Rotary adjustable lens line wall lamp
By adding a rotating mechanism to the linear wall lamp, and utilizing the locking engagement of the adjusting rack and locking flange, the problem of inconvenient lighting adjustment in traditional linear wall lamps is solved, achieving quick angle adjustment and aesthetically pleasing installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG HELLO LIGHTING TECH CO LTD
- Filing Date
- 2025-07-18
- Publication Date
- 2026-06-05
AI Technical Summary
Traditional linear wall lamps are cumbersome to adjust, requiring disassembly and reinstallation to change the angle, and have poor functional expandability.
A rotating mechanism is added to the lamp body, including a housing, lens, light source, adjustment mechanism, and wall-mounting mechanism. By adjusting the rack and locking flange, the lamp body can be rotated and locked at an angle on the wall.
It enables rapid adjustment of the lamp body angle, has a simple structure, avoids accidental rotation, and improves functional expandability and installation aesthetics.
Smart Images

Figure CN224327103U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting technology, and in particular to a rotating adjustable lens linear wall lamp. Background Technology
[0002] In the field of architectural decoration and landscape lighting, lens-type linear wall lights, with their simple linear light effect, are gradually becoming the preferred solution for high-end commercial and residential scenarios. Traditional linear wall lights are typically fixed to the wall, resulting in a single, fixed lighting position after installation. This necessitates removing and reinstalling the light fixture to adjust the lighting angle, making traditional linear wall lights cumbersome to adjust and limiting their functional expandability, significantly reducing their market competitiveness. Therefore, there is an urgent need for a rotary adjustable linear wall light that maintains the original simple structure while offering a quick-locking effect. Utility Model Content
[0003] The purpose of this invention is to provide a rotating adjustable lens linear wall lamp, which solves the problem of the cumbersome lighting adjustment of traditional linear wall lamps.
[0004] The present invention provides the following technical solution: a rotating adjustable lens linear wall lamp, comprising a lamp body and a rotating mechanism. The lamp body includes a housing, a lens element, a light source element, an adjusting element, and a wall-mounting element. The housing has multiple light-transmitting openings for fitting the lens element. The housing has an opening on the side near the wall. The light source element is installed inside the housing through the opening. The adjusting element covers the opening. The rotating mechanism includes an adjusting rack and a locking flange disposed between the adjusting element and the wall-mounting element. The wall-mounting element is fixed to the wall. When the adjusting element is connected to the wall-mounting element, the locking flange is relatively movable or locked to the adjusting element.
[0005] As described above, in a rotating adjustable lens linear wall lamp, the rotating mechanism further includes a circular interface and a plurality of circularly arranged docking hooks. When the adjusting member is connected to the wall fixing member, the docking hooks are engaged with the edge of the interface to prevent the adjusting member from disengaging from the wall fixing member.
[0006] As described above, in a rotating adjustable lens linear wall lamp, the interface is provided on the adjusting member, and the docking hook protrudes from the wall fixing member on the side near the adjusting member.
[0007] As described above, in a rotary adjustable lens linear wall lamp, the adjusting rack is arranged around the inner wall of the interface, and the locking flange protrudes between the docking hook and the wall fixing member.
[0008] As described above, in a rotating adjustable lens linear wall lamp, the wall fixing component is arranged in a disc shape, and a plurality of docking hooks are arranged around the axis on the wall fixing component. The adjusting component has a circularly arranged fitting groove recessed on the side of the docking interface near the wall fixing component. When the docking hook is engaged with the docking interface, the wall fixing component is fitted into the fitting groove.
[0009] As described above, in a rotating adjustable lens linear wall lamp, a wire hole is provided in the middle of the wall fixing component, and screw holes are provided on both sides of the wire hole.
[0010] As described above, a rotating adjustable lens linear wall lamp includes a light-shielding cover and a light-transmitting sheet that are fitted together, wherein the area covered by the light-shielding cover on the light-transmitting sheet is smaller than the area of the light-transmitting sheet.
[0011] As described above, in a rotating adjustable lens linear wall lamp, multiple LED beads are arranged around an axis on the side of the light source, with the LED beads facing the light-transmitting opening.
[0012] As described above, in a rotating adjustable lens linear wall lamp, three light-transmitting openings are evenly distributed around the side of the housing, making the front of the housing triangular, and the openings are triangularly arranged corresponding to the adjusting components.
[0013] As described above, in a rotating adjustable lens linear wall lamp, four light-transmitting openings are evenly distributed around the side of the housing, making the front of the housing square, and the openings and the adjusting components are squarely arranged accordingly.
[0014] Compared with the prior art, the present invention has the following advantages:
[0015] This utility model relates to a lens-type linear wall lamp, which incorporates a rotating mechanism on the lamp body. The lamp body includes a housing, a lens, a light source, an adjusting component, and a wall-mounting component. The rotating mechanism includes an adjusting rack and a locking flange positioned between the adjusting component and the wall-mounting component. When the lamp body is installed on the wall, the wall-mounting component is fixed to the wall, and the adjusting component is connected to the wall-mounting component. This allows the locking flange and the adjusting rack to engage, achieving a segmented angle-locking rotation adjustment effect for the lamp body on the wall. Specifically, when the lamp body is stationary, the locking flange engages between adjacent teeth on the adjusting rack, limiting the rotation of the lamp body. If an external force is applied to rotate the lamp body, the locking flange will compress the adjusting rack, causing the locking flange to disengage from its original engaging position until the rotation adjustment of the lamp body stops. At this time, the adjusting rack will resume its engaging action on the locking flange, thereby relocking the lamp body and preventing accidental rotation. This achieves rapid angle adjustment of the lamp body while maintaining a simple rotating mechanism structure. Attached Figure Description
[0016] Figure 1 This is an exploded view of the lens-shaped wall lamp according to Embodiment 1 of this utility model.
[0017] Figure 2 This is an exploded view of the lens-shaped wall lamp of Embodiment 2 of this utility model.
[0018] Explanation of reference numerals in the attached drawings: 1. Lamp body; 2. Rotating mechanism; 11. Housing; 12. Lens; 13. Light source; 14. Adjusting component; 15. Wall fixing component; 21. Adjusting rack; 22. Locking flange; 23. Connecting interface; 24. Connecting hook; 111. Light-transmitting opening; 112. Opening; 121. Light-shielding cover; 122. Light-transmitting sheet; 131. Lamp bead; 141. Fitting groove; 151. Wiring hole; 152. Screw hole. Detailed Implementation
[0019] 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.
[0020] Example 1: Please refer to the appendix Figure 1This embodiment provides a rotating adjustable lens linear wall lamp, including a lamp body 1 and a rotating mechanism 2. The lamp body 1 includes a housing 11, a lens 12, a light source 13, an adjusting component 14, and a wall fixing component 15. The housing 11 is provided with a plurality of light-transmitting openings 111 for fitting the lens 12. The housing 11 is provided with an opening 112 on the side near the wall. The light source 13 is installed in the housing 11 through the opening 112. The adjusting component 14 is covered by the opening 112. The rotating mechanism 2 includes an adjusting rack 21 and a locking flange 22 disposed between the adjusting component 14 and the wall fixing component 15. The wall fixing component 15 is fixed to the wall. When the adjusting component 14 is connected to the wall fixing component 15, the locking flange 22 is relatively movable or locked to the adjusting component 14. In this embodiment of the lens-shaped wall lamp, a rotating mechanism 2 is added to the lamp body 1. The lamp body 1 includes a housing 11, a lens 12, a light source 13, an adjusting member 14, and a wall-mounting member 15. The rotating mechanism 2 includes an adjusting rack 21 and a locking flange 22 disposed between the adjusting member 14 and the wall-mounting member 15. When the lamp body 1 is installed on the wall, the wall-mounting member 15 is fixed to the wall, and the adjusting member 14 is connected to the wall-mounting member 15, so that the locking flange 21 and the adjusting rack 22 engage, realizing the segment angle locking rotation adjustment effect of the lamp body 1 on the wall. Specifically, in When the lamp body 1 is stationary, the locking flange 22 will be engaged between adjacent teeth on the adjusting rack 21, which has a certain limiting effect on the rotation of the lamp body 1. If an external force is applied to rotate the lamp body 1, the locking flange 22 will squeeze the adjusting rack 21, causing the locking flange 22 to disengage from its original engaged position. When the rotation adjustment of the lamp body 1 stops, the adjusting rack 21 will resume its engaged action on the locking flange 22, thereby relocking the lamp body 1 and making it less likely for the lamp body 1 to rotate accidentally. Under the premise of ensuring the simplicity of the structure of the rotating mechanism 2, the effect of rapid angle adjustment of the lamp body 1 is achieved.
[0021] The rotating mechanism 2 also includes a circular interface 23 and multiple circularly arranged hooks 24. When the adjusting member 14 is connected to the wall-mounted member 15, the hooks 24 engage with the edge of the interface 23 to prevent the adjusting member 14 from detaching from the wall-mounted member 15. After the wall-mounted member 15 is fixed to the wall, simply press the housing 11 toward the wall-mounted member 15 to engage the hooks 24 between the adjusting member 14 and the wall-mounted member 15 with the interface 23, and the installation of the lamp body 1 on the wall can be completed quickly and easily.
[0022] Preferably, the interface 23 is provided on the adjusting member 14, and the docking hook 24 protrudes from the wall fixing member 15 on the side near the adjusting member 14.
[0023] Preferably, the adjusting rack 21 is arranged around the inner wall of the interface 23, and the locking flange 22 protrudes between the docking hook 24 and the wall fixing member 15.
[0024] The wall-mounting component 15 is disc-shaped, with multiple docking hooks 24 arranged around an axis on it. The adjusting component 14 has a circularly shaped fitting groove 141 recessed on the side of the interface 23 near the wall-mounting component 15. When the docking hooks 24 are engaged with the interface 23, the wall-mounting component 15 fits into the fitting groove 141. This structure allows the adjusting component 14 to be almost flush against the wall when the lamp body 1 is installed, reducing the gap between the housing 11 and the wall and making the installation of the lamp body 1 on the wall more aesthetically pleasing.
[0025] The wall fastener 15 has a wire-passing hole 151 in the middle, and screw holes 152 are provided on both sides of the wire-passing hole 151. The wire-passing hole 151 allows wires led out from the wall to pass through. The double screw holes 152 prevent the screws from easily loosening when the wall fastener 15 is fastened to the wall with screws.
[0026] The lens element 12 includes a light-shielding cover 121 and a light-transmitting sheet 122 that are attached to each other. The area covered by the light-shielding cover 121 on the light-transmitting sheet 122 is smaller than the area of the light-transmitting sheet 122. The light-transmitting sheet 122 is made of transparent material. Under the light-shielding effect of the light-shielding cover 121, the light emitted by the lamp body 1 through the wall where the lens element 12 is located forms a "V" shaped line, which is quite aesthetically pleasing.
[0027] Multiple LED beads 131 are arranged around the side of the light source 13, with the LED beads 131 facing the light-transmitting opening 111. The number of LED beads 131 on the light source 13 can be flexibly adjusted by the number of light-transmitting openings 111.
[0028] In this embodiment, the wall lamp has three light-transmitting openings 111 evenly distributed around the axis on the side of the housing 11, making the front of the housing 11 triangular. The openings 112 and the adjustment members 14 are also triangularly arranged.
[0029] Example 2: Please refer to the appendix Figure 2 This embodiment provides a rotating adjustable lens linear wall lamp. Four light-transmitting openings 111 are evenly distributed around the axis on the side of the housing 11, making the front of the housing 11 square. The openings 112 and the adjusting member 14 are also square. The other structures of the wall lamp in this embodiment are the same as those in embodiment 1, which shows that the housing 11 of the lens linear wall lamp has a wide range of scalability.
[0030] 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 rotating adjustable lens linear wall lamp, characterized in that: The lamp includes a lamp body (1) and a rotating mechanism (2). The lamp body (1) includes a housing (11), a lens (12), a light source (13), an adjusting member (14), and a wall fixing member (15). The housing (11) has a plurality of light-transmitting openings (111) for fitting the lens (12). The housing (11) has an opening (112) on the side near the wall. The light source (13) is installed in the housing (11) through the opening (112). The adjusting member (14) covers the opening (112). The rotating mechanism (2) includes an adjusting rack (21) and a locking flange (22) disposed between the adjusting member (14) and the wall fixing member (15). The wall fixing member (15) is fixed to the wall. When the adjusting member (14) is connected to the wall fixing member (15), the locking flange (22) moves relative to or is held in place by the adjusting member (14).
2. The rotating adjustable lens linear wall lamp according to claim 1, characterized in that: The rotating mechanism (2) also includes a circular interface (23) and a plurality of circularly arranged docking hooks (24). When the adjusting member (14) is connected to the wall fixing member (15), the docking hooks (24) are engaged with the edge of the interface (23) to restrict the adjusting member (14) from disengaging from the wall fixing member (15).
3. A rotating adjustable lens linear wall lamp according to claim 2, characterized in that: The interface (23) is provided on the adjusting member (14), and the docking hook (24) protrudes from the wall fixing member (15) on the side near the adjusting member (14).
4. A rotating adjustable lens linear wall lamp according to claim 3, characterized in that: The adjusting rack (21) is arranged around the inner wall of the docking interface (23), and the locking flange (22) protrudes between the docking hook (24) and the wall fixing member (15).
5. A rotating adjustable lens linear wall lamp according to claim 4, characterized in that: The wall fixing component (15) is arranged in a disc shape, and a plurality of the docking hooks (24) are arranged around the axis on the wall fixing component (15). The adjusting component (14) has a circularly arranged fitting groove (141) recessed on the side of the docking interface (23) near the wall fixing component (15). When the docking hooks (24) are engaged with the docking interface (23), the wall fixing component (15) is fitted into the fitting groove (141).
6. A rotating adjustable lens linear wall lamp according to claim 5, characterized in that: The wall fixing component (15) has a wire hole (151) in the middle, and screw holes (152) are provided on both sides of the wire hole (151).
7. A rotating adjustable lens linear wall lamp according to claim 5, characterized in that: The lens element (12) includes a light-shielding cover (121) and a light-transmitting sheet (122) that are attached to each other. The area of the light-shielding cover (121) on the light-transmitting sheet (122) is smaller than the area of the light-transmitting sheet (122).
8. A rotating adjustable lens linear wall lamp according to claim 5, characterized in that: The light source (13) has a plurality of lamp beads (131) arranged around its side axis, and the lamp beads (131) are directly facing the light-transmitting opening (111).
9. A rotating adjustable lens linear wall lamp according to claim 5, characterized in that: The side of the housing (11) is evenly distributed with three light-transmitting openings (111) around the axis, so that the front of the housing (11) is triangular, and the opening (112) and the adjusting member (14) are triangularly arranged respectively.
10. A rotating adjustable lens linear wall lamp according to claim 5, characterized in that: The side of the housing (11) is evenly distributed with four light-transmitting openings (111) around the axis, so that the front of the housing (11) is square. The openings (112) and the adjusting member (14) are square in corresponding arrangement.