A remote control color changing neon light device

By incorporating an environmental sensing module and remote control technology, along with an innovative design for the snap-fit ​​components, the problem of traditional neon lights being unable to be dynamically adjusted and having loose connections has been solved. This enables flexible control and efficient assembly and disassembly, extending the lifespan of the equipment.

CN224401704UActive Publication Date: 2026-06-23FOSHAN WEIXIN TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN WEIXIN TECHNOLOGY CO LTD
Filing Date
2025-06-30
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Traditional neon lights cannot dynamically adjust color and brightness according to environmental changes or user needs, lack remote control functions, have easily loosened connection structures, are difficult to disassemble and assemble, and have a short equipment lifespan.

Method used

The system uses an ambient sensing module to adjust brightness and color in real time, and uses Bluetooth 5.0 and Wi-Fi 6 dual-mode communication to achieve remote control. The buckle assembly ensures a firm connection through the elastic plate and top block fixing structure, and the slider and groove design supports quick disassembly and assembly and shape adjustment.

Benefits of technology

It enables personalized adjustment of lighting parameters, improves the connection stability and ease of disassembly and assembly of the equipment, and extends the service life of the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to lighting decoration technical field, concretely relates to a kind of remote control color-changing neon lamp device, including decorative backplate, the decorative backplate one side equidistant array has multiple modeling holes, the socket one side bottom is provided with socket, electrically connected with LED neon light band on the socket, the LED neon light band is connected with the modeling hole on decorative backplate by buckle assembly;The other side of the decorative backplate is provided with control box, the inside of control box is provided with control module, the inside of control box and located environmental response module side of control module is provided with wireless transmitting module;The utility model can ensure that lamp band is connected firm and has no movable gap, the sliding design of slider and sliding slot supports quick disassembly and modeling adjustment, significantly reduce manpower cost, prolong equipment service life.
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Description

Technical Field

[0001] This utility model belongs to the field of lighting and decoration technology, specifically relating to a remote-controlled color-changing neon light device. Background Technology

[0002] LED neon lights are a new type of lighting product that combines LED technology with the visual effects of traditional neon lights. They emit light through LED chips and are combined with transparent or semi-transparent shells to simulate soft and uniform light, and are widely used in commercial decoration, art design and other fields.

[0003] Problems with existing technology:

[0004] Traditional neon lights often use fixed colors and brightness designs, making it impossible to dynamically adjust them according to environmental changes or user needs. For example, during the day, when there is ample sunlight, the brightness is glaring and energy-intensive, while at night, when there is insufficient light, the brightness is insufficient for decorative purposes. Furthermore, they lack remote control functionality, making it difficult for users to conveniently adjust the on / off switch, color, and brightness. In addition, existing neon light strips mostly use fixed physical connections, making assembly and disassembly time-consuming and labor-intensive. Whether it's initial design fixation or subsequent maintenance, a significant amount of manpower and resources are required. Some snap-fit ​​connection products are prone to gaps at the connection points due to structural defects, leading to loosening and displacement of the light strip, causing poor wiring contact or light strip damage, and shortening the equipment's lifespan. Utility Model Content

[0005] The purpose of this invention is to provide a remote-controlled color-changing neon light device that ensures the light strip connection is firm and without any gaps. At the same time, the sliding design of the slider and the groove supports quick disassembly and assembly and shape adjustment, significantly reducing labor costs and extending the service life of the equipment.

[0006] The specific technical solution adopted by this utility model is as follows:

[0007] A remote-controlled color-changing neon light device includes a decorative back panel, on one side of which a plurality of shaped holes are arranged in an equidistant array, and a socket is provided at the bottom of one side of the decorative back panel. An LED neon light strip is electrically connected to the socket, and the LED neon light strip is connected to the shaped holes on the decorative back panel through a buckle assembly.

[0008] A control box is located on the other side of the decorative back panel. A control module is installed inside the control box. An environmental sensing module is installed inside the control box and on one side of the control module. A wireless transmitting module is installed inside the control box and on one side of the environmental sensing module for transmitting LED neon light strip status signals to an external remote control. A wireless receiving module is installed inside the control box and on one side of the wireless transmitting module for receiving remote control signals from an external remote control.

[0009] A power module is located inside the control box and on the side of the wireless receiving module to provide power to the device. The control module is electrically connected to the environmental sensing module, the wireless transmitting module, the wireless receiving module, the power module, and the socket.

[0010] The wireless transmitting module and wireless receiving module adopt Bluetooth 5.0 and Wi-Fi 6 dual-mode communication to achieve connection with external remote control and mobile terminal.

[0011] The environmental sensing module integrates a light sensor and a temperature sensor to detect the ambient light intensity in real time.

[0012] The buckle assembly includes a U-shaped bracket set on the LED neon light strip. Both ends of the U-shaped bracket set are provided with cylindrical sliders. Both sides of the LED neon light strip are provided with sliding grooves that are slidably connected to the sliders. Two symmetrical elastic plates are fixed in the middle of the U-shaped bracket set. One end of the elastic plate passes through the shaping hole and is fixed with a locking block, which is locked at one edge of the shaping hole.

[0013] The outer wall of the U-shaped card holder and on both sides of the elastic plate are provided with guide holes. A guide rod is slidably installed inside the guide hole. Top blocks are fixed at both ends of the guide rod outside the guide hole. A spring is provided on the outer wall of one of the top blocks and on both sides of the guide rod, and the other end of the spring is connected to the U-shaped card holder.

[0014] The technical effects achieved by this utility model are as follows:

[0015] This invention uses an environmental sensing module to detect light intensity and temperature in real time, automatically adjusting the brightness and color of the LED neon light strip to achieve a balance between energy saving and decorative effect; Bluetooth 5.0 and Wi-Fi 6 dual-mode communication supports remote control or mobile terminal remote operation, and users can flexibly set lighting parameters to meet personalized scene needs.

[0016] The buckle assembly of this utility model has a double fixing structure of elastic plate engagement and top block pressing, which ensures that the light strip connection is firm and without any gaps. At the same time, the sliding design of the slider and the slide groove supports quick disassembly and assembly and shape adjustment, which significantly reduces labor costs and extends the service life of the equipment. Attached Figure Description

[0017] Figure 1 This is a frontal three-dimensional structural schematic diagram of the present invention;

[0018] Figure 2 This is a rear-view three-dimensional structural schematic diagram of the present invention;

[0019] Figure 3 This is a schematic diagram of the buckle assembly structure of this utility model.

[0020] The attached diagram lists the components represented by each number as follows:

[0021] 1. Decorative back panel; 2. Shaped hole; 3. L-shaped fixing plate; 4. Control box; 5. LED neon light strip; 6. Socket; 7. Control module; 8. Ambient sensing module; 9. Wireless transmitting module; 10. Wireless receiving module; 11. Power module; 12. U-shaped card holder; 13. Slider; 14. Slide groove; 15. Elastic plate; 16. Card block; 17. Guide rod; 18. Top block; 19. Spring. Detailed Implementation

[0022] To make the objectives and advantages of this utility model clearer, the following detailed description is provided in conjunction with embodiments. It should be understood that the following text is merely used to describe one or more specific embodiments of this utility model and does not strictly limit the scope of protection specifically claimed by this utility model.

[0023] like Figure 1-2 As shown, a remote-controlled color-changing neon light device includes a decorative back panel 1. A plurality of shaped holes 2 are arranged equidistantly on one side of the decorative back panel 1. A socket 6 is provided at the bottom of one side of the decorative back panel 1. An LED neon light strip 5 is electrically connected to the socket 6. The LED neon light strip 5 is connected to the shaped holes 2 on the decorative back panel 1 through a buckle assembly. Two L-shaped fixing plates 3 are provided on the other side of the decorative back panel 1 to facilitate the installation and fixing of the decorative back panel 1.

[0024] On the other side of the decorative back panel 1, there is a control box 4. Inside the control box 4, there is a control module 7. Inside the control box 4 and on one side of the control module 7, there is an ambient sensing module 8. Inside the control box 4 and on one side of the ambient sensing module 8, there is a wireless transmitting module 9, which is used to transmit the status signal of the LED neon light strip 5 to the external remote control. Inside the control box 4 and on one side of the wireless transmitting module 9, there is a wireless receiving module 10, which is used to receive the remote control signal sent by the external remote control.

[0025] Inside the control box 4, on one side of the wireless receiving module 10, is a power module 11, which provides power to the device. The control module 7 is electrically connected to the ambient sensing module 8, the wireless transmitting module 9, the wireless receiving module 10, the power module 11, and the socket 6. The wireless transmitting module 9 and the wireless receiving module 10 use Bluetooth 5.0 and Wi-Fi 6 dual-mode communication to connect with external remote controls and mobile terminals. The ambient sensing module 8 integrates a light sensor and a temperature sensor to sense the ambient light intensity in real time.

[0026] As described above, the environmental sensing module 8 senses the ambient light intensity and temperature in real time and transmits the signals to the control module 7. The control module 7 adjusts the working state of the LED neon light strip 5 according to a preset program. Users can send remote control signals via an external remote control or mobile terminal. The wireless receiving module 10 receives the signals and transmits them to the control module 7. The control module 7 controls the color, brightness, and other parameters of the LED neon light strip 5 according to the signal commands. Simultaneously, the wireless transmitting module 9 transmits the status signal of the LED neon light strip 5 to external devices, allowing users to monitor the device's working status in real time. This enables connection with external remote controls and mobile terminals, allowing users to remotely control the color, brightness, and other states of the LED neon light strip 5 via remote control or mobile terminal. The control is flexible and convenient, meeting the personalized needs of different scenarios; the brightness is automatically increased when the light intensity is low.

[0027] like Figure 1-3 As shown, the buckle assembly includes a U-shaped bracket 12 disposed on the LED neon light strip 5. Both ends of the U-shaped bracket 12 are provided with cylindrical sliders 13. Both sides of the LED neon light strip 5 are provided with sliding grooves 14 that are slidably connected to the sliders 13. Two symmetrical elastic plates 15 are fixed in the middle of the U-shaped bracket 12. One end of the elastic plate 15 passes through the shaping hole 2 and is fixed with a locking block 16, and the locking block 16 is locked at one edge of the shaping hole 2.

[0028] The outer wall of the U-shaped card holder 12 and on both sides of the elastic plate 15 are provided with guide holes. A guide rod 17 is slidably installed inside the guide hole. Top blocks 18 are fixed at both ends of the guide rod 17 outside the guide hole. A spring 19 is provided on the outer wall of one of the top blocks 18 and on both sides of the guide rod 17. The other end of the spring 19 is connected to the U-shaped card holder 12. Anti-slip texture is provided on one side of the top block 18.

[0029] According to the above structure, when installing the LED neon light strip 5, first connect one end of the LED neon light strip 5 to the socket 6, and then fix the LED neon light strip 5 to the decorative back plate 1 according to the required neon light shape. During fixing, the two elastic plates 15 pass through the shaping hole 2, and the locking block 16 at one end of the elastic plate 15 is locked at one edge of the shaping hole 2, fixing the connection between the LED neon light strip 5 and the U-shaped bracket 12. At the same time, when the locking block 16 is locked by the shaping hole 2, the decorative back plate 1 presses one of the top blocks 18 to move. The top block 18 drives the other top block 18 to press the LED neon light strip 5 through the guide rod 17, and fixes the connection between the LED neon light strip 5 and the U-shaped bracket 12 by friction. The cooperation of the slider 13 and the slide groove 14 can adjust the position of the U-shaped bracket 12, improving the flexibility of the equipment.

[0030] The working principle of this invention is as follows: the environmental sensing module 8 senses the ambient light intensity and temperature in real time and transmits the signals to the control module 7. The control module 7 adjusts the working state of the LED neon light strip 5 according to a preset program. Users can send remote control signals via an external remote control or mobile terminal. The wireless receiving module 10 receives the signals and transmits them to the control module 7. The control module 7 controls the color, brightness, and other parameters of the LED neon light strip 5 according to the signal commands. Simultaneously, the wireless transmitting module 9 transmits the status signals of the LED neon light strip 5 to external devices, allowing users to monitor the device's working status in real time.

[0031] When installing the LED neon light strip 5, first connect one end of the LED neon light strip 5 to the socket 6. Then, according to the required neon light shape, fix the LED neon light strip 5 to the decorative back plate 1. During fixing, let the two elastic plates 15 pass through the shaping hole 2, and let the locking block 16 at one end of the elastic plate 15 lock at one edge of the shaping hole 2 to fix the connection between the LED neon light strip 5 and the U-shaped bracket 12. At the same time, when the locking block 16 is locked by the shaping hole 2, the decorative back plate 1 presses one of the top blocks 18 to move. The top block 18 drives the other top block 18 to press the LED neon light strip 5 through the guide rod 17, and fixes the connection between the LED neon light strip 5 and the U-shaped bracket 12 by friction. The cooperation of the slider 13 and the slide groove 14 can adjust the position of the U-shaped bracket 12, improving the flexibility of the equipment.

[0032] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model, unless otherwise specified or limited, shall be implemented using conventional methods in the field.

Claims

1. A remote-controlled color-changing neon light device, comprising a decorative back panel (1), characterized in that, The decorative back panel (1) has multiple shaped holes (2) arranged equidistantly on one side. A socket (6) is provided at the bottom of one side of the decorative back panel (1). An LED neon light strip (5) is electrically connected to the socket (6). The LED neon light strip (5) is connected to the shaped holes (2) on the decorative back panel (1) through a buckle assembly. A control box (4) is provided on the other side of the decorative back panel (1). A control module (7) is provided inside the control box (4). An environmental sensing module (8) is provided inside the control box (4) and on one side of the control module (7). A wireless transmission module (9) is provided inside the control box (4) and on one side of the environmental sensing module (8) for transmitting LED neon light strip (5) status signals to an external remote controller. A wireless receiving module (10) is provided inside the control box (4) and on one side of the wireless transmission module (9) for receiving remote control signals sent by an external remote controller.

2. The remote-controlled color-changing neon light device according to claim 1, characterized in that: A power module (11) is provided inside the control box (4) and on the side of the wireless receiving module (10) to provide power to the device. The control module (7) is electrically connected to the environmental sensing module (8), the wireless transmitting module (9), the wireless receiving module (10), the power module (11), and the socket (6).

3. The remote-controlled color-changing neon light device according to claim 1, characterized in that: The wireless transmitting module (9) and the wireless receiving module (10) use Bluetooth 5.0 and Wi-Fi 6 dual-mode communication to achieve connection with external remote control and mobile terminal.

4. The remote-controlled color-changing neon light device according to claim 1, characterized in that: The environmental sensing module (8) integrates a light sensor and a temperature sensor to sense the ambient light intensity in real time.

5. The remote-controlled color-changing neon light device according to claim 1, characterized in that: The buckle assembly includes a U-shaped bracket (12) set on the LED neon light strip (5). Both ends of the U-shaped bracket (12) are provided with cylindrical sliders (13). Both sides of the LED neon light strip (5) are provided with sliding grooves (14) that are slidably connected to the sliders (13). Two symmetrical elastic plates (15) are fixed in the middle of the U-shaped bracket (12). One end of the elastic plate (15) passes through the shaping hole (2) and is fixed with a locking block (16), and the locking block (16) is locked at one edge of the shaping hole (2).

6. A remote-controlled color-changing neon light device according to claim 5, characterized in that: The outer wall of the U-shaped card holder (12) and on both sides of the elastic plate (15) are provided with guide holes. A guide rod (17) is slidably installed inside the guide hole. Top blocks (18) are fixed at both ends of the guide rod (17) outside the guide hole. A spring (19) is provided on the outer wall of one of the top blocks (18) and on both sides of the guide rod (17). The other end of the spring (19) is connected to the U-shaped card holder (12).