is placed in the mounting cavity 103, the first magnetic suction member 31 and the second magnetic suction member 32 are attracted to each other, so that the controller 2 is stably placed in the mounting cavity 103. The magnetic attraction force can ensure that the controller 2 is stably placed in the mounting cavity 103. During the use of the photon mask, even if it is subjected to a certain amount of shaking or slight external force collision, the controller 2 is not easy to shift or fall off. This ensures a stable connection between the controller 2 and the circuit of the circuit layer 12, so that the controller 2 can continuously and reliably supply power to the mask.
[0027] In the above structure, the eye socket light-blocking part 112 and the outer cover layer 11 are integrally formed without additional assembly, making the overall structure simpler. The nose bridge relief notch 114 provided on the nose pad light-blocking part 113 allows the mask to fit better at the bridge of the nose, resulting in better light blocking effect. The controller 2 is electrically connected to the circuit layer 12 via contacts and pins, and the controller 2 supplies power to the circuit layer 12, eliminating the interference of power cords. The overall structure is more portable. By setting up a detachable controller 2, there is no need to install power cords, making it convenient to use.
Claims
1. A photonic mask, comprising a mask body (1) and a controller (2), wherein the mask body (1) includes an outer cover layer (11), a first viewing hole (111) is provided on the outer cover layer (11), and an eye socket light-blocking portion (112) extending inward along the edge of the first viewing hole (111) is provided on the outer cover layer (11), characterized in that: A nose pad shading part (113) is provided on the lower eye socket shading part (112) and extends into the outer cover layer (11). A nose bridge relief notch (114) is provided on the nose pad shading part (113). A circuit layer (12) and a face mask layer (13) are provided in sequence inside the outer cover layer (11). The controller (2) is detachably located on the outside of the mask body (1). When the controller (2) is combined with the mask body (1), the circuit layer (12) is electrically connected to the controller (2).
2. The photonic mask according to claim 1, characterized in that: The nose pad shading part (113) extends inward and downward at the same time, and the edge of the nose bridge relief notch (114) slopes downward.
3. The photonic mask according to claim 1, characterized in that: The outer cover layer (11) is provided with a first breathing hole (115) and a first opening (116), the circuit layer (12) is provided with a second viewing hole (121), a second breathing hole (122) and a second opening (123), and the face mask layer (13) is provided with a third viewing hole (131), a third breathing hole (132) and a third opening (133).
4. The photonic mask according to claim 3, characterized in that: The first viewing hole (111), the second viewing hole (121) and the third viewing hole (131) correspond to each other, the first breathing hole (115), the second breathing hole (122) and the third breathing hole (132) correspond to each other, and the first opening (116), the second opening (123) and the third opening (133) correspond to each other.
5. The photonic mask according to claim 1, characterized in that: Multiple LED beads (124) are provided on the side of the circuit layer (12) facing the face mask layer (13). Multiple placement cavities (134) are provided on the side of the face mask layer (13) facing the circuit layer (12). The LED beads (124) can be placed in the placement cavity (134). The bottom of the placement cavity (134) extends inward to form multiple light-emitting protrusions (135) on the inner side of the face mask layer (13). The light emitted by the LED beads (124) is irradiated through the light-emitting protrusions (135).
6. The photonic mask according to claim 3, characterized in that: A first fixing protrusion (136) extends outward around the third viewing hole (131), and a first fixing groove (117) is provided around the eye socket light shield (112) on the inner side of the outer cover layer (11), with the first fixing protrusion (136) placed in the first fixing groove (117).
7. The photonic mask according to claim 3, characterized in that: A third fixing protrusion (138) extends outward around the third opening (133) and a third fixing groove (119) is provided around the first opening (116) on the inner side of the outer cover layer (11), with the third fixing protrusion (138) placed in the third fixing groove (119).
8. The photonic mask according to claim 1, characterized in that: A fourth fixing protrusion (130) extends outward from the edge of the face mask layer (13), and a fourth fixing groove (110) is provided on the inner side of the outer cover layer (11) around the edge of the outer cover layer (11), with the fourth fixing protrusion (130) placed in the fourth fixing groove (110).
9. The photonic mask according to claim 1, characterized in that: The outer cover (11) is provided with straps (10) on both sides, one of which has a first fixing cavity (101) on the outward side and the other has a second fixing cavity (102) on the inward side.
10. The photonic mask according to claim 1, characterized in that: An installation cavity (103) is provided on the outer cover layer (11), and the controller (2) can be placed in the installation cavity (103). A first magnetic suction member (31) is provided in the installation cavity (103), and a second magnetic suction member (32) is provided at the bottom of the controller (2). After the controller (2) is placed in the installation cavity (103), the first magnetic suction member (31) and the second magnetic suction member (32) are attracted to each other, so that the controller (2) is stably placed in the installation cavity (103).