A bidirectional wall lamp

By introducing a lens lighting mechanism and an adjustable lighting mechanism into the wall lamp, combined with a sealed cover design, the problems of poor light effect expansion and waterproof performance of traditional wall lamps are solved, achieving flexible lighting effects and high-efficiency waterproof performance.

CN224327165UActive Publication Date: 2026-06-05GUANGDONG HELLO LIGHTING TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG HELLO LIGHTING TECH CO LTD
Filing Date
2025-07-04
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Traditional bidirectional vertical wall lights have poor luminous efficacy and inadequate waterproofing.

Method used

It employs a lens lighting mechanism and an adjustable lighting mechanism, combined with a sealed cover design, to achieve adjustment of the focusing lens and light-blocking plate, enhancing the expandability of the lighting effect, and improves waterproof performance through ultrasonic bonding connection.

Benefits of technology

The lighting effect, expandability, and waterproof performance of the bidirectional wall lamp have been greatly improved, enabling flexible lighting adjustment and long-term reliability.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses a bidirectional light emitting's wall lamp, including the lamp body, opposite the lens illumination mechanism and adjustable illumination mechanism of being equipped with on the lamp body, wherein the lamp body is also by shell, backplate and light source module composition, wherein, light source module is by element loading box and seal cover composition, and element loading box realizes its inside waterproof sealing function under the lid effect of seal cover, then element loading box is set up the light -transmitting part on, and the lens illumination mechanism adopts the spotlight lens of directly facing the light -transmitting part, makes this light source module have the lighting effect of spotlight irradiation, and adjustable illumination mechanism adopts the light -blocking piece that can swing adjustment in the both sides of light -transmitting part, makes this light source module have the fan -shaped lighting effect of adjustable range, and the expandability of bidirectional light emitting wall lamp both ends lighting effect has been improved greatly.
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Description

Technical Field

[0001] This utility model relates to the field of lighting technology, and in particular to a bidirectional light-emitting wall lamp. Background Technology

[0002] As an important carrier of architectural landscape and functional lighting, floor lamps, with their bidirectional light-emitting design, can simultaneously illuminate walls and the ground, combining aesthetic and practical value. While traditional bidirectional floor lamps possess basic bidirectional light-emitting capabilities, they suffer from significant shortcomings in terms of luminous efficacy diversity, environmental adaptability, and long-term reliability. Specifically, they exhibit limitations in luminous efficacy and waterproofing. Firstly, the luminous efficacy of traditional bidirectional wall lamps is often identical at both ends, resulting in poor scalability. Secondly, the light source module of traditional bidirectional wall lamps typically uses a sealing ring for sealing; over prolonged use, this sealing ring gradually hardens, causing the waterproofing performance of the light source module to fail. Therefore, there is an urgent need for a bidirectional floor lamp with greater scalability in bidirectional light emission and excellent waterproofing. Utility Model Content

[0003] The purpose of this utility model is to provide a bidirectional light-emitting wall lamp that solves the problems of poor light effect expansion and poor waterproof effect of traditional bidirectional light-emitting vertical wall lamps.

[0004] The present invention provides the following technical solution: a bidirectional light-emitting wall lamp, comprising a lamp body, a lens lighting mechanism and an adjustable lighting mechanism disposed opposite to each other on the lamp body, the lamp body comprising a housing, a back plate and a light source module disposed between the housing and the back plate, the light source module comprising a component loading box and a sealing cover, the sealing cover covering the opening of the component loading box, a light-transmitting part provided on one side of the component loading box, the lens lighting mechanism comprising a focusing lens facing the light-transmitting part, and the adjustable lighting mechanism comprising light-blocking plates oscillating on both sides of the light-transmitting part.

[0005] As described above, in a bidirectional light-emitting wall lamp, the lens lighting mechanism further includes a focusing channel located on one side of the housing. The focusing channel has an insertion slot near the edge of the housing, and the focusing lens is inserted into the insertion slot. When the housing is connected to the back plate, the end of the focusing channel away from the insertion slot abuts against both sides of the light-transmitting part.

[0006] In the bidirectional light-emitting wall lamp described above, the focusing lens is a convex lens.

[0007] As described above, in a bidirectional light-emitting wall lamp, the adjustable lighting mechanism further includes an adjustment channel located on one side of the housing. The opposing sidewalls of the adjustment channel are inclined in a "V" shape. The light-blocking plate is hinged between the component loading box and the sealing cover, so that the opposing light-blocking plates can swing closer or further apart to narrow or expand the adjustment channel.

[0008] As described above, in a bidirectional light-emitting wall lamp, a sealing flange is provided around the opening of the component loading box, and a sealing groove is provided around the side of the sealing cover near the component loading box. When the sealing cover is closed on the opening of the component loading box, the sealing flange is engaged with the sealing groove.

[0009] In the bidirectional light-emitting wall lamp described above, the component loading box and the sealing cover are connected by ultrasonic bonding.

[0010] As described above, a bidirectional light-emitting wall lamp further includes a module fixing mechanism disposed between the back plate and the light source module. The module fixing mechanism includes a corresponding module hook and a module slot. The module hook is inserted into the module slot so that the component loading box is installed on the back plate.

[0011] As described above, in a bidirectional light-emitting wall lamp, the back panel has light source modules arranged back-to-back at opposite ends, and the lens lighting mechanism and the adjustable lighting mechanism are respectively installed on opposite sides of the housing.

[0012] As described above, in a bidirectional light-emitting wall lamp, the back panel has light source modules arranged back-to-back at opposite ends, and the adjustable lighting mechanism is installed on opposite sides of the housing.

[0013] As described above, a bidirectional light-emitting wall lamp further includes a quick-release mechanism disposed between the outer shell and the back panel. The quick-release mechanism includes a quick-release buckle and a quick-release slot, wherein the quick-release buckle is engaged with the quick-release slot to connect the outer shell and the back panel.

[0014] Compared with the prior art, the present invention has the following advantages:

[0015] This utility model discloses a bidirectional light-emitting wall lamp, which is equipped with a lens lighting mechanism and an adjustable lighting mechanism on the lamp body. The lamp body is composed of a shell, a back plate, and a light source module. The light source module consists of a component loading box and a sealing cover. The component loading box achieves a waterproof sealing function under the sealing effect of the sealing cover. Then, a light-transmitting part is set on the component loading box. The lens lighting mechanism uses a focusing lens facing the light-transmitting part, so that the light source module has a focused lighting effect. The adjustable lighting mechanism uses a light-blocking plate that can swing and adjust on both sides of the light-transmitting part, so that the light source module has an adjustable fan-shaped lighting effect, which greatly improves the expandability of the lighting effect at both ends of the bidirectional light-emitting wall lamp. Attached Figure Description

[0016] Figure 1 This is a three-dimensional exploded view of the wall lamp according to Embodiment 1 of this utility model.

[0017] Figure 2 This is an exploded view of the light source module of the wall lamp of this utility model.

[0018] Figure 3 This is a three-dimensional exploded view of the wall lamp according to Embodiment 2 of this utility model.

[0019] Explanation of reference numerals in the attached drawings: 1. Lamp body; 2. Lens lighting mechanism; 3. Adjustable lighting mechanism; 11. Housing; 12. Back plate; 13. Light source module; 14. Module fixing mechanism; 15. Quick-release mechanism; 21. Condensing lens; 22. Condensing channel; 23. Insertion slot; 31. Light blocking plate; 32. Adjustment channel; 131. Component loading box; 132. Sealing cover; 141. Module hook; 142. Module slot; 151. Quick-release buckle; 152. Quick-release slot; 1311. Light-transmitting part; 1312. Sealing flange; 1321. Sealing groove. Detailed Implementation

[0020] 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 a part of the embodiments of the present utility model, and not all of them. 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.

[0021] Example 1: Please refer to the appendix Figure 1 To be continued Figure 2This embodiment provides a bidirectional light-emitting wall lamp, including a lamp body 1, a lens lighting mechanism 2 and an adjustable lighting mechanism 3 disposed opposite to each other on the lamp body 1. The lamp body 1 includes a housing 11, a back plate 12 and a light source module 13 disposed between the housing 11 and the back plate 12. The light source module 13 includes a component loading box 131 and a sealing cover 132. The sealing cover 132 covers the opening of the component loading box 131. A light-transmitting part 1311 is provided on one side of the component loading box 131. The lens lighting mechanism 2 includes a condensing lens 21 facing the light-transmitting part 1311. The adjustable lighting mechanism 3 includes light-blocking plates 31 that swing on both sides of the light-transmitting part 1311. The bidirectional wall lamp of this embodiment has a lens lighting mechanism 2 and an adjustable lighting mechanism 3 on the lamp body. The lamp body 1 is composed of a shell 11, a back plate 12 and a light source module 13. The light source module 13 is composed of a component loading box 131 and a sealing cover 132. The component loading box 131 achieves a waterproof sealing function under the sealing effect of the sealing cover 132. Then, a light-transmitting part 1311 is provided on the component loading box 131. The lens lighting mechanism 2 uses a focusing lens 21 facing the light-transmitting part 1311, so that the light source module 13 has a focused illumination effect. The adjustable lighting mechanism 3 uses a light-blocking plate 31 that can swing and adjust on both sides of the light-transmitting part 1311, so that the light source module 13 has an adjustable fan-shaped lighting effect, which greatly improves the expandability of the lighting effect at both ends of the bidirectional wall lamp.

[0022] The lens illumination mechanism 2 also includes a focusing channel 22 located on one side of the housing 11. The focusing channel 22 has an insertion slot 23 near the edge of the housing 11, and the focusing lens 21 is inserted into the insertion slot. When the housing 11 is connected to the back plate 12, the end of the focusing channel 22 away from the insertion slot 23 abuts against both sides of the light-transmitting part 1311. The light rays scattered from the light-transmitting part 1311 are concentrated by the focusing channel 22 and then focused out by the focusing lens 21, achieving a long-distance focusing illumination effect.

[0023] Preferably, the condenser lens 21 is a convex lens.

[0024] The adjustable lighting mechanism 3 also includes an adjustment channel 32 located on one side of the housing 11. The opposite sidewalls of the adjustment channel 32 are inclined in a "V" shape. The light-blocking plate 31 is hinged between the component loading box 131 and the sealing cover 132, so that the opposite light-blocking plates 31 can swing closer or further away from each other to narrow or expand the adjustment channel 32, thereby flexibly changing the fan-shaped angle of the light emitted from the adjustment channel 32 and achieving different fan-shaped illumination effects on the wall.

[0025] The component loading box 131 has a sealing flange 1312 protruding around its opening, and a sealing groove 1321 is recessed around the side of the sealing cover 132 near the component loading box 131. When the sealing cover 132 is closed on the opening of the component loading box 131, the sealing flange 1312 is engaged with the sealing groove 1321, so that the component loading box 131 has excellent waterproof performance after sealing.

[0026] Preferably, the component loading box 131 and the sealing cover 132 are connected by ultrasonic bonding.

[0027] The lamp body 1 also includes a module fixing mechanism 14 disposed between the back plate 12 and the light source module 13. The module fixing mechanism 14 includes a corresponding module hook 141 and a module slot 142. The module hook 141 is inserted into the module slot 142, so that the component loading box 131 is installed on the back plate 12, which facilitates the screwless installation of the light source module 13 between the outer shell 11 and the back plate 12.

[0028] In this embodiment, the bidirectional wall lamp has light source modules 13 arranged opposite to each other at opposite ends of the back plate 12, and lens lighting mechanism 2 and adjustable lighting mechanism 3 are respectively installed on opposite sides of the outer shell 11, so that different lighting effects can be achieved on both sides of the wall lamp.

[0029] The lamp body 1 also includes a quick-release mechanism 15 disposed between the outer shell 11 and the back plate 12. The quick-release mechanism 15 includes a quick-release buckle 151 and a quick-release slot 152. The quick-release buckle 151 is engaged with the quick-release slot 152 to connect the outer shell 11 and the back plate 12, so that the installation connection between the outer shell 11 and the back plate 12 does not require screws for fixing, which is convenient and quick.

[0030] Example 2: Please refer to the appendix Figure 3 This embodiment provides a bidirectional light-emitting wall lamp. The back plate 12 of the wall lamp has light source modules 13 arranged opposite to each other at opposite ends. Adjustable lighting mechanisms 3 are installed on opposite sides of the outer shell 11. Other structures are the same as in embodiment 1. The setting of the lens lighting mechanism 2 or the adjustable lighting mechanism 3 on the outer shell 11 can be changed according to the user's needs to set the lighting effect on both sides of the wall lamp to the same lighting effect.

[0031] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A bidirectional light-emitting wall lamp, characterized in that: The lamp includes a lamp body (1), a lens lighting mechanism (2) and an adjustable lighting mechanism (3) disposed opposite to the lamp body (1). The lamp body (1) includes a housing (11), a back plate (12) and a light source module (13) disposed between the housing (11) and the back plate (12). The light source module (13) includes a component loading box (131) and a sealing cover (132). The sealing cover (132) covers the opening of the component loading box (131). A light-transmitting part (1311) is provided on one side of the component loading box (131). The lens lighting mechanism (2) includes a condensing lens (21) facing the light-transmitting part (1311). The adjustable lighting mechanism (3) includes light-blocking plates (31) that swing on both sides of the light-transmitting part (1311).

2. A bidirectional light-emitting wall lamp according to claim 1, characterized in that: The lens illumination mechanism (2) further includes a focusing channel (22) located on one side of the housing (11). The focusing channel (22) has an insertion slot (23) near the edge of the housing (11). The focusing lens (21) is inserted into the insertion slot. When the housing (11) is connected to the back plate (12), the end of the focusing channel (22) away from the insertion slot (23) abuts against both sides of the light-transmitting part (1311).

3. A bidirectional light-emitting wall lamp according to claim 2, characterized in that: The focusing lens (21) is a convex lens.

4. A bidirectional light-emitting wall lamp according to claim 2, characterized in that: The adjustable lighting mechanism (3) also includes an adjustment channel (32) located on one side of the housing (11). The opposite sidewalls of the adjustment channel (32) are inclined in a "V" shape. The light-blocking plate (31) is hinged between the component loading box (131) and the sealing cover (132), so that the opposite light-blocking plates (31) can swing closer or further away from each other to narrow or expand the adjustment channel (32).

5. A bidirectional light-emitting wall lamp according to claim 4, characterized in that: The component loading box (131) has a sealing flange (1312) protruding around its opening, and the sealing cover (132) has a sealing groove (1321) recessed around its side near the component loading box (131). When the sealing cover (132) is closed on the opening of the component loading box (131), the sealing flange (1312) is engaged with the sealing groove (1321).

6. A bidirectional light-emitting wall lamp according to claim 5, characterized in that: The component loading box (131) and the sealing cover (132) are connected by ultrasonic bonding.

7. A bidirectional light-emitting wall lamp according to claim 5, characterized in that: The lamp body (1) also includes a module fixing mechanism (14) disposed between the back plate (12) and the light source module (13). The module fixing mechanism (14) includes a module hook (141) and a module slot (142) respectively. The module hook (141) is inserted into the module slot (142) so that the component loading box (131) is installed on the back plate (12).

8. A bidirectional light-emitting wall lamp according to claim 7, characterized in that: The back plate (12) has light source modules (13) arranged opposite to each other at its two ends, and the lens lighting mechanism (2) and the adjustable lighting mechanism (3) are respectively installed on the opposite sides of the outer shell (11).

9. A bidirectional light-emitting wall lamp according to claim 7, characterized in that: The back plate (12) has light source modules (13) arranged opposite to each other at its two ends, and the adjustable lighting mechanism (3) is installed on both sides of the outer shell (11).

10. A bidirectional light-emitting wall lamp according to claim 1, characterized in that: The lamp body (1) also includes a quick-release mechanism (15) disposed between the outer shell (11) and the back plate (12). The quick-release mechanism (15) includes a quick-release buckle (151) and a quick-release slot (152) respectively. The quick-release buckle (151) is engaged with the quick-release slot (152) to connect the outer shell (11) and the back plate (12).