TWM348191U - Heat-dissipating device for LED (light emitting diode) illumination - Google Patents

Description

M348191 . Eight, new description: [New technical field] This creation is related to a kind of L E D lang heat sink, especially a kind of L E D lighting heat sink for indoor and outdoor lighting and equipment, advertising and other lighting equipment. [Prior Art] At present, lighting equipment includes lantern lighting, headlight lighting, advertising lighting, indoor lighting and machine equipment lighting, etc., lighting lamps such as incandescent bulbs, Japanese silk tubes, water, etc. As a result of the environmental sweat, the 'lighting effect is poor', the power consumption is relatively increased, and the material is damaged, the service life is short, so that it needs to be replaced and replaced, which wastes manpower, material resources and time. Therefore, it is necessary to strengthen the improvement.照明 Today's indoor and outdoor and H, advertising and lighting equipment has gradually adopted solid-state light-emitting diodes to improve efficiency and save electricity. However, the illumination light source LED must have a plurality of light-emitting diodes arranged on the circuit board, and the number of the light-emitting diodes and the power of the wheel are increased, and the electric light is converted to the light. _ tender to the heat sink and its fins for heat dissipation. L E D illuminating the second reduction of the conductive connection (four) such as welding wire entangled in the circuit t gas, lion _ _ _ radiator surface. Through the (four)-reduction of the temperature can only be caused by its own "Lai matrix, in order = too, the insulation layer of the circuit board is conducted to its own metal substrate, which affects the thermal conductivity" and the thermal conductivity of the insulation of the circuit board is poor, resulting in heat dissipation Poor efficiency, divergence 5 M348191 ^ It It is this L Ed light-emitting diode during the long period of time caused the temperature of the material too =, seriously affecting _ enable, and then cause silk, reduce the life. Moreover, the heat-conducting substrate of the target and the illuminating electrode body cannot be completely and firmly adhered to the circuit board ’ and J′ is subjected to the test of temperature change __, strict 4 shadow conduction efficiency and heat dissipation speed, so further development and improvement are necessary. , [new content] 'The purpose of this _ is to provide - a kind of LED lighting heat sink, mainly by the metal # _ metal-based suture heat conduction (four), step-by-step full-time LED light-emitting diode-guide..., the substrate reaches full contact diffusion Rapid heat dissipation, lowering the thermal resistance coefficient, and the heat transfer efficiency of the large towel field ensures the efficiency and service life of the LED light-emitting diodes. In order to achieve the goal, at least one ED LED is disposed on the surface of the circuit board. The circuit board includes a metal substrate, an insulating layer, an electrical circuit and a surface insulating lacquer layer. The LED light-emitting diode has a plurality of conductive pins and an intermediate heat-conductive substrate; the metal substrate is provided with a heat-conducting protrusion extending to the surface of the circuit board, so that the heat-conducting convex body-end contact l ed The opposite end of the thermally conductive substrate of the diode. In a preferred embodiment, the metal substrate of the circuit board is connected to the heat conducting convex body. In another preferred embodiment, the metal substrate of the circuit board and the insulating layer are provided with a corresponding insertion hole, and the other end of the thermal conductive protrusion is inserted and coupled to the insertion hole. In still another preferred embodiment, the thermally conductive protrusion is a metal body to solder the thermally conductive substrate of the B 6 M348191 - ed light emitting diode. [Embodiment] For the purpose of achieving the above objectives, the technical means and its functions, the following examples are given, and the following description is given as follows: First, please refer to the first B, the LED lighting device is applicable. In all kinds of indoor and outdoor equipment, such as, peach (four), advertising lighting, • μ lighting domain 11 equipment (four), etc., to improve the efficiency and save electricity. • As shown in the figure, the LED lighting heat sink of this creation is electrically connected to at least one or more L ED light-emitting diodes 2 on the surface of the circuit board 1 and connected to the device power supply to make the LED light-emitting diodes 2 Q u ED wafer 2 produces a luminous illumination at the forward voltage. At the same time, the LED#t pole body 2 Q itself has a high temperature heat that can be conducted to the metal substrate of the circuit board. The heat dissipation can be further transmitted through the heat sink 3 Q and its heat dissipation as shown in Fig. 2, and It can be locked and fixed with bolts 17. • In the preferred embodiment shown in Figures 1 to 5, the LED lighting heat sink of the present invention is mainly for composite heat dissipation of the circuit board 1Q and the L ED light-emitting diode 2 〇

- design, as shown in the figure, the LED lighting heat sink is electrically connected to the surface of the circuit board at least electrically connected with an LED light emitting diode 20, the circuit board 10 comprises a metal substrate 1 1 in sequence, an insulating layer 12. An electrical circuit i3 and a surface insulating varnish layer 14, and the metal substrate 11 may be a copper substrate or an aluminum substrate as a heat conducting plate body. The LED light-emitting diode 2 has a l £ D wafer 21, and is packaged with the housing 22 and the light-transmitting cover 2 3, while the L·E 7 M348191 .D wafer 21 is electrically connected to the outer plurality of conductive pins. 24, and a bottom portion of the bottom thereof is coupled to a thermally conductive substrate 25. The main feature of the LED lighting scatter recording device is that the metal substrate has a heat conducting protrusion 丨5 extending to the surface of the circuit board 1Q (see Figures 3, 4 and 5), so that the heat conducting convex body 15-end Contact LED light-emitting diode 2 导热 heat conduction • base 2 5 opposite end (see _ 5 figure), to achieve full contact with the ship to quickly dissipate heat, reduce heat _ number, big fortune to improve heat conduction scale, to ensure L (four) county diode 20 Performance and use of life. In the LED lighting heat dissipation|centering shown in the figures 3, 4 and 5, the metal heat conductive convex body 15 can be directly connected and extended on the metal substrate 1 of the circuit board 10, and extended to the circuit board as shown in the figure. The surface of the i Q is such that one end of the thermally conductive convex body 接触 5 contacts the opposite ends of the base body 2 5 of the LED light-emitting diode 2 to directly form a heat conduction path. Another embodiment of the structural towel shown in Figures 6 and 7 is an LED illumination heat sink. The i-system is designed for the combined structure of the heat-conducting convex body 15. As shown in the figure, the metal substrate 11 and the insulation of the circuit board 1 The layer 12 can be directly provided with the communicating jack 16 so that the thermally conductive protrusion 15 is additionally and end-coupled to the jack 6 for direct combination into a heat conductor. In particular, in the fourth, fifth and sixth figures, the LE D illumination heat sink directly sets the heat conductive protrusion 15 as a metal body to solder or surfacely adhere the heat conductive substrate 25 of the LED light emitting diode 20 to make the heat conductive convex The body 15 is integrally fixed to the heat-conducting substrate 25 to prevent a peeling gap from occurring due to temperature changes, thereby improving heat transfer efficiency. 8 M348191 In another preferred embodiment shown in FIG. 8, the Led illumination dispersing device directly encapsulates the L EDW 2 i and its transmissive hood 2 3 spot thermal conductive substrate 25 on the surface of the circuit board 10, and The domain L E (four) 2 1 峨 _! 3 constitutes an electrical connection. The LED splicing wire of the present invention is mainly composed of a metal substrate i 1 of the circuit board 1 Q combined with a heat-conducting convex body i 5 , and the thermal conductive substrate 2 5 is fully integrated with the LED illuminating 2 ,, to achieve full contact diffusion and rapid heat dissipation. Reduce the brewing coefficient, greatly improve the efficiency of the hot material, ensure the efficiency and service life of the LED light-emitting diode 2, and have the industrial value.提出 Propose a new type of patent application according to law. The above-mentioned implementation of the clock is used to explain the creation of the book. It is not limited. If you are not familiar with the spirit of the shop, you should be familiar with the various changes and modifications that can be made by the person in this line. In the scope. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a preferred embodiment of the present invention; Fig. 2 is a state diagram of use of Fig. 1; Fig. 3 is an exploded perspective view of Fig. 1; Fig. 4 is a third diagram Fig. 5 is a sectional view of the group of Fig. 4; Fig. 6 is a heat dissipation structure diagram of another circuit board as shown in Fig. 5; Fig. 7 is an exploded view of Fig. 6; A state diagram of the use of another preferred embodiment. 9 M348191 . [Main component symbol description] 10 Circuit board 1 1 Metal substrate 1 2 Insulation layer 13 Electrical circuit 1 4 Insulating lacquer layer 1 5 Thermal conductive protrusion 16 Jack 1 7 Bolt 2 0 L ED LED 2 1 LED Wafer 2 2 Case 2 3 Transmissive hood 2 4 Conductive pin 2 5 Thermal base 3 0 Heat sink 3 1 Heat sink fin

Claims (1)

M348191 IX. Patent application scope: 1. An LED lighting heat dissipation device is provided with at least one L ED light emitting diode electrically connected to a surface of a circuit board, the circuit board comprising a metal substrate and an insulating layer sequentially combined. An electrical circuit and a surface insulating lacquer layer thereof, the L ED light emitting diode has a plurality of outer peripheral conductive pins and an intermediate heat conducting substrate; and the metal substrate is provided with a heat conducting convex body extending to the surface of the circuit board, so that One end of the thermal conductive protrusion contacts an opposite end of the thermal conductive substrate of the LED light-emitting diode. 2. The LED lighting heat sink according to claim 1, wherein the metal substrate of the circuit board is connected to the heat conducting convex body. 3. The LED lighting heat sink according to claim 1, wherein the metal substrate of the circuit board and the insulating layer are provided with a connecting hole, and the other end of the heat conducting convex body is plugged and coupled to the jack. The L ED turning heat sink according to claim 1, 2 or 3, wherein the heat conducting protrusion is a metal body to solder the heat conducting substrate of the LED light emitting diode.