TW201005214A - LED (light emitting diode) illumination device capable of rapidly storing energy and dissipating heat - Google Patents

Abstract

This invention refers to a LED (light emitting diode) illumination device capable of rapidly storing energy and dissipating heat comprising a LED lamp; a metal base connected with the LED lamp and receiving heat generated from the LED lamp; a thermal conduction device having a first portion and a second portion, wherein the first portion is connected with the metal base, and heat can be transmitted from the first portion to the second portion; a thermoelectric energy generator connected with the second portion of the thermal conduction device for receiving heat and converting heat into electricity; a fast charging/discharging energy storage device electrically connected to the thermoelectric energy generator for storing electric energy generated by the thermoelectric energy generator and releasing electric energy. Accordingly, waste heat generated by the LED is not only dissipated, but waste heat is also converted into electricity by the affecting of the thermoelectric energy generator. Electricity then is rapidly stored by the operation of the fast charging/discharging energy storage device so that the purpose of the LED illumination device capable of rapidly storing energy and dissipating heat can be achieved.

Description

201005214 IX. Description of the invention: [Technical field to which the invention pertains] Section. Side-to-surface (four), _ is the waste heat generated by the LED ί ί 明 ' ' ' ' ' ' 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由 经由r electric energy produces 11 gamma feeds into electrical energy, 1 ^ the electrical energy can also be passed through the 2 charge/discharge device gamma ray energy age, [prior art] 〇❹; The waste heat is directly dispersed. Taking the high-power xenon lamp as an example, the noise generated by it will affect the life of the light source and the luminous rate. Therefore, the heat dissipation efficiency is an extremely important design issue for the LED lamp.第Refer to FIG. 1 'A conventional heat dissipation form is a configuration in which a metal lamp 12' is disposed in an LED lamp and a heat sink holder 14 is coupled to the metal base LED LED 'LED lamp 10 The waste heat can be conducted to the heat-dissipating recording sheet and then the waste heat is dissipated into the air by the heat-dissipating spring holder 14. Therefore, the speed of the lamp 10 and/or the heat dissipation effect of the heat-dissipating cassette holder 14 to dissipate the waste heat to the second emulsion determines the heat dissipation efficiency of the entire LED lamp 10.

Copying from 1^ Patent No. M306029 reveals that the heat transfer element (heat pipe) is used to quickly conduct the LED to the heat dissipating component (heat dissipation film), and the appropriate heat τ meter makes the waste heat on the remaining component (scattered film) Shout to improve the heat dissipation efficiency of the led light. W—if f, such as No. 95889, reveals that the side heat pipe will pass the waste heat of the led lamp [, wing #, weaving - wind fan cooling wing > 5 blowing wire heat energy quickly dissipated] to achieve the effect of heat dissipation. j. Patent J9G53 discloses that the waste heat of the LED lamp is directly transmitted to the heat dissipating member of the heat pipe end or the heat dissipating heat is first transmitted to the heat dissipating fin and then guided to the heat pipe by the heat pipe, thereby achieving the purpose of heat dissipation. * 5 201005214 US Patent No. 7329G3G discloses that the Xiang-heat pipe guides the waste lamp of the LED lamp to the heat sink at one end of the heat pipe to achieve heat dissipation. In the previous patents, all the patents used heat pipes to guide the heat-heat-dissipating pieces, and then use natural convection or wind force to dissipate the waste rails on the heat-dissipating fins. This type of heat dissipation is superior to traditional heat sinking methods, but there is no further guidance on how to reuse these waste heat. Taiwan Patent No. 453,430 discloses the use of a heat pipe to conduct waste heat, and a thermoelectric cooler in combination with a heat pipe for heat exchange. Although this method can improve the heat dissipation effect, it requires external power to drive the thermoelectric cooler. U.S. Patent No. 6,880,346 discloses the use of a heat pipe to conduct waste heat generated by a cpu to a thermoelectric cooler (TEC), which is then subjected to heat exchange using a thermoelectric cooler and a fan. This is effective, but additional power is required to drive the thermoelectric cooler. Although the above patents use thermoelectric coolers to improve the heat dissipation effect, thermoelectric coolers require external power, so it is obviously more energy-consuming. U.S. Patent No. 2007120138 discloses an LED chip bottom configuration of a LED lamp - a thermoelectric cooler, and a heatsink is disposed on the bottom surface of the LED lamp.如此 Such a thermoelectric cooler is used to conduct waste heat generated by the LED chip, so that the LED wafer is not overheated, and then the heat sink is used to dissipate the waste heat. U.S. Patent No. 2006198149 discloses that the 1^:0 lamp is arranged in a plurality of stacked arrangements, and the thermoelectric refrigeration 11' is passed by the waste heat ship generated by the LED lamp to each of the thermoelectric coolers for heat dissipation. U.S. Patent No. 2,060,028, 827 discloses an optoelectronic device, such as an LED, with a thermoelectric cooler for heat exchange purposes. The thermoelectric elements produced in the above patents are thermoelectric refrigeration^, which is a secret component in addition to being a heat-crossing element. Since thermoelectric coolers require additional power to drive, they have the disadvantage of consuming more energy. 6 201005214 * In addition, the pre-existing patents are all about how to dissipate waste heat. For the month b, recycling is completely unhelpful; currently the most common energy conversion and utilization is mostly solar energy into electric energy', for example, Taiwan patent M326704, Taiwan Patent No. 200713745 and U.S. Patent No. 7,259,692 disclose the conversion and utilization of energy by using a solar cell or a solar panel with an ultracapacitor. SUMMARY OF THE INVENTION The main object of the present invention is to provide a LED photo device that combines rapid energy storage and heat dissipation, and has the waste heat generated by the LED lamp being quickly dissipated.

Thereby, the LED lamp can have better luminous efficiency and longer service life. Another object of the present invention is to provide an LED lighting device that combines rapid energy storage and heat dissipation, which has the waste heat generated by the paste LED, performs thermoelectric energy conversion, and saves and reproduces the job (4). Achieve energy efficiency and energy reuse. According to the object and effect of the present invention, the LED lighting device comprises an LED lamp, a metal base is used to combine the LED lamp and receive thermal energy emitted by the lamp; a heat conducting device, such as a heat pipe, has a first a first part and a second part, wherein the first part is coupled to the metal base and passed to the second part; a thermoelectric energy generator is coupled with the heat transfer=leaf two for receiving thermal energy for thermoelectric energy conversion; A fast charging/discharging energy storage device electrically connecting the hybrid energy source to generate H, the ribs storing the electric energy generated by the heat source generator and releasing the electric energy. =- Come, the LED lighting device can use the heat conduction device to dissipate the waste; and the dissipated waste heat is converted into energy by the function of the thermoelectric recording generator, and the rapid energy storage is performed by the fast charging/discharging energy storage device. In turn, the use of renewable energy is achieved. ‘ The following is a detailed description of the example according to the present invention, the purpose, the function and the structure _, and the preferred embodiment 7 201005214. [Embodiment] Referring to Fig. 2, an LED lamp 20 having an LED chip 22 and opposed to a lens 24. The LED lamp 20 has a high power illuminating output sufficient for use as illumination. A metal base 26 is disposed on the bottom surface of the led lamp 20. The waste heat generated by the LED lamp 20 can be conducted to the metal base 26. Referring to FIG. 3, a heat conduction device 30, such as a heat pipe, has a first portion 32 and a second portion 34, and two ends of a conductive portion 36 are respectively connected to the first portion 32 and the second portion 34. between. Heat can be conducted by the first portion 32 to the second portion 34 via the conductive portion 36. Referring to Fig. 4, a thermoelectric energy generator 4 is composed of a plurality of n-type thermoelectric materials and P-type thermoelectric materials to form a thermoelectric wafer 41. The thermoelectric wafer 41 has a hot end 42 and a cold end 43 on opposite sides thereof. A heat absorbing sheet 44 is bonded to the hot end 42 of the thermoelectric wafer 41. Further, the heat absorbing sheet 44 has a heat retaining material 46 on the surface of a metal sheet 45. The medium metal piece 45 is a sheet-shaped copper piece or an aluminum piece, and the heat retaining material 46 is a black photoresist or carbon black. Thus, the heat absorbing sheet 44 has an effect of quickly absorbing and retaining heat. A heat sink 47 is attached to the cold end 43 of the thermoelectric wafer 41. The heat sink 47 is formed by bonding a side of a metal piece 48 to a sheet-like flexible heat sink 49. • The flexible heat sink 49 is a metal foil 492 sandwiched between the two insulating films 494 and 496. Thereby, the heat sink 47 can quickly conduct and dissipate heat, so that the cold end 43 of the thermoelectric wafer 41 is maintained at a low temperature. However, the above-described heat sink 49 structure is merely illustrative of the present embodiment' and is not limited thereto. In the case where the space size permits, the heat sink 49 may also be a heat sink fin' or a fan, or a combination of a fan and a heat sink fin. According to the structural configuration of the disclosed thermoelectric energy generator 40, it is expected that the endothermic 8 201005214 sheet 44 can absorb the thermal energy of a heat source to maintain the thermal energy at the hot end 42 of the thermoelectric wafer 41 so that the hot end 42 can be maintained at a high temperature. And the temperature is not quickly conducted to the cold end 43; the heat sink 47 can quickly dissipate the heat of the cold end 43 to form a low temperature state; since the thermoelectric wafer 41 has a large temperature difference between the hot end 42 and the cold end 43 Therefore, the thermoelectric wafer 41 has high thermoelectric conversion efficiency. Referring to Figure 5, the aforementioned LED lamp 20, heat transfer device 30, and thermoelectric energy generator 40 are combined with a fast charge/discharge energy storage device 5 to form a lighting device. The first portion 32 of the heat conduction device 30 is coupled to the metal base 26; the second portion 34 of the heat conduction device 30 is combined with the heat absorption sheet 44 of the thermoelectric energy generator 4; the fast charge/discharge energy storage device 50 is electrically connected to the thermoelectric wafer by wires. 41\ Further, the 'fast charge/discharge energy storage device 50 has a fast energy storage interface (supercapacitor) 52, and an energy storage device, such as a rechargeable battery. The waste heat generated by the LED lamp 20 can be conducted to the first portion 32 of the heat transfer device 30 via the metal base 26. Then, the heat is quickly transmitted from the first portion 32 to the second portion 34. Thus, the LED lamp 20 can achieve rapid heat conduction and heat dissipation, so that the LED lamp 20 can have higher luminous efficiency and maintain Long service life. When the second portion 34 of the heat conduction device 30 obtains heat and the temperature rises, the heat absorbing sheet 44 of the thermoelectric energy generator 40 quickly extracts heat and activates the function of the thermoelectric energy conversion; the amount of electricity generated by the thermoelectric energy generator 40 is transmitted to The ultracapacitor 52 achieves the effect of rapidly accumulating electrical energy, and then the energy storage device 54 is quickly charged and stored with this electrical energy. Therefore, the waste heat that should be dissipated in the atmosphere can be used together with the rapid charge/discharge energy storage device 50 to form another renewable energy source, so the present invention has energy conservation and energy. The effect of recycling. The structural configuration disclosed in the present invention is actually compared with a conventional product, which can obtain the following comparison results: 9 201005214 Unused material I map port 'takes a commercially available LED lighting device with a power of 60 watts and LED Or the device disclosed in the present invention, the junction temperature (referring to the temperature of the metal base of the ancient metal) will be clearly and obviously with the time of lighting, and the junction temperature is as high as 5 minutes after the middle of the rise. c. Surface mounted Ξ ''Ground' take--the commercial power of 60 watts of LED photo time change. After 4 hours, it is joined ^ 3 C. Lai, so that the type can be scattered Effectively

And with if 'retake--the device with the power of (9) watts of LED lighting device installed in the road", after 3 minutes of unloading fast charge / discharge energy storage time, the junction temperature can be stabilized 2 Make the off-type scattered, so that the wealth can be better to achieve better heat dissipation. Figure 9 - Take the 6G watt LED lamp with the power of the hair set / device 'The towel is not used in the fast charge / discharge energy storage device ΐϋΪΪ after 30 minutes of lighting time 'produced by the thermoelectric energy generator ^ output voltage can be stabilized at U volts, and the output current can be stabilized in the illusion, obviously the output voltage Or the output current has begun to have practical value. Please refer to the 10th, the - commercially available 6 watt LED lights with Korean heat dissipation, and the lion's bribe _ device, and a 24-hour outdoor actual point test, as shown in the figure The LED illumination = the junction temperature of the device is lower than that of the LED illumination device that makes the heat dissipation of the material >1 and the fine hair _ LED lighting device has a quick charge and can have an output, which is a _ shape The heat sink's (10) lighting fixture 201005214 does not have the function. The invention discloses that the heat energy derived from the heat pipe can be quickly obtained by using the heat pipe to be more compatible with the reason - the renewable energy can be reused.

And the preferred embodiment and the design drawings, except that the preferred embodiment has the right to use the technical means of the present invention, or the scope of the patent application described below. The application is omitted from the specification of the present invention. [Fig. 1 is a schematic diagram showing the combined structure of a conventional LED lamp and a heat sink fin. Figure 2 is a schematic view showing the structure of the LED lamp of the present invention. Figure 3 is a schematic view showing the structure of the heat transfer device of the present invention. Figure 4 is a schematic view showing the structure of the thermoelectric energy generator of the present invention. Fig. 5 is a schematic view showing the combined structure of the LED lamp, the heat conduction device and the thermoelectric energy generator of the present invention and a fast charge/discharge energy storage device. Fig. 6 is a view showing a case where a commercially available power of 60 watts of LED lamps is changed without using a fin type fin or the junction temperature of the apparatus of the present invention varies with lighting time. Figure 7 shows the case where the LED lamp with a commercial power of 60 watts is used in conjunction with the fin-type heat sink to change the temperature with the lighting time. ... Figure 8 is a commercially available LED lamp with a power of 60 watts in combination with the 11 201005214 heat transfer device and the thermoelectric energy generator disclosed in the present invention, and the junction temperature of the super-capacitor fast charge/discharge energy storage device. The case of the ninth figure is a commercially available power of 60 watts of LED lamp with the device disclosed in the present invention, and the output produced by the thermoelectric energy generator is not used in the case of a supercapacitor fast charge/discharge energy storage device. The LED lamp with the voltage and the output current with the lapse time of 60 watts is used in the device of the invention disclosed in the present invention, and the junction temperature is performed outdoors for 24 hours = the device disclosed by the invention is more Component symbol description] 10 LED lamp 12 metal base 14 heat sink fin holder 20 LED lamp 22 LED chip 24 lens 26 metal base 3 〇 heat conduction device 32 first portion 34 second portion 36 conduction portion 40 thermoelectric energy generator 41 thermoelectric Wafer 42 hot end 43 cold end 44 heat sink 45 metal sheet 46 heat retaining material 47 heat sink 48 metal sheet 49 heat sink 492 metal sheet ❷ 201005214 494 insulation film 496 insulation film 50 fast charge / discharge energy storage device 52 super capacitor 54 storage Energy device

13

Claims (1)

201005214 X. The scope of application for patents: 1.------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Connected to the Jianna _ generator with ... the power generated by the source generator and the release of electrical energy. (4) It is difficult to dispel the material and heat dissipation, and the monthly device, wherein the guide is placed on the health-heat pipe. In the first item (4), the thermoelectric energy generator has a —_ wafer, and the hot end and the side of the threshold are respectively combined with the hot end and the cold end. The second part of the special guiding device, a heat sink is combined with the cold end. The third part of the patent scope has both the fast and the hot end of heat dissipation*. And a heat-dissipating material having a heat-retaining substance combined with the rapid energy storage and heat dissipation described in item 4 of the (5) patent scope, wherein the heat retaining material is black light Τρηΐϋ ΐϋ ΐϋ 专利 专利 专利 专利 专利 专利 专利 专利 专利 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置 装置As described in item 6 of the patent application, the combination of rapid energy storage and heat dissipation 201005214 3=_set' where the softness is - gold_ is sandwiched between two insulations 8. LED special 1st contribution and frequency slightly With the surface of the heat dissipation and the storage of the 镰 岐 岐 镰 镰 置 包含 包含 包含 快速 快速 快速 快速 快速 快速 快速 快速 快速 LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED LED An ultracapacitor ❹ 1 between the nutrient and the L chick and the heat-dissipating lamp and the first portion of the heat-conducting device, the heat energy for the connection is transmitted to the first portion.