A strong plasticity double-sided light-emitting LED bath mirror lamp
By designing a highly adaptable double-sided LED bathroom mirror light, the problems of insufficient brightness and monotonous design in humid environments have been solved. This results in ample lighting and a stylish appearance, meeting the needs of diverse usage scenarios, improving user experience, and expanding the market.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHONGSHAN YIWEI LIGHTING CO LTD
- Filing Date
- 2025-09-29
- Publication Date
- 2026-07-07
AI Technical Summary
Bathroom mirror lights are not bright enough in the humid bathroom environment and have a simple design, making it difficult to meet diverse usage needs.
Design a highly adaptable double-sided LED bathroom mirror light, including a mirror body, an outer frame assembly, a light strip assembly, an anti-fog assembly, a hook assembly, and a control module. Through the structural design of the outer frame assembly and the layout of the light strip assembly, the mirror body can emit light from both the front and sides. It is also equipped with an anti-fog assembly and a touch control assembly to enhance the user experience.
It achieves sufficient light exposure in humid environments, has a stylish appearance, and adapts to diverse usage scenarios, thus enhancing user experience and market expansion potential.
Smart Images

Figure CN224470183U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of mirror lamp technology, and in particular to a highly malleable double-sided LED bathroom mirror lamp. Background Technology
[0002] As people's living standards improve, their pursuit of a high-quality life is increasing, leading to the emergence of mirror lamp products that combine traditional mirrors with lighting. Among these, bathroom mirror lamps are experiencing continuous market demand growth because they can meet core needs such as daily washing and makeup.
[0003] However, bathroom environments are humid and prone to fogging, and bathroom mirror lights often suffer from insufficient brightness when used in this setting for extended periods. If they could emit light from both the front and sides simultaneously, the overall brightness could be effectively improved, better meeting usage needs.
[0004] In addition, bathroom mirror lights also have decorative attributes. The current unchanging design not only lacks novelty, but also makes it difficult to integrate into diverse scenarios such as bathrooms and dressing rooms. This not only affects the actual user experience, but also hinders the product's further market expansion.
[0005] Therefore, it is necessary to improve existing technologies. Utility Model Content
[0006] The present invention aims to at least partially solve one of the problems existing in the existing related technologies. To this end, the present invention proposes a highly malleable double-sided LED bathroom mirror light, which can emit light from both the side and the front.
[0007] The above objective is achieved through the following technical solution:
[0008] A highly malleable, double-sided LED bathroom mirror light includes a mirror body, an outer frame assembly, a light strip assembly, an anti-fog assembly, a hook assembly, and a control module. The outer frame assembly wraps around the outer edge of the mirror body. The light strip assembly is disposed within the outer frame assembly. The anti-fog assembly, hook assembly, and control module are disposed on the back of the mirror body. The anti-fog assembly is located in the middle of the back of the mirror body. The hook assembly is disposed on both sides of the anti-fog assembly. The control module is disposed below the anti-fog assembly. The outer frame assembly has a notch near the control module to facilitate connection between the control module and the light strip assembly. The light strip assembly, the anti-fog assembly, and the control module are electrically connected.
[0009] The outer frame assembly includes a first frame member, a second frame member, and a silicone member. The silicone member is mounted on the second frame member, and the first frame member is sleeved over the silicone member. The light strip assembly is disposed between the first frame member and the silicone member, and / or between the silicone member and the second frame member.
[0010] In some embodiments, the outer frame assembly further includes an opaque component, which includes a first opaque member and a second opaque member. The first opaque member is disposed between the first frame member and the silicone member, and the second opaque member is disposed between the second frame member and the silicone member.
[0011] In some embodiments, the second frame member includes a positioning part, the front side of which is configured as a slope groove that slopes downward from back to front, and a locking part is provided on the front side of the slope groove. The locking part is connected to the silicone member to form a slot and locks the lens body into the slot. The second opaque member is disposed on the outside of the second frame member and is close to the outer edge of the slope groove and the locking part.
[0012] In some embodiments, the light strip assembly includes a first light strip and a second light strip, the first light strip being disposed between the silicone member and the first frame member, and the second light strip being disposed on the slope groove and between the silicone member and the second opaque member.
[0013] In some embodiments, the silicone component is light-transmitting, and the silicone component forms a first light-transmitting area between the bottom of the first opaque component and the front end of the second opaque component, and a second light-transmitting area between the rear side of the first opaque component and the front side of the second opaque component.
[0014] In some embodiments, the front side of the first light-transmitting area is a convex arc, and an anti-fingerprint coating is provided on the bottom side of the outer frame assembly extending to the bottom of the convex arc.
[0015] In some embodiments, a hollow ring is provided at the front end of the first light-transmitting area.
[0016] In some embodiments, a touch control component is provided on the mirror body, and the touch control component is electrically connected to the control module.
[0017] In some embodiments, the hook assembly includes two hooks symmetrically arranged at both ends of the anti-fog assembly. Each hook includes a connecting plate, on which a first protrusion arranged horizontally and a second protrusion arranged vertically are stamped. The first protrusion and the second protrusion form hanging holes on the connecting plate.
[0018] Compared with the prior art, the present invention has at least the following beneficial effects:
[0019] This utility model proposes a highly malleable double-sided LED bathroom mirror light, which can emit light from both the side and the front, ensuring sufficient illumination while also giving it a stylish overall appearance. Attached Figure Description
[0020] Figure 1 This is a front view of the LED bathroom mirror light in the embodiment;
[0021] Figure 2 This is a rear view of the LED bathroom mirror light in the embodiment;
[0022] Figure 3 This is an exploded view of the LED bathroom mirror light in the embodiment;
[0023] Figure 4 This is a cross-sectional view of the LED bathroom mirror light in the embodiment;
[0024] Figure 5 yes Figure 4 A magnified view of part A in the middle;
[0025] Figure 6 This is an exploded view of the outer frame component in the embodiment;
[0026] Figure 7 This is a three-dimensional schematic diagram (1) of the hook in the embodiment;
[0027] Figure 8 This is a three-dimensional schematic diagram (2) of the hook in the embodiment.
[0028] In the diagram: 1. Mirror body; 2. Outer frame assembly; 21. First frame component; 22. Second frame component; 221. Positioning part; 222. Sloping groove; 223. Locking part; 23. Silicone component; 231. First light-transmitting area; 2311. Convex arc; 232. Second light-transmitting area; 24. Opaque component; 241. First opaque component; 242. Second opaque component; 3. LED strip assembly; 31. First LED strip; 32. Second LED strip; 4. Anti-fog component; 5. Hook assembly; 51. Hook; 511. Connecting plate; 512. First protrusion; 513. Second protrusion; 6. Control module; 7. Card slot; 8. Anti-fingerprint coating; 9. Hollow ring; 10. Touch control component. Detailed Implementation
[0029] The following embodiments illustrate the present invention, but the present invention is not limited to these embodiments. Modifications to the specific implementation of the present invention or equivalent substitutions for some technical features, without departing from the spirit of the present invention, should all be covered within the scope of the technical solution claimed by the present invention.
[0030] like Figures 1 to 8As shown, a highly malleable double-sided LED bathroom mirror light includes a mirror body 1, an outer frame assembly 2, a light strip assembly 3, an anti-fog assembly 4, a hook assembly 5, and a control module 6. The outer frame assembly 2 wraps around the outer edge of the mirror body 1. The light strip assembly 3 is disposed inside the outer frame assembly 2. The anti-fog assembly 4, the hook assembly 5, and the control module 6 are disposed on the back of the mirror body 1. The anti-fog assembly 4 is located in the middle of the back of the mirror body 1. The hook assembly 5 is disposed on both sides of the anti-fog assembly 4. The control module 6 is disposed below the anti-fog assembly 4. The outer frame assembly 2 has a notch near the control module 6 to facilitate the connection between the control module 6 and the light strip assembly 3. The light strip assembly 3, the anti-fog assembly 4, and the control module 6 are electrically connected.
[0031] The outer frame assembly 2 includes a first frame member 21, a second frame member 22, and a silicone member 23. The silicone member 23 is mounted on the second frame member 22, and the first frame member 21 is sleeved on the silicone member 23. The light strip assembly 3 is disposed between the first frame member 21 and the silicone member 23, and / or between the silicone member 23 and the second frame member 22.
[0032] The first frame component 21 and the second frame component 22 can not only be combined with the silicone component 23 to adjust the light dispersion direction of the light strip assembly 3, but also make the LED bathroom mirror light more colorful by setting the colors and patterns of the first frame component 21 and the second frame component 22, which is conducive to further creative design of the product and thus expand the market.
[0033] This utility model proposes a highly malleable double-sided LED bathroom mirror light, which can emit light from both the side and the front, ensuring sufficient illumination while also giving it a stylish overall appearance.
[0034] Specifically, the outer frame assembly 2 further includes an opaque assembly 24, which comprises a first opaque member 241 and a second opaque member 242. The first opaque member 241 is disposed between the first frame member 21 and the silicone member 23, and the second opaque member 242 is disposed between the second frame member 22 and the silicone member 23. The opaque assembly 24 allows the lamp tubes of the light strip assembly 3 to be focused to a specific position.
[0035] Furthermore, the second frame member 22 includes a positioning part 221. The front side of the positioning part 221 is configured as a downward sloping groove 222. A locking part 223 is provided on the front side of the sloping groove 222. The locking part 223 is connected to the silicone member 23 to form a locking groove 7 and locks the mirror body 1 into the locking groove 7. The second opaque member 242 is disposed on the outside of the second frame member 22 and is close to the outer edge of the sloping groove 222 and the locking part 223. The second frame member 22 not only adjusts the direction of light illumination from the light strip assembly 3, but also connects with the silicone member 23 to form a locking groove 7 to fix the mirror body 1.
[0036] Furthermore, the light strip assembly 3 includes a first light strip 31 and a second light strip 32. The first light strip 31 is disposed between the silicone member 23 and the first frame member 21, and the second light strip 32 is disposed on the slope groove 222 and between the silicone member 23 and the second opaque member 242. The arrangement of the first light strip 31 and the second light strip 32 allows the light from the first light strip 31 to mainly diffuse towards the front of the mirror body 1, and allows the light from the second light strip 32 to mainly diffuse towards the side of the LED bathroom mirror light.
[0037] Preferably, the silicone component 23 is light-transmitting. The silicone component 23 forms a first light-transmitting area 231 between the bottom of the first opaque component 241 and the front end of the second opaque component 242, and a second light-transmitting area 232 between the rear side of the first opaque component 241 and the front side of the second opaque component 242. Because the silicone component 23 is light-transmitting, the light from the first light strip 31 and the second light strip 32 is focused onto the silicone component 23 under the light-blocking effect of the first opaque component 241 and the second opaque component 242.
[0038] The front side of the first light-transmitting area 231 is a convex arc 2311, and an anti-fingerprint coating 8 is provided on the bottom side of the outer frame assembly 2, extending to the bottom of the convex arc 2311. The convex arc 2311 allows light to diffuse outward more evenly, avoiding glare or uneven brightness caused by direct light. In addition, the anti-fingerprint coating 8 can prevent users' fingerprints from being left on the LED bathroom mirror light, maintaining the aesthetics of the LED bathroom mirror light.
[0039] A hollow ring 9 is provided at the front end of the first light-transmitting area 231. This reduces the thickness of the silicone at the front end of the first light-transmitting area 231, which not only reduces the obstruction of front light but also forms a heat dissipation channel, allowing the heat released by the first light strip 31 to dissipate in a timely manner and preventing high temperature from accelerating silicone aging. In addition, it also reduces the overall weight of the LED bathroom mirror light.
[0040] Furthermore, a touch control component 10 is provided on the mirror body 1, and the touch control component 10 is electrically connected to the control module 6. The touch control component 10 allows users to flexibly adjust the operating status of the LED bathroom mirror light (such as brightness, color temperature, etc.) according to their own needs, making operation convenient and efficient.
[0041] Furthermore, the hook assembly 5 includes two hooks 51, symmetrically arranged at both ends of the anti-fog assembly 4. Each hook 51 includes a connecting plate 511, on which a horizontally arranged first protrusion 512 and a vertically arranged second protrusion 513 are stamped. The first protrusion 512 and the second protrusion 513 form hanging holes on the connecting plate 511. The anti-fog assembly 4 can continuously maintain the clarity of the mirror surface, reducing the frequency of users wiping the mirror surface with a cloth. Moreover, bathrooms are often foggy, and the anti-fog assembly 4 can prevent fog from affecting the user experience. In addition, the hook assembly 5 allows users to easily fix the LED bathroom mirror light as needed.
[0042] The above descriptions are merely some embodiments of this utility model. For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this utility model, and all such modifications and improvements fall within the protection scope of this utility model.
Claims
1. A highly malleable, double-sided LED bathroom mirror light, characterized in that: The system includes a mirror body (1), an outer frame assembly (2), a light strip assembly (3), an anti-fog assembly (4), a hook assembly (5), and a control module (6). The outer frame assembly (2) wraps around the outer edge of the mirror body (1) on its inner side. The light strip assembly (3) is disposed inside the outer frame assembly (2). The anti-fog assembly (4), the hook assembly (5), and the control module (6) are disposed on the back of the mirror body (1). The anti-fog assembly (4) is located in the middle of the back of the mirror body (1). The hook assembly (5) is disposed on both sides of the anti-fog assembly (4). The control module (6) is disposed below the anti-fog assembly (4). The outer frame assembly (2) has a notch near the control module (6) to facilitate the connection between the control module (6) and the light strip assembly (3). The light strip assembly (3), the anti-fog assembly (4), and the control module (6) are electrically connected. The outer frame assembly (2) includes a first frame member (21), a second frame member (22), and a silicone member (23). The silicone member (23) is mounted on the second frame member (22), and the first frame member (21) is sleeved on the silicone member (23). The light strip assembly (3) is disposed between the first frame member (21) and the silicone member (23), and / or between the silicone member (23) and the second frame member (22).
2. The highly malleable double-sided LED bathroom mirror light according to claim 1, characterized in that: The outer frame assembly (2) further includes an opaque assembly (24), which includes a first opaque component (241) and a second opaque component (242). The first opaque component (241) is disposed between the first frame component (21) and the silicone component (23), and the second opaque component (242) is disposed between the second frame component (22) and the silicone component (23).
3. The highly malleable double-sided LED bathroom mirror light according to claim 2, characterized in that: The second frame member (22) includes a positioning part (221). The front side of the positioning part (221) is configured as a slope groove (222) that slopes downward from back to front. A locking part (223) is provided on the front side of the slope groove (222). The locking part (223) is connected to the silicone member (23) to form a slot (7) and the lens body (1) is locked in the slot (7). The second opaque member (242) is disposed on the outside of the second frame member (22) and is close to the outer edge of the slope groove (222) and the locking part (223).
4. The highly malleable double-sided LED bathroom mirror light according to claim 3, characterized in that: The light strip assembly (3) includes a first light strip (31) and a second light strip (32). The first light strip (31) is disposed between the silicone member (23) and the first frame member (21). The second light strip (32) is disposed on the slope groove (222) and between the silicone member (23) and the second opaque member (242).
5. A highly malleable, double-sided LED bathroom mirror light according to claim 4, characterized in that: The silicone component (23) is light-transmitting. The silicone component (23) forms a first light-transmitting area (231) between the bottom of the first opaque component (241) and the front end of the second opaque component (242). The silicone component (23) forms a second light-transmitting area (232) between the rear side of the first opaque component (241) and the front side of the second opaque component (242).
6. A highly malleable, double-sided LED bathroom mirror light according to claim 5, characterized in that: The front side of the first light-transmitting area (231) is a convex arc (2311), and an anti-fingerprint coating (8) is provided on the bottom side of the outer frame assembly (2) extending all the way to the bottom of the convex arc (2311).
7. A highly malleable, double-sided LED bathroom mirror light according to claim 5, characterized in that: A hollow ring (9) is provided at the front end of the first light-transmitting area (231).
8. A highly malleable, double-sided LED bathroom mirror light according to any one of claims 1-7, characterized in that: A touch control component (10) is provided on the mirror body (1), and the touch control component (10) is electrically connected to the control module (6).
9. A highly malleable, double-sided LED bathroom mirror light according to any one of claims 1-7, characterized in that: The hook assembly (5) includes two hooks (51) and is symmetrically arranged at both ends of the anti-fog assembly (4). The hook (51) includes a connecting plate (511). A first protrusion (512) arranged horizontally and a second protrusion (513) arranged vertically are stamped on the connecting plate (511). The first protrusion (512) and the second protrusion (513) form hanging holes on the connecting plate (511).