A side-mounted LED bracket for a high-definition transparent display screen
By introducing slide rails and slide plates into the side-mounted LED bracket, the problems of difficult disassembly and maintenance and insufficient heat dissipation in the prior art are solved, achieving rapid power-off and efficient heat dissipation, and reducing maintenance costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 广西合利来实业集团有限公司
- Filing Date
- 2025-09-23
- Publication Date
- 2026-07-03
AI Technical Summary
Existing surface-mount LEDs require complete destruction of the base frame during disassembly and maintenance, making it impossible to quickly disconnect power, resulting in high processing and usage costs and a lack of heat dissipation capabilities.
A side-mounted LED bracket including a heat dissipation component and a disassembly component was designed. It enables quick power-off via a slide rail and a sliding plate, and improves heat dissipation by utilizing a first rod and heat dissipation holes.
It achieves rapid power-off and efficient heat dissipation, reducing maintenance costs and improving maintenance efficiency.
Smart Images

Figure CN224454474U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of side-mounted LED technology, and in particular to a side-mounted LED bracket for a high-definition transparent display screen. Background Technology
[0002] Surface mount LED pixel lights are highly integrated miniature light-emitting devices that utilize SMT (Surface Mount Technology) technology. Each module can independently control the RGB three primary colors, achieving 16 million color mixing capabilities. Their features include: common sizes of 5x5mm-12x12mm, a thickness of less than 3mm; low power consumption (0.1-0.3W per LED); and high brightness (100-500 cd / m²). 2 It supports cascading control and digital addressing via ICs such as WS2812; it boasts an IP65 protection rating and a lifespan of 50,000 hours. Widely used in dynamic lighting scenarios such as LED displays, building curtain walls, and stage lighting, it supports PWM dimming and 256-level grayscale control.
[0003] In the current manufacturing process of surface-mount LEDs, the base frame and the light cup slot are in a fixed state. As a result, when it is necessary to disassemble and maintain them later, the entire base frame must be destroyed to separate the two, and the power cannot be quickly cut off. This means that the base frame and power supply must be prepared again for the next installation of the surface-mount LED, which increases the manufacturing cost. At the same time, the current technology does not have heat dissipation function, which means that surface-mount LEDs need to be replaced repeatedly, which increases the cost of use.
[0004] To address this, we designed a side-mounted LED bracket for a high-definition transparent display screen. Utility Model Content
[0005] The purpose of this invention is to provide a side-mounted LED bracket for a high-definition transparent display screen, which addresses the problem of high operating costs in existing technologies.
[0006] To achieve the above objectives, the present invention adopts the following technical solution:
[0007] A side-mounted LED bracket for a high-definition transparent display screen includes a light cup holder, a plurality of light cup slots disposed within the light cup holder, and a docking body disposed at the bottom of the light cup holder; and further includes;
[0008] The heat dissipation assembly includes several first rods disposed in the light cup groove, a support rod disposed at the bottom of the first rods, second rods symmetrically disposed in the light cup groove, a bonding plate disposed on the second rods, and an auxiliary component disposed on the docking body.
[0009] A disassembly assembly is disposed at the bottom of the docking body.
[0010] Preferably, the first rod is fixedly connected to the light cup groove by welding, the support rod is fixed to the bottom of the first rod, the second rod is fixedly connected to the light cup groove by welding, and the bonding plate is fixed to the second rod.
[0011] Preferably, the auxiliary component includes a plurality of heat dissipation holes disposed in the middle of the docking body and square holes symmetrically disposed at the bottom of the docking body.
[0012] Preferably, the docking body is fixedly connected to the light cup holder by fasteners, and several auxiliary heat dissipation grooves are opened at both ends of the heat dissipation hole, and slide rails are provided on both sides of the square hole.
[0013] Preferably, the disassembly assembly includes a slide plate disposed within a slide rail and a docking assembly disposed on the slide plate.
[0014] Preferably, the docking assembly includes an alloy body disposed at the bottom of the slide plate, a groove disposed on the alloy body, a plurality of wire strips disposed on the side wall of the alloy body, and a grounding body disposed in the groove.
[0015] Preferably, the alloy body is fixedly connected to the slide plate, the conductor is fixed to the alloy body by welding, and the grounding body is fixed to the inner wall of the groove by fasteners.
[0016] The beneficial effects of this utility model are as follows:
[0017] 1. This utility model, through the setting of slide rail and slide plate, allows staff to quickly cut off the power to the LED by simply pulling out the slide plate when they need to repair the surface-mount LED, thus avoiding electric shock. The slide plate can be pulled away from the slide rail, thereby improving the efficiency of LED maintenance and reducing maintenance costs.
[0018] 2. With the design of the first rod and heat dissipation holes, after the surface mount LED is maintained and installed, the first rod can improve the heat dissipation at the bottom of the LED, and the space between the first rod and the heat dissipation holes can increase the heat capacity, allowing the heat to be discharged through several heat dissipation holes, thereby improving the heat dissipation effect at the bottom of the LED. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the structure of a side-mounted LED bracket for a high-definition transparent display screen proposed in this utility model;
[0020] Figure 2 This is a top view of a side-mounted LED bracket for a high-definition transparent display screen proposed in this utility model;
[0021] Figure 3 This is a bottom view of a side-mounted LED bracket for a high-definition transparent display screen proposed in this utility model;
[0022] Figure 4 This is a side view of a side-mounted LED bracket for a high-definition transparent display screen proposed in this utility model.
[0023] In the diagram: 1. Optical cup holder; 101. Optical cup groove; 102. First rod; 103. Support rod; 104. Second rod; 105. Adhesive plate; 2. Connecting body; 201. Heat dissipation hole; 202. Slide rail; 203. Slide plate; 204. Alloy body; 205. Groove; 206. Conductor strip; 207. Grounding body. Detailed Implementation
[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.
[0025] Reference Figures 1-4 A side-mounted LED bracket for a high-definition transparent display screen includes a light cup holder 1, a plurality of light cup slots 101 disposed in the light cup holder 1, and a docking body 2 disposed at the bottom of the light cup holder 1. It also includes a heat dissipation component and a disassembly component. The heat dissipation component is mainly disposed on the light cup holder 1 and the docking body 2 to maintain the heat dissipation function of the side-mounted LED during operation. The disassembly component is to facilitate the replacement of the side-mounted LED without damaging the connection of the base frame and increasing the cost of use.
[0026] When installing side-mounted LEDs, check whether there are any particles or dust adhering to the light cup holder 1, light cup groove 101, and docking body 2. Clean them with tools such as a brush to ensure that the side-mounted LEDs will not cause static electricity or other malfunctions that require repair after installation. After the side-mounted LEDs are installed in the light cup groove 101, the heat dissipation components can help increase the heat accumulation space at the bottom. At the same time, the heat can be effectively dissipated in a one-sided closed state. For overheating damage caused by environmental or other reasons, the side-mounted LEDs can be quickly powered off by disassembling the components, which makes it easier for staff to replace the side-mounted LEDs and thus reduce the cost of use.
[0027] Specifically, the heat dissipation assembly includes several first rods 102 disposed in the light cup groove 101, a support rod 103 disposed at the bottom of the first rods 102, second rods 104 symmetrically disposed in the light cup groove 101, a bonding plate 105 disposed on the second rods 104, and an auxiliary component disposed on the docking body 2.
[0028] The first rod 102 is fixedly connected to the light cup groove 101 by welding, the support rod 103 is fixed to the bottom of the first rod 102, the second rod 104 is fixedly connected to the light cup groove 101 by welding, and the bonding plate 105 is fixed to the second rod 104;
[0029] The heat generated during the operation of the side-mounted LED will accumulate at the bottom. The first rod 102 can evenly store the heat in the docking body 2, ensuring that the heat will not be dispersed from the light cup groove 101. The two ends of the first rod 102 are fixed to the light cup groove 101 by welding. Welding can improve the load-bearing effect of the side-mounted LED. The support rod 103 can improve the support effect of the end of the first rod 102, thereby improving the stability of the side-mounted LED in the light cup groove 101. The support rod 103 is mainly fixed to the first rod 102 by welding, while the other end is pressed against the docking body 2. The second rod 104 is set in the middle of the light cup groove 101, and the two sides are kept at a distance from the first rod 102. The space between them can be used for heat dissipation. The bonding plate 105 on the second rod 104 is an auxiliary structure. Silicon grease can be applied to the bonding plate 105 for heat dissipation of the side-mounted LED.
[0030] The auxiliary components include several heat dissipation holes 201 located in the middle of the docking body 2 and square holes symmetrically located at the bottom of the docking body 2;
[0031] The docking body 2 is fixedly connected to the light cup holder 1 by fasteners. Several auxiliary heat dissipation slots are opened at both ends of the heat dissipation hole 201, and slide rails 202 are provided on both sides of the square hole.
[0032] Several heat dissipation holes 201 in the middle of the docking body 2 are used to disperse heat and effectively dissipate the heat accumulated in the docking body 2. Square holes are symmetrically opened at the bottom of the docking body 2. The docking body 2 and the light cup holder 1 can be interlocked by rectangular fasteners, which facilitates later maintenance and disassembly. The rectangular fasteners are existing technology. The auxiliary heat dissipation grooves are rectangular holes at both ends of the heat dissipation holes 201, which are used to assist heat dissipation and improve the outlet of heat dispersion. The slide rails 202 are existing technology and are symmetrically arranged on the side walls of the two square holes.
[0033] The disassembly assembly is located at the bottom of docking body 2;
[0034] The disassembly assembly includes a slide plate 203 disposed within the slide rail 202 and a docking assembly disposed within the slide plate 203;
[0035] When it is necessary to remove the side-mounted LED for maintenance, simply push the slide plate 203 inside the slide rail 202 to disengage it from the slide rail 202, thus disconnecting the power to the side-mounted LED and facilitating maintenance by the staff.
[0036] The docking assembly includes an alloy body 204 disposed at the bottom of the slide plate 203, a groove 205 disposed on the alloy body 204, a plurality of conductor strips 206 disposed on the side wall of the alloy body 204, and a grounding body 207 disposed in the groove 205.
[0037] The alloy body 204 is fixedly connected to the slide plate 203, the conductor strip 206 is fixed to the alloy body 204 by welding, and the grounding body 207 is fixed to the inner wall of the groove 205 by fasteners;
[0038] The alloy body 204 is fixed to the bottom of the slide plate 203 by welding and is fixed in the middle. The groove 205 inside the alloy body 204 needs to be kept clean to ensure that there are no signs of rust. The conductor strip 206 is the connection structure of the side-mounted LED in the prior art. The grounding body 207 in the groove 205 can improve the grounding effect of the side-mounted LED and reduce the generation of static electricity.
[0039] The working principle of this utility model is as follows:
[0040] When maintenance is required for the side-mounted LED, simply pull the slide plate 203 to remove it from the slide rail 202. At this point, the heat accumulated inside the connector 2 will dissipate through the square hole, and the grounding function of the side-mounted LED will be lost. The worker can then use tools to maintain or disassemble the side-mounted LED in the light cup slot 101 through the square hole. After completing the work, simply insert the slide plate 203 back into the slide rail 202. Through the design of the slide rail 202 and slide plate 203, when maintenance is required for the surface-mount LED, simply pulling the slide plate 203 will cut off the LED's power supply, preventing electric shock and achieving a rapid power-off effect. The slide plate 203 can be pulled away from the slide rail 202, improving the worker's ability to disassemble the LED in the light cup slot 101, thereby increasing LED maintenance efficiency and reducing maintenance costs.
[0041] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A side-mounted LED bracket for a high-definition transparent display screen, comprising a light cup holder (1), a plurality of light cup slots (101) disposed within the light cup holder (1), and a docking body (2) disposed at the bottom of the light cup holder (1), characterized in that, Also includes; The heat dissipation assembly includes several first rods (102) disposed in the light cup groove (101), a support rod (103) disposed at the bottom of the first rods (102), second rods (104) symmetrically disposed in the light cup groove (101), a bonding plate (105) disposed on the second rods (104), and an auxiliary component disposed on the docking body (2). Disassembly assembly, which is located at the bottom of docking body (2).
2. The side-mount LED support for high-definition transparent display according to claim 1, characterized in that, The first rod (102) is fixedly connected to the light cup groove (101) by welding, the support rod (103) is fixed to the bottom of the first rod (102), the second rod (104) is fixedly connected to the light cup groove (101) by welding, and the bonding plate (105) is fixed to the second rod (104).
3. The side-mount LED support for high-definition transparent display according to claim 2, characterized in that, The auxiliary components include several heat dissipation holes (201) located in the middle of the docking body (2) and square holes symmetrically located at the bottom of the docking body (2).
4. The side-mount LED support for high-definition transparent display according to claim 3, characterized in that, The docking body (2) is fixedly connected to the light cup holder (1) by fasteners. Several auxiliary heat dissipation grooves are opened at both ends of the heat dissipation hole (201), and slide rails (202) are provided on both sides of the square hole.
5. A side-mounted LED bracket for a high-definition transparent display screen according to claim 4, characterized in that, The disassembly assembly includes a slide plate (203) disposed within a slide rail (202) and a docking assembly disposed on the slide plate (203).
6. The side-mount LED support for high definition transparent display according to claim 5, characterized in that, The docking assembly includes an alloy body (204) disposed at the bottom of the slide plate (203), a groove (205) disposed on the alloy body (204), a plurality of conductor strips (206) disposed on the side wall of the alloy body (204), and a grounding body (207) disposed in the groove (205).
7. The side-mount LED support for high definition transparent display according to claim 6, characterized in that, The alloy body (204) is fixedly connected to the slide plate (203), the conductor strip (206) is fixed to the alloy body (204) by welding, and the grounding body (207) is fixed to the inner wall of the groove (205) by fasteners.