TWM357566U - High-power LED lamp and its heat-dissipating structure - Google Patents

Description

M357566 V. New Description: [New Technology Field] This creation is related to a kind of LED photo/heating structure, _ refers to a kind of high-power LED lighting and its heat dissipation structure. [Prior Art]: With the development of economic speed, the energy consumption has increased rapidly, and many places (4) are now in a tight supply of electricity, which leads to the restriction of electricity. Therefore, the products with low power consumption become extremely small. Urgent focus needs. In lighting products, LEDs have many advantages due to their optical characteristics, such as long service life, extremely low power consumption, and the safety of fire protection, fresh and non-fresh yarns. Pei, an LED photo lamp with a replacement for the financial lighting 'will be an irreversible trend. In addition to the LED light source's quantum efficiency, wafer size (light-emitting area), input power, etc., another important factor is the heat dissipation capability. If the heat of the LED package structure cannot be dissipated (DissipatiQn), _ package The various domain materials in the structure will have the reliability of the gold wire breakage or the yellowing of the resin glue, and the luminescent scale of the grain will decrease significantly with the temperature rise. And to create a secret life, the ship shrinks bribe wavelength, dynamic voltage (five) county and other phenomena. • The way to solve the heat dissipation of the LED package structure is to form a hot aisle by means of a heat sink with a fan. However, looking at the current design, the more the number of heat dissipation, the more the heat dissipation effect is relatively _ conceived. Therefore, the heat dissipation of the H-plate shape is quite densely arranged, but it causes a marginal effect, causing the surface of the heat sink to be 3 _ The air adheres to the surface of the radiator, which causes the air to not circulate, and the heat dissipation effect is not good. M357566 In view of this, the author proposes a high-power LED photo-device and Wei-heat structure that does not need to be equipped with a heat-dissipating wind-riding effect to meet the above-mentioned problems. . [New content] The main purpose of this creation is to provide a high-power LED lighting fixture and its heat dissipation structure, which utilizes the temperature difference formed by the heat sink body when the temperature rises and the temperature difference between the hot fin and the air contact position, which promotes heat. The air flows upwards, with the tapered curve of the airflow guide cover, compresses the hot air, accelerates the outward movement of the hot air fluorine, creates a pressure difference, and forces the cold air to naturally inhale, so as to push the air flow without additional means, The heat generated by the LED chip is quickly dissipated to achieve high power output luminous flux. Another object of the present invention is to provide a high power LE) D luminaire and its heat dissipating structure which utilizes LED wafers in a dense arrangement to form a temperature gradient difference, which automatically forms a temperature difference to assist in air flow. In order to achieve the above purpose, a high-power LED lighting fixture is proposed, which comprises: an LED substrate provided with a plurality of LEID wafers; and a heat sink comprising a body disposed above the LED substrate, the top surface of the body is disposed a plurality of first heat dissipation fins radially radiated from the center and a second heat dissipation fin disposed between the two adjacent first heat dissipation fins; and a cover, a gas flow guide on the heat sink The cover is shaped such that the bottom end is wider than the top end and the apex is provided with a plurality of convection holes. Moreover, the present invention provides another high-power LED lighting fixture, which differs from the above-mentioned lamp in that the arrangement of the fins at the top end of the heat sink body is changed into a plurality of fins arranged in a flat plate shape. 4 M357566 The present invention further proposes a heat dissipation structure for a high-power LED lighting fixture, which comprises a heat sink, which comprises a body having a bottom surface and a top surface, and a bottom surface and a substrate (10). 5 top surface a is further provided with a plurality of first heat dissipating fins radially radiated from the center, and two adjacent fins are disposed between the first fins; and a gas guiding cover is provided The cover is disposed on the heat sink. The shape of the airflow guide cover is that the bottom end is wider than the top end, and the top end is provided with a plurality of convection air holes. This creation still provides a heat dissipation structure for another kind of high-definition LED phototherapy equipment. The difference in the heat dissipation structure of the above is that the charm H body top distribution ship # _ column is green and the heat dissipation fins arranged by the flat plate. In order to enable your review board to have a better understanding of the structural characteristics and the functions achieved by this reviewer, I would like to read the details of the work and the detailed mosquitoes, as explained below: [Embodiment] The high-definition LED of this creation The temperature difference constructed by the secret heat dissipation structure of the illuminating and gambling structure forms the driving force for propelling the air flow. Based on the heat dissipation structure of the principle, the overall lighting fixture will not need the assistance of the cooling fan to effectively Heat dissipation to achieve high power output luminous flux. 4- and FIG. 1 to FIG. 3 are schematic perspective views, perspective views, and component exploded views of the first embodiment of the high-power lighting fixture of the present invention. As shown, the high power LED lamp 1G includes an LED substrate 12 provided with a plurality of (10) wafers (4) - a heat sink n 16 ' comprising a body 18 disposed on the substrate (10), a top surface of the body 18 A plurality of first heat dissipating tabs 2 are arranged radially outwardly from the center, and two adjacent heat dissipating fins 20 are disposed between the second heat dissipating fins 22, and the second heat dissipating strips 22 are adjacent to each other. 5 M357566 is provided with a heat dissipation gap 23 between the first heat dissipation fins 20; and an air flow guiding cover 24 which can be used as a light shielding cover of the LED lighting device to concentrate light, which is disposed on the heat sink 16 and the LED substrate 12 Above, the airflow guiding cover 24 is shaped such that the bottom end is wider than the top end and the top end is provided with a plurality of convection holes 26 to form a power for pushing the air flow. As shown, the power LED lighting fixture of the present invention further includes a positioning shaft 28 that passes through the heat sink μ center and the airflow guiding cover 24, and the bottom end thereof is connected to the LED substrate 12 for the lamp. Installed on the wall (not shown) and the relevant line setting for supplying power to the LE1D chip is %. Further, one end face of the first heat radiation fin 20 may be disposed adjacent to the positioning shaft 28 as shown. The radiation-shaped first heat-dissipating fins 20 and the second heat-dissipating fins 22 of the heat sink 16 of the present invention are mainly designed to dissipate the heat energy generated by the LH wafer 14 and simultaneously heat the air to form a temperature difference, thereby promoting the air flow. Power. Referring to FIG. 4 together, as the LED chip 14 emits heat and generates heat transfer to the heat sink 16, the body 18 of the heat sink 16 forms a temperature difference when the temperature rises, and the first heat sink 2 〇 and the second heat sink fin The position where the sheet 22 is in contact with the air also causes a temperature difference, so that the hot air starts to flow upward, and with the tapered curve of the fluorine flow guide cover 24, the hot air is gradually compressed, so the moving speed is gradually increased. The air hole 26 is rapidly moved outward to form a pressure difference, and the cold air is naturally forced to be sucked by the slit 27 (or the air inlet hole) between the air flow guiding cover 24 and the LED substrate 12 and the radiator 16 to push the air. flow. Furthermore, please refer to Fig. 5 'In order to make the temperature difference finer, (10) to push the air flow, the LED chips 14 can be arranged in a dense manner, for example, the mining center is dense and the outside is loose. The way to form a temperature gradient difference, so that the temperature automatically forms a temperature difference, automatically 6 M357566 to form air flow. Please refer to Fig. 6, which is an exploded view of the second embodiment of the high power LED lighting fixture of the present invention. As shown in the figure, this embodiment differs from the above-described first sentence embodiment in that the heat dissipation fins 32 of the heat sink 30 are changed in a flat plate arrangement. In summary, this creation reveals a high-power LK) lighting fixture and its heat dissipation structure, which utilizes the temperature difference formed by the heat sink body when the temperature rises, and the temperature difference between the hot fin and the air: The hot air flows upwards' with the tapered curve of the airflow guide cover, compresses the hot air, accelerates the hot air to move outward, and creates a pressure difference, forcing the cold air to naturally inhale, so that no additional device, such as a fan, can be used. The air flow is pushed to quickly dissipate the heat generated by the LED chip due to illuminance to achieve a high power output luminous flux. The above descriptions are only for the preferred embodiment of the present invention and are not intended to be used in the practice of mosquito creation. Therefore, any changes or modifications to the characteristics and spirits described in the scope of this application shall be included in the scope of the patent application for this creation. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a first embodiment of the LED lighting fixture of the present invention. Figure 2 is a perspective view of a first embodiment of a power LED lighting fixture of the present invention. Figure 3 is a high-resolution LED photo tableware (4) - a specific decommissioning component. Fig. 4 is a schematic view showing the implementation of the first embodiment of the power LED lighting fixture of the present invention. Figure 5 is a schematic diagram of a lake crystal in a densely packed manner. Figure 6 is an exploded view of the second embodiment of the power LED lighting fixture of the present invention. 7 M357566 [Key component symbol description] 10 LED lighting fixtures 12 LE: D base plate 14 LED chip 16 heat sink 18 body

20 first heat sink fin 22 second heat sink fin 23 heat dissipation gap 24 air flow guide cover 26 air hole 27 slit 28 positioning shaft 30 heat sink φφ 32 heat sink fin 8

Claims (1)

M357566 VI. Patent Application Range: 1. A high-power LED lighting fixture comprising: an LED substrate having a plurality of LE:D wafers disposed thereon; a heat sink disposed on the LED substrate, the heat sink The top surface is provided with a plurality of first heat dissipation fins radially radiated from the center, and a second heat dissipation fin is disposed between the two adjacent first heat dissipation fins; An air flow guiding cover is disposed on the heat sink. The air guiding cover is shaped to have a bottom end wider than the top end and a plurality of convection air holes are disposed at the top end. 2. The high power LED lighting fixture of claim 1, wherein the material of the heat sink is inscription. 3. The lighting device of the high god LE]) as described in the scope of the patent application, wherein the air guiding cover is made of aluminum. 4. The high power lighting fixture of claim w, wherein the wafer is arranged in a dense manner. ** 5. The high power LED lighting fixture of claim 4, wherein the LED wafer is arranged in a denser manner and the outside is looser. 6. The high-resolution LED lighting fixture of the invention of claim 2, wherein the airflow guiding cover is further disposed on the LED substrate to serve as a lampshade for the LED lighting fixture to concentrate the light. 7. The high-power LED lighting fixture of the first aspect of the invention, further comprising: a positioning shaft having one end passing through the center of the heat sink and the airflow guiding cover, and the other end connected to the led The substrate 'and one end face of the first heat sinking piece is adjacent to the positioning axis. 8. The high-power (four) lighting fixture according to item i of the application scope, wherein the second dispersion _ 9 M357566 sheet and the adjacent first heat-dissipating fin are provided with a heat dissipation gap. 9. A high power LE:D lighting fixture comprising: an LED substrate having a plurality of LE:D wafers disposed thereon; - a heat dissipation 1 § ' disposed above the LED substrate, the top of the heat sink The heat-dissipating fins arranged by the flat plate; and: - New guide material 'the county is set on the heat dissipation H, the Wei material is mixed with the bottom end wider than the top end, and the top is provided with several convective air holes. The high-power LED lighting fixture of claim 9, wherein the heat sink is made of aluminum. U. The high power LED lighting fixture of claim 9, wherein the air guiding cover is made of aluminum. 12. The high power lighting fixture of claim 9, wherein the wafer is arranged in a dense manner. 13. The high power lighting fixture of claim 12, wherein the wafer is arranged in a denser manner and the outer portion is looser. 14. The high power _ luminaire as described in claim 9 wherein the air illuminating hood is placed on the LED substrate as a lampshade for the LED illuminator.丨5·—The heat dissipation structure of a high-power LED lighting fixture, comprising: a recorder, a 匕-containing body, having a bottom surface and a top surface, the bottom surface and a (four) substrate, σ σ » The top surface is slanted with a plurality of first heat-dissipating fins radiating radially outward from the center, and two adjacent first-scattering sheets are provided with a second fine strip; and an air guiding cover The cover is recognized on the 5 liter heat sink. The shape of the air flow guide is that the bottom end M357566 is wider than the top end, and the apex is provided with several convection holes. The heat dissipation structure of the lighting fixture, wherein the high-power LED according to claim 15 is made of aluminum. The heat dissipation structure of the lamp, wherein the high-power LED according to claim 15 is made of aluminum. The heat dissipation structure of the lighting fixture, wherein The LED chip is arranged in a denser manner and a looser outside. 18. The high-power LED according to claim 15 is provided with a plurality of LED chips on the LED substrate, and the piano IFD 20. The heat dissipation structure of the high-power LED lighting device according to claim 15 of the patent application scope, The inspection guide cover is further disposed on the LED substrate to serve as a lamp cover for the LED photo to concentrate the light. The heat dissipation structure of the high-power LED lighting fixture of claim 15, wherein the first heat dissipation sheet and the adjacent first heat dissipation fin are provided with a heat dissipation gap. 22. A scatter-reducing structure for a luminescent LED luminaire, comprising: a heat sink comprising a body having a bottom surface and a top surface, the bottom surface being coupled to an LED substrate, the top surface being provided with a number a heat sink fin arranged in a flat shape; and an air flow guide cover disposed on the heat sink, the air flow guide cover is shaped to have a bottom end wider than the top end and the top end is provided with a plurality of convection air holes. 23. The heat dissipation structure of the high power LE:D lighting fixture of claim 22, wherein the heat sink is made of aluminum. 24. The heat dissipation structure of the high power le:D lighting fixture according to claim 22, wherein the material of the airflow guiding cover is Mlu. 25. The heat dissipation structure of a high power lighting fixture according to claim 22, wherein the LED substrate is provided with a plurality of (10) wafers, and the wafers are arranged in a dense manner. 26. Knowing the heat dissipation structure of the high power and lighting fixture described in claim 25 of the patent field, wherein the LED chip is arranged in a denser manner and the outside is looser. The heat dissipation structure of the high resolution LED lighting fixture described in claim 22 of the patent of the Japanese Patent No. 4, wherein the air conduction guide is further disposed on the substrate as a lampshade of the (10) lighting fixture to concentrate the light. 12 M357566 • IV. Designated representative drawings: (1) The representative representative figure of this case is: (3) Figure (2) The symbol of the symbol of this representative figure is simple: 12 LED substrate 16 heat sink 18 body 20 first heat sink fins 22 second heat sink fins 23 heat dissipation gap 24 air flow guide cover 26 air holes 28 positioning axis