LED support with rapid heat dissipation and concentrated brightness

Abstract

The utility model discloses a quick heat dissipation and brightness concentrated LED support, it includes: frame, the inside of frame upper and lower all is fixedly connected with pole piece, one end of pole piece opposite fixedly assembled with the inlay seat, the front side center of inlay seat all is equipped with the inlay groove, the outside of inlay groove corresponds the front of inlay seat and is equipped with cup type recess, the front side of inlay groove is equipped with the lens, the rear side cross -wise symmetry of lens is fixed with a plurality of insertion rods, the outside of insertion rod is fixedly equipped with a plurality of copper coils of equal interval through in the front and back, the rear end of insertion rod all is fixedly connected with the plug, the rear side center of inlay seat inlay assembly has the heat dissipation panel, the rear side of heat dissipation panel upper and lower equal interval has a plurality of heat dissipation fin, carries out comprehensive condensing operation, eliminates partial astigmatism, improves condensing intensity, keeps the beauty of flat design, in addition completes the efficient heat dissipation operation of lamp pearl, improves its heat dissipation efficiency.

Description

Technical Field

[0001] This utility model relates to the field of LED bracket technology, and in particular to an LED bracket with rapid heat dissipation and concentrated brightness. Background Technology

[0002] LED brackets are the base for LED chips before encapsulation. On the basis of the LED bracket, the chip is fixed in, the positive and negative electrodes are soldered on, and then encapsulated with encapsulating glue in one step. With the increasing awareness of modernization and environmental protection, the energy-saving requirements of LED products are getting higher and higher. In order to reduce the power consumption of LED products, surface mount LED precision brackets have higher requirements for heat dissipation and light focusing.

[0003] Conventional focusing methods often involve adding a focusing cup to the outside of the LED chip package to improve its focusing performance. However, this method is not comprehensive enough and can easily produce some scattered light. Furthermore, the added focusing cup increases the overall thickness, affecting the aesthetics of some flat designs. In addition, heat dissipation can only be improved by optimizing the materials or by using external air-cooling equipment. Since the LED chip is packaged on the inside, the heat transfer rate is slow, resulting in poor heat dissipation. Utility Model Content

[0004] The purpose of this utility model is to provide an LED bracket with rapid heat dissipation and concentrated brightness, which can perform comprehensive light focusing, eliminate local scattering, and improve the light focusing intensity. Furthermore, the combined design of the two can further shorten the length of the cup-shaped groove to reduce the overall assembly thickness, maintain the aesthetics of the flat design, and complete the efficient heat dissipation of the LED beads, thereby improving their heat dissipation efficiency.

[0005] To achieve the above objectives, a fast heat dissipation and concentrated brightness LED bracket is provided, comprising: a frame, wherein several frames are arranged in a rectangular array and fixedly combined in the upper right region; electrodes are fixedly connected to the upper and lower sides of the inner side of the frame; a socket is fixedly mounted at the opposite end of each electrode; a groove is formed at the center of the front side of each socket; a cup-shaped groove is formed on the outer side of each groove corresponding to the front of the socket; a lens is mounted on the front side of the groove; several insert rods are symmetrically fixed to the rear side of the lens; several sets of copper coils are fixedly connected through the outer side of each insert rod at equal intervals; a plug is fixedly connected to the rear end of each insert rod; a heat dissipation plate is fitted into the center of the rear side of the socket; several heat dissipation fins are arranged at equal intervals on the rear side of the heat dissipation plate; and the plug extends rearward into the heat dissipation plate. The heat dissipation panel is inserted and fixed to the inner wall. By setting an embedded lens and a cup-shaped groove on its periphery, the light generated by the LED light source is refracted and reflected to achieve comprehensive light focusing, thereby eliminating local scattering and improving the light intensity. The combination of the two can further shorten the length of the cup-shaped groove to reduce the overall assembly thickness and maintain the aesthetics of the flat design. In addition, the lens is installed by using a plug and a rod for direct insertion. Several copper coils are mounted around the outside of the LED to quickly absorb the generated heat energy and transfer it backward through the heat-conducting copper rod built into the plug. Then, the heat dissipation panel and several heat dissipation fins dissipate the transferred heat into the outside air to complete the efficient heat dissipation of the LED and improve its heat dissipation efficiency.

[0006] According to the aforementioned LED bracket for rapid heat dissipation and concentrated brightness, each group of copper coils consists of three turns from the inside out, with a gap reserved between the innermost coil and the LED bead. This increases the copper heat-conducting area and thus improves the heat conduction speed.

[0007] According to the aforementioned LED bracket for rapid heat dissipation and concentrated brightness, heat-conducting copper rods are fitted and fixed in both the front and rear directions at the internal center of the plug and insert, and the outer sides of the heat-conducting copper rods are fixedly connected to corresponding copper coils. This provides a stable and efficient heat conduction path, accelerating heat dissipation.

[0008] According to the aforementioned LED bracket for rapid heat dissipation and concentrated brightness, a damping pad is fitted around the outer side of each plug, and the outer side of the damping pad is correspondingly and slidingly connected to the heat dissipation panel in the front-to-back direction with damping. This facilitates quick insertion and positioning of the lens.

[0009] According to the aforementioned LED bracket for rapid heat dissipation and concentrated brightness, a thermally conductive silicone sheet is attached to the front side of the heat dissipation plate, and the front side of the thermally conductive silicone sheet is correspondingly attached and fixed to the mounting base. This improves the heat transfer rate.

[0010] According to the LED bracket with rapid heat dissipation and concentrated brightness, the front side of the bracket has a ring array of several slots for mounting the lampshade.

[0011] According to the aforementioned LED bracket for rapid heat dissipation and concentrated brightness, reflective sheets are attached to the inner surface of each cup-shaped groove to improve its light reflection performance.

[0012] According to the LED bracket with rapid heat dissipation and concentrated brightness, the lower middle part of the frame is provided with mounting holes through the front and back, and the mounting holes are used with bolts for positioning and installation of the overall bracket.

[0013] The above-mentioned solution has the following beneficial effects:

[0014] In this invention, an embedded lens with a cup-shaped groove around its periphery is used to refract and reflect the light generated by the LED light source, thereby achieving comprehensive focusing, eliminating local scattering, and improving the focusing intensity. The combined design of the two can further shorten the length of the cup-shaped groove to reduce the overall assembly thickness and maintain the aesthetics of the flat design. In addition, the lens is installed using a plug-in assembly with a rod, and several copper coils are mounted around the outside of the LED to quickly absorb the generated heat energy and transfer it backward through the heat-conducting copper rod built into the rod. Then, the heat dissipation plate and several heat dissipation fins dissipate the transferred heat into the outside air, completing the efficient heat dissipation of the LED and improving its heat dissipation efficiency.

[0015] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0016] The present invention will be further described below with reference to the accompanying drawings and embodiments;

[0017] Figure 1 This is an overall schematic diagram of an LED bracket with rapid heat dissipation and concentrated brightness according to the present invention;

[0018] Figure 2 This is a schematic diagram of the connection structure of the LED bracket in which rapid heat dissipation and concentrated brightness are provided by this utility model.

[0019] Figure 3 This is a schematic diagram of the connection structure between the lens and the cup-shaped groove in an LED bracket that provides rapid heat dissipation and concentrated brightness, according to this utility model.

[0020] Figure 4 This is a schematic diagram of the connection structure of the heat dissipation panel in an LED bracket that provides rapid heat dissipation and concentrated brightness, according to this utility model.

[0021] Legend:

[0022] 1. Frame; 2. Electrode; 3. Mount; 4. Groove; 5. Cup-shaped groove; 6. Lens; 7. Insert rod; 8. Plug; 9. Copper coil; 10. Heat dissipation plate; 11. Heat dissipation fins; 12. Thermal conductive silicone pad; 13. Slot; 14. Assembly hole. Detailed Implementation

[0023] 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.

[0024] Reference Figure 1-4 This utility model embodiment provides an LED bracket with rapid heat dissipation and concentrated brightness, including: a frame 1, with mounting holes 14 extending through the lower middle part of the frame 1, the mounting holes 14 being used with bolts for positioning and installation of the overall bracket, the frame 1 being arranged in a rectangular array with several adjacent units fixed in the upper right region, the inner side of the frame 1 being fixedly connected with electrode plates 2 at both the top and bottom, the opposite end of the electrode plates 2 being fixedly mounted with a base 3, the front side of the base 3 having several slots 13 in a circular array, the slots 13 being used to install lamp covers, and the front center of the base 3 having a groove 4, providing a basic bracket structure for the encapsulation of LED beads.

[0025] A cup-shaped groove 5 is provided on the outer side of the groove 4 corresponding to the front of the mounting base 3. A reflector is attached to the inner side of the cup-shaped groove 5. A lens 6 is mounted on the front side of the groove 4 to reflect and concentrate the light generated by the lamp light source, thereby performing a comprehensive light-concentrating operation, eliminating local scattering, and improving the light intensity.

[0026] Several insert rods 7 are symmetrically fixed to the rear side of lens 6. Several sets of copper coils 9 are fixedly fixed through the outer side of insert rods 7 at equal intervals. Each set of copper coils 9 is divided into three coils from the inside to the outside, and a gap is reserved between the innermost coil and the LED bead. A plug 8 is fixedly connected to the rear end of each insert rod 7. A heat-conducting copper rod is fitted and fixed in the front and back directions at the inner center of insert rods 7 and plugs 8. The outer side of the heat-conducting copper rod is fixedly connected to the copper coil 9. A heat dissipation plate 10 is fitted and assembled at the rear center of the mounting base 3. Several heat dissipation fins 11 are arranged at equal intervals on the rear side of the heat dissipation plate 10. The plug 8 faces the rear... The plug 8 should be inserted into the inner wall of the heat dissipation panel 10 and fixed thereto. A damping pad ring is fitted around the outer side of the plug 8. The outer side of the damping pad ring is connected to the heat dissipation panel 10 in a damping sliding manner in the front and back direction. A thermally conductive silicone pad 12 is attached to the front side of the heat dissipation panel 10. The front side of the thermally conductive silicone pad 12 is attached to the base 3 and fixed thereto. The generated heat energy is quickly absorbed and transferred to the rear through the thermally conductive copper rod built into the plug 7. Then, the heat transferred is dissipated to the outside air through the heat dissipation panel 10 and several heat dissipation fins 11 to complete the efficient heat dissipation of the lamp bead.

[0027] Working principle: In this utility model, an embedded lens 6 is set up in conjunction with a cup-shaped groove 5 on its periphery to refract and reflect the light generated by the lamp bead light source, thereby performing a comprehensive focusing operation, eliminating local scattering, and improving the focusing intensity. Moreover, the combination design of the two can further shorten the length of the cup-shaped groove 5 to reduce the overall assembly thickness and maintain the aesthetics of the flat design. In addition, the lens 6 is installed by using a plug rod 7 and a plug 8 for direct insertion assembly, and several copper coils 9 are mounted around the outside of the lamp bead to quickly absorb the generated heat energy and transfer it backward through the heat-conducting copper rod built into the plug rod 7. Then, the heat dissipation plate 10 and several heat dissipation fins 11 are set up to dissipate the transferred heat into the outside air to complete the efficient heat dissipation operation of the lamp bead and improve its heat dissipation efficiency.

[0028] 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. An LED bracket with rapid heat dissipation and concentrated brightness, comprising: The frame (1) is characterized in that several frames (1) are fixedly arranged in a rectangular array in the upper right region. Electrodes (2) are fixedly connected to the upper and lower sides of the inner side of the frame (1). A mounting base (3) is fixedly fitted to one end of each electrode (2). A groove (4) is provided at the center of the front side of each mounting base (3). A cup-shaped groove (5) is provided on the outer side of each groove (4) corresponding to the front of the mounting base (3). A lens (6) is mounted on the front side of each groove (4). Several rods (7) are symmetrically fixed to the rear side of the mirror (6). Several sets of copper coils (9) are fixed through the outer side of the rods (7) at equal intervals. A plug (8) is fixedly connected to the rear end of each rod (7). A heat dissipation plate (10) is fitted into the center of the rear side of the socket (3). Several heat dissipation fins (11) are arranged at equal intervals on the rear side of the heat dissipation plate (10). The plug (8) extends into the inner wall of the heat dissipation plate (10) and is fixedly inserted into it.

2. The LED bracket with rapid heat dissipation and concentrated brightness according to claim 1, characterized in that, Each group of copper coils (9) is divided into three loops from the inside out, and a gap is reserved between the innermost loop and the LED beads.

3. The LED bracket with rapid heat dissipation and concentrated brightness according to claim 1, characterized in that, The insert (7) and plug (8) are both fitted with heat-conducting copper rods in the front and back directions at their internal center, and the outer sides of the heat-conducting copper rods are fixedly connected to the copper coils (9).

4. The LED bracket with rapid heat dissipation and concentrated brightness according to claim 1, characterized in that, A damping pad ring is fitted around the outside of each plug (8), and the outside of the damping pad ring is connected to the heat dissipation plate (10) in a damping sliding connection in the front and rear directions.

5. The LED bracket with rapid heat dissipation and concentrated brightness according to claim 1, characterized in that, A thermally conductive silicone sheet (12) is attached to the front side of the heat dissipation plate (10), and the front side of the thermally conductive silicone sheet (12) is attached and fixed to the base (3).

6. The LED bracket with rapid heat dissipation and concentrated brightness according to claim 1, characterized in that, The front side of the mounting base (3) has a ring array of several slots (13) for mounting lampshades.

7. The LED bracket with rapid heat dissipation and concentrated brightness according to claim 1, characterized in that, Reflective sheets are attached to the inner surface of the cup-shaped groove (5).

8. The LED bracket with rapid heat dissipation and concentrated brightness according to claim 1, characterized in that, The frame (1) has a through-hole (14) in the lower middle part, which is used to position and install the overall bracket.

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