A bendable silica gel multi-directional light-emitting lamp tube structure mounted on a mirror

By using a bendable silicone lamp tube and a ring-shaped light strip, the problem of non-foldable mirror lamp tubes is solved, enabling diverse designs and flexible light source arrangements for mirror lamps, thus improving the user experience.

CN224470122UActive Publication Date: 2026-07-07ZHONGSHAN YIWEI LIGHTING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN YIWEI LIGHTING CO LTD
Filing Date
2025-08-15
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The existing mirror lamps have non-foldable tube structures, which limits the space for design innovation and the diversity of product styles.

Method used

The flexible light tube structure made of silicone material, combined with a ring light strip and control module, enables flexible arrangement of the light source and adaptable installation in the light-transmitting area of ​​the mirror.

Benefits of technology

It expands the variety of mirror lamp products and provides flexible light source control and convenient installation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of bendable silica gel multi-directional light-emitting lamp tube structures installed in mirror, including mirror, lamp tube, lamp strip, hanging buckle component and control module, wherein the lamp tube is made of silica gel material and can be bent, the lamp tube and the lamp strip are annular, the front and side of the lamp tube are light-transmitting surface, the lamp strip is detachably connected and is arranged in the lamp tube, the back of the lamp tube inside is wrapped the non-light-emitting surface of the lamp strip, the front of the lamp tube is arranged on the back of the mirror, the control module and the hanging buckle component are located on the back of the mirror, the lamp tube is close to the control module and is provided with opening, the connecting line between the control module and the lamp strip passes through from the opening. The lamp tube structure of the utility model is made of silica gel material and can be bent, so that the lamp tube is adaptively installed according to the specific design of mirror light-transmitting area and realizes light source arrangement, effectively expands the diversity of mirror lamp product style.
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Description

Technical Field

[0001] This utility model relates to the field of mirror technology, and in particular to a bendable silicone multi-directional light-emitting tube structure installed on a mirror. Background Technology

[0002] Traditional mirrors have a relatively simple function, but as people's living standards improve, their expectations for mirrors have evolved beyond simply assisting with grooming; they now seek increasingly diverse functions. Currently, mirror lights that integrate traditional mirrors with lighting structures have appeared on the market. These mirror lights are widely used in bathrooms, dressing rooms, and other similar settings. With their strong adaptability to different environments and attractive appearance, they have gained widespread market acceptance.

[0003] However, most existing mirror lights adopt a combination design of mirror and light tube with light source. Due to the non-foldable nature of the light tube structure, their design and installation methods are significantly limited. This not only restricts the design innovation space of mirror lights, but also hinders the diversification of product styles.

[0004] Therefore, it is necessary to improve existing technologies. Utility Model Content

[0005] This utility model aims to at least partially solve one of the problems existing in the prior art. To this end, this utility model proposes a bendable silicone multi-directional light tube structure that can be installed on a mirror. The light tube structure is made of silicone and is bendable, so that the light tube can be installed adaptively according to the specific design of the light-transmitting area of ​​the mirror and realize the arrangement of the light source.

[0006] The above objective is achieved through the following technical solution:

[0007] A bendable silicone multi-directional light-emitting tube structure for mounting on a mirror includes a mirror, a light tube, a light strip, a hook component, and a control module. The light tube is made of silicone material and is bendable. Both the light tube and the light strip are annular. The front and sides of the light tube are light-transmitting surfaces. The light strip is detachably connected and passes through the light tube. The back of the light tube wraps around the non-light-emitting surface of the light strip. The front of the light tube is located on the back of the mirror. The control module and the hook component are both located on the back of the mirror. An opening is provided near the control module in the light tube, and a connecting wire between the control module and the light strip passes through this opening.

[0008] In some embodiments, the back of the mirror is configured as a light-transmitting area in the region connected to the front of the lamp tube, through which light from the lamp tube can reach the front of the mirror.

[0009] In some embodiments, the lamp tube has an installation channel on its lower side, through which the light strip is placed into the lamp tube.

[0010] In some embodiments, the silicone thickness on the front and sides of the lamp tube is thinner than that on the back, allowing the light from the lamp strip to shine outward from the front and sides of the lamp tube.

[0011] In some embodiments, the front of the light strip faces the front of the lamp tube and transmits light into the light-transmitting area.

[0012] In some embodiments, a touch control module is provided on the mirror, and the touch control module is electrically connected to the control module.

[0013] In some embodiments, the hook component includes two hooks symmetrically located at both ends of the upper part of the mirror. Each hook includes a positioning plate, on the upper end of which a convex plate is stamped, protruding from the positioning plate, and a hanging hole is formed between the convex plate and the positioning plate. In some embodiments, a plurality of vertically extending protrusions are stamped at the lower end of the positioning plate, and guide rails extending obliquely downwards and outwards are provided on both sides of the protrusions.

[0014] Compared with the prior art, the present invention has at least the following beneficial effects:

[0015] This utility model provides a bendable silicone multi-directional light tube structure that can be installed on a mirror. Because it is made of silicone and is bendable, the light tube can be installed adaptively according to the specific design of the light transmission area of ​​the mirror and the light source arrangement can be realized. Attached Figure Description

[0016] Figure 1 This is a three-dimensional schematic diagram of the bendable silicone multi-directional light-emitting tube structure in the embodiment;

[0017] Figure 2 This is a front view of the mirror lamp in the embodiment;

[0018] Figure 3 This is a view of the back of the mirror lamp in the embodiment;

[0019] Figure 4 yes Figure 3 A magnified view of part A in the middle (1);

[0020] Figure 5 yes Figure 3 Enlarged view of part A in the middle (2).

[0021] In the diagram: 1. Mirror; 11. Light-transmitting area; 2. Lamp tube; 3. Lamp strip; 4. Hook and clip component; 41. Hook and clip; 411. Positioning plate; 412. Convex plate; 413. Hanging hole; 414. Protrusion; 415. Guide rail; 5. Control module; 6. Touch control module. Detailed Implementation

[0022] 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.

[0023] like Figures 1 to 5 As shown, a bendable silicone multi-directional light-emitting tube structure installed on a mirror includes a mirror 1, a light tube 2, a light strip 3, a hook component 4, and a control module 5. The light tube 2 is made of silicone material and is bendable. Both the light tube 2 and the light strip 3 are annular. The front and side of the light tube 2 are light-transmitting surfaces. The light strip 3 is detachably connected and passes through the light tube 2. The back of the light tube 2 wraps around the non-light-emitting surface of the light strip 3. The front of the light tube 2 is located on the back of the mirror 1. The control module 5 and the hook component 4 are both located on the back of the mirror 1. An opening is provided on the light tube 2 near the control module 5, and the connecting line between the control module 5 and the light strip 3 passes through the opening.

[0024] The present invention provides a flexible silicone multi-directional light tube structure for installation on a mirror. Because it is made of silicone and is flexible, the light tube can be installed adaptively according to the specific design of the light-transmitting area of ​​the mirror and the light source arrangement can be realized, effectively expanding the diversity of mirror light product styles.

[0025] Specifically, the area on the back of the mirror 1 that connects to the front of the lamp tube 2 is designated as a light-transmitting area 11, through which light from the lamp tube 2 can reach the front of the mirror 1. Since the front and sides of the lamp tube 2 are light-transmitting surfaces, the light from the light strip 3 passes through the light-transmitting surfaces of the lamp tube 2 and illuminates the light-transmitting area 11, allowing the light to penetrate the back of the mirror 1 and illuminate the front of the mirror 1.

[0026] Furthermore, the lamp tube 2 has an installation channel on its lower side, through which the light strip 3 is placed into the lamp tube 2. Installing the light strip 3 into the lamp tube 2 not only positions the lamp tube 2 but also allows for better contact with the front and sides of the light strip 3.

[0027] Preferably, the silicone thickness on the front and sides of the lamp tube 2 is thinner than that on the back, allowing the light from the light strip 3 to shine outwards from the front and sides of the lamp tube 2. This arrangement allows the light from the light strip 3 to shine outwards from the lamp tube 2 as much as possible, while also concentrating the light on the front and sides of the lamp tube 2 as much as possible.

[0028] Furthermore, the front of the light strip 3 faces the front of the lamp tube 2 and transmits light into the light-transmitting area 11. Because the lamp tube structure is flexible, the light strip 3 can bend along the light-transmitting area 11, allowing as much light as possible to illuminate the light-transmitting area 11.

[0029] In particular, a touch control module 6 is provided on the mirror 1, and the touch control module 6 is electrically connected to the control module 5. Users can adjust the brightness and / or color, etc., according to their personal needs through the touch control module 6.

[0030] Furthermore, the hook component 4 includes two hooks 41, which are symmetrically located at both ends of the upper part of the mirror 1. Each hook 41 includes a positioning plate 411, on which a convex plate 412 is stamped. The convex plate 412 protrudes from the positioning plate 411, and a hanging hole 413 is formed between the convex plate 412 and the positioning plate 411. The user can hang the mirror light in a specific position as needed.

[0031] Specifically, several vertically extending protrusions 414 are stamped at the lower end of the positioning plate 411, and guide rails 415 extending downwards and outwards are provided on both sides of the protrusions 414. The protrusions 414 keep the hook 41 and the wall hook at a distance, reducing wear and tear. In addition, when the user hangs the mirror light facing the wall, the wall hook and the mirror light's hook component 4 are not visible. The guide rails 415 can help the user quickly find the correct position and hang the mirror light.

[0032] 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 flexible silicone multi-directional light-emitting tube structure installed on a mirror, characterized in that: The device includes a mirror (1), a lamp tube (2), a light strip (3), a hook component (4), and a control module (5). The lamp tube (2) is made of silicone material and can be bent. Both the lamp tube (2) and the light strip (3) are annular. The front and side of the lamp tube (2) are light-transmitting surfaces. The light strip (3) is detachably connected and inserted into the lamp tube (2). The back of the lamp tube (2) is wrapped with the non-light-emitting surface of the light strip (3). The front of the lamp tube (2) is located on the back of the mirror (1). The control module (5) and the hook component (4) are both located on the back of the mirror (1). The lamp tube (2) has an opening near the control module (5). The connecting line between the control module (5) and the light strip (3) passes through the opening.

2. The bendable silicone multi-directional light-emitting tube structure installed on a mirror according to claim 1, characterized in that: The back of the mirror (1) is provided with a light-transmitting area (11) in the area connected to the front of the lamp tube (2), through which the light from the lamp tube (2) can be projected onto the front of the mirror (1).

3. The bendable silicone multi-directional light-emitting tube structure installed on a mirror according to claim 2, characterized in that: The lamp tube (2) has an installation channel on its lower side, and the lamp strip (3) is placed into the lamp tube (2) through the installation channel.

4. The bendable silicone multi-directional light-emitting tube structure installed on a mirror according to claim 3, characterized in that: The silicone thickness of the front and sides of the lamp tube (2) is thinner than that of the back, and the light from the lamp strip (3) can be emitted outward from the front and sides of the lamp tube (2).

5. The bendable silicone multi-directional light-emitting tube structure installed on a mirror according to claim 4, characterized in that: The light strip (3) faces the front of the lamp tube (2) and transmits light into the light-transmitting area (11).

6. A bendable silicone multi-directional light-emitting tube structure installed on a mirror according to any one of claims 1-5, characterized in that: A touch control module (6) is provided on the mirror (1), and the touch control module (6) is electrically connected to the control module (5).

7. A bendable silicone multi-directional light-emitting tube structure installed on a mirror according to any one of claims 1-5, characterized in that: The hook component (4) includes two hooks (41), which are symmetrically located at both ends of the upper part of the mirror (1). Each hook (41) includes a positioning plate (411), and a convex plate (412) is formed by stamping on the upper end of the positioning plate (411). The convex plate (412) protrudes from the positioning plate (411), and a hanging hole (413) is formed between the convex plate (412) and the positioning plate (411).

8. The bendable silicone multi-directional light-emitting tube structure installed on a mirror according to claim 7, characterized in that: A plurality of protrusions (414) extending vertically are stamped at the lower end of the positioning plate (411), and guide rails (415) extending from top to bottom and outward are provided on both sides of the protrusions (414).