A neon light that can be bent at any angle
By using a silicone sleeve and aluminum profile structure, the flexible light strip is installed inside the silicone sleeve, and the fixing structure and hanging components of the aluminum profile are used to solve the installation difficulties of neon lights when bending and splicing, achieving the effect of bending at any angle and 360-degree illumination.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN SUOSITE LIGHTING CO LTD
- Filing Date
- 2025-09-22
- Publication Date
- 2026-06-30
AI Technical Summary
Existing neon lights are difficult to shape when bent, difficult to install, and cast shadows when spliced, making it impossible to splice them to an unlimited length.
It adopts a silicone sleeve and aluminum profile structure. The flexible light strip is installed in the silicone sleeve and fixed by the upper and lower grooves of the aluminum profile and the mounting plate. Combined with the hanging components or mounting buckles, it can be bent at any angle and have a 360-degree light-emitting shape.
It enables neon lights to be bent at any angle and illuminate 360 degrees, with no shadow effect, easy installation, and adaptability to various decorative needs.
Smart Images

Figure CN224434183U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of LED neon light technology, and in particular to a neon light that can be bent at any angle. Background Technology
[0002] Neon light strips can produce bright, vivid, continuous and uniform light similar to traditional neon lights; the light body is made of flexible material, which has extremely high flexibility and plasticity, and can be bent, twisted and installed on surfaces with various curves, angles and shapes to adapt to different decorative needs.
[0003] Currently, neon lights on the market have shadows, cannot be infinitely stretched in length, and are limited in shape and installation. They also have the following disadvantages:
[0004] 1. Existing neon lights are difficult to shape when bent; specifically, they are difficult to hoist and install on the surface.
[0005] 2. The existing neon light patchwork has shadows.
[0006] Therefore, the present invention provides a neon light that can be bent at any angle to solve the above problems. Utility Model Content
[0007] The purpose of this invention is to provide a neon light that can be bent at any angle, so as to solve the technical problem of difficult installation of existing neon lights.
[0008] This utility model discloses a neon light that can be bent at any angle, comprising a silicone sleeve, a flexible light strip disposed within the silicone sleeve, and an aluminum profile disposed above the silicone sleeve. The upper end of the silicone sleeve is integrally formed with an installation strip, and the two sides of the installation strip are provided with outwardly protruding retaining strips. The upper part of the aluminum profile is provided with an upper groove for installing external connectors, the lower part is provided with a lower groove for installing the installation strip, and the middle part is provided with an installation plate. The upper groove and the lower groove are open structures.
[0009] Preferably, there are two flexible light strips connected in series, and a power cord is connected to the flexible light strip.
[0010] Preferably, the mounting plate is provided with a screw hole, and the mounting strip at the upper end of the silicone sleeve is fixed to the aluminum profile by a screw installed on the screw hole.
[0011] Preferably, the neon light is composed of multiple light bodies spliced together, with splicing aluminum material provided between two adjacent light bodies.
[0012] Preferably, the splicing aluminum material is located at the interface of the two neon lights and is in the shape of "∏". The splicing aluminum material has a locking block inside that engages with the center of the upper groove. The center of the locking block has a second screw hole, and an organic screw is installed in the second screw hole to fix the splicing aluminum material to the aluminum profile.
[0013] Preferably, the upper end of the aluminum profile is provided with a hoisting component, a mounting buckle, or spliced aluminum material.
[0014] Preferably, the hoisting assembly includes a hoisting screw, a hoisting nut, a hoisting rope, and a length adjuster. The hoisting nut is installed above the aluminum profile by the hoisting screw. The lower end of the hoisting rope is connected to the hoisting nut, and the upper end is connected to the length adjuster. The length adjuster is installed on the ceiling or wall by a screw.
[0015] Preferably, the mounting buckle is located above the aluminum profile and is in the shape of a "∏". The inner walls on both sides of the mounting buckle are provided with limiting protrusions, which are located in the slot. The mounting buckle is provided with a screw hole three in the middle. The mounting buckle is installed on the ceiling or wall by screw three.
[0016] Preferably, the diameter of the neon light is 30-50mm.
[0017] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0018] This flexible neon light, which can be bent at any angle, mainly consists of a silicone sleeve, a flexible light strip, and an aluminum profile. The silicone sleeve is extruded and molded, with the flexible light strip installed inside. The flexible light strip is unobstructed within the silicone sleeve, resulting in no shadows when illuminated. Furthermore, the silicone sleeve and flexible light strip can be bent at any angle to achieve any shape of the neon light. In practical applications, the flexible light strip is first threaded into the silicone sleeve and connected, then the power cord is installed. It is then fixed to the pre-shaped aluminum profile and assembled onto the ceiling or wall using connectors. This allows users to create 360-degree illuminated ceiling light designs, satisfying various lighting needs for 360-degree illumination in different locations. Attached Figure Description
[0019] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0020] Figure 1 This is a three-dimensional structural schematic diagram of an embodiment of a neon light that can be bent at any angle according to the present invention;
[0021] Figure 2 This is a schematic diagram of the main structure of an embodiment of a neon light that can be bent at any angle according to the present invention;
[0022] Figure 3 This is a hoisting cross-sectional view of an embodiment of a neon light that can be bent at any angle according to this utility model;
[0023] Figure 4 This is a schematic diagram of the length splicing cross section of an embodiment of a neon light that can be bent at any angle according to this utility model;
[0024] Figure 5 This is a schematic diagram of the surface mounting section of an embodiment of a neon light that can be bent at any angle according to the present invention;
[0025] Figure 6 This is a schematic diagram of the hoisted finished product of an embodiment of a neon light that can be bent at any angle according to this utility model;
[0026] Figure 7 This is a schematic diagram of a surface-mounted neon light according to an embodiment of the present invention, which can be bent at any angle.
[0027] In the diagram: 1. Silicone sleeve; 11. Mounting strip; 12. Clip strip; 2. Flexible light strip; 3. Aluminum profile; 31. Upper groove; 32. Lower groove; 33. Mounting plate; 34. Screw hole one; 35. Screw one; 36. Slot; 37. Groove; 4. Power cord; 5. Splicing aluminum material; 51. Clip block; 52. Screw hole two; 53. Mesh screw; 6. Lifting assembly; 61. Lifting screw; 62. Lifting nut; 63. Lifting rope; 64. Length adjuster; 65. Screw two; 66. Expansion plug; 67. Screw nut; 7. Mounting buckle; 71. Limiting protrusion; 72. Screw hole three; 73. Screw three. Detailed Implementation
[0028] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.
[0029] like Figure 1 , Figure 2 and Figure 3 As shown, this utility model discloses a neon light that can be bent at any angle, comprising a silicone sleeve 1, a flexible light strip 2 disposed within the silicone sleeve 1, and an aluminum profile 3 disposed above the silicone sleeve 1. The upper end of the silicone sleeve 1 has an integrally formed mounting strip 11, with outwardly protruding retaining strips 12 on both sides. The upper part of the aluminum profile 3 has an upper groove 31 for mounting external connectors, the lower part has a lower groove 32 for mounting the mounting strip 11, and the middle part has a mounting plate 33. The upper groove 31 and lower groove 32 are open structures. Two flexible light strips 2 are connected in series, and a power cord 4 is connected to the flexible light strip 2. The mounting plate 33 has screw holes 34, and the mounting strip 11 at the upper end of the silicone sleeve 1 is fixed to the aluminum profile 3 by screws 35 installed in the screw holes 34. The diameter of the neon light is 30-50mm.
[0030] This utility model discloses a neon light that can be bent at any angle, mainly comprising a silicone sleeve 1, a flexible light strip 2, and an aluminum profile 3. Two flexible light strips 2 are arranged opposite each other and installed inside the silicone sleeve 1, and the flexible light strips 2 are connected to a power cord 4, which provides power. The silicone sleeve 1 is extruded with an installation strip 11. Outward-facing retaining strips 12 are provided on both sides of the installation strip 11 to hold the aluminum profile 3 in place. The lower inner wall of the aluminum profile 3 has grooves 36 that conform to the retaining strips 12. The aluminum profile 3 is manufactured using an aluminum extrusion molding process and is used for support. The silicone sleeve 1 facilitates the installation of the silicone sleeve 1 and the flexible light strip 2 on the ceiling or wall. The upper part of the aluminum profile 3 has an upper groove 31 for connection with external connectors, and the lower part has a lower groove 32 for connection with the silicone sleeve 1. A mounting plate 33 is provided in the middle to separate the upper groove 31 and the lower groove 32. Furthermore, the upper groove 31 and the lower groove 32 are open structures for easy connection with other components. The mounting plate 33 has a second screw, which passes through a second screw hole 52 and into the mounting strip 11 at the upper end of the silicone sleeve 1, further securing the silicone sleeve 1 and the aluminum profile 3. Preferably, the diameter of the silicone sleeve 1 of the neon light is 40mm, but its size can be set according to the needs of the application scenario and is not limited here.
[0031] In a preferred embodiment, refer to Figure 3 The neon light is composed of multiple light bodies spliced together, with a splicing aluminum material 5 between two adjacent light bodies. The splicing aluminum material 5 is located at the interface of two neon light sections, in the shape of a "∏". The splicing aluminum material 5 has a locking block 51 inside that engages with the middle of the upper groove 31. The middle of the locking block 51 has a screw hole 52, on which an organic screw 53 is installed to fix the splicing aluminum material 5 to the aluminum profile 3.
[0032] Specifically, the length of the neon light can be spliced according to the needs of the on-site environment. The splicing is done using splicing aluminum material 5. When in use, the splicing aluminum material 5 is installed between two neon light segments. A locking block 51 is set in the middle of the inner wall of the splicing aluminum material 5. The locking block 51 is locked in the upper part of the upper groove 31. By setting the locking block 51 with a nut screw 53, the splicing aluminum material 5 and the aluminum profile 3 are fixed together, ensuring that multiple neon light segments can be spliced together.
[0033] Example 1
[0034] Reference Figure 4 , Figure 6 and Figure 7The neon light of this invention, which can be bent at any angle, can be fixed to a wall or ceiling using a sling assembly 6. One end of the sling assembly 6 is connected to the aluminum profile 3, and the other end is connected to the wall or ceiling. The sling assembly 6 includes a sling screw 61, a sling nut 62, a sling rope 63, and a length adjuster 64. The sling nut 62 is installed above the aluminum profile 3 via the sling screw 61. The lower end of the sling rope 63 is connected to the sling nut 62, and the upper end is connected to the length adjuster 64. The length adjuster 64 is installed on the ceiling or wall via a screw 65.
[0035] Specifically, the lifting screw 61 fixes the lifting nut 62 to the aluminum profile 3. The lower end of the lifting rope 63 is connected to the upper end of the lifting nut 62, and the upper end is connected to the length adjuster 64. The upper end of the length adjuster 64 is equipped with a screw nut 67, and a screw 65 is also installed on the screw nut 67. During hoisting, a hole needs to be drilled in the wall first to install the expansion plug 66 on the wall. Then, the screw nut 67 on the wall is unscrewed and fixed to the expansion plug 66 with the screw 65. Finally, the length adjuster 64 is locked onto the screw nut 67 and tightened.
[0036] Example 2
[0037] Reference Figure 5 , Figure 6 and Figure 7 The neon light of this utility model can be bent at any angle and can be directly fixed to the wall or ceiling by means of the mounting clip 7. The mounting clip 7 is located above the aluminum profile 3 and is in the shape of "∏". The inner walls on both sides of the mounting clip 7 are provided with limiting protrusions 71, which are located in the slot 36. The mounting clip 7 has a screw hole 72 in the middle and is installed on the ceiling or wall by screws 73.
[0038] Specifically, the inner walls on both sides of the mounting clip 7 are provided with limiting protrusions 71. When the limiting protrusions 71 are installed, they are locked in the grooves 37 on the outside of the aluminum profile 3. The mounting clip 7 is provided with screw holes 3 72 in the middle. During installation, first drill holes in the wall and install the expansion plug 66 on the wall. Then, use screws 3 73 to fix the mounting clip 7 on the expansion plug 66. Finally, install the assembled aluminum profile 3 into the mounting clip 7 and fix it.
[0039] The silicone sleeve 1 of this invention is extruded and molded, with a flexible light strip 2 installed inside. The flexible light strip 2 is unobstructed inside the silicone sleeve 1, ensuring no shadows during use and guaranteeing a good atmosphere rendering effect. The silicone sleeve 1 and the flexible light strip 2 can be bent at any angle to achieve any shape of the neon light. In practical applications, the flexible light strip 2 is first strung into the silicone sleeve 1 and connected, and then the power cord 4 is installed. It is then fixed to the shaped aluminum profile 3, and finally assembled to the ceiling or wall using connectors (hanging components 6 or mounting clips 7). This allows users to create 360-degree illuminated ceiling light shapes, meeting the lighting needs of various 360-degree illuminated lighting locations.
[0040] The application scenarios for this neon light are very wide: for example, interior lighting for homes, hospitals and pharmacies, warehouses, shopping malls, and offices.
[0041] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.
Claims
1. A neon light that can be bent at any angle, characterized in that: The device includes a silicone sleeve, a flexible LED strip disposed within the silicone sleeve, and an aluminum profile disposed above the silicone sleeve. The upper end of the silicone sleeve is integrally formed with an installation strip, and the two sides of the installation strip are provided with outwardly protruding retaining strips. The upper part of the aluminum profile is provided with an upper groove for installing external connectors, the lower part is provided with a lower groove for installing the installation strip, and the middle part is provided with an installation plate. The upper and lower grooves are open structures.
2. The bendable neon sign of claim 1, wherein, Two flexible light strips are connected in series, and a power cord is connected to the flexible light strip.
3. The bendable neon sign of claim 1, wherein, The mounting plate is provided with a screw hole, and the mounting strip at the upper end of the silicone sleeve is fixed to the aluminum profile by a screw installed on the screw hole.
4. The neon light that can be bent at any angle as described in claim 1, characterized in that, The neon light is composed of multiple light bodies spliced together, with splicing aluminum materials between adjacent light bodies.
5. The neon light that can be bent at any angle as described in claim 4, characterized in that, The splicing aluminum material is located at the interface of the two neon lights and is in the shape of "∏". The splicing aluminum material has a locking block inside that engages with the center of the upper groove. The center of the locking block has a screw hole 2, and an organic screw is installed on the screw hole 2 to fix the splicing aluminum material to the aluminum profile.
6. The neon light that can be bent at any angle as described in claim 1, characterized in that, The upper end of the aluminum profile is equipped with a hoisting component or a mounting clip.
7. The neon light that can be bent at any angle as described in claim 6, characterized in that, The hoisting assembly includes hoisting screws, hoisting nuts, hoisting ropes, and a length adjuster. The hoisting nuts are installed above the aluminum profiles via the hoisting screws. The lower end of the hoisting rope is connected to the hoisting nut, and the upper end is connected to the length adjuster. The length adjuster is installed on the ceiling or wall via screws.
8. The neon light that can be bent at any angle as described in claim 6, characterized in that, The mounting clip is located on the top of the aluminum profile and is in the shape of "∏". The inner walls on both sides of the mounting clip are provided with limiting protrusions, which are located in the slot. The mounting clip has a screw hole three in the middle and is installed on the ceiling or wall by screw three.
9. The neon light that can be bent at any angle as described in claim 1, characterized in that, The diameter of the neon light is 30-50mm.